Zobrazeno 1 - 10 of 252 pro vyhledávání: '"Joseph W St Geme"'
1
Akademický článek
Kingella kingae PilC1 and PilC2 are adhesive multifunctional proteins that promote bacterial adherence, twitching motility, DNA transformation, and pilus biogenesis.
Autor: Alexandra L Sacharok, Eric A Porsch, Taylor A Yount, Orlaith Keenan, Joseph W St Geme
Publikováno v: PLoS Pathogens, Vol 18, Iss 3, p e1010440 (2022)
The gram-negative bacterium Kingella kingae is a leading cause of osteoarticular infections in young children and initiates infection by colonizing the oropharynx. Adherence to respiratory epithelial cells represents an initial step in the process of
Externí odkaz: https://doaj.org/article/209e7c83bb884bc78c30130c9c1ecc6c
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2
Akademický článek
Kingella negevensis shares multiple putative virulence factors with Kingella kingae.
Autor: Eric A Porsch, Pablo Yagupsky, Joseph W St Geme
Publikováno v: PLoS ONE, Vol 15, Iss 10, p e0241511 (2020)
Kingella negevensis is a newly described gram-negative bacterium in the Neisseriaceae family and is closely related to Kingella kingae, an important cause of pediatric osteoarticular infections and other invasive diseases. Like K. kingae, K. negevens
Externí odkaz: https://doaj.org/article/f97559a3ea694f83b3e5a5638fc26b20
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3
Akademický článek
Kingella kingae Expresses Four Structurally Distinct Polysaccharide Capsules That Differ in Their Correlation with Invasive Disease.
Autor: Kimberly F Starr, Eric A Porsch, Patrick C Seed, Christian Heiss, Radnaa Naran, L Scott Forsberg, Uri Amit, Pablo Yagupsky, Parastoo Azadi, Joseph W St Geme
Publikováno v: PLoS Pathogens, Vol 12, Iss 10, p e1005944 (2016)
Kingella kingae is an encapsulated gram-negative organism that is a common cause of osteoarticular infections in young children. In earlier work, we identified a glycosyltransferase gene called csaA that is necessary for synthesis of the [3)-β-GalpN
Externí odkaz: https://doaj.org/article/fc7282e675b54f05a356be38aa5c2351
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4
Akademický článek
Transformed Recombinant Enrichment Profiling Rapidly Identifies HMW1 as an Intracellular Invasion Locus in Haemophilus influenza.
Autor: Joshua Chang Mell, Cristina Viadas, Javier Moleres, Sunita Sinha, Ariadna Fernández-Calvet, Eric A Porsch, Joseph W St Geme, Corey Nislow, Rosemary J Redfield, Junkal Garmendia
Publikováno v: PLoS Pathogens, Vol 12, Iss 4, p e1005576 (2016)
Many bacterial species actively take up and recombine homologous DNA into their genomes, called natural competence, a trait that offers a means to identify the genetic basis of naturally occurring phenotypic variation. Here, we describe "transformed
Externí odkaz: https://doaj.org/article/ff5422b7ba7b420cb2655bffa7f16064
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6
Akademický článek
Characterization of the Kingella kingae polysaccharide capsule and exopolysaccharide.
Autor: Kimberly F Starr, Eric A Porsch, Christian Heiss, Ian Black, Parastoo Azadi, Joseph W St Geme
Publikováno v: PLoS ONE, Vol 8, Iss 9, p e75409 (2013)
Recent evidence indicates that Kingella kingae produces a polysaccharide capsule. In an effort to determine the composition and structure of this polysaccharide capsule, in the current study we purified capsular material from the surface of K. kingae
Externí odkaz: https://doaj.org/article/4fbd5f5fd9dc49efb9f526f76cce4cd5
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7
Akademický článek
The Actinobacillus pleuropneumoniae HMW1C-like glycosyltransferase mediates N-linked glycosylation of the Haemophilus influenzae HMW1 adhesin.
Autor: Kyoung-Jae Choi, Susan Grass, Seonghee Paek, Joseph W St Geme, Hye-Jeong Yeo
Publikováno v: PLoS ONE, Vol 5, Iss 12, p e15888 (2010)
The Haemophilus influenzae HMW1 adhesin is an important virulence exoprotein that is secreted via the two-partner secretion pathway and is glycosylated at multiple asparagine residues in consensus N-linked sequons. Unlike the heavily branched glycans
Externí odkaz: https://doaj.org/article/73259057e1c843338f80f272cd272ca1
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8
Akademický článek
The Haemophilus influenzae HMW1C protein is a glycosyltransferase that transfers hexose residues to asparagine sites in the HMW1 adhesin.
Autor: Susan Grass, Cheryl F Lichti, R Reid Townsend, Julia Gross, Joseph W St Geme
Publikováno v: PLoS Pathogens, Vol 6, Iss 5, p e1000919 (2010)
The Haemophilus influenzae HMW1 adhesin is a high-molecular weight protein that is secreted by the bacterial two-partner secretion pathway and mediates adherence to respiratory epithelium, an essential early step in the pathogenesis of H. influenzae
Externí odkaz: https://doaj.org/article/c047cc87adc84d70a06d09af8f584e5f
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9
Akademický článek
Acquisition, co-option, and duplication of the rtx toxin system and the emergence of virulence in Kingella
Autor: Daniel P. Morreale, Eric A. Porsch, Brad K. Kern, Joseph W. St. Geme, Paul J. Planet
Publikováno v: Nature Communications, Vol 14, Iss 1, Pp 1-15 (2023)
Abstract The bacterial genus Kingella includes two pathogenic species, namely Kingella kingae and Kingella negevensis, as well as strictly commensal species. Both K. kingae and K. negevensis secrete a toxin called RtxA that is absent in the commensal
Externí odkaz: https://doaj.org/article/c2a5d2aa2e954def9d32206c4b073bec
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10
Akademický článek
Phylogenomic analysis of the understudied Neisseriaceae species reveals a poly- and paraphyletic Kingella genus
Autor: Daniel P. Morreale, Joseph W. St Geme III, Paul J. Planet
Publikováno v: Microbiology Spectrum, Vol 11, Iss 6 (2023)
ABSTRACT Taxonomic classification and phylogenetic analysis of the Neisseriaceae family have focused on the pathogens Neisseria meningitidis and Neisseria gonorrhoeae. Less is known about the relationships of commensal Neisseria species and other Nei
Externí odkaz: https://doaj.org/article/43c7014de0d14a7db8d2525a663254b3
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