The DNA strand CAT-TAG would produce a complementary mRNA strand of GUA-AUC.
The mRNA sequence generated from the DNA strand tgacgca would be acugcgu. This is because mRNA is complementary to the DNA template strand, so DNA base T pairs with mRNA base A, DNA base G pairs with mRNA base C, DNA base A pairs with mRNA base U, and DNA base C pairs with mRNA base G.
The process of making mRNA from DNA is called transcription. It takes place in the cell nucleus and involves the synthesis of mRNA using one strand of DNA as a template.
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.
DNA carries the instructions for producing mRNA. The process of transcription involves the synthesis of mRNA using one strand of the DNA as a template.
TAC AAA TTT GCA ACC ACT (DNA) AUG UUU AAA CGU UGG UGA (mRNA)
If a DNA strand read CCTAGCT, its mRNA would read GGAUCGA.
The DNA strand CAT-TAG would produce a complementary mRNA strand of GUA-AUC.
The mRNA comes into the DNA when the DNA unzips. Then the mRNA attaches to one side of the DNA, copies it down, and leaves. Remember, AT CG
The mRNA sequence generated from the DNA strand tgacgca would be acugcgu. This is because mRNA is complementary to the DNA template strand, so DNA base T pairs with mRNA base A, DNA base G pairs with mRNA base C, DNA base A pairs with mRNA base U, and DNA base C pairs with mRNA base G.
The process of making mRNA from DNA is called transcription. It takes place in the cell nucleus and involves the synthesis of mRNA using one strand of DNA as a template.
DNA -> transcription -> pre-mRNA -> mRNA processing -> mRNA -> translation -> protein
Reverse transcriptase use mRNA to form DNA. mRNA
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.
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.
DNA carries the instructions for producing mRNA. The process of transcription involves the synthesis of mRNA using one strand of the DNA as a template.
In DNA, adenine pairs with thymine, and cytosine pairs with guanine. When DNA is transcribed into mRNA, adenine in DNA pairs with uracil in mRNA, and cytosine in DNA pairs with guanine in mRNA. This complementary base pairing ensures accurate transfer of genetic information during transcription.