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Structure-based characterization and antifreeze properties of a hyperactive ice-binding protein from the Antarctic bacterium Flavobacteriumfrigoris PS1

Cited 21 time in scopus
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Title
Structure-based characterization and antifreeze properties of a hyperactive ice-binding protein from the Antarctic bacterium Flavobacteriumfrigoris PS1
Other Titles
남극 호냉성 박테리아인 Flavobacteriumfrigoris PS1 유래 결빙방지단백질 (FfIBP) 의 삼차구조 연구
Authors
Lee, Jun Hyuck
Do, Hackwon
김순종
Kim, Hak Jun
Keywords
FfIBP; FlavobacteriumfrigorisPS1; X-ray crystallography; antifreeze protein; ice-binding protein
Issue Date
2014
Citation
Lee, Jun Hyuck, et al. 2014. "Structure-based characterization and antifreeze properties of a hyperactive ice-binding protein from the Antarctic bacterium Flavobacteriumfrigoris PS1". ACTA CRYSTALLOGRAPHICA SECTION D-BIOLOGICAL CRYSTALLOGRAPHY, 70(4): 1061-1073.
Abstract
Ice-binding proteins (IBPs) inhibit ice growth through direct interaction with ice crystals that permit the survival of polar organisms in extremely cold environments. FfIBP is an ice-binding protein encoded by the Antarctic bacterium FlavobacteriumfrigorisPS1. The X-ray crystal structure of FfIBP was determined to 2.1-A resolution to gain insight into its ice-binding mechanism. The refined structure of FfIBP shows an intramolecular disulfide bond, and analytical ultra-centrifugation and analytical size exclusion chromatography show that it behaves as a monomer in solution. Sequence alignments and structural comparisons of IBPs allowed us to define two groups within IBPs, depending on sequence differences between the α2 and α4 loop regions and the presence of the disulfide bond. Although FfIBP closely resembles Leucosporidium IBP (LeIBP) in its amino acid sequence, the thermal hysteresis (TH) activity of FfIBP appears to be 10-fold higher than that of LeIBP. A comparison of the FfIBP and LeIBP structures reveals that FfIBP has different ice-binding residues as well as greater surface area in the ice-binding site. Notably, the ice-binding site of FfIBP is composed of the T-A/G-X-T/N motif, which is similar to the ice-binding residues of hyperactive antifreeze proteins. Thus, we propose that the TH activity difference between FfIBP and LeIBP may come from the amino acid composition of the ice-binding site, which correlates with differences in affinity and surface complementarity with the ice crystal. In conclusion, this study provides the molecular basis for understanding the antifreeze mechanism of FfIBP, and provides new insights into the reasons for the higher TH activity of FfIBP compared with that of LeIBP.
URI
http://repository.kopri.re.kr/handle/201206/7252
DOI
http://dx.doi.org/10.1107/S1399004714000996
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