If all the nucleotides are protein coding with no control sequences, then 33. Each amino acid is coded for by 3 nucleotide bases. 99 divided by 3 = 33.
The number of nucleotides in an mRNA is directly related to the number of amino acids in the resulting protein. Since each amino acid is coded for by a sequence of 3 nucleotides (codon), the number of amino acids is determined by dividing the total number of nucleotides (336) by 3. Therefore, a mRNA of 336 nucleotides will translate to a protein with 112 amino acids.
A strand of DNA codes for amino acids through the sequence of nucleotides. Each group of three nucleotides, called a codon, corresponds to one amino acid. There are 20 standard amino acids that can be encoded by DNA.
The sequencing of amino acids in a protein is determined by the order of nucleotides in the gene that codes for that protein. During protein synthesis, the sequence of nucleotides in messenger RNA (mRNA) is translated into the sequence of amino acids. This process is carried out by the ribosome and transfer RNA (tRNA) molecules.
The order of amino acids in a protein is determined by the sequence of nucleotides in the gene that codes for that protein. This sequence is transcribed into messenger RNA (mRNA) and then translated into a specific sequence of amino acids during protein synthesis.
The minimum number of nucleotides on mRNA to code for a protein of 100 amino acids is 300. This is because each amino acid is coded for by a sequence of three nucleotides called a codon. So, 100 amino acids x 3 nucleotides per codon = 300 nucleotides.
400 codons.Because 3 consecutive nucleotides in a gene together form a codon which codes for amino acids.
First, the DNA polymerase makes a copy of the DNA. The nucleotides then bond together and form a complete mRNA strand. The mRNA strand travels out to the cytoplasm through the nucleus. The mRNA is then met by a ribosome and tRNA. Codons and amino acids are then created. After the tRNA detaches from the mRNA strand, the amino acids are connected by a polypeptide bond. This results in a protein. So basically... Protein synthesis is going from DNA to mRNA to tRNA to a protein.
The messenger RNA (mRNA) strand contains the codes for the amino acids that make up a protein. During protein synthesis, the mRNA strand is used by ribosomes to read the genetic information and assemble the corresponding amino acids.
The sequence of nucleotides in DNA specifies the sequence of amino acids in a protein. Each set of three nucleotides, called a codon, corresponds to a specific amino acid or a signal to start or stop protein synthesis.
The best strand
the sense strand
How many different arrangement of nucleotides are possible in a strand of DNA that is 15 nucleotides long?Read more: How_many_different_arrangement_of_nucleotides_are_possible_in_a_strand_of_DNA_that_is_15_nucleotides_long
The number of nucleotides in an mRNA is directly related to the number of amino acids in the resulting protein. Since each amino acid is coded for by a sequence of 3 nucleotides (codon), the number of amino acids is determined by dividing the total number of nucleotides (336) by 3. Therefore, a mRNA of 336 nucleotides will translate to a protein with 112 amino acids.
That strand should have 3 amino acids, because one amino acid is composed of three nucleotide bases.
A gene with a protein containing 150 amino acids would require 450 nucleotides. This is because each amino acid is coded by three nucleotides in DNA.
A strand of DNA codes for amino acids through the sequence of nucleotides. Each group of three nucleotides, called a codon, corresponds to one amino acid. There are 20 standard amino acids that can be encoded by DNA.
The sequencing of amino acids in a protein is determined by the order of nucleotides in the gene that codes for that protein. During protein synthesis, the sequence of nucleotides in messenger RNA (mRNA) is translated into the sequence of amino acids. This process is carried out by the ribosome and transfer RNA (tRNA) molecules.