SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2057327973> ?p ?o ?g. }

Showing items 1 to 100 of ±148 with 100 items per page.

W2057327973 endingPage "1168" @default.
W2057327973 startingPage "1155" @default.
W2057327973 abstract "Antifreeze proteins (AFPs) prevent the growth of ice, and are used by some organisms that live in sub-zero environments for protection against freezing. All AFPs are thought to function by an adsorption inhibition process. In order to elucidate the ice-binding mechanism, the structures of several AFPs have been determined, and have been shown to consist of different folds. Recently, the first structures of the highly active insect AFPs have been characterized. These proteins have a beta-helix structure, which adds yet another fold to the AFP family. The 90-residue spruce budworm (Choristoneura fumiferana) AFP consists of a beta-helix with 15 residues per coil. The structure contains two ranks of aligned threonine residues (known as the TXT motif), which were shown by mutagenesis experiments to be located in the ice-binding face. In our previous NMR study of this AFP at 30 degrees C, we found that the TXT face was not optimally defined because of the broadening of NMR resonances potentially due to weak oligomerization. We present here a structure of spruce budworm AFP determined at 5 degrees C, where this broadening is reduced. In addition, the 1H-15N NMR dynamics of the protein were examined at 30 degrees C and 5 degrees C. The results show that the spruce budworm AFP is more structured at 5 degrees C, and support the general observation that AFPs become more rigid as the temperature is lowered." @default.
W2057327973 created "2016-06-24" @default.
W2057327973 creator A5002227714 @default.
W2057327973 creator A5020357217 @default.
W2057327973 creator A5035023245 @default.
W2057327973 creator A5045674523 @default.
W2057327973 creator A5050847765 @default.
W2057327973 creator A5067477469 @default.
W2057327973 date "2003-04-01" @default.
W2057327973 modified "2023-10-14" @default.
W2057327973 title "Spruce Budworm Antifreeze Protein: Changes in Structure and Dynamics at Low Temperature" @default.
W2057327973 cites W1567817058 @default.
W2057327973 cites W1589295940 @default.
W2057327973 cites W1676639987 @default.
W2057327973 cites W1823556928 @default.
W2057327973 cites W1865904834 @default.
W2057327973 cites W1877147113 @default.
W2057327973 cites W1964951230 @default.
W2057327973 cites W1965306612 @default.
W2057327973 cites W1965815393 @default.
W2057327973 cites W1969922026 @default.
W2057327973 cites W1975459052 @default.
W2057327973 cites W1976283838 @default.
W2057327973 cites W1987856093 @default.
W2057327973 cites W1988895895 @default.
W2057327973 cites W1990791101 @default.
W2057327973 cites W1992144784 @default.
W2057327973 cites W1993877983 @default.
W2057327973 cites W1994466408 @default.
W2057327973 cites W1994592594 @default.
W2057327973 cites W1998361116 @default.
W2057327973 cites W2000597682 @default.
W2057327973 cites W2006958318 @default.
W2057327973 cites W2007823692 @default.
W2057327973 cites W2008943604 @default.
W2057327973 cites W2009647326 @default.
W2057327973 cites W2009870260 @default.
W2057327973 cites W2014059139 @default.
W2057327973 cites W2015491911 @default.
W2057327973 cites W201555988 @default.
W2057327973 cites W2022058058 @default.
W2057327973 cites W2022496873 @default.
W2057327973 cites W2025717854 @default.
W2057327973 cites W2028231353 @default.
W2057327973 cites W2037083949 @default.
W2057327973 cites W2042545194 @default.
W2057327973 cites W2043172297 @default.
W2057327973 cites W2045017065 @default.
W2057327973 cites W2045173681 @default.
W2057327973 cites W2045446885 @default.
W2057327973 cites W2045476844 @default.
W2057327973 cites W2045950270 @default.
W2057327973 cites W2048427986 @default.
W2057327973 cites W2053328613 @default.
W2057327973 cites W2053590485 @default.
W2057327973 cites W2064598463 @default.
W2057327973 cites W2068227670 @default.
W2057327973 cites W2069602336 @default.
W2057327973 cites W2077058244 @default.
W2057327973 cites W2080528351 @default.
W2057327973 cites W2088793989 @default.
W2057327973 cites W2090674957 @default.
W2057327973 cites W2092440429 @default.
W2057327973 cites W2095689418 @default.
W2057327973 cites W2095864746 @default.
W2057327973 cites W2109851377 @default.
W2057327973 cites W2118557791 @default.
W2057327973 cites W2119850183 @default.
W2057327973 cites W2123607128 @default.
W2057327973 cites W2129879061 @default.
W2057327973 cites W2133694749 @default.
W2057327973 cites W2144097210 @default.
W2057327973 cites W2149928611 @default.
W2057327973 cites W2156397505 @default.
W2057327973 cites W2162530632 @default.
W2057327973 cites W2169821755 @default.
W2057327973 cites W2181409396 @default.
W2057327973 cites W4293003482 @default.
W2057327973 doi "https://doi.org/10.1016/s0022-2836(03)00235-3" @default.
W2057327973 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/12662938" @default.
W2057327973 hasPublicationYear "2003" @default.
W2057327973 type Work @default.
W2057327973 sameAs 2057327973 @default.
W2057327973 citedByCount "34" @default.
W2057327973 countsByYear W20573279732012 @default.
W2057327973 countsByYear W20573279732013 @default.
W2057327973 countsByYear W20573279732014 @default.
W2057327973 countsByYear W20573279732015 @default.
W2057327973 countsByYear W20573279732016 @default.
W2057327973 countsByYear W20573279732017 @default.
W2057327973 countsByYear W20573279732018 @default.
W2057327973 countsByYear W20573279732020 @default.
W2057327973 countsByYear W20573279732021 @default.
W2057327973 crossrefType "journal-article" @default.
W2057327973 hasAuthorship W2057327973A5002227714 @default.
W2057327973 hasAuthorship W2057327973A5020357217 @default.
W2057327973 hasAuthorship W2057327973A5035023245 @default.
W2057327973 hasAuthorship W2057327973A5045674523 @default.