Translational recoding includes a group of events occurring during gene translation, namely stop codon readthrough, programmed +/- 1 frameshifting, and ribosome bypassing, which have been found in organisms from all domains of life. They serve to regulate protein expression at translational level and represent a relatively less known exception to the traditional central 'dogma' of biology that information flows as DNA -> RNA -> protein and that it is stored in a co-linear way between the 5'-> 3' of nucleic acids and N -> C-terminal of polypeptides. In archaea, in which translational recoding regulates the decoding of the 21st and the 22nd amino acids selenocysteine and pyrrolysine, respectively, only one case of programmed -1 frameshifting has been reported so far and further examples, although promising, have not been confirmed yet. We here summarize the current state-of-the-art of this field that, especially in archaea, has relevant implications for the physiology of life in extreme environments and for the origin of life.
Translational recoding in archaea
CobucciPonzano Beatrice;Moracci Marco
2012
Abstract
Translational recoding includes a group of events occurring during gene translation, namely stop codon readthrough, programmed +/- 1 frameshifting, and ribosome bypassing, which have been found in organisms from all domains of life. They serve to regulate protein expression at translational level and represent a relatively less known exception to the traditional central 'dogma' of biology that information flows as DNA -> RNA -> protein and that it is stored in a co-linear way between the 5'-> 3' of nucleic acids and N -> C-terminal of polypeptides. In archaea, in which translational recoding regulates the decoding of the 21st and the 22nd amino acids selenocysteine and pyrrolysine, respectively, only one case of programmed -1 frameshifting has been reported so far and further examples, although promising, have not been confirmed yet. We here summarize the current state-of-the-art of this field that, especially in archaea, has relevant implications for the physiology of life in extreme environments and for the origin of life.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
