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W2006607273 startingPage "46" @default.
W2006607273 abstract "A survey of archaeal genomes for the presence of homologues of bacterial and eukaryotic chaperones reveals several interesting features. All archaea contain chaperonins, also known as Hsp60s (where Hsp is heat-shock protein). These are more similar to the type II chaperonins found in the eukaryotic cytosol than to the type I chaperonins found in bacteria, mitochondria and chloroplasts, although some archaea also contain type I chaperonin homologues, presumably acquired by horizontal gene transfer. Most archaea contain several genes for these proteins. Our studies on the type II chaperonins of the genetically tractable archaeon Haloferax volcanii have shown that only one of the three genes has to be present for the organisms to grow, but that there is some evidence for functional specialization between the different chaperonin proteins. All archaea also possess genes for prefoldin proteins and for small heat-shock proteins, but they generally lack genes for Hsp90 and Hsp100 homologues. Genes for Hsp70 (DnaK) and Hsp40 (DnaJ) homologues are only found in a subset of archaea. Thus chaperone-assisted protein folding in archaea is likely to display some unique features when compared with that in eukaryotes and bacteria, and there may be important differences in the process between euryarchaea and crenarchaea." @default.
W2006607273 created "2016-06-24" @default.
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W2006607273 creator A5027106138 @default.
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W2006607273 date "2009-01-20" @default.
W2006607273 modified "2023-09-27" @default.
W2006607273 title "Chaperones and protein folding in the archaea" @default.
W2006607273 cites W1513645728 @default.
W2006607273 cites W1521692848 @default.
W2006607273 cites W1658350723 @default.
W2006607273 cites W1790977108 @default.
W2006607273 cites W1892996896 @default.
W2006607273 cites W1967395715 @default.
W2006607273 cites W1973477472 @default.
W2006607273 cites W1976658573 @default.
W2006607273 cites W1977131943 @default.
W2006607273 cites W1980017082 @default.
W2006607273 cites W1982624445 @default.
W2006607273 cites W1984969485 @default.
W2006607273 cites W1995127079 @default.
W2006607273 cites W1995897536 @default.
W2006607273 cites W1995940116 @default.
W2006607273 cites W1999710371 @default.
W2006607273 cites W2000989488 @default.
W2006607273 cites W2000999993 @default.
W2006607273 cites W2007724978 @default.
W2006607273 cites W2008454681 @default.
W2006607273 cites W2010038324 @default.
W2006607273 cites W2010557965 @default.
W2006607273 cites W2012247284 @default.
W2006607273 cites W2012899843 @default.
W2006607273 cites W2016425527 @default.
W2006607273 cites W2024337674 @default.
W2006607273 cites W2031497022 @default.
W2006607273 cites W2032644135 @default.
W2006607273 cites W2045777307 @default.
W2006607273 cites W2047519073 @default.
W2006607273 cites W2049910706 @default.
W2006607273 cites W2056125919 @default.
W2006607273 cites W2070989276 @default.
W2006607273 cites W2072646180 @default.
W2006607273 cites W2074857012 @default.
W2006607273 cites W2080377145 @default.
W2006607273 cites W2081600094 @default.
W2006607273 cites W2084698567 @default.
W2006607273 cites W2088705856 @default.
W2006607273 cites W2100986312 @default.
W2006607273 cites W2102003825 @default.
W2006607273 cites W2104773981 @default.
W2006607273 cites W2110239496 @default.
W2006607273 cites W2113034025 @default.
W2006607273 cites W2121963790 @default.
W2006607273 cites W2136305787 @default.
W2006607273 cites W2140082376 @default.
W2006607273 cites W2153625008 @default.
W2006607273 cites W2161228754 @default.
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W2006607273 doi "https://doi.org/10.1042/bst0370046" @default.
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