TAC AAA TTT GCA ACC ACT (DNA)
AUG UUU AAA CGU UGG UGA (mRNA)
A 3-base sequence of nitrogen bases on a molecule of mRNA is called a codon.
tRNA contains an anticodon which is a sequence of three nitrogen bases that is complimentary to a particular mRNA codon.
The base sequence of mRnas is 'determined by the base sequence of nucleotides in Dna.' The base sequence is transformed into information via the triplet codons of The Genetic Code.
3 bases are needed to specify an mRNA codon.
The genetic code is determined by the specific sequence of four nucleotide bases that make up DNA. The bases are guanine, adenine, thymine, and cytosine.
the sequence of bases in DNA
A 3-base sequence of nitrogen bases on a molecule of mRNA is called a codon.
The complimentary strand of MRNA would be AAUUCCGG.
The bases of mRNA coded for by a DNA segment are complementary to the original DNA sequence. If the DNA sequences are ATCG, the corresponding mRNA bases will be UAGC.
The sequence of mRNA is directly dependent on the sequence of DNA in the process of transcription. During transcription, RNA polymerase reads the DNA sequence and synthesizes a complementary mRNA strand. Changes in the DNA sequence can result in changes in the mRNA sequence, affecting the protein product that is ultimately produced.
tRNA contains an anticodon which is a sequence of three nitrogen bases that is complimentary to a particular mRNA codon.
The sequence of amino acids in a protein is determined by the sequence of nucleotides in the mRNA, and this is determined by the sequence of nucleotide bases in the DNA.
The base sequence of mRnas is 'determined by the base sequence of nucleotides in Dna.' The base sequence is transformed into information via the triplet codons of The Genetic Code.
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.
3 bases are needed to specify an mRNA codon.
A codon in DNA or mRNA is a group of three nitrogenous bases that encode for one specific amino acid. The sequence of codons in the mRNA is read during translation to determine the amino acid sequence of a protein.
If the tRNA has the sequence UUA, then the mRNA it reads from will have the sequence complementary to UUA, which is AAU. RNA uses the nucleic acid uracil instead of the DNA counterpart, thymine.