7 research outputs found
Organization and copy number of initiator tRNA genes in slow- and fast- growing mycobacteria
We have previously reported the isolation and characterization of a functional initiator tRNA gene, metA, and a second initiator tRNA-like sequence, metB, from Mycobacterium tuberculosis. Here we describe the fine mapping of the initiator tRNA gene locus of the avirulent (H37Ra) and virulent (H37Rv) strains ofM. tuberculosis. The genomic blot analyses show that the 1.7 kb (harbouring metE) and the 6.0 kb BamHI (harbouring metA) fragments are linked. Further, sequencing of a portion of the 6.0kb fragment, in conjunction with the sequence of the 1.7 kb fragment confirmed the presence of an IS6110 element in the vicinity ofmetB. The IS element is flanked by inverted (28 bp, with 3 contiguous mismatches in the middle) and direct (3 bp) repeats considered to be the hallmarks of IS6110 integration sites. The organization of the initiator tRNA gene locus is identical in both the H37Ra and H37Rv strains and they carry a single copy of the functional initiator tRNA gene. Interestingly, the fast growing Mycobacterium smegmatis also bears a single initiator tRNA gene. This finding is significant in view of the qualitative differences in total tRNA pools and the copy number of rRNA genes in the fast- and slow-growing mycobacteria. Finally, we discuss hypotheses related to the origin of metB in M. tuberculosis
Genetic Incorporation of Unnatural Amino Acids into Proteins in Mycobacterium tuberculosis
New tools are needed to study the intracellular pathogen Mycobacterium tuberculosis (Mtb), the causative agent of tuberculosis (TB), to facilitate new drug discovery and vaccine development. We have developed methodology to genetically incorporate unnatural amino acids into proteins in Mycobacterium smegmatis, BCG and Mtb, grown both extracellularly in culture and inside host cells. Orthogonal mutant tRNATyr/tyrosyl-tRNA synthetase pairs derived from Methanococcus jannaschii and evolved in Escherichia coli incorporate a variety of unnatural amino acids (including photocrosslinking, chemically reactive, heavy atom containing, and immunogenic amino acids) into proteins in response to the amber nonsense codon. By taking advantage of the fidelity and suppression efficiency of the MjtRNA/pIpaRS pair in mycobacteria, we are also able to use p-iodophenylalanine to induce the expression of proteins in mycobacteria both extracellularly in culture and inside of mammalian host cells. This provides a new approach to regulate the expression of reporter genes or mycobacteria endogenous genes of interest. The establishment of the unnatural amino acid expression system in Mtb, an intracellular pathogen, should facilitate studies of TB biology and vaccine development
Organization and copy number of initiator tRNA genes in slow- and fast-growing mycobacteria
We have previously reported the isolation an characterization of a functional initiator tRNA gene, metA, and a second initiator tRNA-like sequence, metB, from Mycobacterium tuberculosis. Here we describe the fine mapping of the initiator tRNA gene locus of the avirulent (H37Ra) and virulent (H37Rv) strains of M. tuberculosis. The genomic blot analyses show that the 1.7 kb (harbouring metB) and the 6.0 kb BamHI (harbouring metA) fragments are linked. Further, sequencing of a portion of the 6.0 kb fragment, in conjunction with the sequence of the 1.7 kb fragment confirmed the presence of an IS6110 element in the vicinity of metB. The IS element is flanked by inverted (28 bp, with 3 contiguous mismatches in the middle) and direct (3 bp) repeats considered to be the hallmarks of IS6110 integration sites. The organization of the initiator tRNA gene locus is identical in both the H37Ra and H37Rv strains and they carry a single copy of the functional initiator tRNA gene. Interestingly, the fast growing Mycobacterium smegmatis also bears a single initiator tRNA gene. This finding is significant in view of the qualitative differences in total tRNA pools and the copy number of rRNA genes in the fast-and slow-growing mycobacteria. Finally, we discuss hypotheses related to the origin of metB in M. tuberculosis
Characterization of the initiator tRNA gene locus and identification of a strong promoter from Mycobacterium tuberculosis
An initiator tRNA gene, metA, and a closely linked fragment of a second initiator-tRNA-like sequence, metB, from Mycobacterium tuberculosis H37Ra have been cloned and characterized. The promoter region of metA shows the presence of conserved sequence elements, TAGCCT and TTGGCG, with resemblance to −10 and −35 promoter regions. The deduced sequence of the mature tRNA contains the three unique features of the eubacterial initiator tRNAs represented by (i) a C:U mismatch at position 1:72, (ii) three consecutive base pairs, 29-31G:C39-41 in the anticodon stem, and (iii) a purine:pyrimidine (A:U) base pair at position 11:24 in the dihydrouridine stem. A putative hairpin structure consisting of an 11 bp stem and a three-base loop found in the 3' flanking region is followed by a stretch of T residues and may serve as a transcription terminator. Analysis of the expression of metA and of its promoter using chloramphenicol acetyltransferase fusion constructs in Mycobacterium smegmatis shows that metA is a functional gene driven by a strong promoter. Furthermore, the overexpressed transcripts are fully processed and formylated in vivo. The metB clone shows the presence of sequences corresponding to those downstream of position 30 of the tRNA. However, the CCA sequence at the 3' end has been mutated to CCG. Interestingly, the 3' flanking sequences of both the genes are rich in GCT repeats. The metB locus also harbours a repeat element, IS6110. A method to prepare total RNA from mycobacteria (under acidic conditions) to analyse in vivo status of tRNAs is described