The fate of norleucine as a replacement for methionine in protein synthesis.

In vivo synthesised protein with norleucine occupying one half of the normal methionine loci was prepared using a methionine auxotroph of Escherichia coli K12. The extent of charging of the analogue onto both tRNA_met species and subsequent incorporation into soluble protein was monitored with a double-labelling system comprising [G-³H]norleucine and [³⁵S]methionine. Further experiments established that norleucine can be formylated in vivo once charged onto the initiator tRNA^f_met. An N-terminal analysis of the crude soluble protein revealed that formylnorleucyl-tRNA^f_met can initiate protein synthesis and that the formyl group is then removed from the nascent polypeptide. We were also led to conclude that the N-terminal methionine-amino peptidase does not recognise the analogue in this position. Slow growth rates on the methionine analogue have been partly attributed to limiting levels of charged tRNA^m_met, resulting in turn from the inefficiency of norleucine charging by methionyl-tRNA synthetase. Finally no evidence has been found for the production of aberrant protein as a result of norleucine incorporation, implying that limited growth on the analogue is due to its inability to replace methionine as the precursor of S-adenosyl methionine.