copies the genetic code from the DNA molecule and carries it to the ribosome
Messenger RNA (mRNA) is synthesized in the nucleus and then enters the cytoplasm.
In the cytoplasm ribosomes attach to it and travel along it, each ribosome forming a polypeptide chain as it proceeds.
mRNA is produced in nucleus by RNA polymerase and after a few modifications, it is transported to cytoplasm where it is used by ribosomes to work as a blueprint for the protein particular mRNA codes.
carries the message to the nucleus to synthesize new DNA during cell division.
Messenger RNA copies the coded message from the DNA in the nucleus, and carries the message to the cytoplasm.
mRNA - messenger RNA (copies DNA and gives the genetic sequence to tRNA (transfer RNA) from then the ribosomes make proteins from the genetic code.)
copies the genetic code from the DNA molecule and carries it to the ribosome
it directs the order of AA.
mRNA. tRNA,
Protein synthesis take place on ribosomes.They provide surface for it.
mRNA
In cells, protein is produced in the ribosomes. The instructions for protein synthesis are found in the DNA, which is copied onto mRNA. This mRNA then carries these instructions to the ribosomes where protein synthesis occurs.
The mRNA (messenger RNA) serves as the intermediary molecule between DNA and protein synthesis. It carries the genetic information from the DNA to the ribosomes in the cytoplasm, where it is used as a template to synthesize proteins. It acts as a "messenger" to convey the instructions for protein synthesis from the DNA to the ribosomes.
mRNA. tRNA,
Depending on what RNA you're talking about, it serves a different, but individually crucial role in protein synthesis. The mRNA brings the code needed for translation. The tRNA brings the anticodon to match with the codon on the mRNA along with amino acids to form proteins. The rRNA, which combines with proteins to form ribosomes, serves to fit the mRNA and tRNA together to form a functional protein.
It provides the code for the protein.
Protein synthesis take place on ribosomes.They provide surface for it.
Transcription is the process by which DNA is copied (transcribed) to mRNA, which carries the information needed for protein synthesis.
mRNA
During protein synthesis, three continuous bases on a messenger RNA (mRNA) molecule, known as a codon, encode different amino acids. Codons on the mRNA are translated into the amino acid sequence of a protein by the ribosome.
mRNA carries a copy of our DNA, our genetic information and is used in the synthesis of these proteins.
I think it is mRNA. Not sure though.
Transcription is the formation of mRNA from DNA whereas translation is the synthesis of protein from RNA.
In cells, protein is produced in the ribosomes. The instructions for protein synthesis are found in the DNA, which is copied onto mRNA. This mRNA then carries these instructions to the ribosomes where protein synthesis occurs.
The steps of protein synthesis: Transcription occurs in the nucleus of the cell, where DNA is transcripted into mRNA Translation occurs in the cytoplasm of the cell, where the mRNA is translated into amino acids and forms a protein