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Title
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Specific sequences in the N-terminal domain of human small heat-shock protein HSPB6 dictate preferential hetero-oligomerization with the orthologue HSPB1
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Author
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Abstract
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| Small heat-shock proteins (sHSPs) are a conserved group of molecular chaperones with important roles in cellular proteostasis. Although sHSPs are characterized by their small monomeric weight, they typically assemble into large polydisperse oligomers that vary in both size and shape but are principally composed of dimeric building blocks. These assemblies can include different sHSP orthologues, creating additional complexity that may affect chaperone activity. However, the structural and functional properties of such hetero-oligomers are poorly understood. We became interested in hetero-oligomer formation between human heat-shock protein family B (small) member 1 (HSPB1) and HSPB6, which are both highly expressed in skeletal muscle. When mixed in vitro, these two sHSPs form a polydisperse oligomer array composed solely of heterodimers, suggesting preferential association that is determined at the monomer level. Previously, we have shown that the sHSP N-terminal domains (NTDs), which have a high degree of intrinsic disorder, are essential for the biased formation. Here we employed iterative deletion mapping to elucidate how the NTD of HSPB6 influences its preferential association with HSPB1 and show that this region has multiple RLFDQXFG is necessary for subunit exchange among oligomers. Second, a site similar to 20 residues downstream of this motif determines the size of the resultant hetero-oligomers. Third, a region unique to HSPB6 dictates the preferential formation of heterodimers. In conclusion, the disordered NTD of HSPB6 helps regulate the size and stability of hetero-oligomeric complexes, indicating that terminal sHSP regions define the assembly properties of these proteins. |
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Language
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English
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Source (journal)
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Journal of biological chemistry. - Baltimore, Md
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Publication
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Baltimore, Md
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2017
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ISSN
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0021-9258
[print]
1083-351X
[online]
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DOI
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10.1074/JBC.M116.773515
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Volume/pages
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292
:4
(2017)
, p. 9944-9957
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ISI
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000403580600008
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Pubmed ID
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28487364
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Full text (Publisher's DOI)
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Full text (open access)
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Full text (publisher's version - intranet only)
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