1. <scp>tRNA</scp> synthetase: <scp>tRNA</scp> aminoacylation and beyond
- Author
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Kiranmai Poruri, Yan Ling Joy Pang, and Susan A. Martinis
- Subjects
chemistry.chemical_classification ,Genetics ,Aminoacylation ,Biology ,Genetic code ,Biochemistry ,Article ,Amino acid ,Amino Acyl-tRNA Synthetases ,RNA, Transfer ,chemistry ,Transfer RNA ,Protein biosynthesis ,Humans ,TRNA aminoacylation ,Molecular Targeted Therapy ,Transfer RNA Aminoacylation ,Molecular Biology ,Function (biology) - Abstract
The aminoacyl-tRNA synthetases are prominently known for their classic function in the first step of protein synthesis, where they bear the responsibility of setting the genetic code. Each enzyme is exquisitely adapted to covalently link a single standard amino acid to its cognate set of tRNA isoacceptors. These ancient enzymes have evolved idiosyncratically to host alternate activities that go far beyond their aminoacylation role and impact a wide range of other metabolic pathways and cell signaling processes. The family of aminoacyl-tRNA synthetases have also been suggested as a remarkable scaffold to incorporate new domains that would drive evolution and the emergence of new organisms with more complex function. Because they are essential, the tRNA synthetases have served as pharmaceutical targets for drug and antibiotic development. The recent unfolding of novel important functions for this family of proteins offers new and promising pathways for therapeutic development to treat diverse human diseases.
- Published
- 2014
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