Anticodon: Difference between revisions
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Created page with 'The three base sequence on a molecule of tRNA which is complementry to a codon on a strand of mRNA. The recognition of an anticodon to a codon allows an amino acid to be b…' |
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The first two bases must be completely complementry to the codon to allow hydrogen bonds to form between the base pairs, the third base may be non-complementry or modified base (i.e. Inosine) but will still form a hydrogen bond between the anticodon and codon, this is known as the 'Wobble' theory. | The first two bases must be completely complementry to the codon to allow hydrogen bonds to form between the base pairs, the third base may be non-complementry or modified base (i.e. Inosine) but will still form a hydrogen bond between the anticodon and codon, this is known as the 'Wobble' theory. | ||
'''References'''<br> | |||
Molecular Biology of the Cell, 5th edn, Alberts et al, 2008<br> <references /> | Molecular Biology of the Cell, 5th edn, Alberts et al, 2008<br> <references /> | ||
Revision as of 13:08, 5 January 2011
The three base sequence on a molecule of tRNA which is complementry to a codon on a strand of mRNA.
The recognition of an anticodon to a codon allows an amino acid to be brought to a elongating strand of protien and joined to it.
The first two bases must be completely complementry to the codon to allow hydrogen bonds to form between the base pairs, the third base may be non-complementry or modified base (i.e. Inosine) but will still form a hydrogen bond between the anticodon and codon, this is known as the 'Wobble' theory.
References
Molecular Biology of the Cell, 5th edn, Alberts et al, 2008