| 1. |
- Kim, Maria V, et al.
(author)
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Some properties of human small heat shock protein Hsp22 (H11 or HspB8).
- 2004
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In: Biochemical and Biophysical Research Communications - BBRC. - : Elsevier BV. - 0006-291X .- 1090-2104. ; 315:4
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Journal article (peer-reviewed)abstract
- Untagged recombinant human small heat shock protein with apparent molecular mass 22 kDa (Hsp22) was obtained in homogeneous state. Size exclusion chromatography and chemical crosslinking with dimethylsuberimidate indicate that Hsp22 forms stable dimers. Being highly susceptible to oxidation Hsp22 forms disulfide crosslinked dimers and poorly soluble high molecular mass oligomers. According to CD spectroscopy oxidation of Hsp22 results in disturbing of both secondary and tertiary structure. Hsp22 possesses a negligibly low autophosphorylation activity and under the conditions used is unable to phosphorylate casein or histone. Hsp22 effectively prevents heat-induced aggregation of yeast alcohol dehydrogenase and bovine liver rhodanese with chaperone activity comparable to that of recombinant human small heat shock protein with apparent molecular mass 20 kDa (Hsp20).
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| 2. |
- Kim, Maria V, et al.
(author)
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The problem of protein kinase activity of small heat shock protein Hsp22 (H11 or HspB8).
- 2004
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In: Biochemical and Biophysical Research Communications - BBRC. - : Elsevier BV. - 0006-291X .- 1090-2104. ; 325:3
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Journal article (peer-reviewed)abstract
- The recently described protein denoted H11, Hsp22 or HspB8 seems to participate in regulation of proliferation, apoptosis, and cardiac hypertrophy. Mutation of Hsp22 causes distal motor neuropathy. Multitude action of Hsp22 is supposed to be due to its protein kinase and/or chaperone-like activities. There are many indirect evidences indicating that Hsp22 possesses intrinsic protein kinase activity. However, low homology to protein kinases, low extent of autophosphorylation, lack of significant protein kinase activity with commonly used substrates, and lack of information on stoichiometry, kinetics, and substrate specificity make the existence of intrinsic protein kinase activity of Hsp22 questionable. It is supposed that protein kinase activity ascribed to Hsp22 is due to contaminating protein kinases. Hsp22 is highly homologous to small heat shock proteins and effectively prevents aggregation of denatured protein both in vitro and in vivo. Therefore, it is supposed that chaperone-like activity is of great importance for Hsp22 functioning.
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| 3. |
- Panasenko, Olesya O, et al.
(author)
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Interaction of the small heat shock protein with molecular mass 25 kDa (hsp25) with actin.
- 2003
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In: European Journal of Biochemistry. - 0014-2956 .- 1432-1033. ; 270:5
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Journal article (peer-reviewed)abstract
- The interaction of heat shock protein with molecular mass 25 kDa (HSP25) and its point mutants S77D + S81D (2D mutant) and S15D + S77D + S81D (3D mutant) with intact and thermally denatured actin was analyzed by means of fluorescence spectroscopy and ultracentrifugation. Wild type HSP25 did not affect the polymerization of intact actin. The HSP25 3D mutant decreased the initial rate without affecting the maximal extent of intact actin polymerization. G-actin heated at 40-45 degrees C was partially denatured, but retained its ability to polymerize. The wild type HSP25 did not affect polymerization of this partially denatured actin. The 3D mutant of HSP25 increased the initial rate of polymerization of partially denatured actin. Heating at more than 55 degrees C induced complete denaturation of G-actin. Completely denatured G-actin cannot polymerize, but it aggregates at increased ionic strength. HSP25 and especially its 2D and 3D mutants effectively prevent salt-induced aggregation of completely denatured actin. It is concluded that the interaction of HSP25 with actin depends on the state of both actin and HSP25. HSP25 predominantly acts as a chaperone and preferentially interacts with thermally unfolded actin, preventing the formation of insoluble aggregates.
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