The base sequences on tRNA that are complementary to the codons on mRNA are known as anti-codons. These match up with the codons to ensure the correct amino acid is added to the polypeptide (protein) chain being created.
U binds with A, G binds with C.
tRNA: UAC , GUA , CGU , UCA , AUC
"LOla" good luck :)
Because c-g-a-t-c-c-g-t-t contains thymine and is therefore from the DNA, the tRNA sequence that may derive from this is C-G-A-U-C-C-G-U-U
Each tRNA with its corresponding amino acid has a sequence of three nucleotides called the anticodon which corresponds to codons in the mRNA.
tRNA: UAC GUA CGU UCA AUC
CUG
These nucleotide sequences are called anticodons.
Every codon is three nucleotide pairs, so you would have 25 codons.
Mutation
The newly spliced mRNA binds to a ribosome. tRNA molecules migrate towards the ribosome, these tRNA molecules carries a specific amino acid. The ribosome allows two tRNA molecules into the ribosome at a time. The tRNA molecules have complementary anti-codons to the codons present on the mRNA strand. Two tRNA move into the ribosome and their anti-codons join to complementary codons on the mRNA strand. As one molecule leaves the ribosome, its amino acid forms a peptide bond with an amino acid on the adjacent tRNA molecule, with the help of ATP and an enzyme. As the ribosome moves along the the mRNA strand, a polypeptide chain is created. The ribosome stops reading the mRNA strand when it reaches a stop codon.
I think you are referring to translation - translation is the process of replicating the DNA sequence in order to produce a code for the production of a particular protein, known as an mRNA strand. This code is read in sequences of three bases known as codons. The beginning and end of the mRNA strand is determined by start and stop codons. Start codons, unlike stop codons, also need nearby sequences and initiation factors in order to begin translation. Start codons include base sequences of usually AUG or possibly GUG or UUG depending on the organism. There are three stop codons and these are UAG, UGA and UAA
These nucleotide sequences are called anticodons.
Every codon is three nucleotide pairs, so you would have 25 codons.
In translation, an mRNA codon is recognized by its complementary tRNA. /\
Anticodon
anticodon
Anticodon
Amino acid tables are used to translate mRNA codons into amino acid sequences. They also tell whem mRNA codons produce stops.
Anticodon
tRNAanti-codonsact as the interpreters of the mRNA codon sequence
Mutation
An anticodon is a three nucleotide sequence found as part of Transfer RNA. The anticodon is the portion of the tRNA that binds to the relevant portion of the messenger RNA (mRNA). Overall, the anticodon assists in matching amino acid sequences to mRNA codon sequences during protein synthesis.
tRNA (Transfer RNA)....It is often mistaken with mRNA