Cholpisit Kiattisewee

Cholpisit Kiattisewee (Ice)
Cholpisit Kiattisewee (Ice)
Bagley Hall 411
(206) 685-2431
cholpk at uw
  • Postdoctoral Fellow ¦ 
Chemical Engineering ¦ 
University of Washington

Ice is working on developing genetic devices in bacteria for metabolic engineering applications. Ice is a joint student with the Carothers lab.


Kiattisewee, C.*, Karanjia, A.V.*, Legut, M., Daniloski, Z., Koplik, S.E., Nelson, J., Kleinstiver, B.P., Sanjana, N.E., Carothers, J.M., Zalatan, J.G. "Expanding the scope of bacterial CRISPR activation with PAM-flexible dCas9 variants." ACS Synth. Biol. 2022, 11, 4103-4122.

Tickman, B.I.*, Burbano, D.A.*, Chavali, V.P., Kiattisewee, C., Fontana, J., Khakimzhan, A., Noireaux, V., Zalatan, J.G., Carothers, J.M. "Multi-layer CRISPRa/i circuits for dynamic genetic programs in cell-free and bacterial systems." Cell Systems 2022, 13, 215-229.

Kiattisewee, C., Dong, C., Fontana, J., Sugianto, W., Peralta-Yahya, P., Carothers, J.M., Zalatan, J.G. "Portable bacterial CRISPR transcriptional activation enables metabolic engineering in Pseudomonas putida." Metab. Eng. 2021, 66, 283-295.

Fontana, J.*, Dong, C.*, Kiattisewee, C., Chavali, V.P., Tickman, B.I., Carothers, J.M., Zalatan, J.G. "Effective CRISPRa-mediated control of gene expression in bacteria must overcome stringent target site requirements." Nat. Commun. 2020, 11, 1618.

Before UW:

Jaroensuk, J.; Intasian, P.; Kiattisewee, C.; Munkajohnpon, P.; Chunthaboon, P.; Buttranon, S.; Trisrivirat, D.; Wongnate, T.; Maenpuen, S.; Tinikul, R.; Chaiyen, P. Addition of formate dehydrogenase increases the production of renewable alkane from an engineered metabolic pathway. J. Biol. Chem. 2019, 294, 11536.

Chuaboon, L.; Wongnate T.; Punthong, P.; Kiattisewee, C.; Lawan, N.; Hsu, C.-Y.; Lin, C.-H.; Bornscheuer, U.; Chaiyen, P. One-Pot Bioconversion of L-Arabinose to L-Ribulose in an Enzymatic Cascade. Angew. Chem. Int. Ed. 2019, 131, 2450.

Kiattisewee, C.; Kaidad, A.; Jiarpinitnun, C.; Luanphaisarnnont, T. Kinetic studies of conjugate addition of amines to allenic and acrylic esters and their correlation with antibacterial activities against Staphylococcus aureus. Monatsch. Chem. 2018, 149, 1059.

Powers, I. G.; Kiattisewee, C.; Mullane, K. C.; Schelter, E. J.; Uyeda, C., A 1,2-Addition Pathway for C(sp2)-H Activation at a Dinickel Imide. Chem. Eur. J. 2017, 23, 7694.