DSpace Collection:https://repository.kopri.re.kr/handle/201206/54742026-04-18T21:29:11Z2026-04-18T21:29:11ZCold adaptation of a psychrophilic chaperoninfrom Psychrobacter sp. and its application for heterologousprotein expressionKim, Han-WooJeon, Sung-JongPark, HyunShin, Seung ChulLee, Jun HyuckJeon, Byung WookWi, Ah Ramhttps://repository.kopri.re.kr/handle/201206/73482022-03-24T07:11:35Z2015-01-01T00:00:00ZTitle: Cold adaptation of a psychrophilic chaperoninfrom Psychrobacter sp. and its application for heterologousprotein expression
Authors: Kim, Han-Woo; Jeon, Sung-Jong; Park, Hyun; Shin, Seung Chul; Lee, Jun Hyuck; Jeon, Byung Wook; Wi, Ah Ram
Abstract: Objectives: A chaperonin, PsyGroELS, from the Antarctic psychrophilic bacterium Psychrobacter sp. PAMC21119, was examined for its role in cold adaptation when expressed in a mesophiic Escherichia coli strain. Results: Growth of E. coli harboring PsyGroELS at 10 degree C was increased compared to the control strain. A co-expression system using PsyGroELS was developed to increase productivity of the psychrophilic enzyme PsyEst9. PsyEst9 was cloned and expressed using three E. coli variants that co-expressed GroELS from PAMC21119, E. coli, or Oleispira antarctica RB8T. Co-expression with PsyGroELS was more effective for the production of PsyEst9 compared to the other chaperonins. Conclusion: PsyGroELS confers cold tolerance to E. coli, and shows potential as an effective coexpression system for the stable production of psychrophilic proteins.2015-01-01T00:00:00Z