Ribonuclease is a protein composed of amino acids, and to determine the minimum number of DNA bases needed to code for it, we must consider that each amino acid is encoded by a set of three DNA bases (codons). Ribonuclease typically consists of around 124 amino acids, which would require at least 124 x 3 = 372 DNA bases. However, additional bases may be needed for regulatory sequences and initiation/termination codons, so the actual number may be higher in a complete gene context.
20 different amino acids are needed to synthesize most proteins. These amino acids can be combined in different sequences to create an almost infinite variety of protein structures and functions. Each amino acid has its own unique side chain that contributes to the overall properties of the protein.
That A + B /c is A+B/c but you really need to know the answer
Each amino acid needs 3 DNA bases 200x3 = 600
The smallest number of bases needed would be 300 bases, as each amino acid is coded for by a sequence of three bases (codon) in mRNA. Therefore, 100 amino acids x 3 bases per codon = 300 bases in the mRNA molecule to code for the protein.
The number of moles of acid and the base should be equal to neutralize. (So the number of moles of base is needed to answer this correctly)
15 DNA bases
3 bases are needed to specify an mRNA codon.
i think nine bases are needed for three amino acids because i think it takes three bases to make one amino acid
A nitrogen bases
The number bases were first invented by the Egyptians around 3100 BC.
number and sequence of nitrogen bases
We cannot determine the height of a trapezoid with just the lengths of the bases. Additional information such as the length of the parallel sides or any angles would be needed to calculate the height accurately.