To calculate the number of nucleotides required to code for a specific polypeptide, you need to know the number of amino acids in the polypeptide. Since each amino acid is coded by a codon made up of three nucleotides, you would need 3 times the number of amino acids to determine the total number of nucleotides required. For a 150 amino acid polypeptide, the number of nucleotides would be 150 (amino acids) * 3 (nucleotides per amino acid) = 450 nucleotides.
The first amino acid in a growing polypeptide chain is usually methionine when translation initiates in eukaryotes, and formylmethionine in prokaryotes. Therefore, there will be one amino acid in the first position of every growing polypeptide chain.
The -10 position of a gene typically refers to the DNA sequence located 10 base pairs upstream from the transcription start site. It is important for binding the sigma factor during transcription initiation.
polypeptide
One water molecule is formed for each peptide bond hydrolyzed during the complete hydrolysis of a polypeptide.
A poly-G mRNA that is 30 nucleotides long would result in a polypeptide consisting solely of glycine amino acids. This is because each codon codes for a specific amino acid, and in this case, every codon (GGG) codes for glycine.
A minimum of 600 nucleotides is necessary to code for a polypeptide that is 200 amino acids long because each amino acid is coded for by a sequence of three nucleotides in mRNA. This is due to the genetic code being triplet, where every three nucleotides represent one amino acid.
To calculate the number of nucleotides required to code for a specific polypeptide, you need to know the number of amino acids in the polypeptide. Since each amino acid is coded by a codon made up of three nucleotides, you would need 3 times the number of amino acids to determine the total number of nucleotides required. For a 150 amino acid polypeptide, the number of nucleotides would be 150 (amino acids) * 3 (nucleotides per amino acid) = 450 nucleotides.
On the short leg of chromosome 4, in the HTT gene, there is normally a sequence of repeating bases like so: CAGCAGCAG... The CAG codon repeats 10-35 times in a normal person, however a person with HD will have 36-120 repeats of this codon.
The first amino acid in a growing polypeptide chain is usually methionine when translation initiates in eukaryotes, and formylmethionine in prokaryotes. Therefore, there will be one amino acid in the first position of every growing polypeptide chain.
The -10 position of a gene typically refers to the DNA sequence located 10 base pairs upstream from the transcription start site. It is important for binding the sigma factor during transcription initiation.
polypeptide
Each codon is three bases long - and a codon codes for one amino acid. Therefore this strand (9 bases long) could code for 3 amino acids. (Except if the DNA code was ACT, this would create the codon UGA on the mRNA, which is a stop codon. The amino acid chain would therefore terminate at this point).
No it is not.
5
your torque spec will be 65ft.lbs. Make sure you have the torque sequence too.
26 As far as I can tell the sequence is +10,-5,+10,-5.