Eukaryotic genes have regions called "introns" and "exons". Exons code for polypeptides (often specific domains or motifs), while introns don't code for anything (that we know of) and are removed.
mRNA splicing is the process where an mRNA molecule is cut up (usually by the "spliceosome") to remove the introns from an mRNA message. This is advantageous for us eukaryotes because we can recombine exons in different orders, and even combine exons from different genes to generate many proteins from a smaller number of genes.
The mRNA base sequence corresponding to the DNA sequence acgtt is ugcaa. The mRNA sequence is complementary to the DNA sequence, with thymine (T) in DNA being replaced by uracil (U) in mRNA.
No, mRNA does not contain thymine in its nucleotide sequence. Instead, mRNA contains uracil in place of thymine.
There are three possible reading frames for a sequence of mRNA.
mRNA contains uracil in its nucleotide sequence, not thymine.
If the DNA sequence is ACT, the complimentary mRNA sequence would be UGA
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.
The complimentary mRNA sequence would be: U-A-A-C-G-U
BBC is the DNA in a MRNA sequence. This is part of the body.
The base sequence of cDNA is complementary to the mRNA molecule from which it is synthesized. This means that the cDNA will have the same sequence as the mRNA, except that thymine in DNA is replaced with uracil in RNA.
the sequence of bases in DNA
if the DNA sequence is A C T G then its resulting mRNA sequence will be complementary so it will be T G A C
The DNA segment 3' ATT 5' would be transcribed to the mRNA sequence 5' UAA 3'.