the world may never know
In normal conditions C always Paris with G and A with U in mRNA so in this CAG the anticoodon wil be GUC
Firstly, DNA is transcripted to mRNA, which is then translated by ribosomes into your polypeptide. Each set of 3 bases on the mRNA (codon) codes for a particular amino acid. However, there can be up to four codons, coding for a single amino acid. ie GCU, GCC, GCA and GCG all code for Alanine. Therefore, if you know the amino acid sequence, you can work backwards to mRNA and then to DNA, but you wouldn't be very accurate as you'd need to guess the codons.
AUA - Ile, AGC - Ser, GCU - Ala, and AAA is Lysine.
mRNA carries the genetic code to a ribosome.
The Rna triplet codon GUA, Thymine being replaced by Uracil in all Rna's.
Gcu aga
uca-cca-gcu
it depends on the codon spcified. The tRNA will have the complementary strand along with an amino acid, for which is specified by the mRNA. if the mRNA codon was "CGA" the tRNA codon would have an amino acid and the complementary codon of "GCU"
In normal conditions C always Paris with G and A with U in mRNA so in this CAG the anticoodon wil be GUC
Firstly, DNA is transcripted to mRNA, which is then translated by ribosomes into your polypeptide. Each set of 3 bases on the mRNA (codon) codes for a particular amino acid. However, there can be up to four codons, coding for a single amino acid. ie GCU, GCC, GCA and GCG all code for Alanine. Therefore, if you know the amino acid sequence, you can work backwards to mRNA and then to DNA, but you wouldn't be very accurate as you'd need to guess the codons.
mRNA gets its code from DNA during process "Transcription".
AUA - Ile, AGC - Ser, GCU - Ala, and AAA is Lysine.
GCU London was created in 2010.
mRNA carries the genetic code to a ribosome.
Met-AUG Trp-UGG Ala-GCU, GCC, GCA, and GCG Glu-CAA and CAG
That question doesn't make sense. mRNA is created by transcription (i.e. DNA code to RNA code) and the mRNA is translated to proteins
mRNA