A novel mechanism for small heat shock proteins to function as molecular chaperones
Scientific reports, 2015•nature.com
Small heat shock proteins (sHSPs) are molecular chaperones ubiquitously present in all
forms of life, but their function mechanisms remain controversial. Here we show by cryo-
electron microscopy and single particle 3D reconstruction that, at the low temperatures (4–
25° C), CeHSP17 (a sHSP from Caenorhabditis elegans) exists as a 24-subunit spherical
oligomer with tetrahedral symmetry. Our studies demonstrate that CeHSP17 forms large
sheet-like super-molecular assemblies (SMAs) at the high temperatures (45–60° C) and …
forms of life, but their function mechanisms remain controversial. Here we show by cryo-
electron microscopy and single particle 3D reconstruction that, at the low temperatures (4–
25° C), CeHSP17 (a sHSP from Caenorhabditis elegans) exists as a 24-subunit spherical
oligomer with tetrahedral symmetry. Our studies demonstrate that CeHSP17 forms large
sheet-like super-molecular assemblies (SMAs) at the high temperatures (45–60° C) and …
Abstract
Small heat shock proteins (sHSPs) are molecular chaperones ubiquitously present in all forms of life, but their function mechanisms remain controversial. Here we show by cryo-electron microscopy and single particle 3D reconstruction that, at the low temperatures (4–25°C), CeHSP17 (a sHSP from Caenorhabditis elegans) exists as a 24-subunit spherical oligomer with tetrahedral symmetry. Our studies demonstrate that CeHSP17 forms large sheet-like super-molecular assemblies (SMAs) at the high temperatures (45–60°C) and such SMAs are apparently the form that exhibits chaperone-like activity. Our findings suggest a novel molecular mechanism for sHSPs to function as molecular chaperones.
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