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Why must bases be grouped in triplents in order to represent amino acids?
Bases are grouped in triplets to represent amino acids because each triplet of bases (called a codon) codes for a specific amino acid in the genetic code. There are a total of 64 possible codons (4 bases raised to the power of 3), which is more than enough to code for the 20 amino acids found in proteins. This triplet code allows for redundancy and accuracy in translating genetic information into proteins.
A protein contains 131 amino acids How many bases will there be on the mRNA strand corresponding to these amino acids and how do you know?
There would be 393 bases on the mRNA strand corresponding to 131 amino acids, as each amino acid is coded for by a sequence of three bases (1 codon). By multiplying the number of amino acids by 3, you can determine the total number of bases required to encode the protein sequence on mRNA.
When the four DNA bases are combined in triplets different what of the protein are called for?
When the four DNA bases are combined in triplets, different amino acids are called for. Each triplet of bases, called a codon, corresponds to a specific amino acid, which is part of the protein synthesis process.
How many codons are needed to code for a protein that has 50 amino acids?
Since each amino acid is encoded by a specific triplet of nucleotides (codon), you would need 50 codons to code for a protein that has 50 amino acids. Each codon corresponds to one amino acid, ensuring the correct sequence is produced during protein synthesis.
How do the nitrogen bases along a gene serve as a genetic code?
Nitrogen bases along a gene form codons, which are three-base sequences that code for specific amino acids during protein synthesis. This sequence of codons provides the genetic instructions that determine the sequence of amino acids in a protein. The genetic code is universal, meaning that the same codons code for the same amino acids in nearly all organisms.
How many amino acids can a sequence of 24 DNA bases bases code for?
20
How many bases needed to specify three amino acids?
i think nine bases are needed for three amino acids because i think it takes three bases to make one amino acid
What do three bases form?
amino acids
How many bases are needed to make 3 amino acids?
To make 3 amino acids, you would need at least 9 bases. This is because each amino acid is encoded by a sequence of 3 bases called a codon. So, 3 amino acids would require 3 codons, which would be 9 bases in total.
If there are three amino acids how many bases would there be on the M RNA to make these three?
Each amino acid is encoded by a set of three nucleotide bases in mRNA, known as a codon. Therefore, to encode three amino acids, there would need to be a total of nine nucleotide bases in the mRNA (3 amino acids x 3 bases per amino acid = 9 bases).
Amino acid as acids and bases?
Amino acids are organic molecules which proteins are build from. There are twenty. However there is two amino acids which are acidic: Aspartic acid and glutamic acid.
How many nitrogen bases signal for four amino acids?
Four amino acids are coded by a sequence of 12 nitrogen bases. This is because each amino acid is represented by a codon, which consists of three nitrogen bases. Therefore, to represent four amino acids, you need 4 codons, leading to a total of 4 x 3 = 12 nitrogen bases.
How many bases are needed to specify 3 amino acids?
nine. one amino acid is composed of three bases.
What are 3 amino acids?
There are 20-22amino acids. You may be refering to the 4 genetic bases. These are Guanine, Adenine, Thymine and Cytosine.
How many bases are needed to code for five amino acids?
15 DNA bases
Why must bases be grouped in triplents in order to represent amino acids?
Bases are grouped in triplets to represent amino acids because each triplet of bases (called a codon) codes for a specific amino acid in the genetic code. There are a total of 64 possible codons (4 bases raised to the power of 3), which is more than enough to code for the 20 amino acids found in proteins. This triplet code allows for redundancy and accuracy in translating genetic information into proteins.
A protein contains 131 amino acids How many bases will there be on the mRNA strand corresponding to these amino acids and how do you know?
There would be 393 bases on the mRNA strand corresponding to 131 amino acids, as each amino acid is coded for by a sequence of three bases (1 codon). By multiplying the number of amino acids by 3, you can determine the total number of bases required to encode the protein sequence on mRNA.
