Sequence of the gene for ribosomal protein L23 from the archaebacterium Methanococcus vannielii

Abstract

The N‐terminal sequence of HPLC‐purified protein L23 from the Methanococcus vannielii ribosome has been determined by automated liquid‐phase Edman degradation. Using the N‐terminal amino acid sequence, an oligonucleotide probe complementary to the 5′‐end of the gene was synthesized. The 26‐mer oligonucleotide, containing two inosines, was used for hybridization with digested M. vannielii chromosomal DNA. The hybridizing band from HpaII‐digested genomic DNA was ligated into pUC18 to yield plasmid pMvaZl containing the entire gene of protein L23. The nucleotide sequence complemented the partial amino acid sequence, and the gene codes for a protein of 9824 Da. The amino acid sequence of protein L23 form M. vannielii was compared to that of ribosomal proteins from other archaebacteria as well as from eubacteria and eukaryotes. The number of identical amino acids is highest when the M. vannielii protein is compared to the homologous protein from yeast and lowest vs that from tobacco chloroplasts. Interestingly, the secondary structures of the proteins as predicted by computer programs are more conserved than the primary structures.