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Intricacies and surprises of nuclear-mitochondrial co-evolution.

Author(s): Erik Hartmann, Dagmar K. Willkomm

Publication date: 2006-10-15

Keywords: Animals, Biological Evolution, Cell Nucleus, metabolism, Mitochondria, Peptide Elongation Factor Tu, Protein Biosynthesis, genetics

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Abstract

In this issue of the Biochemical Journal, Watanabe and colleagues disclose another fascinating facet of the mitochondrial protein synthesis machinery: one of the two nematode mitochondrial elongation factors Tu, EF-Tu1, specifically recognizes the D-arm of T-armless tRNAs via a 57-amino-acid C-terminal extension that compensates for the reduction in tRNA structure. This principle provides a paradigm for the evolutionary events thought to have ignited the transition from an ancient 'RNA world' to the 'protein world' of today.

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PubMed ID:: 16987107

PMC ID:: 1609910

DOI:: 10.1042/BJ20061241

ScienceOpen disciplines: Chemistry

Keywords: Animals,Biological Evolution,Cell Nucleus,metabolism,Mitochondria,Peptide Elongation Factor Tu,Protein Biosynthesis,genetics

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ScienceOpen disciplines: Chemistry

Keywords: Animals, Biological Evolution, Cell Nucleus, metabolism, Mitochondria, Peptide Elongation Factor Tu, Protein Biosynthesis, genetics

Intricacies and surprises of nuclear-mitochondrial co-evolution.

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Journal of Circulating Biomarkers

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