The sequence of amino acids will be Methionine-Glycine-Asparagine-Histidine-Arginine
for genetic code 5-AUG-GGA-AAU-CAU-CGG-UGA-3.
Because AUG codon carries methionine (Met) amino acid, GGA carries glycine (Gly), AAU carries asparagine (Asn), CAU carries histidine (His), CGG carries arginine amino acid (Arg) and UGA is stop codon.
Codon triplets (three DNA bases) codes for a single amino acids, so it is three amino acids (Threonine proline and glutamic acid)
AGUUUAAG
This would be for RNA because uracil replaces thymine.
MET-SER-SER-LEU-SER-LEU
Atgggaaatcatcggtga
what are these questions
one amino acid in the sequence would change
3 nucleotides
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.
Codon = 3 amino acid sequence found on mRNA. Anti codon = 3 amino acid sequence found on tRNA.The codons are for the traslation of mRNa to an amino acid sequence by using ribosomes.
A strand of DNA
one amino acid in the sequence would change
Serine, Methionine , Leucine.
3 nucleotides
Serine, Isoleucine. Last codon is incomplete.
The template strand is mutated to 3'-TACTTGTCCAATATC-5'.
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.
An amino acid sequence can be compared by using an electron microscope. The sequence of one acid can be viewed and then directly compared to another.
Codon = 3 amino acid sequence found on mRNA. Anti codon = 3 amino acid sequence found on tRNA.The codons are for the traslation of mRNa to an amino acid sequence by using ribosomes.
The amino acid sequence of a polypeptide is determined by the sequence of its parent DNA. RNA is transcribed directly from DNA.
A strand of DNA
Insertions generally are more harmful. An insertion causes a "frameshift" to occur, thus changing the entire amino acid sequence of the entire strand. Substitutions only change one base, which can sometimes not mess up the amino acid sequence at all.
tacaaagcctgcatt