Extremophilic Archaea populate biotopes previously considered inaccessible for life. This feature, and the possibility that they are the extant forms of life closest to the last common ancestor, make these organisms excellent candidates for the study of evolution on Earth and stimulate the exobiological research in planets previously considered totally inhospitable. Among the other aspects of the physiology of these organisms, the study of the molecular genetics of extremophilic Archaea can give hints on how the genetic information is transmitted and propagated in ancient forms of life. We review here the expression of interrupted genes in a recently discovered nanoarchaeon and the mechanisms of reprogrammed genetic decoding in Archaea.
Interrupted genes in extremophilic archaea: mechanisms of gene expression in early organisms / Cobucci Ponzano, Beatrice; Rossi, Mose'; Moracci, Marco. - In: ORIGINS OF LIFE AND EVOLUTION OF THE BIOSPHERE. - ISSN 0169-6149. - 36:5-6(2006), pp. 487-92-492. [10.1007/s11084-006-9034-5]
Interrupted genes in extremophilic archaea: mechanisms of gene expression in early organisms
ROSSI, MOSE';MORACCI, Marco
2006
Abstract
Extremophilic Archaea populate biotopes previously considered inaccessible for life. This feature, and the possibility that they are the extant forms of life closest to the last common ancestor, make these organisms excellent candidates for the study of evolution on Earth and stimulate the exobiological research in planets previously considered totally inhospitable. Among the other aspects of the physiology of these organisms, the study of the molecular genetics of extremophilic Archaea can give hints on how the genetic information is transmitted and propagated in ancient forms of life. We review here the expression of interrupted genes in a recently discovered nanoarchaeon and the mechanisms of reprogrammed genetic decoding in Archaea.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
