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Merck
  • Oligomerization and a distinct tRNA-binding loop are important regulators of human arginyl-transferase function.

Oligomerization and a distinct tRNA-binding loop are important regulators of human arginyl-transferase function.

Nature communications (2024-07-28)
Xin Lan, Wei Huang, Su Bin Kim, Dechen Fu, Thilini Abeywansha, Jiemin Lou, Udayakumaran Balamurugan, Yong Tae Kwon, Chang Hoon Ji, Derek J Taylor, Yi Zhang
摘要

The arginyl-transferase ATE1 is a tRNA-dependent enzyme that covalently attaches an arginine molecule to a protein substrate. Conserved from yeast to humans, ATE1 deficiency in mice correlates with defects in cardiovascular development and angiogenesis and results in embryonic lethality, while conditional knockouts exhibit reproductive, developmental, and neurological deficiencies. Despite the recent revelation of the tRNA binding mechanism and the catalytic cycle of yeast ATE1, the structure-function relationship of ATE1 in higher organisms is not well understood. In this study, we present the three-dimensional structure of human ATE1 in an apo-state and in complex with its tRNA cofactor and a peptide substrate. In contrast to its yeast counterpart, human ATE1 forms a symmetric homodimer, which dissociates upon binding of a substrate. Furthermore, human ATE1 includes a unique and extended loop that wraps around tRNAArg, creating extensive contacts with the T-arm of the tRNA cofactor. Substituting key residues identified in the substrate binding site of ATE1 abolishes enzymatic activity and results in the accumulation of ATE1 substrates in cells.

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Sigma-Aldrich
抗 β-肌动蛋白抗体,小鼠单克隆, clone AC-15, purified from hybridoma cell culture
Sigma-Aldrich
Anti-RGS4 antibody produced in rabbit, affinity isolated antibody