AUG: Methionine (start codon for transcription)
AAU: Asparagine
GGC: Glycine
UCG: Serine
AUC: Isoleucine
UGA: Stop codon (this does not encode for an amino acid)
the mRNA sequence augggaaaucgguca will be read in groups of 3 (codons) by the ribosome and the tRNA will come and attach the appropriate amino acid. refer to codon table to translate.
so the codons of the mRNA would be: AUG GGA AAU CGG UCA; using the codon table these come out to be Met (I'm pretty sure that's a start codon), Gly, Asn, Arg, and Ser. to get the full name refer to the codon table. It's not that hard to find - just Google it.
Cheers
ttt-caa-ggc-atg-ggg-cga-ccc-gag-aca-tct-agg-agc-ata-aca-aac-taa-gcg-gtg
Methionine(start) - glycine - asparagine - arginine - serine
DNA sequence undergoes transcription, then translation process in order to determine and subsequently produce the amino acid sequence. The four bases specifically A,C,G, & T are the main coding sequence of a DNA. Because each coding sequence is unique, the resulting amino acid sequence is also unique as well.
mRNA has the codon sequence that exactly correspond to the amino acid sequence. The DNA has two strands. Though one of the strands (coding strand) carries the same information as on the mRNA, it contains unspliced introns that will mess up the amino acid sequence.
The amino acids link together to form a polypeptide chain, and the order of the amino acids in that chain determines the shape of the primary structure of a protien. It ultimately determines the shape and function of a protien.
exact sequence of amino acids
Amino acid sequence primarily determines a proteins shape, but secondary (alpha helix and beta sheet) and tertiary structures (Hydrogen bonding, other chemical bonding between structures) adds to it.
DNA sequence undergoes transcription, then translation process in order to determine and subsequently produce the amino acid sequence. The four bases specifically A,C,G, & T are the main coding sequence of a DNA. Because each coding sequence is unique, the resulting amino acid sequence is also unique as well.
The genes determine the amino sequence and the shape the amino group will be folded into to become a protien.
The DNA sequence will determine the amino acid sequence known as the protein's primary structure. As the protein is folded into the secondary, tertiary and quatranary structures, the amino acid molecules will determine the shape
The DNA sequence will determine the amino acid sequence known as the protein's primary structure. As the protein is folded into the secondary, tertiary and quatranary structures, the amino acid molecules will determine the shape
a silent mutation.
DNA sequences do not determine the function of any protein. DNA sequences determine the structure of the protein. That is particular amino acid sequence in protein only.
Yes. GCT ACG AAU All codons represent one amino acid except uracil will be substituted for thymine in the mRNA.
they determine the sequence of amino acids in a protein i think
Missence mutation
mRNA has the codon sequence that exactly correspond to the amino acid sequence. The DNA has two strands. Though one of the strands (coding strand) carries the same information as on the mRNA, it contains unspliced introns that will mess up the amino acid sequence.
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The amino acids link together to form a polypeptide chain, and the order of the amino acids in that chain determines the shape of the primary structure of a protien. It ultimately determines the shape and function of a protien.