Instructions from DNA are carried to ribosomes by molecules of amino acids. These are carried by tRNA while mRNA carries information from the genes to ribosomes.
DNA carries the instructions for producing mRNA. During transcription, the DNA molecule is used as a template to build an mRNA molecule.
DNA (APEX)
DNA
messenger RNA carries copies of instructions for the amino acids into proteins from DNA
mRNA (messenger RNA) carries the instructions for protein synthesis from the DNA to the ribosomes.
Transcription
mRNA
The mRNA or the messenger RNA carries the instructions to make proteins. They specify the amino acid sequence for protein synthesis.
Molecules of Ribonucleic Acid (RNA) carry the instructions for assembling proteins out of the cell nucleus. Without this type of molecule, the cell cannot survive.
mRNA
messenger RNA carries copies of instructions for the amino acids into proteins from DNA
mRNA (messenger RNA) carries the instructions for protein synthesis from the DNA to the ribosomes.
Transcription
mRNA
The mRNA or the messenger RNA carries the instructions to make proteins. They specify the amino acid sequence for protein synthesis.
Messenger RNA carries a transcript of the DNA's instructions out of the nucleus to the ribosomes.
The type of RNA that carries a genetic code from DNA to the ribosome is called messenger RNA. Also known as mRNA.
Transcription is the creation of an mRNA from a DNA template. The mRNA then carries the instructions to the ribosome where they are translated into a protein.
mRNA (messenger RNA) is the molecule that carries the copied code from the DNA in the nucleus to the ribosome.
In the nucleus of the cell you have the DNA; the big archive with all the instructions for the cell including the one to make each protein. mRNA carries these instructions out of the cell nucleus to the ribosomes (the protein factories) where tRNA delivers the right amino acids to the ever growing chain to form the right protein as "written" on the mRNA.