That depends on the type of protein it needs to make. Bigger the polypeptide, longer the mRNA.
DNA is not made into mRNA, it is transcribed by mRNA. The DNA molecule is split into two strands by the enzyme helicase. One strand is the sense strand and the other is the anti-sense strand. Then mRNA nucleotides pair with their complimentary DNA bases on the antisense strand. The enzyme RNA polymerase causes the mRNA nucleotides to bond with one another, forming a strand of mRNA.
The strand running in the 3'-5' end will be the one that RNA copies, as this is the direction of transcription
During transcription, the mRNA strand is synthesized complementary to the DNA template strand. Given the DNA strand "GCA TAG," the corresponding mRNA strand would be "CUG AUC," where each DNA base pairs with its RNA complement (G with C, C with G, A with U, and T with A).
The enzyme responsible for decoding the DNA strand into an mRNA is called RNA polymerase. It catalyzes the synthesis of mRNA during transcription by matching complementary RNA nucleotides with the DNA template strand.
During transcription, the mRNA strand is synthesized complementary to the DNA template strand. For the DNA strand GCA TTA, the corresponding mRNA would be CGU AAU. This is because adenine (A) pairs with uracil (U) in RNA, while cytosine (C) pairs with guanine (G) and vice versa.
The sense strand of DNA is the strand that has the same sequence as the mRNA that is transcribed from DNA. The antisense strand is the complementary strand of the sense strand, which is used as a template for mRNA synthesis. The mRNA is transcribed from the antisense strand and contains the same sequence as the sense strand.
One mRNA strand is made.
DNA is not made into mRNA, it is transcribed by mRNA. The DNA molecule is split into two strands by the enzyme helicase. One strand is the sense strand and the other is the anti-sense strand. Then mRNA nucleotides pair with their complimentary DNA bases on the antisense strand. The enzyme RNA polymerase causes the mRNA nucleotides to bond with one another, forming a strand of mRNA.
mRNA is complementary to the template strand of DNA during transcription. The template strand serves as a template for mRNA synthesis, directing the formation of a complementary mRNA transcript.
The DNA strand that is copied to make mRNA is the template strand of the gene. This strand serves as a template for the RNA polymerase enzyme to synthesize a complementary mRNA strand during the process of transcription.
The strand running in the 3'-5' end will be the one that RNA copies, as this is the direction of transcription
The strand of DNA that is not transcribed is called the coding strand. This strand serves as the template for mRNA synthesis during transcription. The opposite strand, which is transcribed into mRNA, is known as the template strand.
The template strand is used as a guide to create mRNA during transcription. The mRNA is complementary to the template strand and carries the genetic information from the DNA to the ribosome for protein synthesis.
A strand of DNA
A strand of DNA
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.
mRNA typically consists of a single strand of nucleotides. It serves as a temporary copy of the genetic information in DNA and carries this information from the nucleus to the ribosomes for protein synthesis.