Scientists used the amino acid code to find the DNA base sequence,i.e. they worked backwards from mRNA to DNA.They figured out the DNA sequence from the amino acid sequence- APEXthey figured out the dna sequence from the amino acid sequence
They figured out the DNA sequence from the amino acid sequence
Yes, it is possible for two humans to have different DNA sequences for insulin but still produce the exact same insulin proteins. This is because the genetic code is degenerate, meaning that different DNA sequences can code for the same amino acid. As long as the variations in the DNA sequence do not affect the amino acid sequence of the insulin protein, the end product will be the same.
There are several computational programs available for predicting the amino acid sequence of a polypeptide. Some commonly used programs include ExPASy Translate tool, EMBOSS Transeq, and the NCBI ORFfinder. These tools take a nucleotide sequence as input and predict the corresponding amino acid sequence by translating the nucleotide sequence based on the genetic code.
Proteins differ from each other in their amino acid sequence, which is determined by the genetic code. This unique sequence gives each protein its specific structure and function. Differences in amino acid sequence can result in proteins with varying functions, sizes, shapes, and interactions.
The sequence of amino acids in a protein is determined by the sequence of nucleotides in the mRNA, and this is determined by the sequence of nucleotide bases in the DNA.
Scientists used the amino acid code to find the DNA base sequence,i.e. they worked backwards from mRNA to DNA.They figured out the DNA sequence from the amino acid sequence- APEXthey figured out the dna sequence from the amino acid sequence
Scientists used the amino acid code to find the DNA base sequence,i.e. they worked backwards from mRNA to DNA.They figured out the DNA sequence from the amino acid sequence- APEXthey figured out the dna sequence from the amino acid sequence
They figured out the DNA sequence from the amino acid sequence
they worked backwards from mRNA to DNA Ap#x
They figured out the DNA sequence from the amino acid sequence
The amino acid sequence of gcgatatcg cannot be determined directly because it is a DNA sequence. In order to determine the amino acid sequence, the DNA sequence first needs to be transcribed into mRNA and then translated into a protein using the genetic code. Each set of three nucleotides (codon) corresponds to a specific amino acid.
KDEL an amino acid sequence which signals that a protein belongs in the endoplasmic reticulum. Attaching it to insulin would cause the insulin to be retained within the endoplasmic reticulum.
Scientists used the amino acid code to find the DNA base sequence,i.e. they worked backwards from mRNA to DNA.They figured out the DNA sequence from the amino acid sequence- APEXthey figured out the dna sequence from the amino acid sequence
analysis of amino acid sequence of small fragments
Yes, it is possible for two humans to have different DNA sequences for insulin but still produce the exact same insulin proteins. This is because the genetic code is degenerate, meaning that different DNA sequences can code for the same amino acid. As long as the variations in the DNA sequence do not affect the amino acid sequence of the insulin protein, the end product will be the same.
There are several computational programs available for predicting the amino acid sequence of a polypeptide. Some commonly used programs include ExPASy Translate tool, EMBOSS Transeq, and the NCBI ORFfinder. These tools take a nucleotide sequence as input and predict the corresponding amino acid sequence by translating the nucleotide sequence based on the genetic code.