It would read tggatc because in DNA t matches with A and C matches with G. In RNA a matches with U and C matches with G.
RNA polymerase can transcribe mRNA
mRNA is usually targetted to ribosomes, which transcribe the sequence into a protein. Some mRNA molecules do not code for proteins but instead interract with DNA in the nucleus.
Transcription is formation of RNA which takes place in nucleus .
Genes (a segment of DNA) codes for proteins. DNA transcribe the message to mRNA and export to cytoplasm. ribosomes, tRNA, amino acids and enzymes will catalyze the formation of protein chains.
The DNA segment 3' ATT 5' would be transcribed to the mRNA sequence 5' UAA 3'.
If you mean what is the DNA segment complimentary to the mRNA segment UGAUUC, it is ACTAAG.
RNA polymerase can transcribe mRNA
mRNA is usually targetted to ribosomes, which transcribe the sequence into a protein. Some mRNA molecules do not code for proteins but instead interract with DNA in the nucleus.
Genes (a segment of DNA) codes for proteins. DNA transcribe the message to mRNA and export to cytoplasm. ribosomes, tRNA, amino acids and enzymes will catalyze the formation of protein chains.
Transcription is formation of RNA which takes place in nucleus .
TGCA
BBC is the DNA in a MRNA sequence. This is part of the body.
augauccgauua is the mRNA that would be produced.
DNA polymerase is the enzyme that "unzips" the complementary DNA strands allowing mRNA to transcribe, or copy, a section of DNA.
The DNA segment 3' ATT 5' would be transcribed to the mRNA sequence 5' UAA 3'.
Ribosomes do that, reading the mRNA in groups of 3 called "codons" for the specific amino acid
The complimentary strand of MRNA would be AAUUCCGG.