2N3J

Solution Structure of the alpha-crystallin domain from the redox-sensitive chaperone, HSPB1

2N3J の概要

• エントリーDOI: 10.2210/pdb2n3j/pdb
• NMR情報: BMRB: 25645
• 分子名称: Heat shock protein beta-1 (1 entity in total)
• 機能のキーワード: crystallin, redox-sensitive chaperone, small heat shock protein, chaperone
• 由来する生物種: Homo sapiens (human)
• 細胞内の位置: Cytoplasm: P04792
• タンパク質・核酸の鎖数: 2
• 化学式量合計: 21788.31

構造登録者

Rajagopal, P.,Liu, Y.,Shi, L.,Klevit, R.E. (登録日: 2015-06-03, 公開日: 2015-08-19, 最終更新日: 2024-10-16)

主引用文献

Rajagopal, P.,Liu, Y.,Shi, L.,Clouser, A.F.,Klevit, R.E.
Structure of the alpha-crystallin domain from the redox-sensitive chaperone, HSPB1.
J.Biomol.Nmr, 63:223-228, 2015

PubMed Abstract: Small heat shock proteins (sHSP) are a class of ATP-independent protein chaperones found throughout nature. They share a common ability to maintain partly unfolded proteins in soluble states under cellular stress conditions. All sHSPs contain a central domain called the α-crystallin domain (ACD); the domain is found in all sHSPs and in no other proteins and therefore defines the family. Though most sHSPs form large, often polydisperse oligomers from varying numbers of subunits, the ACD is both necessary and sufficient for formation of a dimer, the fundamental building block for oligomers. HSPB1 (also known as Hsp27) is unique among the ten human sHSPs because it contains a Cys residue in its dimer interface. HSPB1 is highly expressed under conditions of oxidative stress and is proposed to serve as a redox-sensitive chaperone. HSPB1 residue Cys137 has been proposed to modulate function by existing in either its oxidized (disulfide) or reduced (thiol) form (Chalova et al 2014). Here we report the solution-state NMR structure of oxidized HSPB1-ACD and compare it to a previously determined crystal structure of the reduced state. Formation of the disulfide-bond across the dimer interface yields a locked dimer structure with increased accessible hydrophobic surface. In the context of full-length HSPB1 oligomers, oxidation of Cys137 is associated with enhanced ability to bind the hydrophobic dye, 8-Anilinonapthalene-1-sulfonic-acid, implying an increased ability to interact with client proteins under oxidative stress.

PubMed: 26243512
DOI: 10.1007/s10858-015-9973-0

実験手法

SOLUTION NMR