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Termination codons

Codon A set of three nucleotides in a protein coding sequence that specifies individual amino acids or a termination signal (codon, terminator). Most codons are universal, but some organisms do not produce the transfer RNAs (RNA, transfer) complementary to all codons. These codons are referred to as unassigned codons (codons, nonsense). [NIH]... [Pg.63]

Stop codons. (termination codons nonsense codons). UAA, UAG, and UGA. In protein synthesis these codons signal the termination of a polypeptide chain.. [Pg.1180]

Results in premature stop codon termination of protein. [Pg.10]

Codon established by synthesis, but the triplet is not effective in tRNA. [ ], Start condon (see text), end. Nonsense codon (termination). [Pg.536]

The initiation codon, termination codon and the possible polyadenylation signals are underlined. The amino acid TTTCCTAAAAAAAAAAAAAAAA sequence derived from nucleotide sequence is shown below the nucleotide sequence [20]... [Pg.221]

At the end, a release factor binds to the stop codon, terminating translation and releasing the complete polypeptide from the ribosome. Common stop codons include UAA, UAG, and UGA. [Pg.307]

Codon Sequence of three nucleotides that codes for a single amino acid (or a termination signal)... [Pg.569]

Section 28 12 The start codon for protein biosynthesis is AUG which is the same as the codon for methionine Thus all proteins initially have methionine as their N terminal ammo acid but lose it subsequent to their formation The reaction responsible for extending the protein chain is nucleophilic acyl substitution... [Pg.1189]

The specific ribonucleotide sequence in mRNA forms a message that determines the order in which amino acid residues are to be joined. Each "word," or codon, along the mRNA chain consists of a sequence of three ribonucleotides that is specific for a given amino add. For example, the series UUC on mRNA is a codon directing incorporation of the amino acid phenylalanine into the growing protein. Of the 43 = 64 possible triplets of the four bases in RNA, 61 code for specific amino acids and 3 code for chain termination, fable 28.1 shows the meaning of each codon. [Pg.1109]

An opening frame contains a series of codons (base triplets) coding for amino acids without any termination codons. There are six potential reading frames of an unidentified sequence. [Pg.903]

The terms first, second, and third nucleotide refer to the individual nucleotides of a triplet codon. U, uridine nucleotide C, cytosine nucleotide A, adenine nucleotide G, guanine nucleotide Term, chain terminator codon. AUG, which codes for Met, serves as the initiator codon in mammalian cells and encodes for internal methionines in a protein. (Abbreviations of amino acids are explained in Chapter 3.)... [Pg.359]

A nonsense codon may appear that would then result in the premature termination of amino acid incorporation into a peptide chain and the production of only a fragment of the intended protein molecule. The probabihty is high that a premamrely terminated protein molecule or peptide fragment will not function in its assigned role. [Pg.361]

Figure 38-9. Diagrammatic representation of the termination process of protein synthesis. The peptidyl-tRNAand aminoacyl-tRNA sites are indicated as P site and A site, respectively. The termination (stop) codon is indicated by the three vertical bars. Releasing factor RF1 binds to the stop codon. Releasing factor RF3, with bound GTP, binds to RFl. Flydrolysisofthe peptidyl-tRNA complex is shown by the entry of HjO. N and C indicate the amino and carboxyl terminal amino acids, respectively, and illustrate the polarity of protein synthesis. Figure 38-9. Diagrammatic representation of the termination process of protein synthesis. The peptidyl-tRNAand aminoacyl-tRNA sites are indicated as P site and A site, respectively. The termination (stop) codon is indicated by the three vertical bars. Releasing factor RF1 binds to the stop codon. Releasing factor RF3, with bound GTP, binds to RFl. Flydrolysisofthe peptidyl-tRNA complex is shown by the entry of HjO. N and C indicate the amino and carboxyl terminal amino acids, respectively, and illustrate the polarity of protein synthesis.
The charging of the tRNA molecule with the aminoacyl moiety requires the hydrolysis of an ATP to an AMP, equivalent to the hydrolysis of two ATPs to two ADPs and phosphates. The entry of the aminoacyl-tRNA into the A site results in the hydrolysis of one GTP to GDP. Translocation of the newly formed pep-tidyl-tRNA in the A site into the P site by EF2 similarly results in hydrolysis of GTP to GDP and phosphate. Thus, the energy requirements for the formation of one peptide bond include the equivalent of the hydrolysis of two ATP molecules to ADP and of two GTP molecules to GDP, or the hydrolysis of four high-energy phosphate bonds. A eukaryotic ribosome can incorporate as many as six amino acids per second prokaryotic ribosomes incorporate as many as 18 per second. Thus, the process of peptide synthesis occurs with great speed and accuracy until a termination codon is reached. [Pg.370]

Termination Occurs When a Stop Codon Is Recognized (Figure 38-9)... [Pg.370]

Figure 38-10. Picornavimses disrupt the 4F complex. The 4E-4G complex (4F) directs the 40S ribosomal subunit to the typical capped mRNA (see text). 4G alone is sufficient for targeting the 40S subunit to the internal ribosomal entry site (IRES) of viral mRNAs. To gain selective advantage, certain viruses (eg, poliovirus) have a protease that cleaves the 4E binding site from the amino terminal end of 4G. This truncated 4G can direct the 40S ribosomal subunit to mRNAs that have an IRES but not to those that have a cap. The widths of the arrows indicate the rate of translation initiation from the AUG codon in each example. Figure 38-10. Picornavimses disrupt the 4F complex. The 4E-4G complex (4F) directs the 40S ribosomal subunit to the typical capped mRNA (see text). 4G alone is sufficient for targeting the 40S subunit to the internal ribosomal entry site (IRES) of viral mRNAs. To gain selective advantage, certain viruses (eg, poliovirus) have a protease that cleaves the 4E binding site from the amino terminal end of 4G. This truncated 4G can direct the 40S ribosomal subunit to mRNAs that have an IRES but not to those that have a cap. The widths of the arrows indicate the rate of translation initiation from the AUG codon in each example.
The mRNA is read continuously from a start codon (AUG) to a termination codon (UAA, UAG, UGA). [Pg.372]

See other pages where Termination codons is mentioned: [Pg.293]    [Pg.735]    [Pg.353]    [Pg.9]    [Pg.232]    [Pg.293]    [Pg.735]    [Pg.353]    [Pg.9]    [Pg.232]    [Pg.188]    [Pg.1178]    [Pg.387]    [Pg.400]    [Pg.414]    [Pg.235]    [Pg.1085]    [Pg.1234]    [Pg.288]    [Pg.257]    [Pg.75]    [Pg.325]    [Pg.356]    [Pg.359]    [Pg.359]    [Pg.363]    [Pg.363]    [Pg.363]    [Pg.363]    [Pg.365]    [Pg.370]    [Pg.373]    [Pg.402]    [Pg.8]   
See also in sourсe #XX -- [ Pg.491 ]

See also in sourсe #XX -- [ Pg.87 ]



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Amino Termination codons

Chain termination codons

Codon

Genetic code termination codon

Opal terminator codon

Polypeptide chain termination terminator codons

Terminator , codon

Terminator , codon

UAA termination codon

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