Add to ORKGJournal ArticleEven through the amino acids corresponding to most of the 64 nucleotide triplets are now known, several important aspects of the genetic code are not yet fully understood. In particular we need more knowledge about the "punctuation marks" of the code-for example, the signals necessary for the initiation or termination of polypeptide synthesis. One approach to the identification of these signals has been provided by the development of cell-free amino acid incorporating systems directed by natural occurring messenger RNA molecules
The early metabolism arising in a Thioester world gave rise to amino acids and their simple peptides...
The origin of the genetic code is obscure, but this event draws continuing comment because it was a ...
AbstractThe genetic code is an enduring feature of biology: only rare circumstances result in change...
AbstractThe genetic code can be interpreted during translation as 21 amino acids and three terminati...
At earlier stages in the evolution of the universal genetic code, fewer than 20 amino acids were con...
AbstractA series of stages in the evolution of the genetic code is postulated, representing a chain ...
The 3x redundancy of the Genetic Code is usually explained as a necessity to increase the mutation-r...
The major thrust is to understand just how the process of protein synthesis, including that very imp...
Proteins in nature are synthesized from a conservative set of 20 canonical amino acids, limiting the...
The unprecedented growth of interest in protein synthesis among biochemists is both a result of, and...
Recent technical advances have led to the accumulation of vast amounts of DNA sequences, highlightin...
Abstract According to the molecular recognition theory, the complementarity of the sense and nonsens...
<p>The genes that programed the synthesis of specific tetrapeptides were made up of four amino-acid ...
The genetic code of cells is near‐universally triplet, and since many ribosomal mutations are lethal...
AbstractThe genetic encoding of synthetic or “non-natural” amino acids promises to diversify the fun...
The early metabolism arising in a Thioester world gave rise to amino acids and their simple peptides...
The origin of the genetic code is obscure, but this event draws continuing comment because it was a ...
AbstractThe genetic code is an enduring feature of biology: only rare circumstances result in change...
AbstractThe genetic code can be interpreted during translation as 21 amino acids and three terminati...
At earlier stages in the evolution of the universal genetic code, fewer than 20 amino acids were con...
AbstractA series of stages in the evolution of the genetic code is postulated, representing a chain ...
The 3x redundancy of the Genetic Code is usually explained as a necessity to increase the mutation-r...
The major thrust is to understand just how the process of protein synthesis, including that very imp...
Proteins in nature are synthesized from a conservative set of 20 canonical amino acids, limiting the...
The unprecedented growth of interest in protein synthesis among biochemists is both a result of, and...
Recent technical advances have led to the accumulation of vast amounts of DNA sequences, highlightin...
Abstract According to the molecular recognition theory, the complementarity of the sense and nonsens...
<p>The genes that programed the synthesis of specific tetrapeptides were made up of four amino-acid ...
The genetic code of cells is near‐universally triplet, and since many ribosomal mutations are lethal...
AbstractThe genetic encoding of synthetic or “non-natural” amino acids promises to diversify the fun...
The early metabolism arising in a Thioester world gave rise to amino acids and their simple peptides...
The origin of the genetic code is obscure, but this event draws continuing comment because it was a ...
AbstractThe genetic code is an enduring feature of biology: only rare circumstances result in change...