Structural and molecular determinants regulating mGluR5 surface expression

MreB, the bacterial ancestor of eukaryotic actin, is responsible for shape in most rod-shaped bacteria. Despite belonging to the actin family, the relevance of nucleotide-driven polymerization dynamics for MreB function is unclear. Here, we provide insights into the effect of nucleotide state on membrane binding of Spiroplasma citri MreB5 (ScMreB5). Filaments of ScMreB5WT and an ATPase-deficient mutant, ScMreB5E134A, assemble independently of the nucleotide state. However, capture of the filament dynamics revealed that efficient filament formation and organization through lateral interactions are affected in ScMreB5E134A. Hence, the catalytic glutamate functions as a switch, (a) by sensing the ATP-bound state for filament assembly and (b) by assisting hydrolysis, thereby potentially triggering disassembly, as observed in other actins. Glu134 mutation and the bound nucleotide exhibit an allosteric effect on membrane binding, as observed from the differential liposome binding. We suggest that the conserved ATP-dependent polymerization and disassembly upon ATP hydrolysis among actins has been repurposed in MreBs for modulating filament organization on the membrane.

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IL-2 mutant D10 ternary complex

Levin¹,

Bates²,

Ring³

et al. 2012

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Crystal Structure of the Group II Chaperonin from Methanococcus Maripaludis, Cysteine-less mutant in the Apo State

Dalton¹,

López²,

Liu³

et al. 2018

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CRYSTAL STRUCTURE OF THE HUMAN PRMT5:MEP50 COMPLEX with JNJ44064146

Brown¹,

Robinson²,

Pande³

2020

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V.S. Pande

MreB5 Is a Determinant of Rod-to-Helical Transition in the Cell-Wall-less Bacterium Spiroplasma

Filament organization of the bacterial actin MreB is dependent on the nucleotide state

IL-2 mutant D10 ternary complex

Crystal Structure of the Group II Chaperonin from Methanococcus Maripaludis, Cysteine-less mutant in the Apo State

CRYSTAL STRUCTURE OF THE HUMAN PRMT5:MEP50 COMPLEX with JNJ44064146

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