You use the mRNA. ;)
mRNA
61 codons specify the amino acids used in proteins and 3 codons (stop codons) signal termination of growth of the polypeptide chain...so 64 total
This question requires a strand of mRNA to be given so you can copy the codons and then find the anticodons which will give you the amino acids. Your question is identical to mine from a work booklet pg 68#6 just flip back to page 67 and you'll see a 14 codon mRNA strand!
The function of tRNA includes the transfer of amino acids to ribosome, matching the anticodon with an amino acid, and forming hydrogen bonds between anticodons and mRNA codons. Because the amino acid and anticodons are at the ends of the RNA it will be able to match together, its small size allows it to transfer amino acids to the ribosome, and since the anticodon is at the end of the tRNA it will be able to form hydrogen bonds with mRNA codons.
131*3=393 bases might be there on mRNA strand 3 codons of mRNA strand deduce an aminoacid of a protein, so here, mRNA strand bases are being asked.
mRNA is the RNA that carries information during transcription and translation. It has codons, which match up with the anticodons on tRNA. tRNA is the RNA that bonds to amino acids and transfers them to ribosomes, and mRNA.
Codons are groups of three nucleotides on the mRNA strand. Codons are bound to the ribosomes where they are met by tRNA's anticodons. Together, the codons and anticodons form amino acids which bind together via peptide bonds and form amino acid chains known as polypeptides or proteins. These proteins are released into the cell to perform their desired functions.
61 codons specify the amino acids used in proteins and 3 codons (stop codons) signal termination of growth of the polypeptide chain...so 64 total
tRNA. Transport ribonucleic acid, it is a 3 loop structure that brings specific amino acids to the ribosome. Has anticodons specific to the codons.
This question requires a strand of mRNA to be given so you can copy the codons and then find the anticodons which will give you the amino acids. Your question is identical to mine from a work booklet pg 68#6 just flip back to page 67 and you'll see a 14 codon mRNA strand!
The whole process of protein synthesis can be referred to as translation. An mRNA strand binds to the ribosome where a complementary strand of tRNA matches up at the ribosome. Groups of three nucleotides known as codons on mRNA match up with groups of three nucleotides known as anticodons on tRNA. Each set of codons and anticodons code for an amino acid. The mRNA strand moves down the ribosome codon by codon creating amino acid by amino acid and binding them together with peptide bonds. This long chain of amino acids is known as a polypeptide or protein. Once the mRNA strand is completely coded for, the protein is released into the cell to perform its desired function.
400 codons.Because 3 consecutive nucleotides in a gene together form a codon which codes for amino acids.
The function of tRNA includes the transfer of amino acids to ribosome, matching the anticodon with an amino acid, and forming hydrogen bonds between anticodons and mRNA codons. Because the amino acid and anticodons are at the ends of the RNA it will be able to match together, its small size allows it to transfer amino acids to the ribosome, and since the anticodon is at the end of the tRNA it will be able to form hydrogen bonds with mRNA codons.
131*3=393 bases might be there on mRNA strand 3 codons of mRNA strand deduce an aminoacid of a protein, so here, mRNA strand bases are being asked.
+ h, - s, + g
First of all, it is codons,not condons. MRNA would have uug auc cca. If I am not incorrect, you only use the term codons for MRNA, not in the actual DNA strand. The Anticodons would then be in the TRNA, which codes for the Amino Acids needed by the cells.
mRNA is the RNA that carries information during transcription and translation. It has codons, which match up with the anticodons on tRNA. tRNA is the RNA that bonds to amino acids and transfers them to ribosomes, and mRNA.
mRNA is the RNA that carries information during transcription and translation. It has codons, which match up with the anticodons on tRNA. tRNA is the RNA that bonds to amino acids and transfers them to ribosomes, and mRNA.