An Essential Role of N-Terminal Arginylation in Cardiovascular Development

An Essential Role of N-Terminal Arginylation in Cardiovascular Development

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-tRN...

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Veröffentlicht in:Science (American Association for the Advancement of Science) 2002-07, Vol.297 (5578), p.96-99
Hauptverfasser: Kwon, Yong Tae, Kashina, Anna S., Davydov, Ilia V., Hu, Rong-Gui, An, Jee Young, Seo, Jai Wha, Du, Fangyong, Varshavsky, Alexander
Format: Artikel
Sprache:eng
Schlagworte:
Alkylation
Aminoacyltransferases - genetics
Aminoacyltransferases - metabolism
Analysis
Animals
Aorta - embryology
Arginine - metabolism
Aspartic Acid - metabolism
Autism
Autism Spectrum Disorders
Biochemistry
Biological and medical sciences
Blood Vessels - embryology
Cardiovascular research
Cell Line
Cell lines
Composition
Cysteic Acid - metabolism
Cysteine - metabolism
Embryology: invertebrates and vertebrates. Teratology
Embryos
Enzymes
Female
Fundamental and applied biological sciences. Psychology
Genetic screening
Glutamic Acid - metabolism
Heart
Heart - embryology
Heart Defects, Congenital - embryology
Heart Septal Defects - embryology
Hypoxia-Inducible Factor 1, alpha Subunit
L cells
Male
Mammals
Mice
Mice, Inbred C57BL
Molecular embryology
Mutagenesis
Neovascularization, Physiologic
Oxidation-Reduction
Proteins
Proteins - metabolism
Pulmonary Artery - embryology
Recombinant Proteins - metabolism
Reverse genetics
RGS Proteins - metabolism
Sulfinic acids
Sulfinic Acids - metabolism
Transcription Factors - metabolism
Transfection
Yeasts
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Zusammenfassung: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.
ISSN:0036-8075
1095-9203
DOI:10.1126/science.1069531