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An anticodon is always together with the same amino acid.
Each tRNA has its own anticodon and carries an amino acid.
The anticodon arm is a 5-bp stem whose loop contains the anticodon.
This region interacts with the wobble base in the anticodon of tRNA.
The reason is that the ribosome only sees the anticodon of the tRNA during translation.
For translation, each of these codons requires a tRNA molecule with a complementary anticodon.
One end of the tRNA matches the genetic code in a three-nucleotide sequence called the anticodon.
Thus, the ribosome will not be able to discriminate between tRNAs with the same anticodon but linked to different amino acids.
The anticodon that recognizes a codon during the translation process is located on one of the unpaired loops in the tRNA.
The physical separation between the anticodon and the amino acid on a tRNA is the basis for the unidirectional flow of information in coded biological systems.
The specificity of the amino acid activation is as critical for the translational accuracy as the correct matching of the codon with the anticodon.
One of these regions forms the anticodon, a set of three consecutive nucleotides that pairs with the complementary codon in an mRNA molecule.
The nature of the anticodon decides the specificity of hydrogen bonding and hence the accuracy of decoding by tRNAs.
An anticodon is a unit made up of three nucleotides that correspond to the three bases of the codon on the mRNA.
There will be, in the cytoplasm, tRNA molecules carrying the complementary triplet, or 'anticodon', CCG.
Recognition of the appropriate tRNA by the synthetases is not mediated solely by the anticodon, and the acceptor stem often plays a prominent role.
Molecules of transfer RNA (tRNA) contain a complementary anticodon on one end and the appropriate amino acid on the other.
The transfer RNA each have a triplet of bases called the ANTICODON.
The units of tRNA with amino acids attached travel to the ribosome and seek the complement to their anticodon on the messenger RNA.
A second enzyme then chemically modifies each "incorrectly" attached amino acid so that it now corresponds to the anticodon displayed by its covalently linked tRNA.
As a graduate student in Paul Doty's lab, Olke showed that the anticodon of tRNA was accessible to hybridization to oligonucleotides.
The tRNA recognizes a specific three nucleotide codon in the mRNA with a complementary sequence called the anticodon on one of its loops.
The tRNA anticodon domain associates with the mRNA codon domain in the ribosomal A site.
The enzyme acetylates the wobble base C of the CAU anticodon of elongation-specific tRNAMet.
The anticodon is an RNA triplet complementary to the mRNA triplet that codes for their cargo amino acid.