Literature DB >> 12098698

An essential role of N-terminal arginylation in cardiovascular development.

Yong Tae Kwon1, Anna S Kashina, Ilia V Davydov, Rong-Gui Hu, Jee Young An, Jai Wha Seo, Fangyong Du, Alexander Varshavsky.   

Abstract

The enzymatic conjugation of arginine to the N-termini of proteins is a part of the ubiquitin-dependent N-end rule pathway of protein degradation. In mammals, three N-terminal residues-aspartate, glutamate, and cysteine-are substrates for arginylation. The mouse ATE1 gene encodes a family of Arg-tRNA-protein transferases (R-transferases) that mediate N-terminal arginylation. We constructed ATE1-lacking mouse strains and found that ATE1-/- embryos die with defects in heart development and in angiogenic remodeling of the early vascular plexus. Through biochemical analyses, we show that N-terminal cysteine, in contrast to N-terminal aspartate and glutamate, is oxidized before its arginylation by R-transferase, suggesting that the arginylation branch of the N-end rule pathway functions as an oxygen sensor.

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Year:  2002        PMID: 12098698     DOI: 10.1126/science.1069531

Source DB:  PubMed          Journal:  Science        ISSN: 0036-8075            Impact factor:   47.728


  146 in total

1.  Gamma 2 subunit of G protein heterotrimer is an N-end rule ubiquitylation substrate.

Authors:  Maria H Hamilton; Lana A Cook; Theodore R McRackan; Kevin L Schey; John D Hildebrandt
Journal:  Proc Natl Acad Sci U S A       Date:  2003-04-16       Impact factor: 11.205

2.  Liat1, an arginyltransferase-binding protein whose evolution among primates involved changes in the numbers of its 10-residue repeats.

Authors:  Christopher S Brower; Connor E Rosen; Richard H Jones; Brandon C Wadas; Konstantin I Piatkov; Alexander Varshavsky
Journal:  Proc Natl Acad Sci U S A       Date:  2014-11-04       Impact factor: 11.205

3.  Arginyltransferase is an ATP-independent self-regulating enzyme that forms distinct functional complexes in vivo.

Authors:  Junling Wang; Xuemei Han; Sougata Saha; Tao Xu; Reena Rai; Fangliang Zhang; Yuri I Wolf; Alexey Wolfson; John R Yates; Anna Kashina
Journal:  Chem Biol       Date:  2011-01-28

Review 4.  The N-end rule pathway: emerging functions and molecular principles of substrate recognition.

Authors:  Shashikanth M Sriram; Bo Yeon Kim; Yong Tae Kwon
Journal:  Nat Rev Mol Cell Biol       Date:  2011-10-21       Impact factor: 94.444

5.  The C-terminal proteolytic fragment of the breast cancer susceptibility type 1 protein (BRCA1) is degraded by the N-end rule pathway.

Authors:  Zhizhong Xu; Roshani Payoe; Richard P Fahlman
Journal:  J Biol Chem       Date:  2012-01-18       Impact factor: 5.157

6.  The N-end rule pathway counteracts cell death by destroying proapoptotic protein fragments.

Authors:  Konstantin I Piatkov; Christopher S Brower; Alexander Varshavsky
Journal:  Proc Natl Acad Sci U S A       Date:  2012-06-05       Impact factor: 11.205

7.  The molecular principles of N-end rule recognition.

Authors:  Shashikanth M Sriram; Yong Tae Kwon
Journal:  Nat Struct Mol Biol       Date:  2010-10       Impact factor: 15.369

8.  Reduced passive force in skeletal muscles lacking protein arginylation.

Authors:  Felipe S Leite; Fábio C Minozzo; Albert Kalganov; Anabelle S Cornachione; Yu-Shu Cheng; Nicolae A Leu; Xuemei Han; Chandra Saripalli; John R Yates; Henk Granzier; Anna S Kashina; Dilson E Rassier
Journal:  Am J Physiol Cell Physiol       Date:  2015-10-28       Impact factor: 4.249

9.  Control of Hsp90 chaperone and its clients by N-terminal acetylation and the N-end rule pathway.

Authors:  Jang-Hyun Oh; Ju-Yeon Hyun; Alexander Varshavsky
Journal:  Proc Natl Acad Sci U S A       Date:  2017-05-17       Impact factor: 11.205

10.  Disruption of the ATE1 and SLC12A1 Genes by Balanced Translocation in a Boy with Non-Syndromic Hearing Loss.

Authors:  B Vona; C Neuner; N El Hajj; E Schneider; R Farcas; V Beyer; U Zechner; A Keilmann; M Poot; O Bartsch; I Nanda; T Haaf
Journal:  Mol Syndromol       Date:  2013-10-04
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