In eukaryotic cells, newly-transcribed mRNA is called precursor mRNA, or pre-mRNA. Each pre-mRNA receives two important modifications. One at the five-prime end of the molecule, called the cap, and another at the three-prime end of the molecule, called a tail.
The five-prime cap is composed of a single 7-methylguanosine, a modified guanine nucleotide, that is attached to the first nucleotide of the pre-mRNA by a triphosphate linkage. A specific sequence of nucleotides toward the end of the pre-mRNA transcript, usually A, A, U, A, A, A, called a polyadenylation signal, recruits an RNA binding protein, and directs an enzyme, an endonuclease, to cut the transcript at the three-prime end of the signal sequence. A different enzyme, polyadenylate polymerase, then adds a long string of adenine nucleotides, as many as 200, to the three-prime end of the transcript.
The five-prime cap and the three-prime poly-A tail protect the ends of the transcript from degradation. The three-prime tail also signals to transport molecules that the mRNA transcript is ready to leave the nucleus. Outside of the nucleus, the five-prime cap helps the ribosome attach to the transcript so it can begin translation.
The last major change to an RNA transcript is the removal of non-coding sequences called introns. A complex of proteins and RNA, called the spliceosome, searches for markers at the ends of introns, cuts the introns out of the transcript, and attaches together the remaining exons, which are sequences that code for proteins.