mRNA gets its code from DNA during process "Transcription".
The type of nucleic acid that carries the code for making proteins from the nucleus to the ribosome is messenger RNA (mRNA). mRNA is transcribed from DNA in the nucleus and then carries the genetic information to the ribosome where it is translated into proteins.
mRNA
Proteins.
mRNA carries the information for making proteins to the ribosomes in the cell, where the process of protein synthesis takes place. Once at the ribosomes, the mRNA is used as a template to direct the assembly of specific amino acids into a protein molecule according to the genetic code.
That question doesn't make sense. mRNA is created by transcription (i.e. DNA code to RNA code) and the mRNA is translated to proteins
mRNA (messenger RNA) uses the DNA code to make proteins through a process called protein synthesis. During transcription, mRNA is synthesized using a DNA template, which is then translated into proteins during the process of translation.
The code for the synthesis of proteins is contained in the DNA molecule. Genes, which are specific sequences of DNA, provide the instructions for making proteins through the process of transcription and translation. During transcription, messenger RNA (mRNA) is synthesized from a gene. Then, during translation, the mRNA is used as a template to assemble a specific protein.
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.
messenger RNA (mRNA). mRNA is synthesized in the nucleus and carries the genetic information from the DNA to the ribosomes in the cytoplasm, where proteins are synthesized through the process of translation.
The mRNA is transcribed into proteins
DNA replication occurs in the nucleus and results in strands of mRNA. mRNA leaves the nucleus and goes to the ribosomes where amino acids are joined according to the mRNA code to produce proteins.
mRNA takes the genetic code to a ribosome, which is made of ribosomal RNA and proteins.