Project description:Spectinomycin resistance in clinical isolates of Neisseria meningitidis and Neisseria gonorrhoeae was found to be due to mutations G1064C and C1192U (Escherichia coli numbering) in 16S rRNA genes, respectively.

Project description:Chlamydophila psittaci 6BC genome sequencing

Project description:Chlamydophila psittaci 6BC genome sequencing project

Project description:Chlamydia psittaci is a highly prevalent avian pathogen and the cause of a potentially lethal zoonosis, causing life-threatening pneumonia in humans. We report the genome sequences of C. psittaci 6BC, the prototype strain of the species, and C. psittaci Cal10, a widely used laboratory strain.

Project description:Azithromycin is a major drug used in the treatment and prophylaxis of chlamydial infections. Spontaneous azithromycin-resistant mutants of Chlamydia psittaci 6BC were isolated in vitro in the plaque assay at a frequency of about 10(-8). Isogenic clonal variants with A(2058)C, A(2059)G, or A(2059)C mutations in the unique 23S rRNA gene (Escherichia coli numbering system) displayed MICs for multiple macrolides (i.e., azithromycin, erythromycin, josamycin, and spiramycin) at least 100 times higher than those of the parent strain and were also more resistant to the lincosamide clindamycin. Chlamydia trachomatis L2 variants with a Gln-to-Lys substitution in ribosomal protein L4 at position 66 (E. coli numbering system), conferring an eightfold decrease in azithromycin and erythromycin sensitivities and a fourfold decrease in josamycin and spiramycin sensitivities, were isolated following serial passage in subinhibitory concentrations of azithromycin. Each mutation was stably maintained in the absence of selection but severely affected chlamydial infectivity, as determined by monitoring the development of each isolate over 46 h in the absence of selection, in pure culture or in 1:1 competition with the isogenic parent. Data in this study support the hypothesis that the mechanisms which confer high-level macrolide resistance in chlamydiae carry a prohibitive physiological cost and may thus limit the emergence of highly resistant clones of these important pathogens in vivo.

Project description:Chlamydiae are parasitic bacteria characterized by a temporally regulated developmental cycle. In the early stage of the cycle, metabolically inert elementary bodies reorganize to dividing reticulate bodies, a process about which little is known. The purpose of this investigation was to identify and clone chlamydial genes that are expressed preferentially during the early stage of the developmental cycle of Chlamydia psittaci 6BC. Several potential early genes were cloned with highly radioactive, host-free-generated RNA probes to screen a genomic library. One clone appeared to encode a gene that was particularly well expressed at 1 h postinfection. In further characterization, we found that it encodes two complete open reading frames and one partial open reading frame of 370 codons. The partial open reading frame, designated gltX, is very similar to bacterial glutamyl-tRNA synthetases and was demonstrated to be transcribed in vivo at 24 h postinfection by primer extension analysis. A lysine-rich open reading frame (LRO) of 117 codons was found upstream and divergent from gltX. The LRO lacks homology to known proteins, and we were unable to demonstrate that it is transcribed in vivo. The third open reading frame, of 182 codons, was found to be convergent with and partially overlap the LRO. It was confirmed to be preferentially expressed within the first 1.5 h of infection by Northern (RNA) blot analysis and was designated the early upstream open reading frame (EUO). Like the LRO, the EUO is not homologous to known proteins. A major potential transcription start site of the EUO was identified by primer extension analysis. However, the sequence upstream of the site does not closely resemble the consensus recognition sequences of bacterial sigma factors even though it is AT rich. The EUO is the first chlamydial gene specific to the early stage to be cloned and sequenced.

Project description:Chlamydia psittaci 6BC/83 Genome sequencing

Project description:To understand a structural basis for the fitness cost of the A1408G antibiotic-resistance mutation in the ribosomal A-site RNA, we have determined crystal structures of its A1408C and A1408U lethal mutants, and made comparison with previously solved structures of the wild type and the antibiotic-resistant mutant. The A-site RNA containing an asymmetric internal loop functions as a molecular switch to discriminate a single cognate tRNA from several near-cognate tRNAs by its conformational ON/OFF switching. Overall structures of the "off" states of the A1408C/U lethal mutants are very similar to those of the wild type and the A1408G antibiotic-resistant mutant. However, significant differences are found in local base stacking interactions including the functionally important A1492 and A1493 residues. In the wild type and the A1408G antibiotic-resistant mutant "off" states, both adenines are exposed to the solvent region. On the other hand, one of the corresponding adenines of the lethal A1408C/U mutants stay deeply inside their A-site helices by forming a purine-pyrimidine AoC or A-U base pair and is sandwiched between the upper and lower bases. Therefore, the ON/OFF switching might unfavorably occur in the lethal mutants compared to the wild type and the A1408G antibiotic-resistant mutant. It is probable that bacteria manage to acquire antibiotic resistance without losing the function of the A-site molecular switch by mutating the position 1408 only from A to G, but not to pyrimidine base C or U.

Project description:The envelopes of elementary bodies of Chlamydia spp. consist largely of disulfide-cross-linked major outer membrane protein (MOMP) and two cysteine-rich proteins (CRPs). The MOMP gene of Chlamydia psittaci 6BC has been sequenced previously, and the genes encoding the small and large CRPs from this strain were cloned and sequenced in this study. The CRP genes were found to be tandemly arranged on the chlamydial chromosome but could be independently expressed in Escherichia coli. The deduced 87-amino-acid sequence of the small-CRP gene (envA) contains 15 cysteine residues, a potential signal peptide, and a potential signal peptidase II-lipid modification site. Hydropathy plot and conformation analysis of the small-CRP amino acid sequence indicated that the protein was unlikely to be associated with a membrane. However, the small CRP was specifically labeled in host cells incubated with [3H]palmitic acid and may therefore be associated with a membrane through a covalently attached lipid portion of the molecule. The deduced 557-amino-acid sequence of the large-CRP gene (envB) contains 37 cysteine residues and a single putative signal peptidase I cleavage site. In one recombinant clone the large CRP appeared to be posttranslationally cleaved at two sites, forming a doublet in a manner similar to the large-CRP doublet made in native C. psittaci 6BC. Comparison of the deduced amino acid sequences of the CRPs from chlamydial strains indicated that the small CRP is moderately conserved, with 54% identity between C. psittaci 6BC and Chlamydia trachomatis, and the large CRP is highly conserved, with 71% identity between C. psittaci and C. trachomatis and 85% identity between C. psittaci 6BC and Chlamydia pneumoniae. The positions of the cysteine residues in both CRPs are highly conserved in Chlamydia spp. From the number of cysteine residues in the MOMP and the CRPs and the relative incorporation of [35S]cysteine into these proteins, it was calculated that the molar ratio of C. psittaci 6BC elementary body envelope proteins is about one large-CRP molecule to two small-CRP molecules to five MOMP molecules.

Project description:The gene encoding the major outer membrane protein (MOMP) of the psittacine Chlamydia psittaci strain 6BC was cloned and sequenced. N-terminal protein sequencing of the mature MOMP indicated that it is posttranslationally processed at a site identical to the site previously identified in the MOMP of Chlamydia trachomatis L2. The nucleotide sequence of the C. psittaci 6BC MOMP gene was found to be 67 to 68% identical to those of human C. trachomatis strains, 73% identical to that of Chlamydia pneumoniae IOL-207, 79% identical to that of the C. psittaci guinea pig inclusion conjunctivitis strain, GPIC, and 83% identical to that of the C. psittaci ovine abortion strain S26/3. In contrast, the 6BC sequence was found to be greater than 99% identical to the sequences reported for two strains of C. psittaci, A22/M and Cal-10 meningopneumonitis, believed to be of nonpsittacine avian origin. Monoclonal antibody analysis confirmed the nonpsittacine avian origin of A22/M but identified the Cal-10 strain from which the MOMP gene was previously sequenced as a psittacine strain. These results confirm that psittacine and nonpsittacine avian strains of C. psittaci are closely related and distinct from the mammalian guinea pig inclusion conjunctivitis and ovine abortion strains of C. psittaci.