A novel peptidoglycan‐linked lipoprotein (ComL) that functions in natural transformation competence of <i>Neisseria gonorrhoeae</i>

Fussenegger, Martin; Facius, Dirk; Meier, Jürgen; Meyer, Thomas F.

doi:10.1046/j.1365-2958.1996.457984.x

Cited by 71 publications

(68 citation statements)

References 55 publications

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“…Interestingly, we found that BamD was not essential in Salmonella, unlike its homologue in E. coli (Malinverni et al, 2006;Onufryk et al, 2005), and its homologue in Neisseria gonorrhoeae, in which total deletion of comL (the bamD homologue) failed (Fussenegger et al, 1996). This constitutes the main difference between the BAM complex of Salmonella and that of E. coli.…”

Section: Discussionmentioning

confidence: 86%

Investigation of the role of the BAM complex and SurA chaperone in outer-membrane protein biogenesis and type III secretion system expression in Salmonella

et al. 2009

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In Escherichia coli, the assembly of outer-membrane proteins (OMP) requires the BAM complex and periplasmic chaperones, such as SurA or DegP. Previous work has suggested a potential link between OMP assembly and expression of the genes encoding type-III secretion systems. In order to test this hypothesis, we studied the role of the different lipoproteins of the BAM complex (i.e. BamB, BamC, BamD and BamE), and the periplasmic chaperones SurA and DegP, in these two phenotypes in Salmonella. Analysis of the corresponding deletion mutants showed that, as previously described with the DbamB mutant, BamD, SurA and, to a lesser extent, BamE play a role in outer-membrane biogenesis in Salmonella Enteritidis, while the membrane was not notably disturbed in DbamC and DdegP mutants. Interestingly, we found that BamD is not essential in Salmonella, unlike its homologues in Escherichia coli and Neisseria gonorrhoeae. In contrast, BamD was the only protein required for full expression of T3SS-1 and flagella, as demonstrated by transcriptional analysis of the genes involved in the biosynthesis of these T3SSs. In line with this finding, bamD mutants showed a reduced secretion of effector proteins by these T3SSs, and a reduced ability to invade HT-29 cells. As DsurA and DbamE mutants had lower levels of OMPs in their outer membrane, but showed no alteration in T3SS-1 and flagella expression, these results demonstrate the absence of a systematic link between an OMP assembly defect and the downregulation of T3SSs in Salmonella; therefore, this link appears to be related to a more specific mechanism that involves at least BamB and BamD.

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Section: Discussionmentioning

confidence: 86%

Investigation of the role of the BAM complex and SurA chaperone in outer-membrane protein biogenesis and type III secretion system expression in Salmonella

et al. 2009

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“…In addition to the requirement for the expressions of pili (22,54), other proteins have been shown to have a role in natural transformation in the Neisseria spp. These include Tpc, mutants of which form tetracocci deficient in epithelial cell invasion and competence (23); ComA, an inner membrane protein which may be involved in translocation of DNA into the cytoplasm (19); ComL, a peptidoglycan-bound lipoprotein, mutants of which are significantly decreased in transformation (24); and PilT, which is involved in twitching motility and DNA uptake (63). Our results indicate that dca is also essential for transformation in gonococci.…”

Section: Discussionmentioning

confidence: 88%

A Putatively Phase Variable Gene ( dca ) Required for Natural Competence in Neisseria gonorrhoeae but Not Neisseria meningitidis Is Located within the Division Cell Wall ( dcw ) Gene Cluster

2001

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A cluster of 18 open reading frames (ORFs), 15 of which are homologous to genes involved in division and cell wall synthesis, has been identified in Neisseria gonorrhoeae and Neisseria meningitidis. The three additional ORFs, internal to the dcw cluster, are not homologous to dcw-related genes present in other bacterial species. Analysis of the N. meningitidis strain MC58 genome for foreign DNA suggests that these additional ORFs have not been acquired by recent horizontal exchange, indicating that they are a long-standing, integral part of the neisserial dcw gene cluster. Reverse transcription-PCR analysis of RNA extracted from N. gonorrhoeae strain FA19 confirmed that all three ORFs are transcribed in gonococci. One of these ORFs (dca, for division cluster competence associated), located between murE and murF, was studied in detail and found to be essential for competence in the gonococcal but not in the meningococcal strains tested. Computer analysis predicts that dca encodes an inner membrane protein similar to hypothetical proteins produced by other gram-negative bacteria. In some meningococcal strains dca is prematurely terminated following a homopolymeric tract of G's, the length of which differs between isolates of N. meningitidis, suggesting that dca is phase variable in this species. A deletion and insertional mutation was made in the dca gene of N. gonorrhoeae strain FA19 and N. meningitidis strain NMB. This mutation abrogated the ability of the gonococci to be transformed with chromosomal DNA. Thus, we conclude that the dca-encoded gene product is an essential competence factor for gonococci.The proteins encoded by bacterial division and cell wall (dcw) gene clusters are essential for viability (16). Significant progress has been made in recent years in understanding the genes involved in cell wall biosynthesis and division (5,6,7,11,32,62). Fifteen genes located at 2 min on the Escherichia coli chromosome have been identified and are called the dcw cluster (4, 64). The genes of this cluster are tightly packed, some overlapping, and are oriented in one direction (4, 64). Although the dcw cluster is highly conserved among evolutionarily diverse bacterial species (48), some variations in the clusters have been reported. These variations include the location of some dcw genes at separate chromosomal locations, such as ftsW, murF, and ddlA of Staphylococcus aureus (48), and the addition of species-specific genes within the dcw cluster, such as spoVD and spoVE of Bacillus subtilis (12, 31). In the case of these B. subtilis sporulation genes, spoVD (12) and spoVE (31) have homology to the dcw cluster genes pbpB and ftsW, respectively. Although not essential for vegetative growth, these genes are essential for sporulation (12,31).Since the products of the dcw genes encode proteins involved in peptidoglycan synthesis and cellular division, it is necessary to use conditionally lethal mutants to study these genes (5,6,11,16,27). Moreover, since they are typically expressed at low levels, it has been difficult ...

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“…However, even in the closely related bacterium Salmonella enterica, BamD appears to be dispensable (Fardini et al, 2009). Also, in Neisseria gonorrhoeae, a viable knockout mutant in the bamD homologue, designated comL, has been described (Fussenegger et al, 1996) but the gene appears essential for viability and OMP assembly in N. meningitidis (Volokhina et al, 2009). Thus, the Bam complex in bacteria consists of one essential central component, Omp85/BamA, and a variable number of accessory components, the importance of which is variable and depends on the specific component and the bacterium being studied.…”

Section: The Bacterial Omp Assembly Machinerymentioning

confidence: 99%

Assembly of outer-membrane proteins in bacteria and mitochondria

Tommassen

2010

Microbiology

103

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The cell envelope of Gram-negative bacteria consists of two membranes separated by the periplasm. In contrast with most integral membrane proteins, which span the membrane in the form of hydrophobic a-helices, integral outer-membrane proteins (OMPs) form b-barrels. Similar b-barrel proteins are found in the outer membranes of mitochondria and chloroplasts, probably reflecting the endosymbiont origin of these eukaryotic cell organelles. How these b-barrel proteins are assembled into the outer membrane has remained enigmatic for a long time. In recent years, much progress has been reached in this field by the identification of the components of the OMP assembly machinery. The central component of this machinery, called Omp85 or BamA, is an essential and highly conserved bacterial protein that recognizes a signature sequence at the C terminus of its substrate OMPs. A homologue of this protein is also found in mitochondria, where it is required for the assembly of b-barrel proteins into the outer membrane as well. Although accessory components of the machineries are different between bacteria and mitochondria, a mitochondrial b-barrel OMP can be assembled into the bacterial outer membrane and, vice versa, bacterial OMPs expressed in yeast are assembled into the mitochondrial outer membrane. These observations indicate that the basic mechanism of OMP assembly is evolutionarily highly conserved.

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A novel peptidoglycan‐linked lipoprotein (ComL) that functions in natural transformation competence of Neisseria gonorrhoeae

Cited by 71 publications

References 55 publications

Investigation of the role of the BAM complex and SurA chaperone in outer-membrane protein biogenesis and type III secretion system expression in Salmonella

Investigation of the role of the BAM complex and SurA chaperone in outer-membrane protein biogenesis and type III secretion system expression in Salmonella

A Putatively Phase Variable Gene ( dca ) Required for Natural Competence in Neisseria gonorrhoeae but Not Neisseria meningitidis Is Located within the Division Cell Wall ( dcw ) Gene Cluster

Assembly of outer-membrane proteins in bacteria and mitochondria

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