Loading library at library/u95av2 This library has 11877 probes. ageing_brain_up has 277 probes. Creating the output file for /Users/newmanj/Sites/L2L/publication/sampledata/ageingbrain/ageing_brain_up_gobiol_results/ageing_brain_up. The list neurotransmitter transport has 35 unique genes, which correspond to 28 probes in the library. 0 of 28 match ageing_brain_up, for a p-value of 1 The list nucleobase, nucleoside, nucleotide and nucleic acid transport has 34 unique genes, which correspond to 34 probes in the library. 1 of 34 match ageing_brain_up, for a p-value of 0.551697047662576 The list nucleic acid transport has 28 unique genes, which correspond to 29 probes in the library. 1 of 29 match ageing_brain_up, for a p-value of 0.495558196531514 The list RNA transport has 28 unique genes, which correspond to 29 probes in the library. 1 of 29 match ageing_brain_up, for a p-value of 0.495558196531514 The list mRNA transport has 24 unique genes, which correspond to 26 probes in the library. 1 of 26 match ageing_brain_up, for a p-value of 0.458554495587959 The list organic acid transport has 48 unique genes, which correspond to 48 probes in the library. 1 of 48 match ageing_brain_up, for a p-value of 0.677818142629143 The list carboxylic acid transport has 48 unique genes, which correspond to 48 probes in the library. 1 of 48 match ageing_brain_up, for a p-value of 0.677818142629143 The list peptide transport has 8 unique genes, which correspond to 9 probes in the library. 0 of 9 match ageing_brain_up, for a p-value of 1 The list oligopeptide transport has 5 unique genes, which correspond to 7 probes in the library. 0 of 7 match ageing_brain_up, for a p-value of 1 The list protein transport has 378 unique genes, which correspond to 354 probes in the library. 7 of 354 match ageing_brain_up, for a p-value of 0.719859764113887 The list regulation of transport has 22 unique genes, which correspond to 22 probes in the library. 1 of 22 match ageing_brain_up, for a p-value of 0.404959770197527 The list negative regulation of transport has 5 unique genes, which correspond to 5 probes in the library. 1 of 5 match ageing_brain_up, for a p-value of 0.111289054049562 The list positive regulation of transport has 8 unique genes, which correspond to 6 probes in the library. 0 of 6 match ageing_brain_up, for a p-value of 1 The list regulation of endocytosis has 8 unique genes, which correspond to 7 probes in the library. 0 of 7 match ageing_brain_up, for a p-value of 1 The list secretory pathway has 99 unique genes, which correspond to 99 probes in the library. 2 of 99 match ageing_brain_up, for a p-value of 0.67469193117706 The list exocytosis has 41 unique genes, which correspond to 37 probes in the library. 2 of 37 match ageing_brain_up, for a p-value of 0.213345681728603 The list vesicle docking during exocytosis has 10 unique genes, which correspond to 8 probes in the library. 1 of 8 match ageing_brain_up, for a p-value of 0.172025718776189 The list vesicle targeting has 5 unique genes, which correspond to 4 probes in the library. 1 of 4 match ageing_brain_up, for a p-value of 0.090069078872571 The list vesicle-mediated transport has 247 unique genes, which correspond to 269 probes in the library. 8 of 269 match ageing_brain_up, for a p-value of 0.293169107762107 The list endocytosis has 110 unique genes, which correspond to 119 probes in the library. 5 of 119 match ageing_brain_up, for a p-value of 0.146226899637043 The list phagocytosis has 16 unique genes, which correspond to 17 probes in the library. 0 of 17 match ageing_brain_up, for a p-value of 1 The list receptor mediated endocytosis has 20 unique genes, which correspond to 22 probes in the library. 1 of 22 match ageing_brain_up, for a p-value of 0.404959770197527 The list vesicle docking has 10 unique genes, which correspond to 8 probes in the library. 1 of 8 match ageing_brain_up, for a p-value of 0.172025718776189 The list vitamin/cofactor transport has 10 unique genes, which correspond to 10 probes in the library. 0 of 10 match ageing_brain_up, for a p-value of 1 The list cell motility has 280 unique genes, which correspond to 339 probes in the library. 16 of 339 match ageing_brain_up, for a p-value of 0.00673876704737851 The list cell migration has 52 unique genes, which correspond to 65 probes in the library. 1 of 65 match ageing_brain_up, for a p-value of 0.784281754014951 The list axon guidance has 18 unique genes, which correspond to 28 probes in the library. 1 of 28 match ageing_brain_up, for a p-value of 0.483513512490416 The list immune cell migration has 12 unique genes, which correspond to 14 probes in the library. 0 of 14 match ageing_brain_up, for a p-value of 1 The list immune cell chemotaxis has 12 unique genes, which correspond to 14 probes in the library. 0 of 14 match ageing_brain_up, for a p-value of 1 The list neutrophil chemotaxis has 5 unique genes, which correspond to 5 probes in the library. 0 of 5 match ageing_brain_up, for a p-value of 1 The list regulation of cell migration has 8 unique genes, which correspond to 8 probes in the library. 0 of 8 match ageing_brain_up, for a p-value of 1 The list substrate-bound cell migration has 6 unique genes, which correspond to 7 probes in the library. 0 of 7 match ageing_brain_up, for a p-value of 1 The list muscle contraction has 129 unique genes, which correspond to 143 probes in the library. 10 of 143 match ageing_brain_up, for a p-value of 0.00204424727320221 The list regulation of muscle contraction has 26 unique genes, which correspond to 27 probes in the library. 1 of 27 match ageing_brain_up, for a p-value of 0.471181234493678 The list regulation of smooth muscle contraction has 7 unique genes, which correspond to 5 probes in the library. 0 of 5 match ageing_brain_up, for a p-value of 1 The list regulation of striated muscle contraction has 7 unique genes, which correspond to 7 probes in the library. 0 of 7 match ageing_brain_up, for a p-value of 1 The list smooth muscle contraction has 23 unique genes, which correspond to 20 probes in the library. 0 of 20 match ageing_brain_up, for a p-value of 1 The list striated muscle contraction has 28 unique genes, which correspond to 34 probes in the library. 0 of 34 match ageing_brain_up, for a p-value of 1 The list sperm motility has 7 unique genes, which correspond to 6 probes in the library. 0 of 6 match ageing_brain_up, for a p-value of 1 The list cellular defense response has 76 unique genes, which correspond to 107 probes in the library. 1 of 107 match ageing_brain_up, for a p-value of 0.919928986407077 The list cellular defense response (sensu Vertebrata) has 15 unique genes, which correspond to 23 probes in the library. 0 of 23 match ageing_brain_up, for a p-value of 1 The list cell-mediated immune response has 15 unique genes, which correspond to 23 probes in the library. 0 of 23 match ageing_brain_up, for a p-value of 1 The list T-helper 1 type immune response has 14 unique genes, which correspond to 21 probes in the library. 0 of 21 match ageing_brain_up, for a p-value of 1 The list interferon-gamma biosynthesis has 6 unique genes, which correspond to 9 probes in the library. 0 of 9 match ageing_brain_up, for a p-value of 1 The list regulation of interferon-gamma biosynthesis has 5 unique genes, which correspond to 8 probes in the library. 0 of 8 match ageing_brain_up, for a p-value of 1 The list interleukin-2 biosynthesis has 6 unique genes, which correspond to 9 probes in the library. 0 of 9 match ageing_brain_up, for a p-value of 1 The list regulation of interleukin-2 biosynthesis has 5 unique genes, which correspond to 8 probes in the library. 0 of 8 match ageing_brain_up, for a p-value of 1 The list extracellular matrix organization and biogenesis has 33 unique genes, which correspond to 32 probes in the library. 1 of 32 match ageing_brain_up, for a p-value of 0.530032974670534 The list synapse organization and biogenesis has 22 unique genes, which correspond to 17 probes in the library. 1 of 17 match ageing_brain_up, for a p-value of 0.330445706206417 The list synaptogenesis has 22 unique genes, which correspond to 17 probes in the library. 1 of 17 match ageing_brain_up, for a p-value of 0.330445706206417 The list regulation of synaptic plasticity has 5 unique genes, which correspond to 7 probes in the library. 1 of 7 match ageing_brain_up, for a p-value of 0.152255968246149 The list membrane fusion has 19 unique genes, which correspond to 24 probes in the library. 2 of 24 match ageing_brain_up, for a p-value of 0.107117759637591 The list regulation of cellular process has 626 unique genes, which correspond to 776 probes in the library. 21 of 776 match ageing_brain_up, for a p-value of 0.27520966008184 The list development has 1542 unique genes, which correspond to 1630 probes in the library. 44 of 1630 match ageing_brain_up, for a p-value of 0.182414239062818 The list aging has 6 unique genes, which correspond to 4 probes in the library. 0 of 4 match ageing_brain_up, for a p-value of 1 The list embryonic development has 60 unique genes, which correspond to 57 probes in the library. 1 of 57 match ageing_brain_up, for a p-value of 0.739462624773561 The list embryonic development (sensu Animalia) has 24 unique genes, which correspond to 25 probes in the library. 1 of 25 match ageing_brain_up, for a p-value of 0.445626264855941 The list embryonic development (sensu Vertebrata) has 14 unique genes, which correspond to 13 probes in the library. 1 of 13 match ageing_brain_up, for a p-value of 0.264170193310952 The list embryonic development (sensu Mammalia) has 14 unique genes, which correspond to 13 probes in the library. 1 of 13 match ageing_brain_up, for a p-value of 0.264170193310952 The list eye morphogenesis (sensu Mammalia) has 6 unique genes, which correspond to 5 probes in the library. 1 of 5 match ageing_brain_up, for a p-value of 0.111289054049562 The list gastrulation has 9 unique genes, which correspond to 11 probes in the library. 0 of 11 match ageing_brain_up, for a p-value of 1 The list formation of primary germ layer has 7 unique genes, which correspond to 9 probes in the library. 0 of 9 match ageing_brain_up, for a p-value of 1 The list mesoderm formation has 7 unique genes, which correspond to 9 probes in the library. 0 of 9 match ageing_brain_up, for a p-value of 1 The list embryonic morphogenesis has 13 unique genes, which correspond to 10 probes in the library. 1 of 10 match ageing_brain_up, for a p-value of 0.210192854547878 The list embryonic appendage morphogenesis has 5 unique genes, which correspond to 4 probes in the library. 0 of 4 match ageing_brain_up, for a p-value of 1 The list embryonic limb morphogenesis has 5 unique genes, which correspond to 4 probes in the library. 0 of 4 match ageing_brain_up, for a p-value of 1 The list embryonic eye morphogenesis has 6 unique genes, which correspond to 5 probes in the library. 1 of 5 match ageing_brain_up, for a p-value of 0.111289054049562 The list embryonic pattern specification has 5 unique genes, which correspond to 5 probes in the library. 0 of 5 match ageing_brain_up, for a p-value of 1 The list growth has 112 unique genes, which correspond to 133 probes in the library. 6 of 133 match ageing_brain_up, for a p-value of 0.0920895565548296 The list regulation of growth has 71 unique genes, which correspond to 85 probes in the library. 3 of 85 match ageing_brain_up, for a p-value of 0.318445804090177 The list negative regulation of growth has 18 unique genes, which correspond to 21 probes in the library. 0 of 21 match ageing_brain_up, for a p-value of 1 The list positive regulation of growth has 5 unique genes, which correspond to 4 probes in the library. 0 of 4 match ageing_brain_up, for a p-value of 1 The list mesoderm development has 30 unique genes, which correspond to 38 probes in the library. 0 of 38 match ageing_brain_up, for a p-value of 1 The list mesoderm morphogenesis has 7 unique genes, which correspond to 9 probes in the library. 0 of 9 match ageing_brain_up, for a p-value of 1 The list morphogenesis has 1012 unique genes, which correspond to 1143 probes in the library. 34 of 1143 match ageing_brain_up, for a p-value of 0.0932954477724104 The list appendage morphogenesis has 5 unique genes, which correspond to 4 probes in the library. 0 of 4 match ageing_brain_up, for a p-value of 1 The list limb morphogenesis has 5 unique genes, which correspond to 4 probes in the library. 0 of 4 match ageing_brain_up, for a p-value of 1 The list organogenesis has 838 unique genes, which correspond to 945 probes in the library. 29 of 945 match ageing_brain_up, for a p-value of 0.0859201700390175 The list blood vessel development has 38 unique genes, which correspond to 52 probes in the library. 4 of 52 match ageing_brain_up, for a p-value of 0.0330165663026644 The list angiogenesis has 38 unique genes, which correspond to 52 probes in the library. 4 of 52 match ageing_brain_up, for a p-value of 0.0330165663026644 The list regulation of angiogenesis has 10 unique genes, which correspond to 11 probes in the library. 0 of 11 match ageing_brain_up, for a p-value of 1 The list negative regulation of angiogenesis has 6 unique genes, which correspond to 10 probes in the library. 0 of 10 match ageing_brain_up, for a p-value of 1 The list eye morphogenesis has 7 unique genes, which correspond to 7 probes in the library. 1 of 7 match ageing_brain_up, for a p-value of 0.152255968246149 The list eye morphogenesis (sensu Vertebrata) has 6 unique genes, which correspond to 5 probes in the library. 1 of 5 match ageing_brain_up, for a p-value of 0.111289054049562 The list gonad development has 20 unique genes, which correspond to 19 probes in the library. 1 of 19 match ageing_brain_up, for a p-value of 0.3613101547977 The list female gonad development has 5 unique genes, which correspond to 8 probes in the library. 1 of 8 match ageing_brain_up, for a p-value of 0.172025718776189 The list male gonad development has 11 unique genes, which correspond to 9 probes in the library. 0 of 9 match ageing_brain_up, for a p-value of 1 The list heart development has 19 unique genes, which correspond to 22 probes in the library. 2 of 22 match ageing_brain_up, for a p-value of 0.0923854093306829 The list hemopoiesis has 54 unique genes, which correspond to 64 probes in the library. 2 of 64 match ageing_brain_up, for a p-value of 0.441611322763133 The list histogenesis has 104 unique genes, which correspond to 121 probes in the library. 0 of 121 match ageing_brain_up, for a p-value of 1 The list ectoderm development has 72 unique genes, which correspond to 81 probes in the library. 0 of 81 match ageing_brain_up, for a p-value of 1 The list epidermis development has 62 unique genes, which correspond to 68 probes in the library. 0 of 68 match ageing_brain_up, for a p-value of 1 The list muscle development has 122 unique genes, which correspond to 151 probes in the library. 6 of 151 match ageing_brain_up, for a p-value of 0.142883076106415 The list myogenesis has 19 unique genes, which correspond to 23 probes in the library. 0 of 23 match ageing_brain_up, for a p-value of 1 The list regulation of myogenesis has 6 unique genes, which correspond to 7 probes in the library. 0 of 7 match ageing_brain_up, for a p-value of 1 The list neurogenesis has 362 unique genes, which correspond to 373 probes in the library. 16 of 373 match ageing_brain_up, for a p-value of 0.0155935112697051 The list axonogenesis has 31 unique genes, which correspond to 45 probes in the library. 2 of 45 match ageing_brain_up, for a p-value of 0.282613418777858 The list central nervous system development has 88 unique genes, which correspond to 92 probes in the library. 3 of 92 match ageing_brain_up, for a p-value of 0.363086802940002 The list brain development has 31 unique genes, which correspond to 35 probes in the library. 2 of 35 match ageing_brain_up, for a p-value of 0.196240135294009 The list peripheral nervous system development has 20 unique genes, which correspond to 15 probes in the library. 1 of 15 match ageing_brain_up, for a p-value of 0.298089744646829 The list sensory organ development has 9 unique genes, which correspond to 4 probes in the library. 0 of 4 match ageing_brain_up, for a p-value of 1 The list regulation of neurogenesis has 7 unique genes, which correspond to 10 probes in the library. 1 of 10 match ageing_brain_up, for a p-value of 0.210192854547878 The list odontogenesis has 8 unique genes, which correspond to 5 probes in the library. 0 of 5 match ageing_brain_up, for a p-value of 1 The list skeletal development has 117 unique genes, which correspond to 141 probes in the library. 3 of 141 match ageing_brain_up, for a p-value of 0.64126154599054 The list cartilage condensation has 8 unique genes, which correspond to 9 probes in the library. 0 of 9 match ageing_brain_up, for a p-value of 1 The list ossification has 27 unique genes, which correspond to 25 probes in the library. 0 of 25 match ageing_brain_up, for a p-value of 1 The list bone mineralization has 11 unique genes, which correspond to 9 probes in the library. 0 of 9 match ageing_brain_up, for a p-value of 1 The list regulation of bone mineralization has 6 unique genes, which correspond to 6 probes in the library. 0 of 6 match ageing_brain_up, for a p-value of 1 The list regulation of ossification has 7 unique genes, which correspond to 6 probes in the library. 0 of 6 match ageing_brain_up, for a p-value of 1 The list pattern specification has 24 unique genes, which correspond to 23 probes in the library. 0 of 23 match ageing_brain_up, for a p-value of 1 The list axis specification has 5 unique genes, which correspond to 4 probes in the library. 0 of 4 match ageing_brain_up, for a p-value of 1 The list pigmentation has 25 unique genes, which correspond to 35 probes in the library. 0 of 35 match ageing_brain_up, for a p-value of 1 The list eye pigmentation has 5 unique genes, which correspond to 7 probes in the library. 0 of 7 match ageing_brain_up, for a p-value of 1 The list pigment metabolism has 24 unique genes, which correspond to 35 probes in the library. 0 of 35 match ageing_brain_up, for a p-value of 1 The list heme metabolism has 15 unique genes, which correspond to 18 probes in the library. 0 of 18 match ageing_brain_up, for a p-value of 1 The list heme biosynthesis has 12 unique genes, which correspond to 15 probes in the library. 0 of 15 match ageing_brain_up, for a p-value of 1 The list melanin metabolism has 6 unique genes, which correspond to 13 probes in the library. 0 of 13 match ageing_brain_up, for a p-value of 1 The list melanin biosynthesis has 6 unique genes, which correspond to 13 probes in the library. 0 of 13 match ageing_brain_up, for a p-value of 1 The list melanin biosynthesis from tyrosine has 6 unique genes, which correspond to 13 probes in the library. 0 of 13 match ageing_brain_up, for a p-value of 1 The list pigment biosynthesis has 21 unique genes, which correspond to 32 probes in the library. 0 of 32 match ageing_brain_up, for a p-value of 1 The list post-embryonic development has 5 unique genes, which correspond to 7 probes in the library. 1 of 7 match ageing_brain_up, for a p-value of 0.152255968246149 The list regulation of development has 106 unique genes, which correspond to 122 probes in the library. 3 of 122 match ageing_brain_up, for a p-value of 0.54357231928838 The list regulation of gene expression, epigenetic has 25 unique genes, which correspond to 21 probes in the library. 0 of 21 match ageing_brain_up, for a p-value of 1 The list DNA methylation has 10 unique genes, which correspond to 10 probes in the library. 0 of 10 match ageing_brain_up, for a p-value of 1 The list negative regulation of gene expression, epigenetic has 9 unique genes, which correspond to 2 probes in the library. 0 of 2 match ageing_brain_up, for a p-value of 1 The list reproduction has 149 unique genes, which correspond to 125 probes in the library. 2 of 125 match ageing_brain_up, for a p-value of 0.79135685540529 The list sexual reproduction has 149 unique genes, which correspond to 125 probes in the library. 2 of 125 match ageing_brain_up, for a p-value of 0.79135685540529 The list fertilization has 29 unique genes, which correspond to 23 probes in the library. 0 of 23 match ageing_brain_up, for a p-value of 1 The list fertilization (sensu Animalia) has 29 unique genes, which correspond to 23 probes in the library. 0 of 23 match ageing_brain_up, for a p-value of 1 The list gametogenesis has 125 unique genes, which correspond to 104 probes in the library. 2 of 104 match ageing_brain_up, for a p-value of 0.700634544307106 The list female gamete generation has 16 unique genes, which correspond to 16 probes in the library. 0 of 16 match ageing_brain_up, for a p-value of 1 The list male gamete generation has 106 unique genes, which correspond to 79 probes in the library. 2 of 79 match ageing_brain_up, for a p-value of 0.552535826740263 The list spermatogenesis has 106 unique genes, which correspond to 79 probes in the library. 2 of 79 match ageing_brain_up, for a p-value of 0.552535826740263 The list sex determination has 12 unique genes, which correspond to 9 probes in the library. 0 of 9 match ageing_brain_up, for a p-value of 1 The list sex differentiation has 13 unique genes, which correspond to 15 probes in the library. 0 of 15 match ageing_brain_up, for a p-value of 1 The list obsolete biological process has 250 unique genes, which correspond to 287 probes in the library. 2 of 287 match ageing_brain_up, for a p-value of 0.991007564537568 The list embryogenesis and morphogenesis has 56 unique genes, which correspond to 62 probes in the library. 0 of 62 match ageing_brain_up, for a p-value of 1 The list glutathione conjugation reaction has 10 unique genes, which correspond to 15 probes in the library. 0 of 15 match ageing_brain_up, for a p-value of 1 The list histogenesis and organogenesis has 46 unique genes, which correspond to 63 probes in the library. 0 of 63 match ageing_brain_up, for a p-value of 1 The list invasive growth has 14 unique genes, which correspond to 19 probes in the library. 0 of 19 match ageing_brain_up, for a p-value of 1 The list mitochondrial translocation has 13 unique genes, which correspond to 11 probes in the library. 0 of 11 match ageing_brain_up, for a p-value of 1 The list mRNA splicing has 43 unique genes, which correspond to 53 probes in the library. 0 of 53 match ageing_brain_up, for a p-value of 1 The list peroxidase reaction has 5 unique genes, which correspond to 6 probes in the library. 1 of 6 match ageing_brain_up, for a p-value of 0.132014170401496 The list phosphatidylinositol-4,5-bisphosphate hydrolysis has 7 unique genes, which correspond to 7 probes in the library. 0 of 7 match ageing_brain_up, for a p-value of 1 The list regulation of synapse has 15 unique genes, which correspond to 6 probes in the library. 0 of 6 match ageing_brain_up, for a p-value of 1 The list taste perception has 5 unique genes, which correspond to 1 probes in the library. 0 of 1 match ageing_brain_up, for a p-value of 1 The list viral replication has 5 unique genes, which correspond to 9 probes in the library. 0 of 9 match ageing_brain_up, for a p-value of 1 The list physiological process has 7477 unique genes, which correspond to 7355 probes in the library. 158 of 7355 match ageing_brain_up, for a p-value of 0.861216071190593 The list coagulation has 78 unique genes, which correspond to 91 probes in the library. 2 of 91 match ageing_brain_up, for a p-value of 0.62941449708647 The list blood coagulation has 75 unique genes, which correspond to 88 probes in the library. 2 of 88 match ageing_brain_up, for a p-value of 0.611210225282892 The list platelet activation has 12 unique genes, which correspond to 12 probes in the library. 1 of 12 match ageing_brain_up, for a p-value of 0.246600599616196 The list regulation of blood coagulation has 8 unique genes, which correspond to 7 probes in the library. 0 of 7 match ageing_brain_up, for a p-value of 1 The list negative regulation of blood coagulation has 8 unique genes, which correspond to 7 probes in the library. 0 of 7 match ageing_brain_up, for a p-value of 1 The list regulation of coagulation has 13 unique genes, which correspond to 12 probes in the library. 1 of 12 match ageing_brain_up, for a p-value of 0.246600599616196 The list negative regulation of coagulation has 13 unique genes, which correspond to 12 probes in the library. 1 of 12 match ageing_brain_up, for a p-value of 0.246600599616196 The list death has 374 unique genes, which correspond to 464 probes in the library. 9 of 464 match ageing_brain_up, for a p-value of 0.754801983828417 The list extracellular structure organization and biogenesis has 33 unique genes, which correspond to 32 probes in the library. 1 of 32 match ageing_brain_up, for a p-value of 0.530032974670534 The list homeostasis has 80 unique genes, which correspond to 90 probes in the library. 3 of 90 match ageing_brain_up, for a p-value of 0.350359715626209 The list ion homeostasis has 64 unique genes, which correspond to 75 probes in the library. 3 of 75 match ageing_brain_up, for a p-value of 0.254966052921675 The list metabolism has 4618 unique genes, which correspond to 4855 probes in the library. 87 of 4855 match ageing_brain_up, for a p-value of 0.995779331592845 The list alcohol metabolism has 183 unique genes, which correspond to 198 probes in the library. 1 of 198 match ageing_brain_up, for a p-value of 0.9906477316748 The list alcohol biosynthesis has 17 unique genes, which correspond to 16 probes in the library. 0 of 16 match ageing_brain_up, for a p-value of 1 The list monosaccharide biosynthesis has 17 unique genes, which correspond to 16 probes in the library. 0 of 16 match ageing_brain_up, for a p-value of 1 The list hexose biosynthesis has 17 unique genes, which correspond to 16 probes in the library. 0 of 16 match ageing_brain_up, for a p-value of 1 The list gluconeogenesis has 13 unique genes, which correspond to 12 probes in the library. 0 of 12 match ageing_brain_up, for a p-value of 1 The list alcohol catabolism has 52 unique genes, which correspond to 54 probes in the library. 0 of 54 match ageing_brain_up, for a p-value of 1 The list monosaccharide catabolism has 52 unique genes, which correspond to 54 probes in the library. 0 of 54 match ageing_brain_up, for a p-value of 1 The list hexose catabolism has 51 unique genes, which correspond to 54 probes in the library. 0 of 54 match ageing_brain_up, for a p-value of 1 The list fucose catabolism has 6 unique genes, which correspond to 6 probes in the library. 0 of 6 match ageing_brain_up, for a p-value of 1 The list L-fucose catabolism has 6 unique genes, which correspond to 6 probes in the library. 0 of 6 match ageing_brain_up, for a p-value of 1 The list glucose catabolism has 44 unique genes, which correspond to 48 probes in the library. 0 of 48 match ageing_brain_up, for a p-value of 1 The list glycolysis has 35 unique genes, which correspond to 40 probes in the library. 0 of 40 match ageing_brain_up, for a p-value of 1 The list pentose-phosphate shunt has 8 unique genes, which correspond to 6 probes in the library. 0 of 6 match ageing_brain_up, for a p-value of 1 The list ethanol metabolism has 7 unique genes, which correspond to 9 probes in the library. 0 of 9 match ageing_brain_up, for a p-value of 1 The list ethanol oxidation has 7 unique genes, which correspond to 9 probes in the library. 0 of 9 match ageing_brain_up, for a p-value of 1 The list monosaccharide metabolism has 97 unique genes, which correspond to 102 probes in the library. 0 of 102 match ageing_brain_up, for a p-value of 1 The list hexose metabolism has 94 unique genes, which correspond to 102 probes in the library. 0 of 102 match ageing_brain_up, for a p-value of 1 The list fructose metabolism has 13 unique genes, which correspond to 16 probes in the library. 0 of 16 match ageing_brain_up, for a p-value of 1 The list fucose metabolism has 10 unique genes, which correspond to 10 probes in the library. 0 of 10 match ageing_brain_up, for a p-value of 1 The list L-fucose metabolism has 8 unique genes, which correspond to 8 probes in the library. 0 of 8 match ageing_brain_up, for a p-value of 1 The list galactose metabolism has 5 unique genes, which correspond to 6 probes in the library. 0 of 6 match ageing_brain_up, for a p-value of 1 The list glucose metabolism has 69 unique genes, which correspond to 74 probes in the library. 0 of 74 match ageing_brain_up, for a p-value of 1 The list phenol metabolism has 11 unique genes, which correspond to 12 probes in the library. 1 of 12 match ageing_brain_up, for a p-value of 0.246600599616196 The list catecholamine metabolism has 11 unique genes, which correspond to 12 probes in the library. 1 of 12 match ageing_brain_up, for a p-value of 0.246600599616196 The list catecholamine biosynthesis has 5 unique genes, which correspond to 5 probes in the library. 0 of 5 match ageing_brain_up, for a p-value of 1 The list polyol metabolism has 7 unique genes, which correspond to 9 probes in the library. 0 of 9 match ageing_brain_up, for a p-value of 1 The list glycerol metabolism has 6 unique genes, which correspond to 8 probes in the library. 0 of 8 match ageing_brain_up, for a p-value of 1 The list glycerol-3-phosphate metabolism has 5 unique genes, which correspond to 6 probes in the library. 0 of 6 match ageing_brain_up, for a p-value of 1 The list sterol metabolism has 60 unique genes, which correspond to 67 probes in the library. 0 of 67 match ageing_brain_up, for a p-value of 1 The list cholesterol metabolism has 57 unique genes, which correspond to 63 probes in the library. 0 of 63 match ageing_brain_up, for a p-value of 1 The list cholesterol biosynthesis has 22 unique genes, which correspond to 20 probes in the library. 0 of 20 match ageing_brain_up, for a p-value of 1 The list sterol biosynthesis has 25 unique genes, which correspond to 24 probes in the library. 0 of 24 match ageing_brain_up, for a p-value of 1 The list aldehyde metabolism has 10 unique genes, which correspond to 9 probes in the library. 1 of 9 match ageing_brain_up, for a p-value of 0.191334430335289 The list amine metabolism has 214 unique genes, which correspond to 248 probes in the library. 9 of 248 match ageing_brain_up, for a p-value of 0.128719824643745 The list amine biosynthesis has 45 unique genes, which correspond to 55 probes in the library. 4 of 55 match ageing_brain_up, for a p-value of 0.039404761641817 The list amino acid biosynthesis has 27 unique genes, which correspond to 34 probes in the library. 3 of 34 match ageing_brain_up, for a p-value of 0.044367991174326 The list glutamine family amino acid biosynthesis has 10 unique genes, which correspond to 15 probes in the library. 1 of 15 match ageing_brain_up, for a p-value of 0.298089744646829 The list arginine biosynthesis has 5 unique genes, which correspond to 7 probes in the library. 0 of 7 match ageing_brain_up, for a p-value of 1 The list serine family amino acid biosynthesis has 10 unique genes, which correspond to 11 probes in the library. 1 of 11 match ageing_brain_up, for a p-value of 0.228611492305938 The list L-serine biosynthesis has 6 unique genes, which correspond to 7 probes in the library. 0 of 7 match ageing_brain_up, for a p-value of 1 The list sulfur amino acid biosynthesis has 6 unique genes, which correspond to 7 probes in the library. 2 of 7 match ageing_brain_up, for a p-value of 0.0105633833335794 The list biogenic amine biosynthesis has 17 unique genes, which correspond to 21 probes in the library. 1 of 21 match ageing_brain_up, for a p-value of 0.39075184470358 The list polyamine biosynthesis has 6 unique genes, which correspond to 11 probes in the library. 0 of 11 match ageing_brain_up, for a p-value of 1 The list amine catabolism has 40 unique genes, which correspond to 47 probes in the library. 1 of 47 match ageing_brain_up, for a p-value of 0.670125325243424 The list amino acid catabolism has 39 unique genes, which correspond to 45 probes in the library. 1 of 45 match ageing_brain_up, for a p-value of 0.654184254601592 The list aromatic amino acid family catabolism has 11 unique genes, which correspond to 15 probes in the library. 0 of 15 match ageing_brain_up, for a p-value of 1 The list phenylalanine catabolism has 9 unique genes, which correspond to 9 probes in the library. 0 of 9 match ageing_brain_up, for a p-value of 1 The list tyrosine catabolism has 5 unique genes, which correspond to 5 probes in the library. 0 of 5 match ageing_brain_up, for a p-value of 1 The list aspartate family amino acid catabolism has 5 unique genes, which correspond to 5 probes in the library. 0 of 5 match ageing_brain_up, for a p-value of 1 The list glutamine family amino acid catabolism has 13 unique genes, which correspond to 18 probes in the library. 1 of 18 match ageing_brain_up, for a p-value of 0.346059996438848 The list arginine catabolism has 6 unique genes, which correspond to 5 probes in the library. 0 of 5 match ageing_brain_up, for a p-value of 1 The list amino acid metabolism has 149 unique genes, which correspond to 164 probes in the library. 3 of 164 match ageing_brain_up, for a p-value of 0.738477513268705 The list amino acid activation has 24 unique genes, which correspond to 22 probes in the library. 0 of 22 match ageing_brain_up, for a p-value of 1 The list tRNA aminoacylation has 24 unique genes, which correspond to 22 probes in the library. 0 of 22 match ageing_brain_up, for a p-value of 1 The list tRNA aminoacylation for protein translation has 24 unique genes, which correspond to 22 probes in the library. 0 of 22 match ageing_brain_up, for a p-value of 1 The list aromatic amino acid family metabolism has 22 unique genes, which correspond to 32 probes in the library. 0 of 32 match ageing_brain_up, for a p-value of 1 The list L-phenylalanine metabolism has 10 unique genes, which correspond to 10 probes in the library. 0 of 10 match ageing_brain_up, for a p-value of 1 The list tryptophan metabolism has 5 unique genes, which correspond to 8 probes in the library. 0 of 8 match ageing_brain_up, for a p-value of 1 The list tyrosine metabolism has 11 unique genes, which correspond to 18 probes in the library. 0 of 18 match ageing_brain_up, for a p-value of 1 The list aspartate family amino acid metabolism has 12 unique genes, which correspond to 12 probes in the library. 1 of 12 match ageing_brain_up, for a p-value of 0.246600599616196 The list methionine metabolism has 7 unique genes, which correspond to 7 probes in the library. 1 of 7 match ageing_brain_up, for a p-value of 0.152255968246149 The list branched chain family amino acid metabolism has 8 unique genes, which correspond to 5 probes in the library. 0 of 5 match ageing_brain_up, for a p-value of 1 The list glutamine family amino acid metabolism has 30 unique genes, which correspond to 36 probes in the library. 1 of 36 match ageing_brain_up, for a p-value of 0.572362471742441 The list arginine metabolism has 11 unique genes, which correspond to 12 probes in the library. 0 of 12 match ageing_brain_up, for a p-value of 1 The list glutamate metabolism has 6 unique genes, which correspond to 10 probes in the library. 0 of 10 match ageing_brain_up, for a p-value of 1 The list glutamine metabolism has 13 unique genes, which correspond to 14 probes in the library. 1 of 14 match ageing_brain_up, for a p-value of 0.281330056625725 The list serine family amino acid metabolism has 19 unique genes, which correspond to 20 probes in the library. 1 of 20 match ageing_brain_up, for a p-value of 0.37620467299277 The list glycine metabolism has 6 unique genes, which correspond to 6 probes in the library. 0 of 6 match ageing_brain_up, for a p-value of 1 The list L-serine metabolism has 11 unique genes, which correspond to 12 probes in the library. 1 of 12 match ageing_brain_up, for a p-value of 0.246600599616196 The list sulfur amino acid metabolism has 17 unique genes, which correspond to 16 probes in the library. 2 of 16 match ageing_brain_up, for a p-value of 0.0525570698705685 The list amino sugar metabolism has 11 unique genes, which correspond to 10 probes in the library. 2 of 10 match ageing_brain_up, for a p-value of 0.0216086124219939 The list glucosamine metabolism has 10 unique genes, which correspond to 9 probes in the library. 2 of 9 match ageing_brain_up, for a p-value of 0.0175560263033849 The list N-acetylglucosamine metabolism has 9 unique genes, which correspond to 7 probes in the library. 2 of 7 match ageing_brain_up, for a p-value of 0.0105633833335794 The list aminoglycan metabolism has 20 unique genes, which correspond to 31 probes in the library. 0 of 31 match ageing_brain_up, for a p-value of 1 The list aminoglycan biosynthesis has 8 unique genes, which correspond to 10 probes in the library. 0 of 10 match ageing_brain_up, for a p-value of 1 The list glycosaminoglycan biosynthesis has 7 unique genes, which correspond to 9 probes in the library. 0 of 9 match ageing_brain_up, for a p-value of 1 The list glycosaminoglycan metabolism has 19 unique genes, which correspond to 30 probes in the library. 0 of 30 match ageing_brain_up, for a p-value of 1 The list biogenic amine metabolism has 35 unique genes, which correspond to 45 probes in the library. 2 of 45 match ageing_brain_up, for a p-value of 0.282613418777858 The list indolalkylamine metabolism has 7 unique genes, which correspond to 11 probes in the library. 0 of 11 match ageing_brain_up, for a p-value of 1 The list polyamine metabolism has 9 unique genes, which correspond to 15 probes in the library. 0 of 15 match ageing_brain_up, for a p-value of 1 The list thyroid hormone metabolism has 6 unique genes, which correspond to 6 probes in the library. 0 of 6 match ageing_brain_up, for a p-value of 1 The list thyroid hormone generation has 6 unique genes, which correspond to 6 probes in the library. 0 of 6 match ageing_brain_up, for a p-value of 1 The list amino acid and derivative metabolism has 180 unique genes, which correspond to 206 probes in the library. 7 of 206 match ageing_brain_up, for a p-value of 0.207764034487448 The list amino acid derivative metabolism has 41 unique genes, which correspond to 54 probes in the library. 4 of 54 match ageing_brain_up, for a p-value of 0.0372027231124757 The list amino acid derivative biosynthesis has 20 unique genes, which correspond to 26 probes in the library. 3 of 26 match ageing_brain_up, for a p-value of 0.0220960442108893 The list aromatic compound metabolism has 67 unique genes, which correspond to 77 probes in the library. 1 of 77 match ageing_brain_up, for a p-value of 0.837478002823018 The list aromatic compound biosynthesis has 9 unique genes, which correspond to 7 probes in the library. 0 of 7 match ageing_brain_up, for a p-value of 1 The list pteridine and derivative biosynthesis has 9 unique genes, which correspond to 7 probes in the library. 0 of 7 match ageing_brain_up, for a p-value of 1 The list tetrahydrobiopterin biosynthesis has 5 unique genes, which correspond to 5 probes in the library. 0 of 5 match ageing_brain_up, for a p-value of 1 The list aromatic compound catabolism has 12 unique genes, which correspond to 16 probes in the library. 0 of 16 match ageing_brain_up, for a p-value of 1 The list folic acid and derivative metabolism has 7 unique genes, which correspond to 6 probes in the library. 0 of 6 match ageing_brain_up, for a p-value of 1 The list indole and derivative metabolism has 7 unique genes, which correspond to 11 probes in the library. 0 of 11 match ageing_brain_up, for a p-value of 1 The list indole derivative metabolism has 7 unique genes, which correspond to 11 probes in the library. 0 of 11 match ageing_brain_up, for a p-value of 1 The list nucleobase metabolism has 14 unique genes, which correspond to 16 probes in the library. 0 of 16 match ageing_brain_up, for a p-value of 1 The list nucleobase biosynthesis has 9 unique genes, which correspond to 10 probes in the library. 0 of 10 match ageing_brain_up, for a p-value of 1 The list pyrimidine base biosynthesis has 5 unique genes, which correspond to 6 probes in the library. 0 of 6 match ageing_brain_up, for a p-value of 1 The list purine base metabolism has 8 unique genes, which correspond to 9 probes in the library. 0 of 9 match ageing_brain_up, for a p-value of 1 The list pyrimidine base metabolism has 6 unique genes, which correspond to 7 probes in the library. 0 of 7 match ageing_brain_up, for a p-value of 1 The list pteridine and derivative metabolism has 9 unique genes, which correspond to 7 probes in the library. 0 of 7 match ageing_brain_up, for a p-value of 1 The list tetrahydrobiopterin metabolism has 5 unique genes, which correspond to 5 probes in the library. 0 of 5 match ageing_brain_up, for a p-value of 1 The list biosynthesis has 773 unique genes, which correspond to 783 probes in the library. 12 of 783 match ageing_brain_up, for a p-value of 0.953044813253205 The list coenzyme and prosthetic group biosynthesis has 79 unique genes, which correspond to 77 probes in the library. 0 of 77 match ageing_brain_up, for a p-value of 1 The list coenzyme biosynthesis has 66 unique genes, which correspond to 61 probes in the library. 0 of 61 match ageing_brain_up, for a p-value of 1 The list ATP biosynthesis has 34 unique genes, which correspond to 37 probes in the library. 0 of 37 match ageing_brain_up, for a p-value of 1 The list coenzyme A biosynthesis has 5 unique genes, which correspond to 3 probes in the library. 0 of 3 match ageing_brain_up, for a p-value of 1 The list glutathione biosynthesis has 8 unique genes, which correspond to 9 probes in the library. 0 of 9 match ageing_brain_up, for a p-value of 1 The list pyridine nucleotide biosynthesis has 5 unique genes, which correspond to 3 probes in the library. 0 of 3 match ageing_brain_up, for a p-value of 1 The list porphyrin biosynthesis has 13 unique genes, which correspond to 16 probes in the library. 0 of 16 match ageing_brain_up, for a p-value of 1 The list hormone biosynthesis has 20 unique genes, which correspond to 25 probes in the library. 0 of 25 match ageing_brain_up, for a p-value of 1 The list C21-steroid hormone biosynthesis has 12 unique genes, which correspond to 16 probes in the library. 0 of 16 match ageing_brain_up, for a p-value of 1 The list macromolecule biosynthesis has 644 unique genes, which correspond to 635 probes in the library. 6 of 635 match ageing_brain_up, for a p-value of 0.997058107941317 The list carbohydrate biosynthesis has 51 unique genes, which correspond to 49 probes in the library. 1 of 49 match ageing_brain_up, for a p-value of 0.685331560249258 The list polysaccharide biosynthesis has 12 unique genes, which correspond to 12 probes in the library. 1 of 12 match ageing_brain_up, for a p-value of 0.246600599616196 The list glucan biosynthesis has 9 unique genes, which correspond to 10 probes in the library. 0 of 10 match ageing_brain_up, for a p-value of 1 The list glycogen biosynthesis has 9 unique genes, which correspond to 10 probes in the library. 0 of 10 match ageing_brain_up, for a p-value of 1 The list lipid biosynthesis has 132 unique genes, which correspond to 141 probes in the library. 3 of 141 match ageing_brain_up, for a p-value of 0.64126154599054 The list fatty acid biosynthesis has 34 unique genes, which correspond to 34 probes in the library. 1 of 34 match ageing_brain_up, for a p-value of 0.551697047662576 The list icosanoid biosynthesis has 16 unique genes, which correspond to 20 probes in the library. 0 of 20 match ageing_brain_up, for a p-value of 1 The list leukotriene biosynthesis has 11 unique genes, which correspond to 12 probes in the library. 0 of 12 match ageing_brain_up, for a p-value of 1 The list prostanoid biosynthesis has 5 unique genes, which correspond to 8 probes in the library. 0 of 8 match ageing_brain_up, for a p-value of 1 The list prostaglandin biosynthesis has 5 unique genes, which correspond to 8 probes in the library. 0 of 8 match ageing_brain_up, for a p-value of 1 The list isoprenoid biosynthesis has 7 unique genes, which correspond to 6 probes in the library. 0 of 6 match ageing_brain_up, for a p-value of 1 The list membrane lipid biosynthesis has 38 unique genes, which correspond to 41 probes in the library. 0 of 41 match ageing_brain_up, for a p-value of 1 The list glycolipid biosynthesis has 9 unique genes, which correspond to 9 probes in the library. 0 of 9 match ageing_brain_up, for a p-value of 1 The list glycosphingolipid biosynthesis has 8 unique genes, which correspond to 8 probes in the library. 0 of 8 match ageing_brain_up, for a p-value of 1 The list phospholipid biosynthesis has 28 unique genes, which correspond to 31 probes in the library. 0 of 31 match ageing_brain_up, for a p-value of 1 The list glycerophospholipid biosynthesis has 14 unique genes, which correspond to 21 probes in the library. 0 of 21 match ageing_brain_up, for a p-value of 1 The list phosphoinositide biosynthesis has 9 unique genes, which correspond to 14 probes in the library. 0 of 14 match ageing_brain_up, for a p-value of 1 The list GPI anchor biosynthesis has 6 unique genes, which correspond to 11 probes in the library. 0 of 11 match ageing_brain_up, for a p-value of 1 The list sphingolipid biosynthesis has 11 unique genes, which correspond to 10 probes in the library. 0 of 10 match ageing_brain_up, for a p-value of 1 The list steroid biosynthesis has 55 unique genes, which correspond to 61 probes in the library. 1 of 61 match ageing_brain_up, for a p-value of 0.762928986172084 The list nucleotide biosynthesis has 106 unique genes, which correspond to 114 probes in the library. 0 of 114 match ageing_brain_up, for a p-value of 1 The list cyclic nucleotide biosynthesis has 22 unique genes, which correspond to 21 probes in the library. 0 of 21 match ageing_brain_up, for a p-value of 1 The list cAMP biosynthesis has 13 unique genes, which correspond to 11 probes in the library. 0 of 11 match ageing_brain_up, for a p-value of 1 The list cGMP biosynthesis has 9 unique genes, which correspond to 10 probes in the library. 0 of 10 match ageing_brain_up, for a p-value of 1 The list nucleoside monophosphate biosynthesis has 19 unique genes, which correspond to 22 probes in the library. 0 of 22 match ageing_brain_up, for a p-value of 1 The list purine nucleoside monophosphate biosynthesis has 13 unique genes, which correspond to 13 probes in the library. 0 of 13 match ageing_brain_up, for a p-value of 1 The list purine ribonucleoside monophosphate biosynthesis has 13 unique genes, which correspond to 13 probes in the library. 0 of 13 match ageing_brain_up, for a p-value of 1 The list ribonucleoside monophosphate biosynthesis has 18 unique genes, which correspond to 20 probes in the library. 0 of 20 match ageing_brain_up, for a p-value of 1 The list nucleoside triphosphate biosynthesis has 47 unique genes, which correspond to 53 probes in the library. 0 of 53 match ageing_brain_up, for a p-value of 1 The list purine nucleoside triphosphate biosynthesis has 45 unique genes, which correspond to 51 probes in the library. 0 of 51 match ageing_brain_up, for a p-value of 1 The list purine ribonucleoside triphosphate biosynthesis has 45 unique genes, which correspond to 51 probes in the library. 0 of 51 match ageing_brain_up, for a p-value of 1 The list GTP biosynthesis has 11 unique genes, which correspond to 14 probes in the library. 0 of 14 match ageing_brain_up, for a p-value of 1 The list ribonucleoside triphosphate biosynthesis has 45 unique genes, which correspond to 51 probes in the library. 0 of 51 match ageing_brain_up, for a p-value of 1 The list pyrimidine ribonucleoside triphosphate biosynthesis has 9 unique genes, which correspond to 11 probes in the library. 0 of 11 match ageing_brain_up, for a p-value of 1 The list CTP biosynthesis has 9 unique genes, which correspond to 11 probes in the library. 0 of 11 match ageing_brain_up, for a p-value of 1 The list UTP biosynthesis has 9 unique genes, which correspond to 11 probes in the library. 0 of 11 match ageing_brain_up, for a p-value of 1 The list purine nucleotide biosynthesis has 64 unique genes, which correspond to 70 probes in the library. 0 of 70 match ageing_brain_up, for a p-value of 1 The list purine ribonucleotide biosynthesis has 60 unique genes, which correspond to 66 probes in the library. 0 of 66 match ageing_brain_up, for a p-value of 1 The list pyrimidine nucleotide biosynthesis has 17 unique genes, which correspond to 20 probes in the library. 0 of 20 match ageing_brain_up, for a p-value of 1 The list pyrimidine ribonucleotide biosynthesis has 11 unique genes, which correspond to 12 probes in the library. 0 of 12 match ageing_brain_up, for a p-value of 1 The list ribonucleotide biosynthesis has 65 unique genes, which correspond to 73 probes in the library. 0 of 73 match ageing_brain_up, for a p-value of 1 The list protein biosynthesis has 379 unique genes, which correspond to 360 probes in the library. 3 of 360 match ageing_brain_up, for a p-value of 0.990502181946115 The list cytokine biosynthesis has 24 unique genes, which correspond to 29 probes in the library. 2 of 29 match ageing_brain_up, for a p-value of 0.14626235933969 The list regulation of cytokine biosynthesis has 21 unique genes, which correspond to 24 probes in the library. 2 of 24 match ageing_brain_up, for a p-value of 0.107117759637591 The list negative regulation of cytokine biosynthesis has 6 unique genes, which correspond to 9 probes in the library. 1 of 9 match ageing_brain_up, for a p-value of 0.191334430335289 The list positive regulation of cytokine biosynthesis has 12 unique genes, which correspond to 14 probes in the library. 0 of 14 match ageing_brain_up, for a p-value of 1 The list glycoprotein biosynthesis has 83 unique genes, which correspond to 75 probes in the library. 0 of 75 match ageing_brain_up, for a p-value of 1 The list protein amino acid glycosylation has 78 unique genes, which correspond to 69 probes in the library. 0 of 69 match ageing_brain_up, for a p-value of 1 The list N-linked glycosylation has 30 unique genes, which correspond to 27 probes in the library. 0 of 27 match ageing_brain_up, for a p-value of 1 The list O-linked glycosylation has 9 unique genes, which correspond to 9 probes in the library. 0 of 9 match ageing_brain_up, for a p-value of 1 The list lipoprotein biosynthesis has 13 unique genes, which correspond to 22 probes in the library. 0 of 22 match ageing_brain_up, for a p-value of 1 The list protein lipidation has 13 unique genes, which correspond to 22 probes in the library. 0 of 22 match ageing_brain_up, for a p-value of 1 The list protein prenylation has 5 unique genes, which correspond to 8 probes in the library. 0 of 8 match ageing_brain_up, for a p-value of 1 The list protein amino acid prenylation has 5 unique genes, which correspond to 8 probes in the library. 0 of 8 match ageing_brain_up, for a p-value of 1 The list regulation of protein biosynthesis has 95 unique genes, which correspond to 97 probes in the library. 2 of 97 match ageing_brain_up, for a p-value of 0.663812913752111 The list negative regulation of protein biosynthesis has 13 unique genes, which correspond to 15 probes in the library. 1 of 15 match ageing_brain_up, for a p-value of 0.298089744646829 The list positive regulation of protein biosynthesis has 13 unique genes, which correspond to 15 probes in the library. 0 of 15 match ageing_brain_up, for a p-value of 1 The list regulation of translation has 64 unique genes, which correspond to 65 probes in the library. 0 of 65 match ageing_brain_up, for a p-value of 1 The list negative regulation of translation has 6 unique genes, which correspond to 6 probes in the library. 0 of 6 match ageing_brain_up, for a p-value of 1 The list regulation of translational initiation has 27 unique genes, which correspond to 33 probes in the library. 0 of 33 match ageing_brain_up, for a p-value of 1 The list translation has 117 unique genes, which correspond to 116 probes in the library. 0 of 116 match ageing_brain_up, for a p-value of 1 The list translational elongation has 18 unique genes, which correspond to 24 probes in the library. 0 of 24 match ageing_brain_up, for a p-value of 1 The list translational initiation has 43 unique genes, which correspond to 45 probes in the library. 0 of 45 match ageing_brain_up, for a p-value of 1 The list translational termination has 5 unique genes, which correspond to 3 probes in the library. 0 of 3 match ageing_brain_up, for a p-value of 1 The list nitric oxide biosynthesis has 17 unique genes, which correspond to 25 probes in the library. 0 of 25 match ageing_brain_up, for a p-value of 1 The list organic acid biosynthesis has 43 unique genes, which correspond to 42 probes in the library. 1 of 42 match ageing_brain_up, for a p-value of 0.628816685267909 The list carboxylic acid biosynthesis has 43 unique genes, which correspond to 42 probes in the library. 1 of 42 match ageing_brain_up, for a p-value of 0.628816685267909 The list regulation of biosynthesis has 99 unique genes, which correspond to 103 probes in the library. 2 of 103 match ageing_brain_up, for a p-value of 0.695587641771628 The list negative regulation of biosynthesis has 13 unique genes, which correspond to 15 probes in the library. 1 of 15 match ageing_brain_up, for a p-value of 0.298089744646829 The list positive regulation of biosynthesis has 17 unique genes, which correspond to 21 probes in the library. 0 of 21 match ageing_brain_up, for a p-value of 1 The list vitamin biosynthesis has 8 unique genes, which correspond to 5 probes in the library. 0 of 5 match ageing_brain_up, for a p-value of 1 The list water-soluble vitamin biosynthesis has 7 unique genes, which correspond to 4 probes in the library. 0 of 4 match ageing_brain_up, for a p-value of 1 The list carbohydrate metabolism has 287 unique genes, which correspond to 305 probes in the library. 5 of 305 match ageing_brain_up, for a p-value of 0.84022479251506 The list carbohydrate catabolism has 68 unique genes, which correspond to 70 probes in the library. 0 of 70 match ageing_brain_up, for a p-value of 1 The list polysaccharide catabolism has 6 unique genes, which correspond to 6 probes in the library. 0 of 6 match ageing_brain_up, for a p-value of 1 The list glucan catabolism has 5 unique genes, which correspond to 5 probes in the library. 0 of 5 match ageing_brain_up, for a p-value of 1 The list main pathways of carbohydrate metabolism has 76 unique genes, which correspond to 85 probes in the library. 0 of 85 match ageing_brain_up, for a p-value of 1 The list TCA intermediate metabolism has 12 unique genes, which correspond to 18 probes in the library. 0 of 18 match ageing_brain_up, for a p-value of 1 The list tricarboxylic acid cycle has 22 unique genes, which correspond to 27 probes in the library. 0 of 27 match ageing_brain_up, for a p-value of 1 The list oligosaccharide metabolism has 9 unique genes, which correspond to 7 probes in the library. 0 of 7 match ageing_brain_up, for a p-value of 1 The list polysaccharide metabolism has 31 unique genes, which correspond to 32 probes in the library. 1 of 32 match ageing_brain_up, for a p-value of 0.530032974670534 The list glucan metabolism has 26 unique genes, which correspond to 29 probes in the library. 0 of 29 match ageing_brain_up, for a p-value of 1 The list glycogen metabolism has 25 unique genes, which correspond to 28 probes in the library. 0 of 28 match ageing_brain_up, for a p-value of 1 The list proteoglycan metabolism has 9 unique genes, which correspond to 5 probes in the library. 0 of 5 match ageing_brain_up, for a p-value of 1 The list catabolism has 636 unique genes, which correspond to 621 probes in the library. 7 of 621 match ageing_brain_up, for a p-value of 0.990074030939073 The list coenzyme and prosthetic group catabolism has 5 unique genes, which correspond to 4 probes in the library. 0 of 4 match ageing_brain_up, for a p-value of 1 The list DNA catabolism has 9 unique genes, which correspond to 8 probes in the library. 1 of 8 match ageing_brain_up, for a p-value of 0.172025718776189 The list lipid catabolism has 62 unique genes, which correspond to 62 probes in the library. 1 of 62 match ageing_brain_up, for a p-value of 0.768457582807068 The list membrane lipid catabolism has 10 unique genes, which correspond to 15 probes in the library. 1 of 15 match ageing_brain_up, for a p-value of 0.298089744646829 The list phospholipid catabolism has 5 unique genes, which correspond to 7 probes in the library. 1 of 7 match ageing_brain_up, for a p-value of 0.152255968246149 The list sphingolipid catabolism has 6 unique genes, which correspond to 11 probes in the library. 0 of 11 match ageing_brain_up, for a p-value of 1 The list steroid catabolism has 7 unique genes, which correspond to 8 probes in the library. 0 of 8 match ageing_brain_up, for a p-value of 1 The list macromolecule catabolism has 435 unique genes, which correspond to 407 probes in the library. 2 of 407 match ageing_brain_up, for a p-value of 0.999276859778563 The list protein catabolism has 413 unique genes, which correspond to 387 probes in the library. 2 of 387 match ageing_brain_up, for a p-value of 0.998892392268871 The list proteolysis and peptidolysis has 402 unique genes, which correspond to 380 probes in the library. 2 of 380 match ageing_brain_up, for a p-value of 0.998714789114804 The list collagen catabolism has 18 unique genes, which correspond to 18 probes in the library. 0 of 18 match ageing_brain_up, for a p-value of 1 The list glycoprotein catabolism has 5 unique genes, which correspond to 3 probes in the library. 0 of 3 match ageing_brain_up, for a p-value of 1 The list modification-dependent protein catabolism has 92 unique genes, which correspond to 94 probes in the library. 0 of 94 match ageing_brain_up, for a p-value of 1 The list ubiquitin-dependent protein catabolism has 92 unique genes, which correspond to 94 probes in the library. 0 of 94 match ageing_brain_up, for a p-value of 1 The list RNA catabolism has 21 unique genes, which correspond to 19 probes in the library. 0 of 19 match ageing_brain_up, for a p-value of 1 The list mRNA catabolism has 6 unique genes, which correspond to 5 probes in the library. 0 of 5 match ageing_brain_up, for a p-value of 1 The list nucleotide catabolism has 6 unique genes, which correspond to 9 probes in the library. 0 of 9 match ageing_brain_up, for a p-value of 1 The list organic acid catabolism has 5 unique genes, which correspond to 4 probes in the library. 0 of 4 match ageing_brain_up, for a p-value of 1 The list carboxylic acid catabolism has 5 unique genes, which correspond to 4 probes in the library. 0 of 4 match ageing_brain_up, for a p-value of 1 The list regulation of catabolism has 9 unique genes, which correspond to 2 probes in the library. 0 of 2 match ageing_brain_up, for a p-value of 1 The list coenzyme and prosthetic group metabolism has 113 unique genes, which correspond to 104 probes in the library. 0 of 104 match ageing_brain_up, for a p-value of 1 The list coenzyme metabolism has 96 unique genes, which correspond to 85 probes in the library. 0 of 85 match ageing_brain_up, for a p-value of 1 The list acetyl-CoA metabolism has 6 unique genes, which correspond to 6 probes in the library. 0 of 6 match ageing_brain_up, for a p-value of 1 The list ATP metabolism has 37 unique genes, which correspond to 39 probes in the library. 0 of 39 match ageing_brain_up, for a p-value of 1 The list glutathione metabolism has 10 unique genes, which correspond to 10 probes in the library. 0 of 10 match ageing_brain_up, for a p-value of 1 The list group transfer coenzyme metabolism has 47 unique genes, which correspond to 47 probes in the library. 0 of 47 match ageing_brain_up, for a p-value of 1 The list coenzyme A metabolism has 6 unique genes, which correspond to 4 probes in the library. 0 of 4 match ageing_brain_up, for a p-value of 1 The list nucleoside phosphate metabolism has 34 unique genes, which correspond to 37 probes in the library. 0 of 37 match ageing_brain_up, for a p-value of 1 The list oxidoreduction coenzyme metabolism has 18 unique genes, which correspond to 12 probes in the library. 0 of 12 match ageing_brain_up, for a p-value of 1 The list pyridine nucleotide metabolism has 14 unique genes, which correspond to 11 probes in the library. 0 of 11 match ageing_brain_up, for a p-value of 1 The list nicotinamide metabolism has 11 unique genes, which correspond to 9 probes in the library. 0 of 9 match ageing_brain_up, for a p-value of 1 The list NADPH metabolism has 9 unique genes, which correspond to 8 probes in the library. 0 of 8 match ageing_brain_up, for a p-value of 1 The list NADPH regeneration has 8 unique genes, which correspond to 6 probes in the library. 0 of 6 match ageing_brain_up, for a p-value of 1 The list porphyrin metabolism has 17 unique genes, which correspond to 19 probes in the library. 0 of 19 match ageing_brain_up, for a p-value of 1 The list electron transport has 225 unique genes, which correspond to 236 probes in the library. 3 of 236 match ageing_brain_up, for a p-value of 0.914373573429914 The list ATP synthesis coupled electron transport has 37 unique genes, which correspond to 22 probes in the library. 0 of 22 match ageing_brain_up, for a p-value of 1 The list ATP synthesis coupled electron transport (sensu Eukarya) has 37 unique genes, which correspond to 22 probes in the library. 0 of 22 match ageing_brain_up, for a p-value of 1 The list mitochondrial electron transport, NADH to ubiquinone has 31 unique genes, which correspond to 20 probes in the library. 0 of 20 match ageing_brain_up, for a p-value of 1 The list energy pathways has 191 unique genes, which correspond to 211 probes in the library. 4 of 211 match ageing_brain_up, for a p-value of 0.726932765989416 The list energy derivation by oxidation of organic compounds has 118 unique genes, which correspond to 131 probes in the library. 2 of 131 match ageing_brain_up, for a p-value of 0.812389500695683 The list cellular respiration has 11 unique genes, which correspond to 9 probes in the library. 0 of 9 match ageing_brain_up, for a p-value of 1 The list aerobic respiration has 9 unique genes, which correspond to 9 probes in the library. 0 of 9 match ageing_brain_up, for a p-value of 1 The list energy reserve metabolism has 32 unique genes, which correspond to 37 probes in the library. 2 of 37 match ageing_brain_up, for a p-value of 0.213345681728603 The list glycerol ether metabolism has 13 unique genes, which correspond to 17 probes in the library. 0 of 17 match ageing_brain_up, for a p-value of 1 The list acylglycerol metabolism has 13 unique genes, which correspond to 17 probes in the library. 0 of 17 match ageing_brain_up, for a p-value of 1 The list triacylglycerol metabolism has 12 unique genes, which correspond to 16 probes in the library. 0 of 16 match ageing_brain_up, for a p-value of 1 The list heterocycle metabolism has 48 unique genes, which correspond to 54 probes in the library. 0 of 54 match ageing_brain_up, for a p-value of 1 The list hormone metabolism has 38 unique genes, which correspond to 38 probes in the library. 0 of 38 match ageing_brain_up, for a p-value of 1 The list C21-steroid hormone metabolism has 12 unique genes, which correspond to 16 probes in the library. 0 of 16 match ageing_brain_up, for a p-value of 1 The list estrogen metabolism has 6 unique genes, which correspond to 5 probes in the library. 0 of 5 match ageing_brain_up, for a p-value of 1 The list lipid metabolism has 400 unique genes, which correspond to 427 probes in the library. 9 of 427 match ageing_brain_up, for a p-value of 0.665038087140148 The list fatty acid metabolism has 102 unique genes, which correspond to 110 probes in the library. 3 of 110 match ageing_brain_up, for a p-value of 0.474497491940383 The list fatty acid oxidation has 18 unique genes, which correspond to 17 probes in the library. 0 of 17 match ageing_brain_up, for a p-value of 1 The list fatty acid beta-oxidation has 12 unique genes, which correspond to 14 probes in the library. 0 of 14 match ageing_brain_up, for a p-value of 1 The list icosanoid metabolism has 26 unique genes, which correspond to 32 probes in the library. 0 of 32 match ageing_brain_up, for a p-value of 1 The list leukotriene metabolism has 14 unique genes, which correspond to 14 probes in the library. 0 of 14 match ageing_brain_up, for a p-value of 1 The list prostanoid metabolism has 10 unique genes, which correspond to 15 probes in the library. 0 of 15 match ageing_brain_up, for a p-value of 1 The list prostaglandin metabolism has 10 unique genes, which correspond to 15 probes in the library. 0 of 15 match ageing_brain_up, for a p-value of 1 The list glycerolipid metabolism has 13 unique genes, which correspond to 17 probes in the library. 0 of 17 match ageing_brain_up, for a p-value of 1 The list isoprenoid metabolism has 11 unique genes, which correspond to 10 probes in the library. 0 of 10 match ageing_brain_up, for a p-value of 1 The list membrane lipid metabolism has 79 unique genes, which correspond to 93 probes in the library. 1 of 93 match ageing_brain_up, for a p-value of 0.888584440839454 The list glycolipid metabolism has 16 unique genes, which correspond to 21 probes in the library. 0 of 21 match ageing_brain_up, for a p-value of 1 The list glycosphingolipid metabolism has 14 unique genes, which correspond to 19 probes in the library. 0 of 19 match ageing_brain_up, for a p-value of 1 The list phospholipid metabolism has 47 unique genes, which correspond to 50 probes in the library. 1 of 50 match ageing_brain_up, for a p-value of 0.692669761782425 The list glycerophospholipid metabolism has 16 unique genes, which correspond to 23 probes in the library. 0 of 23 match ageing_brain_up, for a p-value of 1 The list phosphoinositide metabolism has 9 unique genes, which correspond to 14 probes in the library. 0 of 14 match ageing_brain_up, for a p-value of 1 The list GPI anchor metabolism has 6 unique genes, which correspond to 11 probes in the library. 0 of 11 match ageing_brain_up, for a p-value of 1 The list sphingolipid metabolism has 33 unique genes, which correspond to 44 probes in the library. 0 of 44 match ageing_brain_up, for a p-value of 1 The list sphingoid metabolism has 15 unique genes, which correspond to 20 probes in the library. 0 of 20 match ageing_brain_up, for a p-value of 1 The list ceramide metabolism has 13 unique genes, which correspond to 19 probes in the library. 0 of 19 match ageing_brain_up, for a p-value of 1 The list neutral lipid metabolism has 13 unique genes, which correspond to 17 probes in the library. 0 of 17 match ageing_brain_up, for a p-value of 1 The list regulation of lipid metabolism has 7 unique genes, which correspond to 3 probes in the library. 1 of 3 match ageing_brain_up, for a p-value of 0.0683424290016722 The list steroid metabolism has 116 unique genes, which correspond to 126 probes in the library. 1 of 126 match ageing_brain_up, for a p-value of 0.948859456723145 The list bile acid metabolism has 8 unique genes, which correspond to 6 probes in the library. 0 of 6 match ageing_brain_up, for a p-value of 1 The list nitrogen metabolism has 36 unique genes, which correspond to 42 probes in the library. 1 of 42 match ageing_brain_up, for a p-value of 0.628816685267909 The list nitric oxide metabolism has 17 unique genes, which correspond to 25 probes in the library. 0 of 25 match ageing_brain_up, for a p-value of 1 The list urea cycle has 7 unique genes, which correspond to 7 probes in the library. 0 of 7 match ageing_brain_up, for a p-value of 1 The list urea cycle intermediate metabolism has 12 unique genes, which correspond to 13 probes in the library. 0 of 13 match ageing_brain_up, for a p-value of 1 The list nucleobase, nucleoside, nucleotide and nucleic acid metabolism has 2027 unique genes, which correspond to 2097 probes in the library. 32 of 2097 match ageing_brain_up, for a p-value of 0.996167036700011 The list DNA metabolism has 383 unique genes, which correspond to 446 probes in the library. 5 of 446 match ageing_brain_up, for a p-value of 0.978580068115999 The list DNA modification has 17 unique genes, which correspond to 21 probes in the library. 0 of 21 match ageing_brain_up, for a p-value of 1 The list DNA alkylation has 10 unique genes, which correspond to 10 probes in the library. 0 of 10 match ageing_brain_up, for a p-value of 1 The list DNA packaging has 148 unique genes, which correspond to 125 probes in the library. 1 of 125 match ageing_brain_up, for a p-value of 0.947638361085899 The list DNA recombination has 48 unique genes, which correspond to 70 probes in the library. 0 of 70 match ageing_brain_up, for a p-value of 1 The list regulation of DNA recombination has 5 unique genes, which correspond to 7 probes in the library. 0 of 7 match ageing_brain_up, for a p-value of 1 The list DNA repair has 127 unique genes, which correspond to 187 probes in the library. 3 of 187 match ageing_brain_up, for a p-value of 0.8135330926464 The list base-excision repair has 10 unique genes, which correspond to 17 probes in the library. 2 of 17 match ageing_brain_up, for a p-value of 0.0586647244398472 The list double-strand break repair has 10 unique genes, which correspond to 22 probes in the library. 0 of 22 match ageing_brain_up, for a p-value of 1 The list nucleotide-excision repair has 18 unique genes, which correspond to 30 probes in the library. 0 of 30 match ageing_brain_up, for a p-value of 1 The list regulation of DNA metabolism has 18 unique genes, which correspond to 27 probes in the library. 0 of 27 match ageing_brain_up, for a p-value of 1 The list gene silencing has 11 unique genes, which correspond to 6 probes in the library. 0 of 6 match ageing_brain_up, for a p-value of 1 The list nucleoside metabolism has 24 unique genes, which correspond to 22 probes in the library. 0 of 22 match ageing_brain_up, for a p-value of 1 The list purine nucleoside metabolism has 5 unique genes, which correspond to 5 probes in the library. 0 of 5 match ageing_brain_up, for a p-value of 1 The list purine ribonucleoside metabolism has 5 unique genes, which correspond to 5 probes in the library. 0 of 5 match ageing_brain_up, for a p-value of 1 The list pyrimidine nucleoside metabolism has 6 unique genes, which correspond to 6 probes in the library. 0 of 6 match ageing_brain_up, for a p-value of 1 The list ribonucleoside metabolism has 6 unique genes, which correspond to 6 probes in the library. 0 of 6 match ageing_brain_up, for a p-value of 1 The list nucleotide metabolism has 143 unique genes, which correspond to 155 probes in the library. 0 of 155 match ageing_brain_up, for a p-value of 1 The list cyclic nucleotide metabolism has 28 unique genes, which correspond to 34 probes in the library. 0 of 34 match ageing_brain_up, for a p-value of 1 The list cAMP metabolism has 15 unique genes, which correspond to 15 probes in the library. 0 of 15 match ageing_brain_up, for a p-value of 1 The list cGMP metabolism has 9 unique genes, which correspond to 10 probes in the library. 0 of 10 match ageing_brain_up, for a p-value of 1 The list deoxyribonucleotide metabolism has 7 unique genes, which correspond to 6 probes in the library. 0 of 6 match ageing_brain_up, for a p-value of 1 The list pyrimidine deoxyribonucleotide metabolism has 5 unique genes, which correspond to 5 probes in the library. 0 of 5 match ageing_brain_up, for a p-value of 1 The list nucleoside diphosphate metabolism has 5 unique genes, which correspond to 5 probes in the library. 0 of 5 match ageing_brain_up, for a p-value of 1 The list nucleoside monophosphate metabolism has 19 unique genes, which correspond to 22 probes in the library. 0 of 22 match ageing_brain_up, for a p-value of 1 The list purine nucleoside monophosphate metabolism has 13 unique genes, which correspond to 13 probes in the library. 0 of 13 match ageing_brain_up, for a p-value of 1 The list purine ribonucleoside monophosphate metabolism has 13 unique genes, which correspond to 13 probes in the library. 0 of 13 match ageing_brain_up, for a p-value of 1 The list ribonucleoside monophosphate metabolism has 18 unique genes, which correspond to 20 probes in the library. 0 of 20 match ageing_brain_up, for a p-value of 1 The list nucleoside triphosphate metabolism has 51 unique genes, which correspond to 56 probes in the library. 0 of 56 match ageing_brain_up, for a p-value of 1 The list purine nucleoside triphosphate metabolism has 48 unique genes, which correspond to 53 probes in the library. 0 of 53 match ageing_brain_up, for a p-value of 1 The list purine ribonucleoside triphosphate metabolism has 48 unique genes, which correspond to 53 probes in the library. 0 of 53 match ageing_brain_up, for a p-value of 1 The list GTP metabolism has 11 unique genes, which correspond to 14 probes in the library. 0 of 14 match ageing_brain_up, for a p-value of 1 The list pyrimidine nucleoside triphosphate metabolism has 12 unique genes, which correspond to 14 probes in the library. 0 of 14 match ageing_brain_up, for a p-value of 1 The list pyrimidine ribonucleoside triphosphate metabolism has 9 unique genes, which correspond to 11 probes in the library. 0 of 11 match ageing_brain_up, for a p-value of 1 The list CTP metabolism has 9 unique genes, which correspond to 11 probes in the library. 0 of 11 match ageing_brain_up, for a p-value of 1 The list UTP metabolism has 9 unique genes, which correspond to 11 probes in the library. 0 of 11 match ageing_brain_up, for a p-value of 1 The list ribonucleoside triphosphate metabolism has 48 unique genes, which correspond to 53 probes in the library. 0 of 53 match ageing_brain_up, for a p-value of 1 The list purine nucleotide metabolism has 66 unique genes, which correspond to 72 probes in the library. 0 of 72 match ageing_brain_up, for a p-value of 1 The list purine ribonucleotide metabolism has 62 unique genes, which correspond to 68 probes in the library. 0 of 68 match ageing_brain_up, for a p-value of 1 The list pyrimidine nucleotide metabolism has 24 unique genes, which correspond to 27 probes in the library. 0 of 27 match ageing_brain_up, for a p-value of 1 The list pyrimidine ribonucleotide metabolism has 12 unique genes, which correspond to 13 probes in the library. 0 of 13 match ageing_brain_up, for a p-value of 1 The list ribonucleotide metabolism has 68 unique genes, which correspond to 76 probes in the library. 0 of 76 match ageing_brain_up, for a p-value of 1 The list nucleotide-sugar metabolism has 11 unique genes, which correspond to 12 probes in the library. 1 of 12 match ageing_brain_up, for a p-value of 0.246600599616196 The list regulation of nucleobase, nucleoside, nucleotide and nucleic acid metabolism has 1321 unique genes, which correspond to 1343 probes in the library. 21 of 1343 match ageing_brain_up, for a p-value of 0.980061761119809 The list negative regulation of nucleobase, nucleoside, nucleotide and nucleic acid metabolism has 92 unique genes, which correspond to 99 probes in the library. 5 of 99 match ageing_brain_up, for a p-value of 0.0824165594223805 The list negative regulation of transcription has 88 unique genes, which correspond to 98 probes in the library. 5 of 98 match ageing_brain_up, for a p-value of 0.0797053591637697 The list negative regulation of transcription, DNA-dependent has 68 unique genes, which correspond to 77 probes in the library. 3 of 77 match ageing_brain_up, for a p-value of 0.267557439450392 The list negative regulation of transcription from Pol II promoter has 51 unique genes, which correspond to 71 probes in the library. 2 of 71 match ageing_brain_up, for a p-value of 0.495333831242592 The list positive regulation of nucleobase, nucleoside, nucleotide and nucleic acid metabolism has 27 unique genes, which correspond to 28 probes in the library. 0 of 28 match ageing_brain_up, for a p-value of 1 The list positive regulation of transcription has 26 unique genes, which correspond to 25 probes in the library. 0 of 25 match ageing_brain_up, for a p-value of 1 The list positive regulation of transcription, DNA-dependent has 15 unique genes, which correspond to 13 probes in the library. 0 of 13 match ageing_brain_up, for a p-value of 1 The list regulation of transcription has 1308 unique genes, which correspond to 1327 probes in the library. 21 of 1327 match ageing_brain_up, for a p-value of 0.976794979385725 The list regulation of transcription, DNA-dependent has 1285 unique genes, which correspond to 1298 probes in the library. 21 of 1298 match ageing_brain_up, for a p-value of 0.969637149978029 The list regulation of transcription from Pol II promoter has 190 unique genes, which correspond to 267 probes in the library. 5 of 267 match ageing_brain_up, for a p-value of 0.747374094929324 The list regulation of transcription from Pol III promoter has 5 unique genes, which correspond to 7 probes in the library. 0 of 7 match ageing_brain_up, for a p-value of 1 The list RNA localization has 28 unique genes, which correspond to 29 probes in the library. 1 of 29 match ageing_brain_up, for a p-value of 0.495558196531514 The list RNA metabolism has 252 unique genes, which correspond to 264 probes in the library. 4 of 264 match ageing_brain_up, for a p-value of 0.865285879071182 The list mRNA metabolism has 143 unique genes, which correspond to 153 probes in the library. 4 of 153 match ageing_brain_up, for a p-value of 0.479402592679667 The list mRNA processing has 131 unique genes, which correspond to 140 probes in the library. 4 of 140 match ageing_brain_up, for a p-value of 0.412573742660515 The list mRNA polyadenylation has 6 unique genes, which correspond to 7 probes in the library. 0 of 7 match ageing_brain_up, for a p-value of 1 The list nuclear mRNA splicing, via spliceosome has 83 unique genes, which correspond to 98 probes in the library. 1 of 98 match ageing_brain_up, for a p-value of 0.900983773024834 The list spliceosomal snRNP biogenesis has 6 unique genes, which correspond to 3 probes in the library. 0 of 3 match ageing_brain_up, for a p-value of 1 The list spliceosome assembly has 16 unique genes, which correspond to 22 probes in the library. 0 of 22 match ageing_brain_up, for a p-value of 1 The list mRNA splice site selection has 7 unique genes, which correspond to 11 probes in the library. 0 of 11 match ageing_brain_up, for a p-value of 1 The list RNA modification has 30 unique genes, which correspond to 27 probes in the library. 0 of 27 match ageing_brain_up, for a p-value of 1 The list tRNA modification has 27 unique genes, which correspond to 24 probes in the library. 0 of 24 match ageing_brain_up, for a p-value of 1 The list RNA processing has 207 unique genes, which correspond to 216 probes in the library. 4 of 216 match ageing_brain_up, for a p-value of 0.743479582285152 The list RNA splicing has 101 unique genes, which correspond to 119 probes in the library. 1 of 119 match ageing_brain_up, for a p-value of 0.939674546370968 The list RNA splicing, via transesterification reactions has 83 unique genes, which correspond to 98 probes in the library. 1 of 98 match ageing_brain_up, for a p-value of 0.900983773024834 The list RNA splicing, via transesterification reactions with bulged adenosine as nucleophile has 83 unique genes, which correspond to 98 probes in the library. 1 of 98 match ageing_brain_up, for a p-value of 0.900983773024834 The list tRNA processing has 17 unique genes, which correspond to 14 probes in the library. 0 of 14 match ageing_brain_up, for a p-value of 1 The list rRNA metabolism has 25 unique genes, which correspond to 16 probes in the library. 0 of 16 match ageing_brain_up, for a p-value of 1 The list tRNA metabolism has 41 unique genes, which correspond to 36 probes in the library. 0 of 36 match ageing_brain_up, for a p-value of 1 The list transcription has 1363 unique genes, which correspond to 1380 probes in the library. 21 of 1380 match ageing_brain_up, for a p-value of 0.986087365975711 The list transcription, DNA-dependent has 1320 unique genes, which correspond to 1336 probes in the library. 21 of 1336 match ageing_brain_up, for a p-value of 0.978687069456713 The list RNA elongation has 6 unique genes, which correspond to 3 probes in the library. 0 of 3 match ageing_brain_up, for a p-value of 1 The list transcription from Pol I promoter has 5 unique genes, which correspond to 7 probes in the library. 0 of 7 match ageing_brain_up, for a p-value of 1 The list transcription from Pol II promoter has 360 unique genes, which correspond to 493 probes in the library. 7 of 493 match ageing_brain_up, for a p-value of 0.94172217181526 The list RNA elongation from Pol II promoter has 6 unique genes, which correspond to 6 probes in the library. 0 of 6 match ageing_brain_up, for a p-value of 1 The list transcription initiation from Pol II promoter has 28 unique genes, which correspond to 32 probes in the library. 1 of 32 match ageing_brain_up, for a p-value of 0.530032974670534 The list transcription from Pol III promoter has 19 unique genes, which correspond to 19 probes in the library. 0 of 19 match ageing_brain_up, for a p-value of 1 The list transcription initiation has 40 unique genes, which correspond to 49 probes in the library. 1 of 49 match ageing_brain_up, for a p-value of 0.685331560249258 The list one-carbon compound metabolism has 31 unique genes, which correspond to 37 probes in the library. 3 of 37 match ageing_brain_up, for a p-value of 0.0547574961906402 The list organic acid metabolism has 290 unique genes, which correspond to 321 probes in the library. 11 of 321 match ageing_brain_up, for a p-value of 0.134007798152447 The list carboxylic acid metabolism has 288 unique genes, which correspond to 319 probes in the library. 10 of 319 match ageing_brain_up, for a p-value of 0.214582200928797 The list oxidative phosphorylation has 69 unique genes, which correspond to 57 probes in the library. 0 of 57 match ageing_brain_up, for a p-value of 1 The list oxygen and reactive oxygen species metabolism has 48 unique genes, which correspond to 52 probes in the library. 2 of 52 match ageing_brain_up, for a p-value of 0.342840280439662 The list response to oxidative stress has 35 unique genes, which correspond to 37 probes in the library. 2 of 37 match ageing_brain_up, for a p-value of 0.213345681728603 The list superoxide metabolism has 12 unique genes, which correspond to 14 probes in the library. 0 of 14 match ageing_brain_up, for a p-value of 1 The list phosphorus metabolism has 597 unique genes, which correspond to 809 probes in the library. 20 of 809 match ageing_brain_up, for a p-value of 0.427055511637892 The list phosphate metabolism has 597 unique genes, which correspond to 809 probes in the library. 20 of 809 match ageing_brain_up, for a p-value of 0.427055511637892 The list dephosphorylation has 94 unique genes, which correspond to 131 probes in the library. 1 of 131 match ageing_brain_up, for a p-value of 0.954550839408007 The list protein amino acid dephosphorylation has 91 unique genes, which correspond to 130 probes in the library. 0 of 130 match ageing_brain_up, for a p-value of 1 The list phosphorylation has 498 unique genes, which correspond to 676 probes in the library. 19 of 676 match ageing_brain_up, for a p-value of 0.236274158406944 The list protein amino acid phosphorylation has 415 unique genes, which correspond to 608 probes in the library. 18 of 608 match ageing_brain_up, for a p-value of 0.1833140357071 The list peptidyl-tyrosine phosphorylation has 12 unique genes, which correspond to 25 probes in the library. 0 of 25 match ageing_brain_up, for a p-value of 1 The list regulation of protein kinase activity has 38 unique genes, which correspond to 53 probes in the library. 0 of 53 match ageing_brain_up, for a p-value of 1 The list negative regulation of protein kinase activity has 7 unique genes, which correspond to 10 probes in the library. 0 of 10 match ageing_brain_up, for a p-value of 1 The list regulation of phosphorylation has 5 unique genes, which correspond to 7 probes in the library. 0 of 7 match ageing_brain_up, for a p-value of 1 The list regulation of phosphate metabolism has 5 unique genes, which correspond to 7 probes in the library. 0 of 7 match ageing_brain_up, for a p-value of 1 The list protein metabolism has 1682 unique genes, which correspond to 1872 probes in the library. 32 of 1872 match ageing_brain_up, for a p-value of 0.973309987025042 The list cytokine metabolism has 24 unique genes, which correspond to 29 probes in the library. 2 of 29 match ageing_brain_up, for a p-value of 0.14626235933969 The list glycoprotein metabolism has 93 unique genes, which correspond to 83 probes in the library. 0 of 83 match ageing_brain_up, for a p-value of 1 The list beta-amyloid metabolism has 5 unique genes, which correspond to 6 probes in the library. 0 of 6 match ageing_brain_up, for a p-value of 1 The list lipoprotein metabolism has 27 unique genes, which correspond to 31 probes in the library. 0 of 31 match ageing_brain_up, for a p-value of 1 The list protein complex assembly has 99 unique genes, which correspond to 127 probes in the library. 2 of 127 match ageing_brain_up, for a p-value of 0.798589441447105 The list protein complex assembly, multichaperone pathway has 6 unique genes, which correspond to 5 probes in the library. 0 of 5 match ageing_brain_up, for a p-value of 1 The list protein folding has 97 unique genes, which correspond to 102 probes in the library. 3 of 102 match ageing_brain_up, for a p-value of 0.425879424252918 The list protein localization has 7 unique genes, which correspond to 9 probes in the library. 0 of 9 match ageing_brain_up, for a p-value of 1 The list protein modification has 758 unique genes, which correspond to 979 probes in the library. 20 of 979 match ageing_brain_up, for a p-value of 0.754403830256498 The list peptide cross-linking has 8 unique genes, which correspond to 8 probes in the library. 1 of 8 match ageing_brain_up, for a p-value of 0.172025718776189 The list peptidyl-amino acid modification has 19 unique genes, which correspond to 32 probes in the library. 0 of 32 match ageing_brain_up, for a p-value of 1 The list peptidyl-tyrosine modification has 14 unique genes, which correspond to 27 probes in the library. 0 of 27 match ageing_brain_up, for a p-value of 1 The list protein amino acid acetylation has 5 unique genes, which correspond to 4 probes in the library. 0 of 4 match ageing_brain_up, for a p-value of 1 The list protein amino acid ADP-ribosylation has 18 unique genes, which correspond to 19 probes in the library. 0 of 19 match ageing_brain_up, for a p-value of 1 The list protein amino acid alkylation has 7 unique genes, which correspond to 10 probes in the library. 0 of 10 match ageing_brain_up, for a p-value of 1 The list protein amino acid methylation has 6 unique genes, which correspond to 9 probes in the library. 0 of 9 match ageing_brain_up, for a p-value of 1 The list protein amino acid deacetylation has 10 unique genes, which correspond to 8 probes in the library. 0 of 8 match ageing_brain_up, for a p-value of 1 The list protein processing has 8 unique genes, which correspond to 7 probes in the library. 0 of 7 match ageing_brain_up, for a p-value of 1 The list ubiquitin cycle has 48 unique genes, which correspond to 52 probes in the library. 0 of 52 match ageing_brain_up, for a p-value of 1 The list protein ubiquitination has 10 unique genes, which correspond to 6 probes in the library. 0 of 6 match ageing_brain_up, for a p-value of 1 The list protein stabilization has 6 unique genes, which correspond to 6 probes in the library. 0 of 6 match ageing_brain_up, for a p-value of 1 The list regulation of metabolism has 1423 unique genes, which correspond to 1436 probes in the library. 24 of 1436 match ageing_brain_up, for a p-value of 0.965189138608793 The list negative regulation of metabolism has 108 unique genes, which correspond to 114 probes in the library. 6 of 114 match ageing_brain_up, for a p-value of 0.0513193972661534 The list positive regulation of metabolism has 45 unique genes, which correspond to 45 probes in the library. 0 of 45 match ageing_brain_up, for a p-value of 1 The list sulfur metabolism has 35 unique genes, which correspond to 29 probes in the library. 2 of 29 match ageing_brain_up, for a p-value of 0.14626235933969 The list vitamin metabolism has 35 unique genes, which correspond to 26 probes in the library. 1 of 26 match ageing_brain_up, for a p-value of 0.458554495587959 The list fat-soluble vitamin metabolism has 8 unique genes, which correspond to 6 probes in the library. 0 of 6 match ageing_brain_up, for a p-value of 1 The list vitamin A metabolism has 8 unique genes, which correspond to 6 probes in the library. 0 of 6 match ageing_brain_up, for a p-value of 1 The list water-soluble vitamin metabolism has 24 unique genes, which correspond to 16 probes in the library. 1 of 16 match ageing_brain_up, for a p-value of 0.314458589631913 The list xenobiotic metabolism has 57 unique genes, which correspond to 42 probes in the library. 0 of 42 match ageing_brain_up, for a p-value of 1 The list organismal physiological process has 1779 unique genes, which correspond to 1552 probes in the library. 27 of 1552 match ageing_brain_up, for a p-value of 0.953764882036205 The list bone remodeling has 28 unique genes, which correspond to 27 probes in the library. 0 of 27 match ageing_brain_up, for a p-value of 1 The list regulation of bone remodeling has 7 unique genes, which correspond to 6 probes in the library. 0 of 6 match ageing_brain_up, for a p-value of 1 The list circulation has 106 unique genes, which correspond to 127 probes in the library. 4 of 127 match ageing_brain_up, for a p-value of 0.34407428348972 The list regulation of blood pressure has 29 unique genes, which correspond to 32 probes in the library. 1 of 32 match ageing_brain_up, for a p-value of 0.530032974670534 The list regulation of blood vessel size has 9 unique genes, which correspond to 6 probes in the library. 0 of 6 match ageing_brain_up, for a p-value of 1 The list vasoconstriction has 7 unique genes, which correspond to 4 probes in the library. 0 of 4 match ageing_brain_up, for a p-value of 1 The list regulation of vasoconstriction has 6 unique genes, which correspond to 3 probes in the library. 0 of 3 match ageing_brain_up, for a p-value of 1 The list regulation of heart rate has 28 unique genes, which correspond to 36 probes in the library. 2 of 36 match ageing_brain_up, for a p-value of 0.2047733473752 The list digestion has 51 unique genes, which correspond to 51 probes in the library. 0 of 51 match ageing_brain_up, for a p-value of 1 The list excretion has 36 unique genes, which correspond to 39 probes in the library. 0 of 39 match ageing_brain_up, for a p-value of 1 The list fluid secretion has 6 unique genes, which correspond to 8 probes in the library. 0 of 8 match ageing_brain_up, for a p-value of 1 The list immune response has 661 unique genes, which correspond to 730 probes in the library. 9 of 730 match ageing_brain_up, for a p-value of 0.988310050230717 The list acute-phase response has 23 unique genes, which correspond to 20 probes in the library. 0 of 20 match ageing_brain_up, for a p-value of 1 The list antigen presentation has 27 unique genes, which correspond to 33 probes in the library. 0 of 33 match ageing_brain_up, for a p-value of 1 The list antigen presentation, endogenous antigen has 12 unique genes, which correspond to 15 probes in the library. 0 of 15 match ageing_brain_up, for a p-value of 1 The list antigen presentation, exogenous antigen has 13 unique genes, which correspond to 17 probes in the library. 0 of 17 match ageing_brain_up, for a p-value of 1 The list antigen processing has 28 unique genes, which correspond to 35 probes in the library. 0 of 35 match ageing_brain_up, for a p-value of 1 The list antigen processing, endogenous antigen via MHC class I has 12 unique genes, which correspond to 15 probes in the library. 0 of 15 match ageing_brain_up, for a p-value of 1 The list antigen processing, exogenous antigen via MHC class II has 14 unique genes, which correspond to 19 probes in the library. 0 of 19 match ageing_brain_up, for a p-value of 1 The list cytokine production has 25 unique genes, which correspond to 29 probes in the library. 2 of 29 match ageing_brain_up, for a p-value of 0.14626235933969 The list regulation of cytokine production has 22 unique genes, which correspond to 24 probes in the library. 2 of 24 match ageing_brain_up, for a p-value of 0.107117759637591 The list negative regulation of cytokine production has 6 unique genes, which correspond to 9 probes in the library. 1 of 9 match ageing_brain_up, for a p-value of 0.191334430335289 The list positive regulation of cytokine production has 14 unique genes, which correspond to 14 probes in the library. 0 of 14 match ageing_brain_up, for a p-value of 1 The list humoral immune response has 143 unique genes, which correspond to 178 probes in the library. 4 of 178 match ageing_brain_up, for a p-value of 0.598019086761276 The list antimicrobial humoral response has 77 unique genes, which correspond to 99 probes in the library. 1 of 99 match ageing_brain_up, for a p-value of 0.903292873451852 The list antimicrobial humoral response (sensu Vertebrata) has 76 unique genes, which correspond to 99 probes in the library. 1 of 99 match ageing_brain_up, for a p-value of 0.903292873451852 The list complement activation has 33 unique genes, which correspond to 35 probes in the library. 2 of 35 match ageing_brain_up, for a p-value of 0.196240135294009 The list complement activation, alternative pathway has 11 unique genes, which correspond to 11 probes in the library. 0 of 11 match ageing_brain_up, for a p-value of 1 The list complement activation, classical pathway has 27 unique genes, which correspond to 27 probes in the library. 0 of 27 match ageing_brain_up, for a p-value of 1 The list humoral defense mechanism (sensu Vertebrata) has 105 unique genes, which correspond to 126 probes in the library. 1 of 126 match ageing_brain_up, for a p-value of 0.948859456723145 The list T-helper 2 type immune response has 5 unique genes, which correspond to 10 probes in the library. 0 of 10 match ageing_brain_up, for a p-value of 1 The list innate immune response has 187 unique genes, which correspond to 192 probes in the library. 1 of 192 match ageing_brain_up, for a p-value of 0.989225321420828 The list inflammatory response has 175 unique genes, which correspond to 188 probes in the library. 1 of 188 match ageing_brain_up, for a p-value of 0.988158794993117 The list regulation of inflammatory response has 6 unique genes, which correspond to 3 probes in the library. 0 of 3 match ageing_brain_up, for a p-value of 1 The list regulation of innate immune response has 8 unique genes, which correspond to 5 probes in the library. 0 of 5 match ageing_brain_up, for a p-value of 1 The list regulation of immune response has 10 unique genes, which correspond to 6 probes in the library. 0 of 6 match ageing_brain_up, for a p-value of 1 The list neurophysiological process has 854 unique genes, which correspond to 530 probes in the library. 13 of 530 match ageing_brain_up, for a p-value of 0.465595024347806 The list neuromuscular physiological process has 240 unique genes, which correspond to 256 probes in the library. 5 of 256 match ageing_brain_up, for a p-value of 0.714054132711929 The list sensory perception has 624 unique genes, which correspond to 283 probes in the library. 9 of 283 match ageing_brain_up, for a p-value of 0.218381200476623 The list equilibrioception has 171 unique genes, which correspond to 169 probes in the library. 6 of 169 match ageing_brain_up, for a p-value of 0.203799829936679 The list visual perception has 171 unique genes, which correspond to 169 probes in the library. 6 of 169 match ageing_brain_up, for a p-value of 0.203799829936679 The list sensory perception of chemical stimulus has 371 unique genes, which correspond to 23 probes in the library. 0 of 23 match ageing_brain_up, for a p-value of 1 The list perception of smell has 345 unique genes, which correspond to 22 probes in the library. 0 of 22 match ageing_brain_up, for a p-value of 1 The list perception of taste has 25 unique genes, which correspond to 1 probes in the library. 0 of 1 match ageing_brain_up, for a p-value of 1 The list sensory perception of light has 171 unique genes, which correspond to 169 probes in the library. 6 of 169 match ageing_brain_up, for a p-value of 0.203799829936679 The list sensory perception of mechanical stimulus has 86 unique genes, which correspond to 90 probes in the library. 4 of 90 match ageing_brain_up, for a p-value of 0.15910749285072 The list perception of sound has 86 unique genes, which correspond to 90 probes in the library. 4 of 90 match ageing_brain_up, for a p-value of 0.15910749285072 The list organismal movement has 407 unique genes, which correspond to 421 probes in the library. 11 of 421 match ageing_brain_up, for a p-value of 0.393914397920321 The list musculoskeletal movement has 171 unique genes, which correspond to 169 probes in the library. 6 of 169 match ageing_brain_up, for a p-value of 0.203799829936679 The list regulation of balance has 171 unique genes, which correspond to 169 probes in the library. 6 of 169 match ageing_brain_up, for a p-value of 0.203799829936679 The list regulation of body fluids has 88 unique genes, which correspond to 103 probes in the library. 2 of 103 match ageing_brain_up, for a p-value of 0.695587641771628 The list hemostasis has 81 unique genes, which correspond to 92 probes in the library. 2 of 92 match ageing_brain_up, for a p-value of 0.635332890289725 The list reproductive physiological process has 50 unique genes, which correspond to 53 probes in the library. 2 of 53 match ageing_brain_up, for a p-value of 0.351328832925899 The list lactation has 5 unique genes, which correspond to 5 probes in the library. 0 of 5 match ageing_brain_up, for a p-value of 1 The list parturition has 5 unique genes, which correspond to 6 probes in the library. 0 of 6 match ageing_brain_up, for a p-value of 1 The list pregnancy has 43 unique genes, which correspond to 45 probes in the library. 1 of 45 match ageing_brain_up, for a p-value of 0.654184254601592 The list respiratory gaseous exchange has 16 unique genes, which correspond to 21 probes in the library. 0 of 21 match ageing_brain_up, for a p-value of 1 The list pathogenesis has 45 unique genes, which correspond to 58 probes in the library. 0 of 58 match ageing_brain_up, for a p-value of 1 The list regulation of physiological process has 1498 unique genes, which correspond to 1519 probes in the library. 28 of 1519 match ageing_brain_up, for a p-value of 0.915137314724663 The list negative regulation of physiological process has 18 unique genes, which correspond to 18 probes in the library. 2 of 18 match ageing_brain_up, for a p-value of 0.0650027722550804 The list negative regulation of secretion has 5 unique genes, which correspond to 6 probes in the library. 1 of 6 match ageing_brain_up, for a p-value of 0.132014170401496 The list positive regulation of physiological process has 6 unique genes, which correspond to 8 probes in the library. 1 of 8 match ageing_brain_up, for a p-value of 0.172025718776189 The list positive regulation of secretion has 6 unique genes, which correspond to 8 probes in the library. 1 of 8 match ageing_brain_up, for a p-value of 0.172025718776189 The list regulation of secretion has 10 unique genes, which correspond to 9 probes in the library. 1 of 9 match ageing_brain_up, for a p-value of 0.191334430335289 The list response to stimulus has 1732 unique genes, which correspond to 1558 probes in the library. 35 of 1558 match ageing_brain_up, for a p-value of 0.611532221171639 The list response to endogenous stimulus has 160 unique genes, which correspond to 226 probes in the library. 4 of 226 match ageing_brain_up, for a p-value of 0.774257347340474 The list response to DNA damage stimulus has 155 unique genes, which correspond to 223 probes in the library. 4 of 223 match ageing_brain_up, for a p-value of 0.765343951232665 The list DNA damage response, signal transduction has 13 unique genes, which correspond to 19 probes in the library. 0 of 19 match ageing_brain_up, for a p-value of 1 The list response to hormone stimulus has 5 unique genes, which correspond to 4 probes in the library. 0 of 4 match ageing_brain_up, for a p-value of 1 The list response to external stimulus has 1538 unique genes, which correspond to 1288 probes in the library. 28 of 1288 match ageing_brain_up, for a p-value of 0.671877583973166 The list detection of external stimulus has 651 unique genes, which correspond to 306 probes in the library. 9 of 306 match ageing_brain_up, for a p-value of 0.287443661166922 The list detection of abiotic stimulus has 119 unique genes, which correspond to 125 probes in the library. 4 of 125 match ageing_brain_up, for a p-value of 0.333507883552167 The list detection of chemical substance has 5 unique genes, which correspond to 4 probes in the library. 0 of 4 match ageing_brain_up, for a p-value of 1 The list detection of light has 24 unique genes, which correspond to 28 probes in the library. 0 of 28 match ageing_brain_up, for a p-value of 1 The list detection of visible light has 6 unique genes, which correspond to 6 probes in the library. 0 of 6 match ageing_brain_up, for a p-value of 1 The list phototransduction, visible light has 5 unique genes, which correspond to 6 probes in the library. 0 of 6 match ageing_brain_up, for a p-value of 1 The list phototransduction has 23 unique genes, which correspond to 28 probes in the library. 0 of 28 match ageing_brain_up, for a p-value of 1 The list detection of mechanical stimulus has 87 unique genes, which correspond to 91 probes in the library. 4 of 91 match ageing_brain_up, for a p-value of 0.163567575836813 The list detection of biotic stimulus has 15 unique genes, which correspond to 13 probes in the library. 0 of 13 match ageing_brain_up, for a p-value of 1 The list detection of pest/pathogen/parasite has 15 unique genes, which correspond to 13 probes in the library. 0 of 13 match ageing_brain_up, for a p-value of 1 The list detection of bacteria has 8 unique genes, which correspond to 5 probes in the library. 0 of 5 match ageing_brain_up, for a p-value of 1 The list response to abiotic stimulus has 354 unique genes, which correspond to 377 probes in the library. 7 of 377 match ageing_brain_up, for a p-value of 0.77679912666227 The list response to chemical substance has 210 unique genes, which correspond to 225 probes in the library. 3 of 225 match ageing_brain_up, for a p-value of 0.89742966076158 The list chemotaxis has 114 unique genes, which correspond to 127 probes in the library. 2 of 127 match ageing_brain_up, for a p-value of 0.798589441447105 The list response to drug has 12 unique genes, which correspond to 19 probes in the library. 0 of 19 match ageing_brain_up, for a p-value of 1 The list response to inorganic substance has 5 unique genes, which correspond to 4 probes in the library. 1 of 4 match ageing_brain_up, for a p-value of 0.090069078872571 The list response to organic substance has 6 unique genes, which correspond to 11 probes in the library. 0 of 11 match ageing_brain_up, for a p-value of 1 The list response to toxin has 8 unique genes, which correspond to 11 probes in the library. 0 of 11 match ageing_brain_up, for a p-value of 1 The list response to xenobiotic stimulus has 59 unique genes, which correspond to 44 probes in the library. 0 of 44 match ageing_brain_up, for a p-value of 1 The list response to radiation has 35 unique genes, which correspond to 42 probes in the library. 0 of 42 match ageing_brain_up, for a p-value of 1 The list response to light has 27 unique genes, which correspond to 33 probes in the library. 0 of 33 match ageing_brain_up, for a p-value of 1 The list response to temperature has 12 unique genes, which correspond to 11 probes in the library. 0 of 11 match ageing_brain_up, for a p-value of 1 The list response to cold has 5 unique genes, which correspond to 3 probes in the library. 0 of 3 match ageing_brain_up, for a p-value of 1 The list response to heat has 5 unique genes, which correspond to 7 probes in the library. 0 of 7 match ageing_brain_up, for a p-value of 1 The list response to biotic stimulus has 779 unique genes, which correspond to 860 probes in the library. 14 of 860 match ageing_brain_up, for a p-value of 0.937556343051644 The list defense response has 725 unique genes, which correspond to 799 probes in the library. 11 of 799 match ageing_brain_up, for a p-value of 0.97901010896312 The list defense response to bacteria has 21 unique genes, which correspond to 16 probes in the library. 0 of 16 match ageing_brain_up, for a p-value of 1 The list defense response to Gram-positive bacteria has 5 unique genes, which correspond to 1 probes in the library. 0 of 1 match ageing_brain_up, for a p-value of 1 The list defense response to fungi has 11 unique genes, which correspond to 8 probes in the library. 0 of 8 match ageing_brain_up, for a p-value of 1 The list response to bacteria has 39 unique genes, which correspond to 35 probes in the library. 1 of 35 match ageing_brain_up, for a p-value of 0.56215166273224 The list response to pathogenic bacteria has 15 unique genes, which correspond to 18 probes in the library. 1 of 18 match ageing_brain_up, for a p-value of 0.346059996438848 The list response to fungi has 13 unique genes, which correspond to 9 probes in the library. 0 of 9 match ageing_brain_up, for a p-value of 1 The list response to pest/pathogen/parasite has 406 unique genes, which correspond to 470 probes in the library. 8 of 470 match ageing_brain_up, for a p-value of 0.857294790616393 The list response to virus has 32 unique genes, which correspond to 38 probes in the library. 2 of 38 match ageing_brain_up, for a p-value of 0.221950672937495 The list response to unfolded protein has 6 unique genes, which correspond to 5 probes in the library. 0 of 5 match ageing_brain_up, for a p-value of 1 The list response to wounding has 251 unique genes, which correspond to 290 probes in the library. 3 of 290 match ageing_brain_up, for a p-value of 0.966057152118794 The list taxis has 114 unique genes, which correspond to 127 probes in the library. 2 of 127 match ageing_brain_up, for a p-value of 0.798589441447105 The list response to stress has 675 unique genes, which correspond to 824 probes in the library. 18 of 824 match ageing_brain_up, for a p-value of 0.642280623905215 The list response to hypoxia has 5 unique genes, which correspond to 4 probes in the library. 0 of 4 match ageing_brain_up, for a p-value of 1 The list secretion has 62 unique genes, which correspond to 67 probes in the library. 1 of 67 match ageing_brain_up, for a p-value of 0.794225719388818 The list protein secretion has 22 unique genes, which correspond to 20 probes in the library. 0 of 20 match ageing_brain_up, for a p-value of 1 The list regulation of biological process has 2076 unique genes, which correspond to 2234 probes in the library. 45 of 2234 match ageing_brain_up, for a p-value of 0.857496660065186 The list regulation of enzyme activity has 77 unique genes, which correspond to 103 probes in the library. 0 of 103 match ageing_brain_up, for a p-value of 1 The list negative regulation of enzyme activity has 23 unique genes, which correspond to 25 probes in the library. 0 of 25 match ageing_brain_up, for a p-value of 1 The list positive regulation of enzyme activity has 18 unique genes, which correspond to 29 probes in the library. 0 of 29 match ageing_brain_up, for a p-value of 1 The list regulation of viral life cycle has 6 unique genes, which correspond to 8 probes in the library. 0 of 8 match ageing_brain_up, for a p-value of 1 The list viral life cycle has 24 unique genes, which correspond to 28 probes in the library. 1 of 28 match ageing_brain_up, for a p-value of 0.483513512490416 The list viral infectious cycle has 21 unique genes, which correspond to 25 probes in the library. 0 of 25 match ageing_brain_up, for a p-value of 1 The list initiation of viral infection has 6 unique genes, which correspond to 5 probes in the library. 0 of 5 match ageing_brain_up, for a p-value of 1 The list viral entry has 6 unique genes, which correspond to 5 probes in the library. 0 of 5 match ageing_brain_up, for a p-value of 1 The list viral genome replication has 17 unique genes, which correspond to 21 probes in the library. 0 of 21 match ageing_brain_up, for a p-value of 1 The list biological_process has 8640 unique genes, which correspond to 8345 probes in the library. 187 of 8345 match ageing_brain_up, for a p-value of 0.71925011217705 The list behavior has 85 unique genes, which correspond to 94 probes in the library. 5 of 94 match ageing_brain_up, for a p-value of 0.069348886079308 The list feeding behavior has 19 unique genes, which correspond to 23 probes in the library. 2 of 23 match ageing_brain_up, for a p-value of 0.0996747760557306 The list learning and/or memory has 18 unique genes, which correspond to 26 probes in the library. 2 of 26 match ageing_brain_up, for a p-value of 0.122420496555504 The list locomotory behavior has 5 unique genes, which correspond to 7 probes in the library. 0 of 7 match ageing_brain_up, for a p-value of 1 The list mechanosensory behavior has 5 unique genes, which correspond to 4 probes in the library. 1 of 4 match ageing_brain_up, for a p-value of 0.090069078872571 The list rhythmic behavior has 18 unique genes, which correspond to 18 probes in the library. 0 of 18 match ageing_brain_up, for a p-value of 1 The list circadian rhythm has 12 unique genes, which correspond to 15 probes in the library. 0 of 15 match ageing_brain_up, for a p-value of 1 The list biological_process unknown has 378 unique genes, which correspond to 285 probes in the library. 13 of 285 match ageing_brain_up, for a p-value of 0.0175534421043945 The list cellular process has 5152 unique genes, which correspond to 5210 probes in the library. 131 of 5210 match ageing_brain_up, for a p-value of 0.202987225328929 The list cell communication has 2870 unique genes, which correspond to 2862 probes in the library. 69 of 2862 match ageing_brain_up, for a p-value of 0.406594814593479 The list cell adhesion has 519 unique genes, which correspond to 561 probes in the library. 19 of 561 match ageing_brain_up, for a p-value of 0.0708020494162015 The list cell recognition has 11 unique genes, which correspond to 12 probes in the library. 4 of 12 match ageing_brain_up, for a p-value of 0.000125980858251782 The list cell-cell adhesion has 226 unique genes, which correspond to 191 probes in the library. 7 of 191 match ageing_brain_up, for a p-value of 0.160810601041143 The list calcium-dependent cell-cell adhesion has 16 unique genes, which correspond to 2 probes in the library. 0 of 2 match ageing_brain_up, for a p-value of 1 The list heterophilic cell adhesion has 88 unique genes, which correspond to 86 probes in the library. 3 of 86 match ageing_brain_up, for a p-value of 0.324832883947835 The list leukocyte cell adhesion has 9 unique genes, which correspond to 10 probes in the library. 0 of 10 match ageing_brain_up, for a p-value of 1 The list homophilic cell adhesion has 110 unique genes, which correspond to 70 probes in the library. 2 of 70 match ageing_brain_up, for a p-value of 0.487861325799987 The list cell-matrix adhesion has 52 unique genes, which correspond to 73 probes in the library. 3 of 73 match ageing_brain_up, for a p-value of 0.242460852233868 The list regulation of cell adhesion has 21 unique genes, which correspond to 28 probes in the library. 0 of 28 match ageing_brain_up, for a p-value of 1 The list negative regulation of cell adhesion has 11 unique genes, which correspond to 15 probes in the library. 0 of 15 match ageing_brain_up, for a p-value of 1 The list cell-cell signaling has 510 unique genes, which correspond to 577 probes in the library. 12 of 577 match ageing_brain_up, for a p-value of 0.694144936908416 The list hormone secretion has 8 unique genes, which correspond to 11 probes in the library. 1 of 11 match ageing_brain_up, for a p-value of 0.228611492305938 The list regulation of hormone secretion has 5 unique genes, which correspond to 6 probes in the library. 1 of 6 match ageing_brain_up, for a p-value of 0.132014170401496 The list negative regulation of hormone secretion has 5 unique genes, which correspond to 6 probes in the library. 1 of 6 match ageing_brain_up, for a p-value of 0.132014170401496 The list transmission of nerve impulse has 240 unique genes, which correspond to 256 probes in the library. 5 of 256 match ageing_brain_up, for a p-value of 0.714054132711929 The list synaptic transmission has 237 unique genes, which correspond to 254 probes in the library. 5 of 254 match ageing_brain_up, for a p-value of 0.707673429700329 The list nerve-nerve synaptic transmission has 12 unique genes, which correspond to 17 probes in the library. 0 of 17 match ageing_brain_up, for a p-value of 1 The list synaptic transmission, cholinergic has 9 unique genes, which correspond to 11 probes in the library. 0 of 11 match ageing_brain_up, for a p-value of 1 The list regulation of neurotransmitter levels has 44 unique genes, which correspond to 49 probes in the library. 1 of 49 match ageing_brain_up, for a p-value of 0.685331560249258 The list neurotransmitter metabolism has 17 unique genes, which correspond to 21 probes in the library. 1 of 21 match ageing_brain_up, for a p-value of 0.39075184470358 The list neurotransmitter biosynthesis has 6 unique genes, which correspond to 5 probes in the library. 0 of 5 match ageing_brain_up, for a p-value of 1 The list neurotransmitter catabolism has 6 unique genes, which correspond to 11 probes in the library. 1 of 11 match ageing_brain_up, for a p-value of 0.228611492305938 The list neurotransmitter secretion has 22 unique genes, which correspond to 20 probes in the library. 0 of 20 match ageing_brain_up, for a p-value of 1 The list synaptic vesicle endocytosis has 6 unique genes, which correspond to 8 probes in the library. 0 of 8 match ageing_brain_up, for a p-value of 1 The list synaptic vesicle exocytosis has 7 unique genes, which correspond to 6 probes in the library. 0 of 6 match ageing_brain_up, for a p-value of 1 The list synaptic vesicle transport has 15 unique genes, which correspond to 15 probes in the library. 0 of 15 match ageing_brain_up, for a p-value of 1 The list response to extracellular stimulus has 14 unique genes, which correspond to 17 probes in the library. 0 of 17 match ageing_brain_up, for a p-value of 1 The list response to nutrients has 13 unique genes, which correspond to 17 probes in the library. 0 of 17 match ageing_brain_up, for a p-value of 1 The list signal transduction has 2306 unique genes, which correspond to 2290 probes in the library. 52 of 2290 match ageing_brain_up, for a p-value of 0.595983454236889 The list cell surface receptor linked signal transduction has 1219 unique genes, which correspond to 1002 probes in the library. 24 of 1002 match ageing_brain_up, for a p-value of 0.475600825763403 The list cytokine and chemokine mediated signaling pathway has 5 unique genes, which correspond to 8 probes in the library. 0 of 8 match ageing_brain_up, for a p-value of 1 The list enzyme linked receptor protein signaling pathway has 132 unique genes, which correspond to 219 probes in the library. 9 of 219 match ageing_brain_up, for a p-value of 0.0729449033378513 The list transmembrane receptor protein serine/threonine kinase signaling pathway has 33 unique genes, which correspond to 54 probes in the library. 1 of 54 match ageing_brain_up, for a p-value of 0.72035071324837 The list transforming growth factor beta receptor signaling pathway has 25 unique genes, which correspond to 41 probes in the library. 0 of 41 match ageing_brain_up, for a p-value of 1 The list transmembrane receptor protein tyrosine kinase signaling pathway has 88 unique genes, which correspond to 146 probes in the library. 8 of 146 match ageing_brain_up, for a p-value of 0.0217762493038077 The list epidermal growth factor receptor signaling pathway has 14 unique genes, which correspond to 19 probes in the library. 0 of 19 match ageing_brain_up, for a p-value of 1 The list fibroblast growth factor receptor signaling pathway has 8 unique genes, which correspond to 10 probes in the library. 1 of 10 match ageing_brain_up, for a p-value of 0.210192854547878 The list insulin receptor signaling pathway has 8 unique genes, which correspond to 16 probes in the library. 0 of 16 match ageing_brain_up, for a p-value of 1 The list signal complex formation has 6 unique genes, which correspond to 11 probes in the library. 0 of 11 match ageing_brain_up, for a p-value of 1 The list transmembrane receptor protein tyrosine phosphatase signaling pathway has 6 unique genes, which correspond to 11 probes in the library. 0 of 11 match ageing_brain_up, for a p-value of 1 The list G-protein coupled receptor protein signaling pathway has 867 unique genes, which correspond to 505 probes in the library. 10 of 505 match ageing_brain_up, for a p-value of 0.740588878286138 The list acetyl choline receptor signaling, muscarinic pathway has 5 unique genes, which correspond to 2 probes in the library. 0 of 2 match ageing_brain_up, for a p-value of 1 The list dopamine receptor signaling pathway has 6 unique genes, which correspond to 8 probes in the library. 0 of 8 match ageing_brain_up, for a p-value of 1 The list G-protein signaling, coupled to cyclic nucleotide second messenger has 97 unique genes, which correspond to 120 probes in the library. 0 of 120 match ageing_brain_up, for a p-value of 1 The list G-protein signaling, coupled to cAMP nucleotide second messenger has 59 unique genes, which correspond to 73 probes in the library. 0 of 73 match ageing_brain_up, for a p-value of 1 The list G-protein signaling, adenylate cyclase activating pathway has 20 unique genes, which correspond to 32 probes in the library. 0 of 32 match ageing_brain_up, for a p-value of 1 The list adenylate cyclase activation has 17 unique genes, which correspond to 28 probes in the library. 0 of 28 match ageing_brain_up, for a p-value of 1 The list G-protein signaling, adenylate cyclase inhibiting pathway has 42 unique genes, which correspond to 52 probes in the library. 0 of 52 match ageing_brain_up, for a p-value of 1 The list regulation of adenylate cyclase activity has 32 unique genes, which correspond to 43 probes in the library. 0 of 43 match ageing_brain_up, for a p-value of 1 The list negative regulation of adenylate cyclase activity has 15 unique genes, which correspond to 15 probes in the library. 0 of 15 match ageing_brain_up, for a p-value of 1 The list positive regulation of adenylate cyclase activity has 17 unique genes, which correspond to 28 probes in the library. 0 of 28 match ageing_brain_up, for a p-value of 1 The list G-protein signaling, coupled to IP3 second messenger (phospholipase C activating) has 77 unique genes, which correspond to 80 probes in the library. 1 of 80 match ageing_brain_up, for a p-value of 0.848585150876296 The list cytosolic calcium ion concentration elevation has 38 unique genes, which correspond to 40 probes in the library. 0 of 40 match ageing_brain_up, for a p-value of 1 The list phospholipase C activation has 12 unique genes, which correspond to 14 probes in the library. 0 of 14 match ageing_brain_up, for a p-value of 1 The list protein kinase C activation has 21 unique genes, which correspond to 21 probes in the library. 1 of 21 match ageing_brain_up, for a p-value of 0.39075184470358 The list gamma-aminobutyric acid signaling pathway has 13 unique genes, which correspond to 11 probes in the library. 0 of 11 match ageing_brain_up, for a p-value of 1 The list glutamate signaling pathway has 12 unique genes, which correspond to 14 probes in the library. 0 of 14 match ageing_brain_up, for a p-value of 1 The list neuropeptide signaling pathway has 62 unique genes, which correspond to 59 probes in the library. 2 of 59 match ageing_brain_up, for a p-value of 0.40135771337176 The list regulation of G-protein coupled receptor protein signaling pathway has 24 unique genes, which correspond to 27 probes in the library. 2 of 27 match ageing_brain_up, for a p-value of 0.130259284039254 The list tachykinin signaling pathway has 5 unique genes, which correspond to 4 probes in the library. 0 of 4 match ageing_brain_up, for a p-value of 1 The list integrin-mediated signaling pathway has 36 unique genes, which correspond to 50 probes in the library. 2 of 50 match ageing_brain_up, for a p-value of 0.325759685124086 The list Notch signaling pathway has 9 unique genes, which correspond to 8 probes in the library. 0 of 8 match ageing_brain_up, for a p-value of 1 The list Wnt receptor signaling pathway has 81 unique genes, which correspond to 80 probes in the library. 1 of 80 match ageing_brain_up, for a p-value of 0.848585150876296 The list frizzled signaling pathway has 17 unique genes, which correspond to 11 probes in the library. 1 of 11 match ageing_brain_up, for a p-value of 0.228611492305938 The list frizzled-2 signaling pathway has 19 unique genes, which correspond to 16 probes in the library. 0 of 16 match ageing_brain_up, for a p-value of 1 The list regulation of Wnt receptor signaling pathway has 10 unique genes, which correspond to 11 probes in the library. 0 of 11 match ageing_brain_up, for a p-value of 1 The list negative regulation of Wnt receptor signaling pathway has 5 unique genes, which correspond to 3 probes in the library. 0 of 3 match ageing_brain_up, for a p-value of 1 The list intracellular signaling cascade has 744 unique genes, which correspond to 873 probes in the library. 16 of 873 match ageing_brain_up, for a p-value of 0.864162285654345 The list intracellular receptor-mediated signaling pathway has 19 unique genes, which correspond to 17 probes in the library. 1 of 17 match ageing_brain_up, for a p-value of 0.330445706206417 The list steroid hormone receptor signaling pathway has 18 unique genes, which correspond to 17 probes in the library. 1 of 17 match ageing_brain_up, for a p-value of 0.330445706206417 The list androgen receptor signaling pathway has 12 unique genes, which correspond to 9 probes in the library. 1 of 9 match ageing_brain_up, for a p-value of 0.191334430335289 The list estrogen receptor signaling pathway has 7 unique genes, which correspond to 8 probes in the library. 0 of 8 match ageing_brain_up, for a p-value of 1 The list nitric oxide mediated signal transduction has 5 unique genes, which correspond to 5 probes in the library. 0 of 5 match ageing_brain_up, for a p-value of 1 The list protein kinase cascade has 196 unique genes, which correspond to 254 probes in the library. 9 of 254 match ageing_brain_up, for a p-value of 0.142477228183395 The list I-kappaB kinase/NF-kappaB cascade has 77 unique genes, which correspond to 99 probes in the library. 3 of 99 match ageing_brain_up, for a p-value of 0.407232178612994 The list activation of NF-kappaB-inducing kinase has 11 unique genes, which correspond to 11 probes in the library. 0 of 11 match ageing_brain_up, for a p-value of 1 The list regulation of I-kappaB kinase/NF-kappaB cascade has 54 unique genes, which correspond to 74 probes in the library. 2 of 74 match ageing_brain_up, for a p-value of 0.51732821888116 The list positive regulation of I-kappaB kinase/NF-kappaB cascade has 53 unique genes, which correspond to 73 probes in the library. 2 of 73 match ageing_brain_up, for a p-value of 0.510068039056804 The list JAK-STAT cascade has 26 unique genes, which correspond to 48 probes in the library. 1 of 48 match ageing_brain_up, for a p-value of 0.677818142629143 The list regulation of JAK-STAT cascade has 6 unique genes, which correspond to 10 probes in the library. 0 of 10 match ageing_brain_up, for a p-value of 1 The list negative regulation of JAK-STAT cascade has 5 unique genes, which correspond to 10 probes in the library. 0 of 10 match ageing_brain_up, for a p-value of 1 The list regulation of tyrosine phosphorylation of STAT protein has 5 unique genes, which correspond to 8 probes in the library. 0 of 8 match ageing_brain_up, for a p-value of 1 The list regulation of tyrosine phosphorylation of Stat3 protein has 5 unique genes, which correspond to 8 probes in the library. 0 of 8 match ageing_brain_up, for a p-value of 1 The list tyrosine phosphorylation of STAT protein has 8 unique genes, which correspond to 18 probes in the library. 0 of 18 match ageing_brain_up, for a p-value of 1 The list tyrosine phosphorylation of Stat3 protein has 5 unique genes, which correspond to 8 probes in the library. 0 of 8 match ageing_brain_up, for a p-value of 1 The list JNK cascade has 29 unique genes, which correspond to 36 probes in the library. 1 of 36 match ageing_brain_up, for a p-value of 0.572362471742441 The list activation of JUNK has 7 unique genes, which correspond to 4 probes in the library. 1 of 4 match ageing_brain_up, for a p-value of 0.090069078872571 The list regulation of JNK cascade has 5 unique genes, which correspond to 6 probes in the library. 0 of 6 match ageing_brain_up, for a p-value of 1 The list MAPKKK cascade has 45 unique genes, which correspond to 58 probes in the library. 4 of 58 match ageing_brain_up, for a p-value of 0.0464471017529351 The list activation of MAPK has 18 unique genes, which correspond to 16 probes in the library. 2 of 16 match ageing_brain_up, for a p-value of 0.0525570698705685 The list inactivation of MAPK has 14 unique genes, which correspond to 20 probes in the library. 0 of 20 match ageing_brain_up, for a p-value of 1 The list second-messenger-mediated signaling has 110 unique genes, which correspond to 134 probes in the library. 0 of 134 match ageing_brain_up, for a p-value of 1 The list calcium-mediated signaling has 7 unique genes, which correspond to 5 probes in the library. 0 of 5 match ageing_brain_up, for a p-value of 1 The list cyclic-nucleotide-mediated signaling has 97 unique genes, which correspond to 120 probes in the library. 0 of 120 match ageing_brain_up, for a p-value of 1 The list cAMP-mediated signaling has 59 unique genes, which correspond to 73 probes in the library. 0 of 73 match ageing_brain_up, for a p-value of 1 The list small GTPase mediated signal transduction has 172 unique genes, which correspond to 199 probes in the library. 4 of 199 match ageing_brain_up, for a p-value of 0.684006505239967 The list RAS protein signal transduction has 20 unique genes, which correspond to 37 probes in the library. 2 of 37 match ageing_brain_up, for a p-value of 0.213345681728603 The list Rho protein signal transduction has 18 unique genes, which correspond to 26 probes in the library. 0 of 26 match ageing_brain_up, for a p-value of 1 The list regulation of signal transduction has 117 unique genes, which correspond to 145 probes in the library. 4 of 145 match ageing_brain_up, for a p-value of 0.43856812743908 The list negative regulation of signal transduction has 18 unique genes, which correspond to 19 probes in the library. 0 of 19 match ageing_brain_up, for a p-value of 1 The list positive regulation of signal transduction has 56 unique genes, which correspond to 75 probes in the library. 2 of 75 match ageing_brain_up, for a p-value of 0.524516223427995 The list two-component signal transduction system (phosphorelay) has 7 unique genes, which correspond to 4 probes in the library. 0 of 4 match ageing_brain_up, for a p-value of 1 The list cell differentiation has 173 unique genes, which correspond to 194 probes in the library. 10 of 194 match ageing_brain_up, for a p-value of 0.0164271013093533 The list cell development has 10 unique genes, which correspond to 14 probes in the library. 2 of 14 match ageing_brain_up, for a p-value of 0.0410919702189122 The list cell maturation has 8 unique genes, which correspond to 10 probes in the library. 2 of 10 match ageing_brain_up, for a p-value of 0.0216086124219939 The list nerve maturation has 8 unique genes, which correspond to 10 probes in the library. 2 of 10 match ageing_brain_up, for a p-value of 0.0216086124219939 The list nerve ensheathment has 8 unique genes, which correspond to 10 probes in the library. 2 of 10 match ageing_brain_up, for a p-value of 0.0216086124219939 The list cell fate commitment has 14 unique genes, which correspond to 15 probes in the library. 0 of 15 match ageing_brain_up, for a p-value of 1 The list cell fate determination has 13 unique genes, which correspond to 14 probes in the library. 0 of 14 match ageing_brain_up, for a p-value of 1 The list hemocyte differentiation (sensu Arthropoda) has 7 unique genes, which correspond to 6 probes in the library. 1 of 6 match ageing_brain_up, for a p-value of 0.132014170401496 The list hemocyte development has 6 unique genes, which correspond to 5 probes in the library. 1 of 5 match ageing_brain_up, for a p-value of 0.111289054049562 The list keratinocyte differentiation has 8 unique genes, which correspond to 6 probes in the library. 0 of 6 match ageing_brain_up, for a p-value of 1 The list lymphocyte differentiation has 26 unique genes, which correspond to 36 probes in the library. 0 of 36 match ageing_brain_up, for a p-value of 1 The list B-cell differentiation has 12 unique genes, which correspond to 15 probes in the library. 0 of 15 match ageing_brain_up, for a p-value of 1 The list regulation of lymphocyte differentiation has 9 unique genes, which correspond to 15 probes in the library. 0 of 15 match ageing_brain_up, for a p-value of 1 The list positive regulation of lymphocyte differentiation has 5 unique genes, which correspond to 7 probes in the library. 0 of 7 match ageing_brain_up, for a p-value of 1 The list positive regulation of T-cell differentiation has 5 unique genes, which correspond to 7 probes in the library. 0 of 7 match ageing_brain_up, for a p-value of 1 The list regulation of T-cell differentiation has 7 unique genes, which correspond to 11 probes in the library. 0 of 11 match ageing_brain_up, for a p-value of 1 The list T-cell differentiation has 12 unique genes, which correspond to 19 probes in the library. 0 of 19 match ageing_brain_up, for a p-value of 1 The list T-helper cell differentiation has 5 unique genes, which correspond to 7 probes in the library. 0 of 7 match ageing_brain_up, for a p-value of 1 The list myeloid blood cell differentiation has 13 unique genes, which correspond to 15 probes in the library. 1 of 15 match ageing_brain_up, for a p-value of 0.298089744646829 The list monocyte differentiation has 9 unique genes, which correspond to 10 probes in the library. 1 of 10 match ageing_brain_up, for a p-value of 0.210192854547878 The list regulation of monocyte differentiation has 6 unique genes, which correspond to 7 probes in the library. 0 of 7 match ageing_brain_up, for a p-value of 1 The list regulation of myeloid blood cell differentiation has 8 unique genes, which correspond to 10 probes in the library. 0 of 10 match ageing_brain_up, for a p-value of 1 The list negative regulation of myeloid blood cell differentiation has 5 unique genes, which correspond to 6 probes in the library. 0 of 6 match ageing_brain_up, for a p-value of 1 The list myoblast differentiation has 6 unique genes, which correspond to 10 probes in the library. 0 of 10 match ageing_brain_up, for a p-value of 1 The list neuron differentiation has 14 unique genes, which correspond to 12 probes in the library. 0 of 12 match ageing_brain_up, for a p-value of 1 The list regulation of neuron differentiation has 9 unique genes, which correspond to 9 probes in the library. 0 of 9 match ageing_brain_up, for a p-value of 1 The list regulation of cell differentiation has 39 unique genes, which correspond to 48 probes in the library. 0 of 48 match ageing_brain_up, for a p-value of 1 The list negative regulation of cell differentiation has 10 unique genes, which correspond to 8 probes in the library. 0 of 8 match ageing_brain_up, for a p-value of 1 The list positive regulation of cell differentiation has 12 unique genes, which correspond to 17 probes in the library. 0 of 17 match ageing_brain_up, for a p-value of 1 The list spermatid development has 9 unique genes, which correspond to 8 probes in the library. 2 of 8 match ageing_brain_up, for a p-value of 0.0138677145358678 The list cellular physiological process has 3253 unique genes, which correspond to 3570 probes in the library. 92 of 3570 match ageing_brain_up, for a p-value of 0.179397152586574 The list autophagy has 5 unique genes, which correspond to 6 probes in the library. 0 of 6 match ageing_brain_up, for a p-value of 1 The list cell activation has 69 unique genes, which correspond to 79 probes in the library. 1 of 79 match ageing_brain_up, for a p-value of 0.844969780373127 The list immune cell activation has 69 unique genes, which correspond to 79 probes in the library. 1 of 79 match ageing_brain_up, for a p-value of 0.844969780373127 The list lymphocyte activation has 56 unique genes, which correspond to 68 probes in the library. 0 of 68 match ageing_brain_up, for a p-value of 1 The list B-cell activation has 22 unique genes, which correspond to 28 probes in the library. 0 of 28 match ageing_brain_up, for a p-value of 1 The list B-cell proliferation has 6 unique genes, which correspond to 8 probes in the library. 0 of 8 match ageing_brain_up, for a p-value of 1 The list lymphocyte proliferation has 18 unique genes, which correspond to 23 probes in the library. 0 of 23 match ageing_brain_up, for a p-value of 1 The list regulation of lymphocyte proliferation has 13 unique genes, which correspond to 17 probes in the library. 0 of 17 match ageing_brain_up, for a p-value of 1 The list positive regulation of lymphocyte proliferation has 10 unique genes, which correspond to 13 probes in the library. 0 of 13 match ageing_brain_up, for a p-value of 1 The list positive regulation of T-cell proliferation has 8 unique genes, which correspond to 12 probes in the library. 0 of 12 match ageing_brain_up, for a p-value of 1 The list regulation of T-cell proliferation has 10 unique genes, which correspond to 15 probes in the library. 0 of 15 match ageing_brain_up, for a p-value of 1 The list T-cell proliferation has 11 unique genes, which correspond to 16 probes in the library. 0 of 16 match ageing_brain_up, for a p-value of 1 The list natural killer cell activation has 9 unique genes, which correspond to 6 probes in the library. 0 of 6 match ageing_brain_up, for a p-value of 1 The list T-cell activation has 30 unique genes, which correspond to 42 probes in the library. 0 of 42 match ageing_brain_up, for a p-value of 1 The list cell death has 370 unique genes, which correspond to 462 probes in the library. 9 of 462 match ageing_brain_up, for a p-value of 0.750417405708232 The list cytolysis has 15 unique genes, which correspond to 14 probes in the library. 0 of 14 match ageing_brain_up, for a p-value of 1 The list programmed cell death has 349 unique genes, which correspond to 437 probes in the library. 9 of 437 match ageing_brain_up, for a p-value of 0.691075002870019 The list apoptosis has 346 unique genes, which correspond to 433 probes in the library. 9 of 433 match ageing_brain_up, for a p-value of 0.680813643447923 The list apoptotic program has 38 unique genes, which correspond to 53 probes in the library. 0 of 53 match ageing_brain_up, for a p-value of 1 The list apoptotic nuclear changes has 7 unique genes, which correspond to 4 probes in the library. 0 of 4 match ageing_brain_up, for a p-value of 1 The list DNA fragmentation has 5 unique genes, which correspond to 3 probes in the library. 0 of 3 match ageing_brain_up, for a p-value of 1 The list caspase activation has 20 unique genes, which correspond to 22 probes in the library. 0 of 22 match ageing_brain_up, for a p-value of 1 The list regulation of caspase activation has 5 unique genes, which correspond to 3 probes in the library. 0 of 3 match ageing_brain_up, for a p-value of 1 The list negative regulation of caspase activation has 5 unique genes, which correspond to 3 probes in the library. 0 of 3 match ageing_brain_up, for a p-value of 1 The list inhibition of caspase activation has 5 unique genes, which correspond to 3 probes in the library. 0 of 3 match ageing_brain_up, for a p-value of 1 The list disassembly of cell structures has 5 unique genes, which correspond to 3 probes in the library. 0 of 3 match ageing_brain_up, for a p-value of 1 The list regulation of apoptosis has 206 unique genes, which correspond to 266 probes in the library. 3 of 266 match ageing_brain_up, for a p-value of 0.948414366378682 The list negative regulation of apoptosis has 88 unique genes, which correspond to 115 probes in the library. 1 of 115 match ageing_brain_up, for a p-value of 0.933703260073538 The list anti-apoptosis has 84 unique genes, which correspond to 111 probes in the library. 1 of 111 match ageing_brain_up, for a p-value of 0.927140908845785 The list regulation of anti-apoptosis has 6 unique genes, which correspond to 6 probes in the library. 0 of 6 match ageing_brain_up, for a p-value of 1 The list positive regulation of anti-apoptosis has 5 unique genes, which correspond to 5 probes in the library. 0 of 5 match ageing_brain_up, for a p-value of 1 The list positive regulation of apoptosis has 106 unique genes, which correspond to 147 probes in the library. 2 of 147 match ageing_brain_up, for a p-value of 0.859482029476137 The list induction of apoptosis has 103 unique genes, which correspond to 144 probes in the library. 2 of 144 match ageing_brain_up, for a p-value of 0.851569799854272 The list induction of apoptosis by extracellular signals has 27 unique genes, which correspond to 39 probes in the library. 1 of 39 match ageing_brain_up, for a p-value of 0.601588259155834 The list induction of apoptosis via death domain receptors has 9 unique genes, which correspond to 8 probes in the library. 0 of 8 match ageing_brain_up, for a p-value of 1 The list induction of apoptosis by intracellular signals has 13 unique genes, which correspond to 17 probes in the library. 0 of 17 match ageing_brain_up, for a p-value of 1 The list DNA damage response, signal transduction resulting in induction of apoptosis has 6 unique genes, which correspond to 9 probes in the library. 0 of 9 match ageing_brain_up, for a p-value of 1 The list regulation of programmed cell death has 208 unique genes, which correspond to 269 probes in the library. 3 of 269 match ageing_brain_up, for a p-value of 0.951014735266089 The list negative regulation of programmed cell death has 89 unique genes, which correspond to 118 probes in the library. 1 of 118 match ageing_brain_up, for a p-value of 0.938234140315004 The list positive regulation of programmed cell death has 107 unique genes, which correspond to 147 probes in the library. 2 of 147 match ageing_brain_up, for a p-value of 0.859482029476137 The list induction of programmed cell death has 103 unique genes, which correspond to 144 probes in the library. 2 of 144 match ageing_brain_up, for a p-value of 0.851569799854272 The list cell growth and/or maintenance has 2800 unique genes, which correspond to 3068 probes in the library. 77 of 3068 match ageing_brain_up, for a p-value of 0.272645703381897 The list cell growth has 86 unique genes, which correspond to 103 probes in the library. 4 of 103 match ageing_brain_up, for a p-value of 0.220200295160912 The list regulation of cell growth has 66 unique genes, which correspond to 80 probes in the library. 3 of 80 match ageing_brain_up, for a p-value of 0.286568155322868 The list negative regulation of cell growth has 17 unique genes, which correspond to 20 probes in the library. 0 of 20 match ageing_brain_up, for a p-value of 1 The list cell homeostasis has 72 unique genes, which correspond to 80 probes in the library. 3 of 80 match ageing_brain_up, for a p-value of 0.286568155322868 The list cell ion homeostasis has 64 unique genes, which correspond to 75 probes in the library. 3 of 75 match ageing_brain_up, for a p-value of 0.254966052921675 The list cation homeostasis has 59 unique genes, which correspond to 69 probes in the library. 3 of 69 match ageing_brain_up, for a p-value of 0.217781803072794 The list di-, tri-valent inorganic cation homeostasis has 41 unique genes, which correspond to 57 probes in the library. 3 of 57 match ageing_brain_up, for a p-value of 0.14780310762488 The list calcium ion homeostasis has 23 unique genes, which correspond to 33 probes in the library. 1 of 33 match ageing_brain_up, for a p-value of 0.540992805114738 The list copper ion homeostasis has 5 unique genes, which correspond to 6 probes in the library. 1 of 6 match ageing_brain_up, for a p-value of 0.132014170401496 The list iron ion homeostasis has 14 unique genes, which correspond to 19 probes in the library. 1 of 19 match ageing_brain_up, for a p-value of 0.3613101547977 The list metal ion homeostasis has 45 unique genes, which correspond to 60 probes in the library. 3 of 60 match ageing_brain_up, for a p-value of 0.164577697580716 The list transition metal ion homeostasis has 18 unique genes, which correspond to 24 probes in the library. 2 of 24 match ageing_brain_up, for a p-value of 0.107117759637591 The list monovalent inorganic cation homeostasis has 15 unique genes, which correspond to 10 probes in the library. 0 of 10 match ageing_brain_up, for a p-value of 1 The list hydrogen ion homeostasis has 14 unique genes, which correspond to 9 probes in the library. 0 of 9 match ageing_brain_up, for a p-value of 1 The list regulation of pH has 10 unique genes, which correspond to 6 probes in the library. 0 of 6 match ageing_brain_up, for a p-value of 1 The list regulation of cell volume has 5 unique genes, which correspond to 5 probes in the library. 0 of 5 match ageing_brain_up, for a p-value of 1 The list cell organization and biogenesis has 616 unique genes, which correspond to 649 probes in the library. 18 of 649 match ageing_brain_up, for a p-value of 0.260766932951695 The list cellular morphogenesis has 125 unique genes, which correspond to 157 probes in the library. 7 of 157 match ageing_brain_up, for a p-value of 0.0760664535961146 The list establishment and/or maintenance of cell polarity has 12 unique genes, which correspond to 18 probes in the library. 0 of 18 match ageing_brain_up, for a p-value of 1 The list regulation of cell shape has 7 unique genes, which correspond to 10 probes in the library. 1 of 10 match ageing_brain_up, for a p-value of 0.210192854547878 The list regulation of cell size has 86 unique genes, which correspond to 103 probes in the library. 4 of 103 match ageing_brain_up, for a p-value of 0.220200295160912 The list negative regulation of cell size has 17 unique genes, which correspond to 20 probes in the library. 0 of 20 match ageing_brain_up, for a p-value of 1 The list cytoplasm organization and biogenesis has 352 unique genes, which correspond to 361 probes in the library. 12 of 361 match ageing_brain_up, for a p-value of 0.141939489344536 The list intercellular junction assembly and/or maintenance has 10 unique genes, which correspond to 11 probes in the library. 0 of 11 match ageing_brain_up, for a p-value of 1 The list intercellular junction assembly has 7 unique genes, which correspond to 7 probes in the library. 0 of 7 match ageing_brain_up, for a p-value of 1 The list organelle organization and biogenesis has 298 unique genes, which correspond to 317 probes in the library. 12 of 317 match ageing_brain_up, for a p-value of 0.0707504697070928 The list cytoskeleton organization and biogenesis has 246 unique genes, which correspond to 271 probes in the library. 10 of 271 match ageing_brain_up, for a p-value of 0.105168357481728 The list actin filament-based process has 94 unique genes, which correspond to 105 probes in the library. 4 of 105 match ageing_brain_up, for a p-value of 0.23010924606095 The list actin cytoskeleton organization and biogenesis has 84 unique genes, which correspond to 92 probes in the library. 4 of 92 match ageing_brain_up, for a p-value of 0.168072150248322 The list actin filament organization has 14 unique genes, which correspond to 16 probes in the library. 0 of 16 match ageing_brain_up, for a p-value of 1 The list actin filament bundle formation has 6 unique genes, which correspond to 8 probes in the library. 0 of 8 match ageing_brain_up, for a p-value of 1 The list actin polymerization and/or depolymerization has 21 unique genes, which correspond to 29 probes in the library. 1 of 29 match ageing_brain_up, for a p-value of 0.495558196531514 The list actin filament polymerization has 11 unique genes, which correspond to 16 probes in the library. 1 of 16 match ageing_brain_up, for a p-value of 0.314458589631913 The list regulation of actin filament polymerization has 6 unique genes, which correspond to 9 probes in the library. 0 of 9 match ageing_brain_up, for a p-value of 1 The list regulation of actin polymerization and/or depolymerization has 13 unique genes, which correspond to 17 probes in the library. 1 of 17 match ageing_brain_up, for a p-value of 0.330445706206417 The list regulation of actin filament length has 15 unique genes, which correspond to 22 probes in the library. 2 of 22 match ageing_brain_up, for a p-value of 0.0923854093306829 The list actin filament-based movement has 11 unique genes, which correspond to 13 probes in the library. 0 of 13 match ageing_brain_up, for a p-value of 1 The list cytoskeletal anchoring has 7 unique genes, which correspond to 7 probes in the library. 2 of 7 match ageing_brain_up, for a p-value of 0.0105633833335794 The list microtubule-based process has 93 unique genes, which correspond to 95 probes in the library. 3 of 95 match ageing_brain_up, for a p-value of 0.382096698592921 The list microtubule cytoskeleton organization and biogenesis has 39 unique genes, which correspond to 45 probes in the library. 2 of 45 match ageing_brain_up, for a p-value of 0.282613418777858 The list M phase specific microtubule process has 18 unique genes, which correspond to 21 probes in the library. 2 of 21 match ageing_brain_up, for a p-value of 0.0852612387765675 The list centrosome cycle has 5 unique genes, which correspond to 7 probes in the library. 1 of 7 match ageing_brain_up, for a p-value of 0.152255968246149 The list spindle assembly has 12 unique genes, which correspond to 13 probes in the library. 1 of 13 match ageing_brain_up, for a p-value of 0.264170193310952 The list mitotic spindle assembly has 12 unique genes, which correspond to 13 probes in the library. 1 of 13 match ageing_brain_up, for a p-value of 0.264170193310952 The list microtubule nucleation has 10 unique genes, which correspond to 7 probes in the library. 0 of 7 match ageing_brain_up, for a p-value of 1 The list tubulin folding has 5 unique genes, which correspond to 5 probes in the library. 0 of 5 match ageing_brain_up, for a p-value of 1 The list microtubule polymerization has 9 unique genes, which correspond to 5 probes in the library. 0 of 5 match ageing_brain_up, for a p-value of 1 The list microtubule-based movement has 28 unique genes, which correspond to 23 probes in the library. 0 of 23 match ageing_brain_up, for a p-value of 1 The list axon cargo transport has 7 unique genes, which correspond to 7 probes in the library. 0 of 7 match ageing_brain_up, for a p-value of 1 The list endosome organization and biogenesis has 19 unique genes, which correspond to 20 probes in the library. 0 of 20 match ageing_brain_up, for a p-value of 1 The list endosome transport has 16 unique genes, which correspond to 17 probes in the library. 0 of 17 match ageing_brain_up, for a p-value of 1 The list lysosome organization and biogenesis has 9 unique genes, which correspond to 9 probes in the library. 0 of 9 match ageing_brain_up, for a p-value of 1 The list lysosomal transport has 5 unique genes, which correspond to 6 probes in the library. 0 of 6 match ageing_brain_up, for a p-value of 1 The list mitochondrion organization and biogenesis has 5 unique genes, which correspond to 4 probes in the library. 0 of 4 match ageing_brain_up, for a p-value of 1 The list peroxisome organization and biogenesis has 11 unique genes, which correspond to 11 probes in the library. 2 of 11 match ageing_brain_up, for a p-value of 0.0260064769672767 The list plasma membrane organization and biogenesis has 5 unique genes, which correspond to 2 probes in the library. 0 of 2 match ageing_brain_up, for a p-value of 1 The list ribosome biogenesis and assembly has 47 unique genes, which correspond to 36 probes in the library. 0 of 36 match ageing_brain_up, for a p-value of 1 The list ribosome biogenesis has 44 unique genes, which correspond to 35 probes in the library. 0 of 35 match ageing_brain_up, for a p-value of 1 The list rRNA processing has 24 unique genes, which correspond to 16 probes in the library. 0 of 16 match ageing_brain_up, for a p-value of 1 The list membrane organization and biogenesis has 9 unique genes, which correspond to 7 probes in the library. 0 of 7 match ageing_brain_up, for a p-value of 1 The list nuclear organization and biogenesis has 170 unique genes, which correspond to 165 probes in the library. 1 of 165 match ageing_brain_up, for a p-value of 0.979625007125352 The list chromosome organization and biogenesis (sensu Eukarya) has 168 unique genes, which correspond to 163 probes in the library. 1 of 163 match ageing_brain_up, for a p-value of 0.97864039319286 The list establishment and/or maintenance of chromatin architecture has 136 unique genes, which correspond to 111 probes in the library. 1 of 111 match ageing_brain_up, for a p-value of 0.927140908845785 The list chromatin assembly/disassembly has 77 unique genes, which correspond to 60 probes in the library. 1 of 60 match ageing_brain_up, for a p-value of 0.757268381842256 The list nucleosome assembly has 52 unique genes, which correspond to 43 probes in the library. 1 of 43 match ageing_brain_up, for a p-value of 0.637472837665685 The list chromatin modification has 60 unique genes, which correspond to 46 probes in the library. 0 of 46 match ageing_brain_up, for a p-value of 1 The list covalent chromatin modification has 12 unique genes, which correspond to 8 probes in the library. 0 of 8 match ageing_brain_up, for a p-value of 1 The list histone modification has 12 unique genes, which correspond to 8 probes in the library. 0 of 8 match ageing_brain_up, for a p-value of 1 The list histone deacetylation has 9 unique genes, which correspond to 7 probes in the library. 0 of 7 match ageing_brain_up, for a p-value of 1 The list non-covalent chromatin modification has 22 unique genes, which correspond to 16 probes in the library. 0 of 16 match ageing_brain_up, for a p-value of 1 The list chromatin remodeling has 22 unique genes, which correspond to 16 probes in the library. 0 of 16 match ageing_brain_up, for a p-value of 1 The list chromatin silencing has 9 unique genes, which correspond to 2 probes in the library. 0 of 2 match ageing_brain_up, for a p-value of 1 The list telomere maintenance has 14 unique genes, which correspond to 25 probes in the library. 0 of 25 match ageing_brain_up, for a p-value of 1 The list telomerase-dependent telomere maintenance has 14 unique genes, which correspond to 25 probes in the library. 0 of 25 match ageing_brain_up, for a p-value of 1 The list cell proliferation has 846 unique genes, which correspond to 1142 probes in the library. 25 of 1142 match ageing_brain_up, for a p-value of 0.652430032592159 The list cell cycle has 565 unique genes, which correspond to 793 probes in the library. 18 of 793 match ageing_brain_up, for a p-value of 0.578382169591242 The list DNA replication and chromosome cycle has 140 unique genes, which correspond to 190 probes in the library. 1 of 190 match ageing_brain_up, for a p-value of 0.988704639096548 The list chromosome condensation has 11 unique genes, which correspond to 11 probes in the library. 1 of 11 match ageing_brain_up, for a p-value of 0.228611492305938 The list mitotic chromosome condensation has 5 unique genes, which correspond to 5 probes in the library. 0 of 5 match ageing_brain_up, for a p-value of 1 The list sister chromatid cohesion has 5 unique genes, which correspond to 5 probes in the library. 1 of 5 match ageing_brain_up, for a p-value of 0.111289054049562 The list chromosome segregation has 17 unique genes, which correspond to 22 probes in the library. 1 of 22 match ageing_brain_up, for a p-value of 0.404959770197527 The list sister chromatid segregation has 6 unique genes, which correspond to 9 probes in the library. 0 of 9 match ageing_brain_up, for a p-value of 1 The list mitotic sister chromatid segregation has 6 unique genes, which correspond to 9 probes in the library. 0 of 9 match ageing_brain_up, for a p-value of 1 The list DNA replication has 110 unique genes, which correspond to 159 probes in the library. 0 of 159 match ageing_brain_up, for a p-value of 1 The list DNA-dependent DNA replication has 59 unique genes, which correspond to 92 probes in the library. 0 of 92 match ageing_brain_up, for a p-value of 1 The list DNA replication initiation has 15 unique genes, which correspond to 17 probes in the library. 0 of 17 match ageing_brain_up, for a p-value of 1 The list DNA strand elongation has 5 unique genes, which correspond to 7 probes in the library. 0 of 7 match ageing_brain_up, for a p-value of 1 The list DNA topological change has 6 unique genes, which correspond to 14 probes in the library. 0 of 14 match ageing_brain_up, for a p-value of 1 The list maintenance of fidelity during DNA-dependent DNA replication has 13 unique genes, which correspond to 25 probes in the library. 0 of 25 match ageing_brain_up, for a p-value of 1 The list mismatch repair has 13 unique genes, which correspond to 25 probes in the library. 0 of 25 match ageing_brain_up, for a p-value of 1 The list regulation of DNA replication has 9 unique genes, which correspond to 13 probes in the library. 0 of 13 match ageing_brain_up, for a p-value of 1 The list M phase has 138 unique genes, which correspond to 177 probes in the library. 5 of 177 match ageing_brain_up, for a p-value of 0.396384423318896 The list M phase of mitotic cell cycle has 103 unique genes, which correspond to 134 probes in the library. 3 of 134 match ageing_brain_up, for a p-value of 0.607059872776489 The list mitosis has 101 unique genes, which correspond to 129 probes in the library. 3 of 129 match ageing_brain_up, for a p-value of 0.581334341895463 The list mitotic anaphase has 9 unique genes, which correspond to 11 probes in the library. 0 of 11 match ageing_brain_up, for a p-value of 1 The list mitotic prophase has 5 unique genes, which correspond to 5 probes in the library. 0 of 5 match ageing_brain_up, for a p-value of 1 The list regulation of mitosis has 26 unique genes, which correspond to 35 probes in the library. 0 of 35 match ageing_brain_up, for a p-value of 1 The list mitotic checkpoint has 10 unique genes, which correspond to 15 probes in the library. 0 of 15 match ageing_brain_up, for a p-value of 1 The list nuclear division has 131 unique genes, which correspond to 164 probes in the library. 5 of 164 match ageing_brain_up, for a p-value of 0.336516113657075 The list meiosis has 40 unique genes, which correspond to 44 probes in the library. 3 of 44 match ageing_brain_up, for a p-value of 0.0829740569633662 The list meiosis I has 17 unique genes, which correspond to 24 probes in the library. 0 of 24 match ageing_brain_up, for a p-value of 1 The list meiotic prophase I has 17 unique genes, which correspond to 24 probes in the library. 0 of 24 match ageing_brain_up, for a p-value of 1 The list meiotic recombination has 15 unique genes, which correspond to 23 probes in the library. 0 of 23 match ageing_brain_up, for a p-value of 1 The list mitotic cell cycle has 162 unique genes, which correspond to 221 probes in the library. 3 of 221 match ageing_brain_up, for a p-value of 0.890553766843452 The list G1 phase of mitotic cell cycle has 12 unique genes, which correspond to 21 probes in the library. 0 of 21 match ageing_brain_up, for a p-value of 1 The list traversing start control point of mitotic cell cycle has 5 unique genes, which correspond to 8 probes in the library. 0 of 8 match ageing_brain_up, for a p-value of 1 The list G1/S transition of mitotic cell cycle has 49 unique genes, which correspond to 67 probes in the library. 0 of 67 match ageing_brain_up, for a p-value of 1 The list regulation of cyclin dependent protein kinase activity has 32 unique genes, which correspond to 43 probes in the library. 0 of 43 match ageing_brain_up, for a p-value of 1 The list G2/M transition of mitotic cell cycle has 38 unique genes, which correspond to 51 probes in the library. 0 of 51 match ageing_brain_up, for a p-value of 1 The list regulation of mitotic cell cycle has 6 unique genes, which correspond to 9 probes in the library. 0 of 9 match ageing_brain_up, for a p-value of 1 The list regulation of S phase of mitotic cell cycle has 5 unique genes, which correspond to 9 probes in the library. 0 of 9 match ageing_brain_up, for a p-value of 1 The list regulation of cell cycle has 342 unique genes, which correspond to 523 probes in the library. 13 of 523 match ageing_brain_up, for a p-value of 0.446766630646975 The list cell cycle arrest has 45 unique genes, which correspond to 59 probes in the library. 0 of 59 match ageing_brain_up, for a p-value of 1 The list cell cycle checkpoint has 24 unique genes, which correspond to 36 probes in the library. 0 of 36 match ageing_brain_up, for a p-value of 1 The list DNA damage response, signal transduction resulting in cell cycle arrest has 5 unique genes, which correspond to 5 probes in the library. 0 of 5 match ageing_brain_up, for a p-value of 1 The list negative regulation of cell cycle has 77 unique genes, which correspond to 137 probes in the library. 3 of 137 match ageing_brain_up, for a p-value of 0.621979716223866 The list cytokinesis has 84 unique genes, which correspond to 104 probes in the library. 2 of 104 match ageing_brain_up, for a p-value of 0.700634544307106 The list regulation of cell proliferation has 228 unique genes, which correspond to 309 probes in the library. 9 of 309 match ageing_brain_up, for a p-value of 0.296868360228769 The list negative regulation of cell proliferation has 112 unique genes, which correspond to 155 probes in the library. 4 of 155 match ageing_brain_up, for a p-value of 0.489432597855497 The list positive regulation of cell proliferation has 107 unique genes, which correspond to 146 probes in the library. 5 of 146 match ageing_brain_up, for a p-value of 0.255383739436642 The list transport has 1421 unique genes, which correspond to 1339 probes in the library. 35 of 1339 match ageing_brain_up, for a p-value of 0.270430108738495 The list amine/polyamine transport has 39 unique genes, which correspond to 37 probes in the library. 1 of 37 match ageing_brain_up, for a p-value of 0.582335160353937 The list amino acid transport has 34 unique genes, which correspond to 32 probes in the library. 0 of 32 match ageing_brain_up, for a p-value of 1 The list acidic amino acid transport has 5 unique genes, which correspond to 6 probes in the library. 0 of 6 match ageing_brain_up, for a p-value of 1 The list L-glutamate transport has 5 unique genes, which correspond to 6 probes in the library. 0 of 6 match ageing_brain_up, for a p-value of 1 The list L-amino acid transport has 10 unique genes, which correspond to 10 probes in the library. 0 of 10 match ageing_brain_up, for a p-value of 1 The list carbohydrate transport has 21 unique genes, which correspond to 18 probes in the library. 0 of 18 match ageing_brain_up, for a p-value of 1 The list monosaccharide transport has 11 unique genes, which correspond to 9 probes in the library. 0 of 9 match ageing_brain_up, for a p-value of 1 The list hexose transport has 11 unique genes, which correspond to 9 probes in the library. 0 of 9 match ageing_brain_up, for a p-value of 1 The list glucose transport has 11 unique genes, which correspond to 9 probes in the library. 0 of 9 match ageing_brain_up, for a p-value of 1 The list fluid transport has 7 unique genes, which correspond to 8 probes in the library. 0 of 8 match ageing_brain_up, for a p-value of 1 The list water transport has 7 unique genes, which correspond to 8 probes in the library. 0 of 8 match ageing_brain_up, for a p-value of 1 The list gas transport has 10 unique genes, which correspond to 5 probes in the library. 2 of 5 match ageing_brain_up, for a p-value of 0.00518917816460761 The list oxygen transport has 10 unique genes, which correspond to 5 probes in the library. 2 of 5 match ageing_brain_up, for a p-value of 0.00518917816460761 The list hydrogen transport has 59 unique genes, which correspond to 66 probes in the library. 0 of 66 match ageing_brain_up, for a p-value of 1 The list proton transport has 57 unique genes, which correspond to 64 probes in the library. 0 of 64 match ageing_brain_up, for a p-value of 1 The list energy coupled proton transport, against electrochemical gradient has 7 unique genes, which correspond to 6 probes in the library. 0 of 6 match ageing_brain_up, for a p-value of 1 The list ATP hydrolysis coupled proton transport has 5 unique genes, which correspond to 4 probes in the library. 0 of 4 match ageing_brain_up, for a p-value of 1 The list energy coupled proton transport, down electrochemical gradient has 30 unique genes, which correspond to 33 probes in the library. 0 of 33 match ageing_brain_up, for a p-value of 1 The list ATP synthesis coupled proton transport has 30 unique genes, which correspond to 33 probes in the library. 0 of 33 match ageing_brain_up, for a p-value of 1 The list intracellular transport has 453 unique genes, which correspond to 425 probes in the library. 7 of 425 match ageing_brain_up, for a p-value of 0.867158078598857 The list cytoskeleton-dependent intracellular transport has 28 unique genes, which correspond to 23 probes in the library. 0 of 23 match ageing_brain_up, for a p-value of 1 The list Golgi vesicle transport has 47 unique genes, which correspond to 52 probes in the library. 1 of 52 match ageing_brain_up, for a p-value of 0.70683676575199 The list ER to Golgi transport has 17 unique genes, which correspond to 17 probes in the library. 0 of 17 match ageing_brain_up, for a p-value of 1 The list intra-Golgi transport has 13 unique genes, which correspond to 17 probes in the library. 0 of 17 match ageing_brain_up, for a p-value of 1 The list post-Golgi transport has 13 unique genes, which correspond to 15 probes in the library. 1 of 15 match ageing_brain_up, for a p-value of 0.298089744646829 The list retrograde transport, Golgi to ER has 5 unique genes, which correspond to 5 probes in the library. 0 of 5 match ageing_brain_up, for a p-value of 1 The list intracellular protein transport has 358 unique genes, which correspond to 330 probes in the library. 7 of 330 match ageing_brain_up, for a p-value of 0.65070084792764 The list protein targeting has 108 unique genes, which correspond to 115 probes in the library. 2 of 115 match ageing_brain_up, for a p-value of 0.75166010428029 The list protein-ER targeting has 11 unique genes, which correspond to 10 probes in the library. 0 of 10 match ageing_brain_up, for a p-value of 1 The list cotranslational membrane targeting has 9 unique genes, which correspond to 8 probes in the library. 0 of 8 match ageing_brain_up, for a p-value of 1 The list protein-membrane targeting has 12 unique genes, which correspond to 13 probes in the library. 0 of 13 match ageing_brain_up, for a p-value of 1 The list protein-mitochondrial targeting has 19 unique genes, which correspond to 16 probes in the library. 0 of 16 match ageing_brain_up, for a p-value of 1 The list protein-nucleus import has 52 unique genes, which correspond to 64 probes in the library. 2 of 64 match ageing_brain_up, for a p-value of 0.441611322763133 The list NLS-bearing substrate-nucleus import has 11 unique genes, which correspond to 14 probes in the library. 0 of 14 match ageing_brain_up, for a p-value of 1 The list protein-nucleus import, docking has 12 unique genes, which correspond to 13 probes in the library. 0 of 13 match ageing_brain_up, for a p-value of 1 The list protein-nucleus import, translocation has 10 unique genes, which correspond to 20 probes in the library. 0 of 20 match ageing_brain_up, for a p-value of 1 The list regulation of protein-nucleus import has 9 unique genes, which correspond to 11 probes in the library. 1 of 11 match ageing_brain_up, for a p-value of 0.228611492305938 The list regulation of transcription factor-nucleus import has 9 unique genes, which correspond to 11 probes in the library. 1 of 11 match ageing_brain_up, for a p-value of 0.228611492305938 The list negative regulation of transcription factor-nucleus import has 6 unique genes, which correspond to 9 probes in the library. 1 of 9 match ageing_brain_up, for a p-value of 0.191334430335289 The list cytoplasmic sequestering of transcription factor has 6 unique genes, which correspond to 9 probes in the library. 1 of 9 match ageing_brain_up, for a p-value of 0.191334430335289 The list regulation of NF-kappaB-nucleus import has 6 unique genes, which correspond to 6 probes in the library. 1 of 6 match ageing_brain_up, for a p-value of 0.132014170401496 The list transcription factor-nucleus import has 9 unique genes, which correspond to 11 probes in the library. 1 of 11 match ageing_brain_up, for a p-value of 0.228611492305938 The list NF-kappaB-nucleus import has 6 unique genes, which correspond to 6 probes in the library. 1 of 6 match ageing_brain_up, for a p-value of 0.132014170401496 The list mitochondrial transport has 17 unique genes, which correspond to 17 probes in the library. 0 of 17 match ageing_brain_up, for a p-value of 1 The list nucleocytoplasmic transport has 80 unique genes, which correspond to 96 probes in the library. 2 of 96 match ageing_brain_up, for a p-value of 0.658264176181469 The list regulation of nucleocytoplasmic transport has 9 unique genes, which correspond to 11 probes in the library. 1 of 11 match ageing_brain_up, for a p-value of 0.228611492305938 The list RNA-nucleus export has 28 unique genes, which correspond to 29 probes in the library. 1 of 29 match ageing_brain_up, for a p-value of 0.495558196531514 The list mRNA-nucleus export has 24 unique genes, which correspond to 26 probes in the library. 1 of 26 match ageing_brain_up, for a p-value of 0.458554495587959 The list ion transport has 522 unique genes, which correspond to 495 probes in the library. 9 of 495 match ageing_brain_up, for a p-value of 0.815903917123756 The list anion transport has 144 unique genes, which correspond to 144 probes in the library. 6 of 144 match ageing_brain_up, for a p-value of 0.121808073096101 The list inorganic anion transport has 108 unique genes, which correspond to 102 probes in the library. 5 of 102 match ageing_brain_up, for a p-value of 0.0908384508851457 The list chloride transport has 38 unique genes, which correspond to 35 probes in the library. 3 of 35 match ageing_brain_up, for a p-value of 0.0477117857804642 The list phosphate transport has 60 unique genes, which correspond to 62 probes in the library. 1 of 62 match ageing_brain_up, for a p-value of 0.768457582807068 The list sulfate transport has 10 unique genes, which correspond to 5 probes in the library. 1 of 5 match ageing_brain_up, for a p-value of 0.111289054049562 The list organic anion transport has 26 unique genes, which correspond to 30 probes in the library. 1 of 30 match ageing_brain_up, for a p-value of 0.507321993430046 The list dicarboxylic acid transport has 8 unique genes, which correspond to 10 probes in the library. 0 of 10 match ageing_brain_up, for a p-value of 1 The list monocarboxylic acid transport has 11 unique genes, which correspond to 12 probes in the library. 1 of 12 match ageing_brain_up, for a p-value of 0.246600599616196 The list cation transport has 332 unique genes, which correspond to 317 probes in the library. 2 of 317 match ageing_brain_up, for a p-value of 0.995165492904181 The list di-, tri-valent inorganic cation transport has 91 unique genes, which correspond to 97 probes in the library. 2 of 97 match ageing_brain_up, for a p-value of 0.663812913752111 The list calcium ion transport has 57 unique genes, which correspond to 66 probes in the library. 2 of 66 match ageing_brain_up, for a p-value of 0.457290087155144 The list transition metal ion transport has 34 unique genes, which correspond to 31 probes in the library. 0 of 31 match ageing_brain_up, for a p-value of 1 The list copper ion transport has 8 unique genes, which correspond to 8 probes in the library. 0 of 8 match ageing_brain_up, for a p-value of 1 The list iron ion transport has 18 unique genes, which correspond to 16 probes in the library. 0 of 16 match ageing_brain_up, for a p-value of 1 The list zinc ion transport has 5 unique genes, which correspond to 4 probes in the library. 0 of 4 match ageing_brain_up, for a p-value of 1 The list metal ion transport has 263 unique genes, which correspond to 245 probes in the library. 2 of 245 match ageing_brain_up, for a p-value of 0.978867452208873 The list potassium ion transport has 126 unique genes, which correspond to 109 probes in the library. 0 of 109 match ageing_brain_up, for a p-value of 1 The list sodium ion transport has 73 unique genes, which correspond to 57 probes in the library. 0 of 57 match ageing_brain_up, for a p-value of 1 The list monovalent inorganic cation transport has 224 unique genes, which correspond to 206 probes in the library. 0 of 206 match ageing_brain_up, for a p-value of 1 The list lipid transport has 55 unique genes, which correspond to 50 probes in the library. 4 of 50 match ageing_brain_up, for a p-value of 0.0291198769608655