the mRNA wouldn't code for the right protein, or maybe might not even code for a protein at all
During transcription, the DNA code is transcribed by mRNA, forming a mRNA molecule that will leave the nucleus and go to a ribosome to be translated into a protein.
AUG
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.
The process of mRNA connecting to a ribosomes and reading the code to produce a protein is translation.
the mRNA wouldn't code for the right protein, or maybe might not even code for a protein at all
mRNA transcribes a strand of DNA and carries the genetic code to a ribosome, where the mRNA code is translated by tRNA into a strand of amino acids, making a protein.
ribosomes is where protein is synthesised so i suppose they attract mrna for the code to make the protein and the amino acid to build the protein. ribosomes is where protein is synthesised so i suppose they attract mrna for the code to make the protein and the amino acid to build the protein.
mRNA
It provides the code for the protein.
These would be the introns, which are "interrupting" the sequence of codons that will code for the necessary protein.
AUG
mRNA
During transcription, the DNA code is transcribed by mRNA, forming a mRNA molecule that will leave the nucleus and go to a ribosome to be translated into a protein.
The mRNA carries the genetic code needed to make a protein to the ribosome from DNA via microtubules.
RNA assists in protein synthesis and translating the genetic code. DNA unzips to form a single-strand RNA and free nucleotides pair with the unzipped bases. In RNA, the thyamine is replaced with uracil. Adenine and uracil always combine. mRNA carries the genetic code for protein. mRNA travels through the nuclear membrane to cytoplasm and attaches to a ribosome which decodes the message. Ribosomes translate the mRNA code and builds the protein with amino acids.