AbstractThe high conservation of the genetic code and its fundamental role in genome decoding suggest that its evolution is highly restricted or even frozen. However, various prokaryotic and eukaryotic genetic code alterations, several alternative tRNA-dependent amino acid biosynthesis pathways, regulation of tRNA decoding by diverse nucleoside modifications and recent in vivo incorporation of non-natural amino acids into prokaryotic and eukaryotic proteins, show that the code evolves and is surprisingly flexible. The cellular mechanisms and the proteome buffering capacity that support such evolutionary processes remain unclear. Here we explore the hypothesis that codon misreading and reassignment played fundamental roles in the development...
Nearly 50 years ago, Francis Crick propounded the frozen accident scenario for the evolution of the ...
Background - Genetic code alterations have been reported in mitochondrial, prokaryotic, and eukaryot...
Go to: Background Synthesis of proteins is based on the genetic code - a nearly universal assignme...
The high conservation of the genetic code and its fundamental role in genome decoding suggest that i...
During the last 30 years, a number of alterations to the standard genetic code have been uncovered b...
Background. The discovery of genetic code alterations and expansions in both prokaryotes and eukaryo...
AbstractThe strategies organisms use to decode synonymous codons in cytosolic protein synthesis are ...
The genetic code is the cellular translation table for the conversion of nucleotide sequences into a...
AbstractThe genetic code is no longer universal, even in non-mitochondrial genomes. Recent studies h...
The precise mechanisms underlying the evolution of the genetic code have eluded researchers for deca...
AbstractEvolution of the genetic code in an early RNA world is dependent on the steadily improving s...
Genetic code alterations discovered over the last 40 years in bacteria and eukaryotes invalidate the...
The genetic code is extremely old, predating the time of the most recent common ancestor of the thre...
BACKGROUND: The discovery of genetic code alterations and expansions in both prokaryotes and eukaryo...
The canonical genetic code ubiquitously translates nucleotide into peptide sequence with several alt...
Nearly 50 years ago, Francis Crick propounded the frozen accident scenario for the evolution of the ...
Background - Genetic code alterations have been reported in mitochondrial, prokaryotic, and eukaryot...
Go to: Background Synthesis of proteins is based on the genetic code - a nearly universal assignme...
The high conservation of the genetic code and its fundamental role in genome decoding suggest that i...
During the last 30 years, a number of alterations to the standard genetic code have been uncovered b...
Background. The discovery of genetic code alterations and expansions in both prokaryotes and eukaryo...
AbstractThe strategies organisms use to decode synonymous codons in cytosolic protein synthesis are ...
The genetic code is the cellular translation table for the conversion of nucleotide sequences into a...
AbstractThe genetic code is no longer universal, even in non-mitochondrial genomes. Recent studies h...
The precise mechanisms underlying the evolution of the genetic code have eluded researchers for deca...
AbstractEvolution of the genetic code in an early RNA world is dependent on the steadily improving s...
Genetic code alterations discovered over the last 40 years in bacteria and eukaryotes invalidate the...
The genetic code is extremely old, predating the time of the most recent common ancestor of the thre...
BACKGROUND: The discovery of genetic code alterations and expansions in both prokaryotes and eukaryo...
The canonical genetic code ubiquitously translates nucleotide into peptide sequence with several alt...
Nearly 50 years ago, Francis Crick propounded the frozen accident scenario for the evolution of the ...
Background - Genetic code alterations have been reported in mitochondrial, prokaryotic, and eukaryot...
Go to: Background Synthesis of proteins is based on the genetic code - a nearly universal assignme...