ATA
The anticodon on tRNA recognizes the codon on mRNA through complementary base pairing. This interaction helps to ensure the correct amino acid is added to the growing polypeptide chain during translation. Aminoacyl-tRNA synthetases play a key role in charging tRNAs with the appropriate amino acid based on the anticodon sequence.
The anticodon that pairs with the codon GAU is CUA. This is based on the rules of complementary base pairing in DNA and RNA.
The triplet of bases at one end of a folded tRNA molecule is called the anticodon. This anticodon base-pairs with a complementary sequence of three bases, called the codon, in mRNA during protein synthesis. This specific interaction ensures the accurate incorporation of the correct amino acid into the growing polypeptide chain.
The only base-pairs that are possible are: Adenine - Uracil (for RNA, since the question refers to codon and anticodon) Guanine - Cytosine The reason for this particular base pairing is that it is the only possible combination for the hydrogen bonds between the bases to be effectively made.
The anticodon on tRNA that pairs with the codon UCA would be AGU. This is because in the genetic code, the anticodon pairs with the complementary codon on mRNA through base pairing rules (A-U, G-C).
The anticodon on tRNA recognizes the codon on mRNA through complementary base pairing. This interaction helps to ensure the correct amino acid is added to the growing polypeptide chain during translation. Aminoacyl-tRNA synthetases play a key role in charging tRNAs with the appropriate amino acid based on the anticodon sequence.
The anticodon that pairs with the codon GAU is CUA. This is based on the rules of complementary base pairing in DNA and RNA.
The triplet of bases at one end of a folded tRNA molecule is called the anticodon. This anticodon base-pairs with a complementary sequence of three bases, called the codon, in mRNA during protein synthesis. This specific interaction ensures the accurate incorporation of the correct amino acid into the growing polypeptide chain.
an anticodon is a base sequence on tRNA which is completmently to the codon on the mRNA strand.
The only base-pairs that are possible are: Adenine - Uracil (for RNA, since the question refers to codon and anticodon) Guanine - Cytosine The reason for this particular base pairing is that it is the only possible combination for the hydrogen bonds between the bases to be effectively made.
3 bases make up an anti-codon, 3 bases also make up a codon
The anticodon on tRNA that pairs with the codon UCA would be AGU. This is because in the genetic code, the anticodon pairs with the complementary codon on mRNA through base pairing rules (A-U, G-C).
This triplet is called a codon.
The anticodon sequences for the tRNA molecules that carry each amino acid are: Tyrosine: 3'-AUG-5' Leucine: 3'-CAA-5' Proline: 3'-GGC-5' Serine: 3'-AGU-5' Threonine: 3'-CGU-5' Stop codon: There is no tRNA anticodon for a stop codon as it signals the end of translation.
The two types of molecules involved when the codon pairs with its anticodon are messenger RNA (mRNA) and transfer RNA (tRNA). The mRNA carries the codon sequence, while the tRNA carries the anticodon sequence that base-pairs with the codon during translation.
codon
The three unpaired bases on a tRNA molecule are known as the anticodon. The anticodon base pairs with the corresponding codon on mRNA during translation, allowing for the correct amino acid to be added to the growing polypeptide chain.