Project description:The zur regulon in Neisseria meningitidis was elucidated in the strain MC58 using a zur knockout strain and conditions which activate Zur ( zinc supplementation in the medium)

Project description:Neisseria meningitidis serogroup B is a pathogen that can infect diverse sites within the human host. According to the N. meningitidis genomic information and experimental observations glucose can be completely catabolized through the Entner-Doudoroff pathway and the pentose phosphate pathway. The Embden-Meyerhof-Parnas pathway is not functional, because the gene for phosphofructokinase is not present. The phylogenetic distribution of phosphofructokinase indicates that in most obligate aerobic organisms PFK is lacking. We conclude that this is because of the limited contribution of PFK to the energy supply in aerobically grown organisms in comparison with the energy generated through oxidative phosphorylation. Under anaerobic or microaerobic conditions the available energy is limiting and PFK provides an advantage, which explains the presence of PFK in many (facultative) anaerobic organisms. In accordance with this, in silico flux balance analysis predicted an increase of biomass yield as a result of PFK expression. However, analysis of a genetically engineered N. meningitidis strain that expresses a heterologous phosphofructokinase showed that the yield of biomass on substrate decreased in comparison with a pfkA deficient control strain, which was associated mainly with an increase in CO2 production, whereas production of by-products was comparable between the two strains. This might explain why the pfkA gene has not been obtained by horizontal gene transfer, since it is initially unfavourable for biomass yield. No large effects related to heterologous expression of pfkA were observed in the transcriptome. Although our results suggest that introduction of PFK does not contribute to a more efficient strain in terms of biomass yield, achievement of a robust, optimal metabolic network that enables a higher growth rate or a higher biomass yield, might be possible after adaptive evolution of the strain, which remains to be investigated.

Project description:PFGRC has developed a cost effective alternative to complete genome sequencing in order to study the genetic differences between closely related species and/or strains. The comparative genomics approach combines Gene Discovery (GD) and Comparative Genomic Hybridization (CGH) techniques, resulting in the design and production of species microarrays that represent the diversity of a species beyond just the sequenced reference strain(s) used in the initial microarray design. These species arrays may then be used to interrogate hundreds of closely related strains in order to further unravel their evolutionary relationships. The Neissiria are among most deadly pathogens world-wide. The infections and outbreaks caused by this pathogens is quite frequent despite existing diagnostic network and therapeutic means. Therefore, developing reliable diagnostic tools and efficient (broad-spectrum) therapeutics for Neisseria meningitidis remain a public health priority for every country in world today. The comparative genomics study will provide the largest hitherto genomic data sets regarding this pathogen.These large data sets will enable us as well as other members of scientific community to conduct comprehensive data mining in the form of gene association studies with statistical power and significance.

Project description:The zur regulon in Neisseria meningitidis was elucidated in the strain MC58 using a zur knockout strain and conditions which activate Zur ( zinc supplementation in the medium) Common reference design, zur knock out strain was used as the common reference and the samples wild type strain grown in RPMI and in RPMI with Zinc supplementation were compared to the common reference.

Project description:Neisseria meningitidis serogroup B is a pathogen that can infect diverse sites within the human host. According to the N. meningitidis genomic information and experimental observations glucose can be completely catabolized through the Entner-Doudoroff pathway and the pentose phosphate pathway. The Embden-Meyerhof-Parnas pathway is not functional, because the gene for phosphofructokinase is not present. The phylogenetic distribution of phosphofructokinase indicates that in most obligate aerobic organisms PFK is lacking. We conclude that this is because of the limited contribution of PFK to the energy supply in aerobically grown organisms in comparison with the energy generated through oxidative phosphorylation. Under anaerobic or microaerobic conditions the available energy is limiting and PFK provides an advantage, which explains the presence of PFK in many (facultative) anaerobic organisms. In accordance with this, in silico flux balance analysis predicted an increase of biomass yield as a result of PFK expression. However, analysis of a genetically engineered N. meningitidis strain that expresses a heterologous phosphofructokinase showed that the yield of biomass on substrate decreased in comparison with a pfkA deficient control strain, which was associated mainly with an increase in CO2 production, whereas production of by-products was comparable between the two strains. This might explain why the pfkA gene has not been obtained by horizontal gene transfer, since it is initially unfavourable for biomass yield. No large effects related to heterologous expression of pfkA were observed in the transcriptome. Although our results suggest that introduction of PFK does not contribute to a more efficient strain in terms of biomass yield, achievement of a robust, optimal metabolic network that enables a higher growth rate or a higher biomass yield, might be possible after adaptive evolution of the strain, which remains to be investigated. Two-condition experiment, 3 replicates per condition

Project description:Wild type Neisseria gonorrhoea strain FA1090 and N. meningitidis strain MC58 were grown on normal GC plate at either 35 degree celsius (for control samples) or 40 degree celsius (for test samples)

Project description:Neisseria meningitidis strain Genome sequencing

Project description:In this study the RNA targetome of the endonuclease Cas9, the trans-activating crRNA (tracrRNA) and a CRISPR-associated small RNA (scaRNA/NMnc0040) was determined in Neisseria meninigitidis serogroup C strain 8013 by RNA-seq.

Project description:Neisseria meningitidis is a human commensal that occasionally causes life-threatening infections such as bacterial meningitis and septicemia. Despite experimental evidence that gene regulation as well as the expression of small non-coding RNAs (sRNAs) affect meningococcal virulence, the organization of its transcriptome, including in particular the biogenesis of sRNAs and their mode of action, is only poorly understood. Here, we addressed these issues using a combination of high-throughput technologies. We applied differential RNA-seq (dRNA-seq) to produce a single-nucleotide resolution map of the primary transcriptome of N. meningitidis strain 8103. Our dRNA-seq analysis predicted 1,625 transcriptional start sites (TSS) including 65 non-coding RNA transcripts, of which 20 were further validated by Northern analysis. This allowed for the discovery of a novel CRISPR-associated sRNA with a Cas9-independent biogenesis. Genome-wide mapping of σ 70-dependent and independent promoters revealed that classical Escherichia coli-like σ70 promoter are absent in most of the protein coding genes in meningococci. The majority of the 706 primary TSSs (pTSSs) were associated with coding sequences, including 382 pTSS obtained for single genes and 240 pTSSs obtained for genes located in operons. By Hfq RNA immunoprecipitation sequencing (RIP-seq) we identified a large Hfq-centered post-transcriptional regulatory network comprising 24 sRNAs and 407 potential mRNA targets, and rifampicin stability assays demonstrated that Hfq binding confers enhanced stability on sRNAs. We finally confirmed the interactions of two sRNAs and their cognate target mRNA in vivo. Both directly repress prpB encoding a methylisocitrate lyse which was previously shown to be involved in meningococcal colonization of the human nasopharynx.The combination of both high-throughput approaches thus creates a compendium that not only provides a valuable data resource, but also allows for a better understanding of meningococcal transcriptome organization and riboregulation with implications for colonization of the human nasopharynx.

Project description:Neisseria meningitidis is a major cause of bacterial meningitis and septicemia worldwide. Seven new serogroup C meningococci were isolated from two provinces of China in January, 2006. Their PorA VR types were P1.20, 9. Multilocus sequence typing results indicated that they all belonged to ST-7. It is a new serogroup C N. meningitidis sequence type clone identified in China. Here we also present the results of a genomic comparison of these isolates with other 15 N. meningitidis serogroup A and B isolates, which belonged to ST-7, based on comparative genomic hybridization analysis. The data described here would be helpful to monitor the spread of this new serogroup C meningococci sequence type clone in China and worldwide. Keywords: comparative genomic hybridization