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From Accuracy in Protein Synthesis to Cardiovascular Disease: The Role of Homocysteine
Subtitle:From Accuracy in Protein Synthesis to Cardiovascular Disease: The Role of Homocysteine
Creator: Publisher:Committee on Biotechnology PAS ; Institute of Bioorganic Chemistry PAS
Date issued/created: Subject and Keywords: Abstract:The non-protein amino acid homocysteine (Hey) enters the first step of protein synthesis and forms an aminoacyl-tRNA synthetase-bound homocysteinyladenylate (Hey-AMP). Direct incorporation of Hey into tRNA and protein is prevented by editing activities of aminoacyl-tRNA synthetases that convertHey-AMP into Hey thiolactone. Editing of Hey occurs in all cell types investigated, including human. S-Nitrosylation of Hey prevents its editing by MetRSand allows formation of S-nitroso-Hcy-tRNA'^^', as well as incorporation of Heyinto proteins at positions specified by methionine codons. This provides an example of how the genetic code can be expanded by invasion of the metioninęcoding pathway by Hey. Hey can also be incorporated into protein post-translationally by a facile reaction of Hey thiolactone with e-amino groups of proteinlysine residues. Hey is present in human blood proteins, such as hemoglobin,serum albumin, and y-globulins. Hey thiolactonase, a component of high-densitylipoprotein, minimizes protein N-homocysteinylation. Incorporation of Hey intoprotein provides plausible chemical mechanism by which elevated levels of Heycontribute to human cardiovascular disease.
Relation:Biotechnologia, vol.58, 3 (2002)-.
Volume: Issue: Start page: End page: Resource type: Detailed Resource Type: Format: Resource Identifier: Source:Library of Institute of Bioorganic Chemistry PAS
Language: Language of abstract: Temporal coverage: Rights:Creative Commons Attribution BY-SA 4.0 license
Terms of use: Digitizing institution:Institute of Bioorganic Chemistry of the Polish Academy of Science
Original in:Institute of Bioorganic Chemistry of the Polish Academy of Science
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