Alan Calder scite author profile

Alan Calder

5Publications

73Citation Statements Received

307Citation Statements Given

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Kingston University

Publications

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Virulence genes and previously unexplored gene clusters in four commensal Neisseria spp. isolated from the human throat expand the neisserial gene repertoire

Calder

Menkiti

Cagdas

et al. 2020

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Commensal non-pathogenic Neisseria spp. live within the human host alongside the pathogenic Neisseria meningitidis and Neisseria gonorrhoeae and due to natural competence, horizontal gene transfer within the genus is possible and has been observed. Four distinct Neisseria spp. isolates taken from the throats of two human volunteers have been assessed here using a combination of microbiological and bioinformatics techniques. Three of the isolates have been identified as Neisseria subflava biovar perflava and one as Neisseria cinerea . Specific gene clusters have been identified within these commensal isolate genome sequences that are believed to encode a Type VI Secretion System, a newly identified CRISPR system, a Type IV Secretion System unlike that in other Neisseria spp., a hemin transporter, and a haem acquisition and utilization system. This investigation is the first to investigate these systems in either the non-pathogenic or pathogenic Neisseria spp. In addition, the N. subflava biovar perflava possess previously unreported capsule loci and sequences have been identified in all four isolates that are similar to genes seen within the pathogens that are associated with virulence. These data from the four commensal isolates provide further evidence for a Neisseria spp. gene pool and highlight the presence of systems within the commensals with functions still to be explored.

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Phase variable DNA repeats in Neisseria gonorrhoeae influence transcription, translation, and protein sequence variation

Zelewska

Pulijala

Spencer-Smith

et al. 2016

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There are many types of repeated DNA sequences in the genomes of the species of the genus Neisseria, from homopolymeric tracts to tandem repeats of hundreds of bases. Some of these have roles in the phase-variable expression of genes. When a repeat mediates phase variation, reversible switching between tract lengths occurs, which in the species of the genus Neisseria most often causes the gene to switch between on and off states through frame shifting of the open reading frame. Changes in repeat tract lengths may also influence the strength of transcription from a promoter. For phenotypes that can be readily observed, such as expression of the surface-expressed Opa proteins or pili, verification that repeats are mediating phase variation is relatively straightforward. For other genes, particularly those where the function has not been identified, gathering evidence of repeat tract changes can be more difficult. Here we present analysis of the repetitive sequences that could mediate phase variation in the Neisseria gonorrhoeae strain NCCP11945 genome sequence and compare these results with other gonococcal genome sequences. Evidence is presented for an updated phase-variable gene repertoire in this species, including a class of phase variation that causes amino acid changes at the C-terminus of the protein, not previously described in N. gonorrhoeae.

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Fatty acid compositions of neutral glycerides from the ovaries of the asteroids Ctenodiscus crispatus, Asterias lincki and Pteraster militaris from Balsfjorden, northern Norway

Sargent

Falk‐Petersen

Calder³

1983

Marine Biology

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Mutations in Neisseria gonorrhoeae grown in sub-lethal concentrations of monocaprin do not confer resistance

2018

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Neisseria gonorrhoeae, due to its short lipooligosaccharide structure, is generally more sensitive to the antimicrobial effects of some fatty acids than most other Gram negative bacteria. This supports recent development of a fatty acid-based potential treatment for gonococcal infections, particularly ophthalmia neonatorum. The N. gonorrhoeae genome contains genes for fatty acid resistance. In this study, the potential for genomic mutations that could lead to resistance to this potential new treatment were investigated. N. gonorrhoeae strain NCCP11945 was repeatedly passaged on growth media containing a sub-lethal concentration of fatty acid myristic acid and monoglyceride monocaprin. Cultures were re-sequenced and assessed for changes in minimum inhibitory concentration. Of note, monocaprin grown cultures developed a mutation in transcription factor gene dksA, which suppresses molecular chaperone DnaK and may be involved in the stress response. The minimum inhibitory concentration after exposure to monocaprin showed a modest two-fold change. The results of this study suggest that N. gonorrhoeae cannot readily evolve resistance that will impact treatment of ophthalmia neonatorum with monocaprin.

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The Type VI secretion system in commensal Neisseria spp.

Calder

Snyder

2020

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A type 6 secretion system (T6SS) was recently identified in the genome sequence data of an isolate sourced from a throat swab of a volunteer that is believed to be N. subflava. The T6SS is one of the most recently discovered bacterial secretion systems and this is the first time it has been reported in Neisseriaceae. Since this discovery, genome sequence analyses for a number of other commensal Neisseria spp. has identified that in fact, two distinct T6SS types exist across Neisseriaceae. These two types are clearly defined and are different to one another in both their core gene sequences and organisation. The two systems also differ in the number of VgrG proteins required for toxic effector protein delivery, as well as type of effector associated with them. The predicted VgrG/effector combinations identified in our isolate are not common to all members of the same species and further analysis has identified a wide range of diversity in these components between different strains of the same species. The data provides possible evidence that T6SS positive commensal Neisseria spp. can acquire new VgrG/effector combinations through competitor killing. A number of putative effectors have so far been identified within the genome of our original isolate, including hydrolases, phospholipases, and nucleases. Whilst these are predicted to be antibacterial effectors, the conditions under which the T6SS system is activated, as well as demonstration of the function of the effectors still needs to be investigated experimentally.

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Alan Calder

Virulence genes and previously unexplored gene clusters in four commensal Neisseria spp. isolated from the human throat expand the neisserial gene repertoire

Phase variable DNA repeats in Neisseria gonorrhoeae influence transcription, translation, and protein sequence variation

Fatty acid compositions of neutral glycerides from the ovaries of the asteroids Ctenodiscus crispatus, Asterias lincki and Pteraster militaris from Balsfjorden, northern Norway

Mutations in Neisseria gonorrhoeae grown in sub-lethal concentrations of monocaprin do not confer resistance

The Type VI secretion system in commensal Neisseria spp.

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