7dme
Solution structure of human Aha1Solution structure of human Aha1
Structural highlights
Function[AHSA1_HUMAN] Cochaperone that stimulates HSP90 ATPase activity (By similarity). May affect a step in the endoplasmic reticulum to Golgi trafficking. Publication Abstract from PubMedAha1 is the only co-chaperone known to strongly stimulate the ATPase activity of Hsp90. Meanwhile, besides the well-studied co-chaperone function, human Aha1 has also been demonstrated to exhibit chaperoning activity against stress-denatured proteins. To provide structural insights for a better understanding of Aha1's co-chaperone and chaperone-like activities, nuclear magnetic resonance (NMR) techniques were used to reveal the unique structure and internal dynamics features of full-length human Aha1. We then found that, in solution, both the two domains of Aha1 presented distinctive thermal stabilities and dynamics behaviors defined by their primary sequences and three-dimensional structures. The low thermal stability (melting temperature of Aha1(28-162): 54.45 degrees C) and the internal dynamics featured with slow motions on the micros-ms time scale were detected for Aha1's N-terminal domain (Aha1N). The aforementioned experimental results suggest that Aha1N is in an energy-unfavorable state, which would therefore thermostatically favor the interaction of Aha1N with its partner proteins such as Hsp90's middle domain. Differently from Aha1N, Aha1C (Aha1's C-terminal domain) exhibited enhanced thermal stability (melting temperature of Aha1(204-335): 72.41 degrees C) and the internal dynamics featured with intermediate motions on the ps-ns time scale. Aha1C's thermal and structural stabilities make it competent for the stabilization of the exposed hydrophobic groove of dimerized Hsp90's N-terminal domain. Of note, according to the NMR data and the thermal shift results, although the very N-terminal region (M1-W27) and the C-terminal relaxin-like factor (RLF) motif showed no tight contacts with the remaining parts of human Aha1, they were identified to play important roles in the recognition of intrinsically disordered pathological alpha-synuclein. Aha1 Exhibits Distinctive Dynamics Behavior and Chaperone-Like Activity.,Hu H, Wang Q, Du J, Liu Z, Ding Y, Xue H, Zhou C, Feng L, Zhang N Molecules. 2021 Mar 30;26(7). pii: molecules26071943. doi:, 10.3390/molecules26071943. PMID:33808352[1] From MEDLINE®/PubMed®, a database of the U.S. National Library of Medicine. References
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