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Literature DB >> 12419215

Did tRNA synthetase classes arise on opposite strands of the same gene?

Abstract

Structural homology of class II aminoacyl-tRNA synthetases to the HSP70 family and the existence of a gene whose sense and antisense strands code for a dehydrogenase and an HSP70 chaperonin justify reconsideration of a possible sense-antisense ancestry for the two synthetase classes.

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Year: 2002 PMID： 12419215 DOI： 10.1016/s1097-2765(02)00688-3

Source DB: PubMed Journal: Mol Cell ISSN： 1097-2765 Impact factor: 17.970

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Cited

21 in total

1. Rational genomics I: antisense open reading frames and codon bias in short-chain oxido reductase enzymes and the evolution of the genetic code.

Authors: William L Duax; Robert Huether; Vladimir Z Pletnev; David Langs; Anthony Addlagatta; Sonjay Connare; Lukas Habegger; Jay Gill
Journal: Proteins Date: 2005-12-01

2. An asymmetric underlying rule in the assignment of codons: possible clue to a quick early evolution of the genetic code via successive binary choices.

Authors: Marc Delarue
Journal: RNA Date: 2006-12-12 Impact factor: 4.942

3. Evolution of the genetic code by incorporation of amino acids that improved or changed protein function.

Authors: Brian R Francis
Journal: J Mol Evol Date: 2013-06-07 Impact factor: 2.395

Review 4. Development of tRNA synthetases and connection to genetic code and disease.

Authors: Paul Schimmel
Journal: Protein Sci Date: 2008-09-02 Impact factor: 6.725

5. On primordial sense-antisense coding.

Authors: Andrei S Rodin; Sergei N Rodin; Charles W Carter
Journal: J Mol Evol Date: 2009-12-03 Impact factor: 2.395

6. Functional Class I and II Amino Acid-activating Enzymes Can Be Coded by Opposite Strands of the Same Gene.

Authors: Luis Martinez-Rodriguez; Ozgün Erdogan; Mariel Jimenez-Rodriguez; Katiria Gonzalez-Rivera; Tishan Williams; Li Li; Violetta Weinreb; Martha Collier; Srinivas Niranj Chandrasekaran; Xavier Ambroggio; Brian Kuhlman; Charles W Carter
Journal: J Biol Chem Date: 2015-06-18 Impact factor: 5.157

Did tRNA synthetase classes arise on opposite strands of the same gene?

1. Rational genomics I: antisense open reading frames and codon bias in short-chain oxido reductase enzymes and the evolution of the genetic code.

2. An asymmetric underlying rule in the assignment of codons: possible clue to a quick early evolution of the genetic code via successive binary choices.

3. Evolution of the genetic code by incorporation of amino acids that improved or changed protein function.

Review 4. Development of tRNA synthetases and connection to genetic code and disease.

5. On primordial sense-antisense coding.

6. Functional Class I and II Amino Acid-activating Enzymes Can Be Coded by Opposite Strands of the Same Gene.

Review 7. Urzymology: experimental access to a key transition in the appearance of enzymes.

8. One ancestor for two codes viewed from the perspective of two complementary modes of tRNA aminoacylation.

9. Undetected antisense tRNAs in mitochondrial genomes?

10. A yeast arginine specific tRNA is a remnant aspartate acceptor.