A DNA triplet, also known as a codon, is a sequence of three nucleotides in DNA that encodes for a specific amino acid during protein synthesis. Each triplet corresponds to a specific amino acid, allowing the genetic code to be translated into proteins. There are 64 possible DNA triplets, with 61 coding for amino acids and 3 serving as stop codons to signal the end of protein synthesis.
The DNA triplet "GAG" encodes for Glutamic Acid.
The DNA base triplet that corresponds to the AUA codon in mRNA is TAT.
CGT base triplet on DNA is copied into mRNA as GCA. This is because DNA and RNA follow complementary base pairing rules, where C in DNA pairs with G in RNA, G in DNA pairs with C in RNA, and T in DNA pairs with A in RNA.
DNA
Each triplet of nitrogenous bases on DNA, called a codon, codes for one amino acid. Therefore, the number of amino acids coded for by the original DNA model would be equal to the number of codons present in the DNA sequence. This would be determined by dividing the total number of nitrogenous base pairs in the DNA sequence by three.
The DNA triplet "GAG" encodes for Glutamic Acid.
The DNA base triplet that corresponds to the AUA codon in mRNA is TAT.
The Rna triplet codon GUA, Thymine being replaced by Uracil in all Rna's.
The triplet in DNA that codes for valine is GTG. Valine is represented by the amino acid codon GUC in mRNA, which corresponds to the DNA codon GTG through the process of transcription.
CGT base triplet on DNA is copied into mRNA as GCA. This is because DNA and RNA follow complementary base pairing rules, where C in DNA pairs with G in RNA, G in DNA pairs with C in RNA, and T in DNA pairs with A in RNA.
GAA and GAG code for Glutamic Acid.
I don't understand your question. mRNA does not have triplets. Did you mean codon? Triplet refers to DNA, codon to mRNA.
DNA
There are 64 different DNA triplets possible, representing all the combinations of the four nucleotide bases (A, T, C, G) taken three at a time. Each triplet codes for a specific amino acid in the genetic code.
Identity can be obtained from DNA through DNA fingerprinting, which analyzes specific regions of an individual's DNA to create a unique genetic profile. This profile can then be compared to other samples to determine relatedness or identity. DNA is inherited from our parents and is unique to each individual, making it a powerful tool for identification purposes.
Each triplet of nitrogenous bases on DNA, called a codon, codes for one amino acid. Therefore, the number of amino acids coded for by the original DNA model would be equal to the number of codons present in the DNA sequence. This would be determined by dividing the total number of nitrogenous base pairs in the DNA sequence by three.
The triplet codes needed to specify a specific polypeptide chain are found in the mRNA (messenger RNA) during the process of translation. These triplet codes, known as codons, determine the sequence of amino acids that will be incorporated into the polypeptide chain.