Synthesis of all proteins starts with the same amino acid: methionine. The signal for initiating a polypeptide chain is a special initiation codon that marks the start of the reading frame. Usually the initiation codon is the triplet AUG, but in bacteria, GUG or UUG are also used.
The AUG codon represents methionine, and two types of tRNA can carry this amino acid. One is used for initiation, the other for recognizing AUG codons during elongation.
In bacteria and in eukaryotic organelles, the initiator tRNA carries a methionine residue that has been formylated on its amino group, forming a molecule of N-formyl-methionyl-tRNA. The tRNA is known as tRNAfMet. The name of the aminoacyl-tRNA is usually abbreviated to fMet-tRNAf (Marcker and Sanger, 1964).
The initiator tRNA gains its modified amino acid in a two stage reaction. First, it is charged with the amino acid to generate Met-tRNAf; then the formylation reaction shown in Figure 6.12 blocks the free NH2 group. Although the blocked amino acid group would prevent the initiator from participating in chain elongation, it does not interfere with the ability to initiate a protein.
This tRNA is used only for initiation. It recognizes the codons AUG or GUG (occasionally UUG). The codons are not recognized equally well: the extent of initiation declines about half when AUG is replaced by GUG, and declines by about half again when UUG is employed.
The species responsible for recognizing AUG codons in internal locations is tRNAmMet. This tRNA responds only to internal AUG codons. Its methionine cannot be formylated.
What features distinguish the fMet-tRNAf initiator and the Met-tRNAm elongator? Some characteristic features of the tRNA sequence are important, as summarized in Figure 6.13. Some of these features are needed to prevent the initiator from being used in elongation, others are necessary for it to function in initiation:
- Formylation is not strictly necessary, because nonformylated Met-tRNAf can function as an initiator, but it improves the efficiency with which the Met-tRNAf is used, because it is one of the features recognized by the factor IF-2 that binds the initiator tRNA (Sundari et al., 1976).
- The bases that face one another at the last position of the stem to which the amino acid is connected are paired in all tRNAs except tRNAfMet. Mutations that create a base pair in this position of tRNAfMet allow it to function in elongation. The absence of this pair is therefore important in preventing tRNAfMet from being used in elongation. It is also needed for the formylation reaction (Lee, Seong, and RajBhandary, 1991).
- A series of 3 G·C pairs in the stem that precedes the loop containing the anticodon is unique to tRNAfMet. These base pairs are required to allow the fMet-tRNAf to be inserted directly into the P site.
In bacteria and mitochondria, the formyl residue on the initiator methionine is removed by a specific deformylase enzyme to generate a normal NH2 terminus. If methionine is to be the N-terminal amino acid of the protein, this is the only necessary step. In about half the proteins, the methionine at the terminus is removed by an aminopeptidase, creating a new terminus from R2 (originally the second amino acid incorporated into the chain). When both steps are necessary, they occur sequentially. The removal reaction(s) occur rather rapidly, probably when the nascent polypeptide chain has reached a length of 15 amino acids.