투고논문
| JKMRS Volume 26, No 4, pp 46, Backbone hydrogen bonding intera... | |
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| 2022년 12월 20일 / 조회수: 452 | |
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Backbone hydrogen bonding
interaction of the inactive isoform of type III antifreeze proteins studied by 1H/15N-HSQC
spectra
Seo-Ree Choi, Sung Kuk Kim, Jaewon Choi, and Joon-Hwa Lee*
Department of Chemistry and RINS, Gyeongsang National
University, Jinju 52828, Republic of Korea
Received Nov 30, 2022; Revised
Dec 13, 2022; Accepted Dec 13, 2022
Abstract Antifreeze proteins (AFPs) bind to the ice crystals and then
are able to inhibit the freezing of body fluid at subzero temperatures. Type
III AFPs are categorized into three subgroups, QAE1, QAE2, and SP isoforms,
based on differences in their isoelectric points. We prepared the QAE2 (AFP11)
and SP (AFP6) isoforms of the notched-fin eelpout AFP and their mutant
constructs and determined their temperature gradients of amide proton chemical
shifts (Dd/DT) using NMR. The nfeAFP11 (QAE2) has the distinct Dd/DT pattern of the first 310 helix compared to the
QAE1 isoforms. The nfeAFP6 (SP) has the deviated Dd/DT values of many residues, indicating its backbone
conformational distortion. The study suggests the distortion in the H-bonding
interactions and backbone conformation that is important for TH activities.
Keywords NMR, thermostability, backbone stability, antifreeze protein, ice-binding protein
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| 첨부파일 | 2_LeeJH.pdf |