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Abara W.E. & Bernstein K.T. et al.: Effectiveness of a serogroup B outer membrane vesicle meningococcal vaccine against gonorrhoea: a retrospective observational study. Lancet Infect. Dis. 22, 1021–1029 (2022)AbaraW.E.BernsteinK.T.: Effectiveness of a serogroup B outer membrane vesicle meningococcal vaccine against gonorrhoea: a retrospective observational study. Lancet Infect. Dis. 22, 1021–1029 (2022)Search in Google Scholar
Apicella M.A., Shero M., Jarvis G.A., Griffiss J.M., Mandrell R.E., Schneider H. Phenotypic variation in epitope expression of the Neisseria gonorrhoeae lipooligosaccharide. Inf. Immun. 55, 1755–1761 (1987)ApicellaM.A.SheroM.JarvisG.A.GriffissJ.M.MandrellR.E.SchneiderH.Phenotypic variation in epitope expression of the Neisseria gonorrhoeae lipooligosaccharide. Inf. Immun. 55, 1755–1761 (1987)Search in Google Scholar
Balthazar J.T., Gusa A., Martin L.E., Choudhury B., Carlson R., Shafer W.M.: Lipooligosaccharide structure is an important determinant in the resistance of Neisseria gonorrhoeae to antimicrobial agents of innate host defense. Front. Microbiol. 2, 30 (2011)BalthazarJ.T.GusaA.MartinL.E.ChoudhuryB.CarlsonR.ShaferW.M.: Lipooligosaccharide structure is an important determinant in the resistance of Neisseria gonorrhoeae to antimicrobial agents of innate host defense. Front. Microbiol. 2, 30 (2011)Search in Google Scholar
Banerjee A., Wang R., Uljon S.N., Rice P.A., Gotschlich E.C., Stein D.C.: Identification of the gene (lgtG) encoding the lipo-oligosaccharide beta chain synthesizing glucosyl transferase from Neisseria gonorrhoeae. Proc. Natl. Acad. Sci. 95, 10872–10877 (1998)BanerjeeA.WangR.UljonS.N.RiceP.A.GotschlichE.C.SteinD.C.: Identification of the gene (lgtG) encoding the lipo-oligosaccharide beta chain synthesizing glucosyl transferase from Neisseria gonorrhoeae. Proc. Natl. Acad. Sci. 95, 10872–10877 (1998)Search in Google Scholar
Barth K.R., Isabella V.M., Clark V.L.: Biochemical and genomic analysis of the denitrification pathway within the genus Neisseria. Microbiology, 155, 4093–4103 (2009)BarthK.R.IsabellaV.M.ClarkV.L.: Biochemical and genomic analysis of the denitrification pathway within the genus Neisseria. Microbiology, 155, 4093–4103 (2009)Search in Google Scholar
Bash M.C., Zhu P., Gulati S., McKnew D., Rice P.A., Lynn F.: Por Variable-region typing by DNA probe hybridization is broadly applicable to epidemiologic studies of Neisseria gonorrhoeae. J. Clin. Microbiol. 43, 1522–1530 (2005)BashM.C.ZhuP.GulatiS.McKnewD.RiceP.A.LynnF.: Por Variable-region typing by DNA probe hybridization is broadly applicable to epidemiologic studies of Neisseria gonorrhoeae. J. Clin. Microbiol. 43, 1522–1530 (2005)Search in Google Scholar
Belcher T., Rollier C.S., Dold C., Ross J.D.C., MacLennan C.A.: Immune responses to Neisseria gonorrhoeae and implications for vaccine development. Front. Immunol. 14, 1248613 (2023)BelcherT.RollierC.S.DoldC.RossJ.D.C.MacLennanC.A.: Immune responses to Neisseria gonorrhoeae and implications for vaccine development. Front. Immunol. 14, 1248613 (2023)Search in Google Scholar
Bhat K.S., Gibbs C.P., Barrera O., Morrison S.G., Jähnig F., Stern A., Kupsch E.M., Meyer T.F., Swanson J.: The opacity proteins of Neisseria gonorrhoeae strain MS11 are encoded by a family of 11 complete genes. Mol. Microbiol. 5, 1889–901 (1991)BhatK.S.GibbsC.P.BarreraO.MorrisonS.G.JähnigF.SternA.KupschE.M.MeyerT.F.SwansonJ.: The opacity proteins of Neisseria gonorrhoeae strain MS11 are encoded by a family of 11 complete genes. Mol. Microbiol. 5, 1889–901 (1991)Search in Google Scholar
Blake M.S., Gotschlich E.C., Swanson J.: Effects of proteolytic enzymes on the outer membrane proteins of Neisseria gonorrhoeae. Infect. Immun. 33, 212–222 (1981)BlakeM.S.GotschlichE.C.SwansonJ.: Effects of proteolytic enzymes on the outer membrane proteins of Neisseria gonorrhoeae. Infect. Immun. 33, 212–222 (1981)Search in Google Scholar
Boslego J.W., Tramont E.C., Chung R.C., McChesney D.G., Ciak J., Sadoff J.C., Piziak M.V., Brown J.D., Brinton C.C. Jr, Wood S.W.: Efficacy trial of a parenteral gonococcal pilus vaccine in men. Vaccine, 9, 154–62 (1991)BoslegoJ.W.TramontE.C.ChungR.C.McChesneyD.G.CiakJ.SadoffJ.C.PiziakM.V.BrownJ.D.BrintonC.C. Jr, WoodS.W.: Efficacy trial of a parenteral gonococcal pilus vaccine in men. Vaccine, 9, 154–62 (1991)Search in Google Scholar
Brotman R.M., Klebanoff M.A., Nansel T.R. et al.: Bacterial vaginosis assessed by gram stain and diminished colonization resistance to incident gonococcal, chlamydial, and trichomonal genital infection. J Infect Dis. 202(12): 1907–1915 (2010)BrotmanR.M.KlebanoffM.A.NanselT.R.: Bacterial vaginosis assessed by gram stain and diminished colonization resistance to incident gonococcal, chlamydial, and trichomonal genital infection. J Infect Dis. 202(12): 1907–1915 (2010)Search in Google Scholar
Callaghan M.M., Heilers J.H., van der Does C., Dillard J.P.: Secretion of Chromosomal DNA by the Neisseria gonorrhoeae Type IV Secretion System. Curr. Top. Microbiol. Immunol. 2413, 323–345 (2017)CallaghanM.M.HeilersJ.H.van der DoesC.DillardJ.P.: Secretion of Chromosomal DNA by the Neisseria gonorrhoeae Type IV Secretion System. Curr. Top. Microbiol. Immunol. 2413, 323–345 (2017)Search in Google Scholar
Cehovin A., Jolley K.A., Maiden M.C.J., Harrison O.B., Tang C.M.: Association of Neisseria gonorrhoeae plasmids with distinct lineages and the economic status of their country of origin. J. Infect. Dis. 222, 1826–1836 (2020)CehovinA.JolleyK.A.MaidenM.C.J.HarrisonO.B.TangC.M.: Association of Neisseria gonorrhoeae plasmids with distinct lineages and the economic status of their country of origin. J. Infect. Dis. 222, 1826–1836 (2020)Search in Google Scholar
Cehovin A., Lewis S.B.: Mobile genetic elements in Neisseria gonorrhoeae: movement for change. Pathog Dis. 75, 6 (2017)CehovinA.LewisS.B.: Mobile genetic elements in Neisseria gonorrhoeae: movement for change. Pathog Dis. 75, 6 (2017)Search in Google Scholar
Chatterjee S.N., Das J.: Electron microscopic observations on the excretion of cell-wall material by Vibrio cholerae. J Gen Microbiol. 49(1): 1–11 (1967)ChatterjeeS.N.DasJ.: Electron microscopic observations on the excretion of cell-wall material by Vibrio cholerae. J Gen Microbiol. 49(1): 1–11 (1967)Search in Google Scholar
Chen A., Seifert H.S.: Neisseria gonorrhoeae-mediated inhibition of apoptotic signalling in polymorphonuclear leukocytes. Infect. Immun. 79, 4447–4458 (2011)ChenA.SeifertH.S.: Neisseria gonorrhoeae-mediated inhibition of apoptotic signalling in polymorphonuclear leukocytes. Infect. Immun. 79, 4447–4458 (2011)Search in Google Scholar
Chen A., Seifert, H.S.: Structure-function studies of the Neisseria gonorrhoeae major outer membrane porin. Inf. immune. 81, 4383–4391 (2013)ChenA.SeifertH.S.: Structure-function studies of the Neisseria gonorrhoeae major outer membrane porin. Inf. immune. 81, 4383–4391 (2013)Search in Google Scholar
Chen I., Dubnau D.: DNA uptake during bacterial transformation. Nat. Rev. Microbiol. 2, 241–249 (2004)ChenI.DubnauD.: DNA uptake during bacterial transformation. Nat. Rev. Microbiol. 2, 241–249 (2004)Search in Google Scholar
Chen T., Grunert F., Medina-Marino A., Gotschlich E.C.: Several carcinoembryonic antigens (CD66) serve as receptors for gonococcal opacity proteins. J. Exp. Med. 185, 1557–1564 (1997)ChenT.GrunertF.Medina-MarinoA.GotschlichE.C.: Several carcinoembryonic antigens (CD66) serve as receptors for gonococcal opacity proteins. J. Exp. Med. 185, 1557–1564 (1997)Search in Google Scholar
Cloud K.A., Dillard J.P.: A lytic transglycosylase of Neisseria gonorrhoeae is involved in peptidoglycan-derived cytotoxin production. Infect. Immun. 70, 2752–2757 (2002)CloudK.A.DillardJ.P.: A lytic transglycosylase of Neisseria gonorrhoeae is involved in peptidoglycan-derived cytotoxin production. Infect. Immun. 70, 2752–2757 (2002)Search in Google Scholar
Cooper M.D., McGraw P.A., Melly M.A.: Localization of gonococcal lipopolysaccharide and its relationship to toxic damage in human fallopian tube mucosa. Infect. Immun. 51, 425–430 (1986)CooperM.D.McGrawP.A.MellyM.A.: Localization of gonococcal lipopolysaccharide and its relationship to toxic damage in human fallopian tube mucosa. Infect. Immun. 51, 425–430 (1986)Search in Google Scholar
Cornelissen C.N., Hollander A.: TonB-Dependent transporters expressed by Neisseria gonorrhoeae. Front. Microbiol. 2, 117 (2011)CornelissenC.N.HollanderA.: TonB-Dependent transporters expressed by Neisseria gonorrhoeae. Front. Microbiol. 2, 117 (2011)Search in Google Scholar
Criss A.K., Genco C.A., Gray-Owen S.D., Jerse A.E., Seifert H.S.: Challenges and controversies concerning Neisseria gonorrhoeae -Neutrophil interactions in pathogenesis. mBio, 12, e0072121 (2021)CrissA.K.GencoC.A.Gray-OwenS.D.JerseA.E.SeifertH.S.: Challenges and controversies concerning Neisseria gonorrhoeae -Neutrophil interactions in pathogenesis. mBio, 12, e0072121 (2021)Search in Google Scholar
Delahay R.M., Robertson B.D., Balthazar J.T., Shafer W.M., Ison C.A.: Involvement of the gonococcal MtrE protein in the resistance of Neisseria gonorrhoeae to toxic hydrophobic agents. Microbiology, 143, 2127–2133 (1997)DelahayR.M.RobertsonB.D.BalthazarJ.T.ShaferW.M.IsonC.A.: Involvement of the gonococcal MtrE protein in the resistance of Neisseria gonorrhoeae to toxic hydrophobic agents. Microbiology, 143, 2127–2133 (1997)Search in Google Scholar
Deo P. & Naderer T. et al.: Outer membrane vesicles from Neisseria gonorrhoeae target PorB to mitochondria and induce apoptosis. PLoS pathogens, 14, e1006945 (2018)DeoP.NadererT.: Outer membrane vesicles from Neisseria gonorrhoeae target PorB to mitochondria and induce apoptosis. PLoS pathogens, 14, e1006945 (2018)Search in Google Scholar
Dillard J.P., Seifert H.S.: A variable genetic island specific for Neisseria gonorrhoeae is involved in providing DNA for natural transformation and is found more often in disseminated infection isolates. Mol. Microbiol. 41, 263–278 (2001)DillardJ.P.SeifertH.S.: A variable genetic island specific for Neisseria gonorrhoeae is involved in providing DNA for natural transformation and is found more often in disseminated infection isolates. Mol. Microbiol. 41, 263–278 (2001)Search in Google Scholar
Donlan R.M., Costerton J.W.: Biofilms: survival mechanisms of clinically relevant microorganisms. Clin. Microbiol. Rev. 15, 167–193 (2002)DonlanR.M.CostertonJ.W.: Biofilms: survival mechanisms of clinically relevant microorganisms. Clin. Microbiol. Rev. 15, 167–193 (2002)Search in Google Scholar
Falsetta M.L., Bair T.B., Ku S.C., Vanden Hoven R.N., Steichen C.T., McEwan A.G., Jennings M.P., Apicella M.A. (2009). Transcriptional profiling identifies the metabolic phenotype of gonococcal biofilms. Infect. Immun. 77, 3522–3532 (2009)FalsettaM.L.BairT.B.KuS.C.Vanden HovenR.N.SteichenC.T.McEwanA.G.JenningsM.P.ApicellaM.A. (2009). Transcriptional profiling identifies the metabolic phenotype of gonococcal biofilms. Infect. Immun. 77, 3522–3532 (2009)Search in Google Scholar
Frye S.A., Nilsen M., Tønjum T., Ambur O.H.: Dialects of the DNA uptake sequence in Neisseriaceae. PLoS Genet. 9, e1003458 (2013)FryeS.A.NilsenM.TønjumT.AmburO.H.: Dialects of the DNA uptake sequence in Neisseriaceae. PLoS Genet. 9, e1003458 (2013)Search in Google Scholar
Fudyk T.C., Maclean I.W., Simonsen J.N., Njagi E.N., Kimani J., Brunham R.C., Plummer F.A.: Genetic diversity and mosaicism at the por locus of Neisseria gonorrhoeae. J. Bacteriol. 181, 5591–5599 (1999)FudykT.C.MacleanI.W.SimonsenJ.N.NjagiE.N.KimaniJ.BrunhamR.C.PlummerF.A.: Genetic diversity and mosaicism at the por locus of Neisseria gonorrhoeae. J. Bacteriol. 181, 5591–5599 (1999)Search in Google Scholar
Golparian D., Sánchez-Busó L., Cole M., Unemo M.: Neisseria gonorrhoeae sequence typing for antimicrobial resistance (NG-STAR) clonal complexes are consistent with genomic phylogeny and provide simple nomenclature, rapid visualization and antimicrobial resistance (AMR) lineage predictions. J. Antimicrob. Chemother. 76, 940–944 (2021)GolparianD.Sánchez-BusóL.ColeM.UnemoM.: Neisseria gonorrhoeae sequence typing for antimicrobial resistance (NG-STAR) clonal complexes are consistent with genomic phylogeny and provide simple nomenclature, rapid visualization and antimicrobial resistance (AMR) lineage predictions. J. Antimicrob. Chemother. 76, 940–944 (2021)Search in Google Scholar
Gray-Owen S.D., Lorenzen D.R., Haude A., Meyer T.F., Dehio C.: Differential Opa specificities for CD66 receptors influence tissue interactions and cellular response to 168 Neisseria gonorrhoeae. Mol Microbiol. 26, 971–980 (1997)Gray-OwenS.D.LorenzenD.R.HaudeA.MeyerT.F.DehioC.: Differential Opa specificities for CD66 receptors influence tissue interactions and cellular response to 168 Neisseria gonorrhoeae. Mol Microbiol. 26, 971–980 (1997)Search in Google Scholar
Greenberg L., Diena B.B., Ashton F.A., Wallace R., Kenny C.P., Znamirowski R., Ferrari H., Atkinson J.: Gonococcal vaccine studies in Inuvik. Can. J. Public Health. 65, 29–33 (1974)GreenbergL.DienaB.B.AshtonF.A.WallaceR.KennyC.P.ZnamirowskiR.FerrariH.AtkinsonJ.: Gonococcal vaccine studies in Inuvik. Can. J. Public Health. 65, 29–33 (1974)Search in Google Scholar
Gregg C.R., Melly M.A., Hellerqvist C.G., Coniglio J.G., McGee Z.A.: Toxic activity of purified lipopolysaccharide of Neisseria gonorrhoeae for human fallopian tube mucosa. J. Infect. Dis. 143, 432–439 (1981)GreggC.R.MellyM.A.HellerqvistC.G.ConiglioJ.G.McGeeZ.A.: Toxic activity of purified lipopolysaccharide of Neisseria gonorrhoeae for human fallopian tube mucosa. J. Infect. Dis. 143, 432–439 (1981)Search in Google Scholar
Guglielmino C.J.D., Sandhu S., Lau C.L., Buckely C., Trembizki E., Whiley D.M., Jennison A.V.: Molecular characterisation of Neisseria gonorrhoeae associated with disseminated gonococcal infections in Queensland, Australia: a retrospective surveillance study. BMJ Open. 12, e 061040 (2022)GuglielminoC.J.D.SandhuS.LauC.L.BuckelyC.TrembizkiE.WhileyD.M.JennisonA.V.: Molecular characterisation of Neisseria gonorrhoeae associated with disseminated gonococcal infections in Queensland, Australia: a retrospective surveillance study. BMJ Open. 12, e 061040 (2022)Search in Google Scholar
Gulati S., Mu X., Zheng B., Reed G.W., Ram S., Rice P.A.: Anti-body to reduction modifiable protein increases the bacterial burden and the duration of gonococcal infection in a mouse model. J. Infect. Dis. 212, 311–315 (2015)GulatiS.MuX.ZhengB.ReedG.W.RamS.RiceP.A.: Anti-body to reduction modifiable protein increases the bacterial burden and the duration of gonococcal infection in a mouse model. J. Infect. Dis. 212, 311–315 (2015)Search in Google Scholar
Hadad R., Jacobsson S., Pizza M., Rappuoli R., Fredlund H., Olcen P., Unemo M.: 2012. Novel meningococcal 4CMenB vaccine antigens-prevalence and polymorphisms of the encoding genes in Neisseria gonorrhoeae. APMIS 120, 750–760.HadadR.JacobssonS.PizzaM.RappuoliR.FredlundH.OlcenP.UnemoM.: 2012. Novel meningococcal 4CMenB vaccine antigens-prevalence and polymorphisms of the encoding genes in Neisseria gonorrhoeae. APMIS120, 750–760.Search in Google Scholar
Hamilton H.L., Dillard JP.: Natural transformation Neisseria gonorrhoeae. Mol. Microbiol. 59, 376–385 (2006)HamiltonH.L.DillardJP.: Natural transformation Neisseria gonorrhoeae. Mol. Microbiol. 59, 376–385 (2006)Search in Google Scholar
Hamilton H.L., Domínguez N.M., Schwartz K.J., Hackett K.T., Dillard J.P.: Neisseria gonorrhoeae secretes chromosomal DNA via a novel type IV secretion system. Mol Microbiol. 55, 1704–1721 (2005)HamiltonH.L.DomínguezN.M.SchwartzK.J.HackettK.T.DillardJ.P.: Neisseria gonorrhoeae secretes chromosomal DNA via a novel type IV secretion system. Mol Microbiol. 55, 1704–1721 (2005)Search in Google Scholar
Harrison O.B., Clemence M., Dillard J.P., Tang C.M., Trees D., Grad Y.H., Maiden M.C.: Genomic analyses of Neisseria gonorrhoeae reveal an association of the gonococcal genetic island with antimicrobial resistance. J. Infect. 73, 578–587 (2016)HarrisonO.B.ClemenceM.DillardJ.P.TangC.M.TreesD.GradY.H.MaidenM.C.: Genomic analyses of Neisseria gonorrhoeae reveal an association of the gonococcal genetic island with antimicrobial resistance. J. Infect. 73, 578–587 (2016)Search in Google Scholar
Humbert MV, Christodoulides M. Atypical, Yet Not Infrequent, Infections with Neisseria Species. Pathogens. 9(1), 10 (2019)HumbertMVChristodoulidesM.Atypical, Yet Not Infrequent, Infections with Neisseria Species. Pathogens. 9(1), 10 (2019)Search in Google Scholar
Janda W.M., Gaydos C.A.: Neissseria, Manual of Clinical Microbiology Editor in chief Murray PR., (ed 9). ASM Press, 1, 54 (2007)JandaW.M.GaydosC.A.: Neissseria, Manual of Clinical Microbiology Editor in chief Murray PR., (ed 9). ASM Press, 1, 54 (2007)Search in Google Scholar
Jerse A.E., Bash M.C., Russell M.W.: Vaccines against gonorrhea: current status and future challenges. Vaccine, 32(14), 1579–1587 (2014)JerseA.E.BashM.C.RussellM.W.: Vaccines against gonorrhea: current status and future challenges. Vaccine, 32(14), 1579–1587 (2014)Search in Google Scholar
Joiner K.A., Scales R., Warren K.A., Frank M.M., Rice P.A.: Mechanism of action of blocking immunoglobulin G for Neisseria gonorrhoeae. J. Clin. Invest. 76, 1765–1772 (1985)JoinerK.A.ScalesR.WarrenK.A.FrankM.M.RiceP.A.: Mechanism of action of blocking immunoglobulin G for Neisseria gonorrhoeae. J. Clin. Invest. 76, 1765–1772 (1985)Search in Google Scholar
Kroll J.S., Wilks K.E., Farrant J.L., Langford P.R.: Natural genetic exchange between Haemophilus and Neisseria: intergeneric transfer of chromosomal genes between major human pathogens. Proc. Natl. Acad. Sci. 95, 12381–12385 (1998)KrollJ.S.WilksK.E.FarrantJ.L.LangfordP.R.: Natural genetic exchange between Haemophilus and Neisseria: intergeneric transfer of chromosomal genes between major human pathogens. Proc. Natl. Acad. Sci. 95, 12381–12385 (1998)Search in Google Scholar
Kulp A., Kuehn M.J.: Biological functions and biogenesis of secreted bacterial outer membrane vesicles. Annu. Rev. Microbiol. 64, 163–184 (2010)KulpA.KuehnM.J.: Biological functions and biogenesis of secreted bacterial outer membrane vesicles. Annu. Rev. Microbiol. 64, 163–184 (2010)Search in Google Scholar
Lee E.H., Shafer W.M.: The farAB-encoded efflux pump mediates resistance of gonococci to long-chained antibacterial fatty acids. Mol Microbiol. 33, 839–845 (1999)LeeE.H.ShaferW.M.: The farAB-encoded efflux pump mediates resistance of gonococci to long-chained antibacterial fatty acids. Mol Microbiol. 33, 839–845 (1999)Search in Google Scholar
Lewis L.A., Choudhury B., Balthazar J.T., Martin L.E., Ram S., Rice P.A., Stephens D.S., Carlson R., Shafer W.M.: Phospho-ethanolamine substitution of lipid A and resistance of Neisseria gonorrhoeae to cationic antimicrobial peptides and complement-mediated killing by normal human serum. Infect. Immun. 77, 1112–1120 (2009)LewisL.A.ChoudhuryB.BalthazarJ.T.MartinL.E.RamS.RiceP.A.StephensD.S.CarlsonR.ShaferW.M.: Phospho-ethanolamine substitution of lipid A and resistance of Neisseria gonorrhoeae to cationic antimicrobial peptides and complement-mediated killing by normal human serum. Infect. Immun. 77, 1112–1120 (2009)Search in Google Scholar
Liao M., Helgeson S., Gu W.M., Yang Y., Jolly A.M., Dillon J.A.: Comparison of Neisseria gonorrhoeae multiantigen sequence typing and porB sequence analysis for identification of clusters of N. gonorrhoeae isolates. J. Clin. Microbiol. 47, 489–491 (2009)LiaoM.HelgesonS.GuW.M.YangY.JollyA.M.DillonJ.A.: Comparison of Neisseria gonorrhoeae multiantigen sequence typing and porB sequence analysis for identification of clusters of, N. gonorrhoeae isolates. J. Clin. Microbiol. 47, 489–491 (2009)Search in Google Scholar
Lindberg R., Fredlund H., Nicholas R., Unemo M.: Neisseria gonorrhoeae isolates with reduced susceptibility to cefixime and ceftriaxone: association with genetic polymorphisms in penA, mtrR, porB1b, and ponA. Antimicrob Agents Chemother, 51, 2117–2122 (2007)LindbergR.FredlundH.NicholasR.UnemoM.: Neisseria gonorrhoeae isolates with reduced susceptibility to cefixime and ceftriaxone: association with genetic polymorphisms in penA, mtrR, porB1b, and ponA. Antimicrob Agents Chemother, 51, 2117–2122 (2007)Search in Google Scholar
Liu Y., Perez J., Hammer L.A., Gallagher H.C., De Jesus M., Egilmez N.K., Russell M.W.: Intravaginal administration of interleukin 12 during genital gonococcal infection in mice induces immunity to heterologous strains of Neisseria gonorrhoeae. mSphere, 31, e00421–17 (2018)LiuY.PerezJ.HammerL.A.GallagherH.C.De JesusM.EgilmezN.K.RussellM.W.: Intravaginal administration of interleukin 12 during genital gonococcal infection in mice induces immunity to heterologous strains of Neisseria gonorrhoeae. mSphere, 31, e00421–17 (2018)Search in Google Scholar
Liu Y., Russell M.W.: Diversion of the immune response to Neisseria gonorrhoeae from Th17 to Th1/Th2 by treatment with anti-transforming growth factor β-antibody generates immunological memory and protective immunity. mBio, 2, e00095–11 (2011)LiuY.RussellM.W.: Diversion of the immune response to Neisseria gonorrhoeae from Th17 to Th1/Th2 by treatment with anti-transforming growth factor β-antibody generates immunological memory and protective immunity. mBio, 2, e00095–11 (2011)Search in Google Scholar
Longtin J., Dion R., Simard M., Betala Belinga J.F., Longtin Y., Lefebvre B.: Possible impact of wide-scale vaccination against serogroup B Neisseria meningitidis on gonorrhea incidence rates in one region of Quebec, Canada. Open Forum Infect. Dis. 4, 734–735 (2017)LongtinJ.DionR.SimardM.Betala BelingaJ.F.LongtinY.LefebvreB.: Possible impact of wide-scale vaccination against serogroup B Neisseria meningitidis on gonorrhea incidence rates in one region of Quebec, Canada. Open Forum Infect. Dis. 4, 734–735 (2017)Search in Google Scholar
Maness M.J., Sparling P.F.: Multiple antibiotic resistance due to a single mutation in Neisseria gonorrhoeae. J. Infect. Dis. 128, 321–330 (1973)ManessM.J.SparlingP.F.: Multiple antibiotic resistance due to a single mutation in Neisseria gonorrhoeae. J. Infect. Dis. 128, 321–330 (1973)Search in Google Scholar
Marjuki H., Topaz N., Joseph S.J. et al.: Genetic Similarity of Gonococcal Homologs to Meningococcal Outer Membrane Proteins of Serogroup B Vaccine. mBio, 10(5): e01668–19 (2019)MarjukiH.TopazN.JosephS.J.: Genetic Similarity of Gonococcal Homologs to Meningococcal Outer Membrane Proteins of Serogroup B Vaccine. mBio, 10(5): e01668–19 (2019)Search in Google Scholar
Martin I.M., Ison C.A., Aanensen D.M., Fenton K.A., Spratt B.G.: Rapid sequencebased identification of gonococcal transmission clusters in a large metropolitan area. J. Infect. Dis. 189, 1497–1505 (2004)MartinI.M.IsonC.A.AanensenD.M.FentonK.A.SprattB.G.: Rapid sequencebased identification of gonococcal transmission clusters in a large metropolitan area. J. Infect. Dis. 189, 1497–1505 (2004)Search in Google Scholar
Mavrogiorgos N., Mekasha S., Yang Y., Kelliher M.A., Ingalls R.R.: Activation of NOD receptors by Neisseria gonorrhoeae modulates the innate immune response. Innate Immun. 20, 377–389 (2014)MavrogiorgosN.MekashaS.YangY.KelliherM.A.IngallsR.R.: Activation of NOD receptors by Neisseria gonorrhoeae modulates the innate immune response. Innate Immun. 20, 377–389 (2014)Search in Google Scholar
McClure R., Nudel K., Massari P., Tjaden B., Su X., Rice P.A., Genco C.A.: The Gonococcal Transcriptome during Infection of the Lower Genital Tract in Women. PloS One, 10, e0133982 (2015)McClureR.NudelK.MassariP.TjadenB.SuX.RiceP.A.GencoC.A.: The Gonococcal Transcriptome during Infection of the Lower Genital Tract in Women. PloS One, 10, e0133982 (2015)Search in Google Scholar
Mickelsen P.A., Blackman E., Sparling P.F.: Ability of Neisseria gonorrhoeae, Neisseria meningitidis, and commensal Neisseria species to obtain iron from lactoferrin. Infect Immun. 35, 915–920 (1982)MickelsenP.A.BlackmanE.SparlingP.F.: Ability of Neisseria gonorrhoeae, Neisseria meningitidis, and commensal Neisseria species to obtain iron from lactoferrin. Infect Immun. 35, 915–920 (1982)Search in Google Scholar
Mickelsen P.A., Sparling P.F.: Ability of Neisseria gonorrhoeae, Neisseria meningitidis, and commensal Neisseria species to obtain iron from transferrin and iron compounds. Infect. Immun. 33, 555–564 (1981)MickelsenP.A.SparlingP.F.: Ability of Neisseria gonorrhoeae, Neisseria meningitidis, and commensal Neisseria species to obtain iron from transferrin and iron compounds. Infect. Immun. 33, 555–564 (1981)Search in Google Scholar
Muhammad I., Ameyama S., Onodera S., Takahata M., Minami S., Maki N., Endo K., Goto H., Suzuki H., Oishi Y.: Mosaic-like structure of penicillin-binding protein 2 Gene (penA) in clinical isolates of Neisseria gonorrhoeae with reduced susceptibility to cefixime. Antimicrob. Agents Chemother. 46, 3744–3749 (2002)MuhammadI.AmeyamaS.OnoderaS.TakahataM.MinamiS.MakiN.EndoK.GotoH.SuzukiH.OishiY.: Mosaic-like structure of penicillin-binding protein 2 Gene (penA) in clinical isolates of Neisseria gonorrhoeae with reduced susceptibility to cefixime. Antimicrob. Agents Chemother. 46, 3744–3749 (2002)Search in Google Scholar
Muhammad I., Golparian D., Dillon J.A., Johansson A., Ohnishi M., Sethi S., Chen S.C., Nakayama S., Sundqvist M., Bala M., Unemo M.: Characterisation of blaTEM genes and types of β-lactamase plasmids in Neisseria gonorrhoeae – the prevalent and conserved blaTEM-135 has not recently evolved and existed in the Toronto plasmid from the origin. BMC Infect Dis. 22, 454 (2014)MuhammadI.GolparianD.DillonJ.A.JohanssonA.OhnishiM.SethiS.ChenS.C.NakayamaS.SundqvistM.BalaM.UnemoM.: Characterisation of blaTEM genes and types of β-lactamase plasmids in Neisseria gonorrhoeae – the prevalent and conserved blaTEM-135 has not recently evolved and existed in the Toronto plasmid from the origin. BMC Infect Dis. 22, 454 (2014)Search in Google Scholar
Nakayama S., Shimuta K., Furubayashi K., Kawahata T., Unemo M., Ohnishi M.: New ceftriaxone- and multidrugresistant Neisseria gonorrhoeae strain with a novel mosaic penA gene isolated in Japan. Antimicrob. Agents Chemother, 60, 4339–4341 (2016)NakayamaS.ShimutaK.FurubayashiK.KawahataT.UnemoM.OhnishiM.: New ceftriaxone- and multidrugresistant Neisseria gonorrhoeae strain with a novel mosaic penA gene isolated in Japan. Antimicrob. Agents Chemother, 60, 4339–4341 (2016)Search in Google Scholar
National Institutes of Health. The gonorrhea vaccine research center. Available at: https://projectreporter.nih.gov/projectinfo_description.cfm?aid=9729356&icde=44386469 Accessed May 2024National Institutes of Health. The gonorrhea vaccine research center. Available at: https://projectreporter.nih.gov/projectinfo_description.cfm?aid=9729356&icde=44386469 Accessed May 2024Search in Google Scholar
Ng L.K., Martin I.E.: The laboratory diagnosis of Neisseria gonorrhoeae. Can. J. Infect. Dis. Med. Microbiol. 16(1), 15–25 (2005)NgL.K.MartinI.E.: The laboratory diagnosis of Neisseria gonorrhoeae. Can. J. Infect. Dis. Med. Microbiol. 16(1), 15–25 (2005)Search in Google Scholar
Ochoa-Azze R.F.: Cross-protection induced by VA-MENGOC-BC® vaccine. Hum Vaccin Immunother, 14, 1064–8 (2018)Ochoa-AzzeR.F.: Cross-protection induced by VA-MENGOC-BC® vaccine. Hum Vaccin Immunother, 14, 1064–8 (2018)Search in Google Scholar
Olesky M., Hobbs M., Nicholas R.A.: Identification and analysis of amino acid mutations in porin IB that mediate intermediate-level resistance to penicillin and tetracycline in Neisseria gonorrhoeae. Antimicrob. Agents Chemother. 46, 2811–2820 (2002)OleskyM.HobbsM.NicholasR.A.: Identification and analysis of amino acid mutations in porin IB that mediate intermediate-level resistance to penicillin and tetracycline in Neisseria gonorrhoeae. Antimicrob. Agents Chemother. 46, 2811–2820 (2002)Search in Google Scholar
Pachulec E., Siewering K., Bender T., Heller E.M., Salgado-Pabon W., Schmoller S.K., Woodhams K.L., Dillard J.P., van der Does C.: Functional analysis of the Gonococcal Genetic Island of Neisseria gonorrhoeae. PLoS One, 9, e109613 (2014)PachulecE.SieweringK.BenderT.HellerE.M.Salgado-PabonW.SchmollerS.K.WoodhamsK.L.DillardJ.P.van der DoesC.: Functional analysis of the Gonococcal Genetic Island of Neisseria gonorrhoeae. PLoS One, 9, e109613 (2014)Search in Google Scholar
Palmer A., Criss A.K.: Gonococcal defences against antimicrobial activities of neutrophils. Trends Microbiol. 26, 1022–1034 (2018)PalmerA.CrissA.K.: Gonococcal defences against antimicrobial activities of neutrophils. Trends Microbiol. 26, 1022–1034 (2018)Search in Google Scholar
Petousis-Harris H., Paynter J., Morgan J., Saxton P., McArdle B., Goodyear-Smith F., Black S.: Effectiveness of a group B outer membrane vesicle meningococcal vaccine against gonorrhoea in New Zealand: a retrospective case-control study. Lancet, 390, 1603–1610 (2017)Petousis-HarrisH.PaynterJ.MorganJ.SaxtonP.McArdleB.Goodyear-SmithF.BlackS.: Effectiveness of a group B outer membrane vesicle meningococcal vaccine against gonorrhoea in New Zealand: a retrospective case-control study. Lancet, 390, 1603–1610 (2017)Search in Google Scholar
Pettit R.K., Judd R.C.: Characterization of naturally elaborated blebs from serum susceptible and serum-resistant strains of Neisseria gonorrhoeae. Mol. Microbiol. 6, 723–728 (1992)PettitR.K.JuddR.C.: Characterization of naturally elaborated blebs from serum susceptible and serum-resistant strains of Neisseria gonorrhoeae. Mol. Microbiol. 6, 723–728 (1992)Search in Google Scholar
Pitt R., Sadouki Z., Town K., Fifer H., Mohammed H., Hughes G., Woodford N., Cole M.J.: Detection of tet(M) in high-level tetracycline-resistant Neisseria gonorrhoeae. J. Antimicrob. Chemother. 74, 2115–2116 (2019)PittR.SadoukiZ.TownK.FiferH.MohammedH.HughesG.WoodfordN.ColeM.J.: Detection of tet(M) in high-level tetracycline-resistant Neisseria gonorrhoeae. J. Antimicrob. Chemother. 74, 2115–2116 (2019)Search in Google Scholar
Plummer F.A., Chubb H., Simonsen J.N., Bosire M., Slaney L., Maclean I., Ndinya-Achola J.O., Waiyaki P., Brunham R.C.: Antibody to Rmp (outer membrane protein 3) increases susceptibility to gonococcal infection. J. Clin. Invest. 91, 339–43 (1993)PlummerF.A.ChubbH.SimonsenJ.N.BosireM.SlaneyL.MacleanI.Ndinya-AcholaJ.O.WaiyakiP.BrunhamR.C.: Antibody to Rmp (outer membrane protein 3) increases susceptibility to gonococcal infection. J. Clin. Invest. 91, 339–43 (1993)Search in Google Scholar
Plummer F.A., Chubb H., Simonsen J.N., Bosire M., Slaney L., Nagelkerke N.J., Maclean I, Ndinya-Achola J.O., Waiyaki P., Brunham R.C.: Antibodies to opacity proteins (Opa) correlate with a reduced risk of gonococcal salpingitis. J. Clin. Invest. 93, 1748–55 (1994)PlummerF.A.ChubbH.SimonsenJ.N.BosireM.SlaneyL.NagelkerkeN.J.MacleanINdinya-AcholaJ.O.WaiyakiP.BrunhamR.C.: Antibodies to opacity proteins (Opa) correlate with a reduced risk of gonococcal salpingitis. J. Clin. Invest. 93, 1748–55 (1994)Search in Google Scholar
Placzkiewicz J.: Avoidance of Mechanisms of Innate Immune Response By. Postępy Mikrobiologii – Advancements of Microbiology, 58(4), 367–373 (2019)PlaczkiewiczJ.: Avoidance of Mechanisms of Innate Immune Response By. Postępy Mikrobiologii – Advancements of Microbiology, 58(4), 367–373 (2019)Search in Google Scholar
Quillin S.J., Seifert H.S.: Neisseria gonorrhoeae host adaptation and pathogenesis. Nat. Rev. Microbiol. 16, 226–240 (2018)QuillinS.J.SeifertH.S.: Neisseria gonorrhoeae host adaptation and pathogenesis. Nat. Rev. Microbiol. 16, 226–240 (2018)Search in Google Scholar
Ram S. & Rice P.A. et al.: Binding of C4b-binding protein to porin: a molecular mechanism of serum resistance of Neisseria gonorrhoeae. J. Exp. Med. 193, 281–295 (2001)RamS.RiceP.A.: Binding of C4b-binding protein to porin: a molecular mechanism of serum resistance of Neisseria gonorrhoeae. J. Exp. Med. 193, 281–295 (2001)Search in Google Scholar
Ravel J., Gajer P., Abdo Z. et al.: Vaginal microbiome of reproductive-age women. Proc Natl Acad Sci USA, 2011;108 Suppl 1RavelJ.GajerP.AbdoZ.: Vaginal microbiome of reproductive-age women. Proc Natl Acad Sci USA, 2011;108 Suppl 1Search in Google Scholar
Rest R.F., Shafer W.M.: Interactions of Neisseria gonorrhoeae with human neutrophils. Clin. Microbiol. Rev. 2, 83–91 (1989)RestR.F.ShaferW.M.: Interactions of Neisseria gonorrhoeae with human neutrophils. Clin. Microbiol. Rev. 2, 83–91 (1989)Search in Google Scholar
Rotman E., Seifert H.S.: The genetics of Neisseria species. Annu. Rev. Genet. 48, 405–431 (2014)RotmanE.SeifertH.S.: The genetics of Neisseria species. Annu. Rev. Genet. 48, 405–431 (2014)Search in Google Scholar
Rouquette-Loughlin C.E., Balthazar J.T., Shafer W.M.: Characterization of the MacA-MacB efflux system in Neisseria gonorrhoeae. J. Antimicrob. Chemother. 56, 856–860 (2005)Rouquette-LoughlinC.E.BalthazarJ.T.ShaferW.M.: Characterization of the MacA-MacB efflux system in Neisseria gonorrhoeae. J. Antimicrob. Chemother. 56, 856–860 (2005)Search in Google Scholar
Rouquette-Loughlin C.E. & Shafer W.M. et al.: Mechanistic basis for decreased antimicrobial susceptibility in a clinical isolate of Neisseria gonorrhoeae possessing a mosaic-like mtr efflux pump locus. mBio, 9, e02281–18 (2018)Rouquette-LoughlinC.E.ShaferW.M.: Mechanistic basis for decreased antimicrobial susceptibility in a clinical isolate of Neisseria gonorrhoeae possessing a mosaic-like mtr efflux pump locus. mBio, 9, e02281–18 (2018)Search in Google Scholar
Sánchez-Busó L. & Unemo M. et al.: Europe-wide expansion and eradication of multidrug-resistant Neisseria gonorrhoeae lineages: a genomic surveillance study. Lancet Microbe. 3, e452–e463 (2022)Sánchez-BusóL.UnemoM.: Europe-wide expansion and eradication of multidrug-resistant Neisseria gonorrhoeae lineages: a genomic surveillance study. Lancet Microbe. 3, e452–e463 (2022)Search in Google Scholar
Sandström E., Danielsson D.: Serology of Neisseria gonorrhoeae. Classification by co-agglutination. Acta Pathol. Microbiol. Scand. 88, 27–38 (1980)SandströmE.DanielssonD.: Serology of Neisseria gonorrhoeae. Classification by co-agglutination. Acta Pathol. Microbiol. Scand. 88, 27–38 (1980)Search in Google Scholar
Sauer K.: The genomics and proteomics of biofilm formation. Genome Biol. 4, 219 (2003)SauerK.: The genomics and proteomics of biofilm formation. Genome Biol. 4, 219 (2003)Search in Google Scholar
Schaub R.E., Perez-Medina K.M., Hackett K.T., Garcia D.L., Dillard J.P.: Neisseria gonorrhoeae PBP3 and PBP4 facilitate NOD1 agonist peptidoglycan fragment release and survival in stationary phase. Infect. Immun. 87, e00833–18 (2019)SchaubR.E.Perez-MedinaK.M.HackettK.T.GarciaD.L.DillardJ.P.: Neisseria gonorrhoeae PBP3 and PBP4 facilitate NOD1 agonist peptidoglycan fragment release and survival in stationary phase. Infect. Immun. 87, e00833–18 (2019)Search in Google Scholar
Semchenko E.A., Tan A., Borrow R., Seib K.L.: The Serogroup B Meningococcal Vaccine Bexsero Elicits Antibodies to Neisseria gonorrhoeae. Clin Infect Dis. 69(7), 1101–1111 (2019)SemchenkoE.A.TanA.BorrowR.SeibK.L.: The Serogroup B Meningococcal Vaccine Bexsero Elicits Antibodies to Neisseria gonorrhoeae. Clin Infect Dis. 69(7), 1101–1111 (2019)Search in Google Scholar
Shafer W.M., Datta A., Kolli V.S., Rahman M.M., Balthazar J.T., Martin L.E., Veal W.L., Stephens D.S., Carlson R.: Phase variable changes in genes lgtA and lgtC within the lgtABCDE operon of Neisseria gonorrhoeae can modulate gonococcal susceptibility to normal human serum. J. Endotoxin. Res. 8, 47–58 (2002)ShaferW.M.DattaA.KolliV.S.RahmanM.M.BalthazarJ.T.MartinL.E.VealW.L.StephensD.S.CarlsonR.: Phase variable changes in genes lgtA and lgtC within the lgtABCDE operon of Neisseria gonorrhoeae can modulate gonococcal susceptibility to normal human serum. J. Endotoxin. Res. 8, 47–58 (2002)Search in Google Scholar
Spencer-Smith R., Roberts S., Gurung N., Snyder L.A.S.: DNA uptake sequences in Neisseria gonorrhoeae as intrinsic transcriptional terminators and markers of horizontal gene transfer. Microb Genom. 2, e000069 (2016)Spencer-SmithR.RobertsS.GurungN.SnyderL.A.S.: DNA uptake sequences in Neisseria gonorrhoeae as intrinsic transcriptional terminators and markers of horizontal gene transfer. Microb Genom. 2, e000069 (2016)Search in Google Scholar
Spratt B.G., Bowler L.D., Zhang Q.Y., Zhou J., Smith J.M.: Role of interspecies transfer of chromosomal genes in the evolution of penicillin resistance in pathogenic and commensal Neisseria species. J. Mol. Evol. 1, 12 (1992)SprattB.G.BowlerL.D.ZhangQ.Y.ZhouJ.SmithJ.M.: Role of interspecies transfer of chromosomal genes in the evolution of penicillin resistance in pathogenic and commensal Neisseria species. J. Mol. Evol. 1, 12 (1992)Search in Google Scholar
Stern A., Brown M., Nickel P., Meyer T.F.: Opacity genes in Neisseria gonorrhoeae: control of phase and antigenic variation. Cell, 47, 61–71 (1986)SternA.BrownM.NickelP.MeyerT.F.: Opacity genes in Neisseria gonorrhoeae: control of phase and antigenic variation. Cell, 47, 61–71 (1986)Search in Google Scholar
Stoodley P., Sauer K., Davies D.G., Costerton J.W.: Biofilms as complex differentiated communities. Annu. Rev. Microbiol. 56, 187–209 (2002)StoodleyP.SauerK.DaviesD.G.CostertonJ.W.: Biofilms as complex differentiated communities. Annu. Rev. Microbiol. 56, 187–209 (2002)Search in Google Scholar
Tam M.R., Buchanan T.M., Sandström E.G., Holmes K.K., Knapp J.S., Siadak A.W., Nowinski R.C.: Serological classification of Neisseria gonorrhoeae with monoclonal antibodies. Infect. Immun. 36, 1042–1053 (1982)TamM.R.BuchananT.M.SandströmE.G.HolmesK.K.KnappJ.S.SiadakA.W.NowinskiR.C.: Serological classification of Neisseria gonorrhoeae with monoclonal antibodies. Infect. Immun. 36, 1042–1053 (1982)Search in Google Scholar
Unemo M., Del Rio C., Shafer W.M.: Antimicrobial Resistance Expressed by Neisseria gonorrhoeae: A major global public health problem in the 21st Century. Microbiol. Spectr. 4, 3 (2016)UnemoM.Del RioC.ShaferW.M.: Antimicrobial Resistance Expressed by Neisseria gonorrhoeae: A major global public health problem in the 21st Century. Microbiol. Spectr. 4, 3 (2016)Search in Google Scholar
Unemo M., Dillon J.A.: Review and international recommendation of methods for typing Neisseria gonorrhoeae isolates and their implications for improved knowledge of gonococcal epidemiology, treatment, and biology. Clin. Microbiol. Rev. 24, 447 (2011)UnemoM.DillonJ.A.: Review and international recommendation of methods for typing Neisseria gonorrhoeae isolates and their implications for improved knowledge of gonococcal epidemiology, treatment, and biology. Clin. Microbiol. Rev. 24, 447 (2011)Search in Google Scholar
van der Pol L., Stork M., van der Ley P.: Outer membrane vesicles as platform vaccine technology. Biotechnol J. 10(11), 1689–1706 (2015)van der PolL.StorkM.van der LeyP.: Outer membrane vesicles as platform vaccine technology. Biotechnol J. 10(11), 1689–1706 (2015)Search in Google Scholar
West S.E., Sparling P.F.: Response of Neisseria gonorrhoeae to iron limitation: alterations in expression of membrane proteins without apparent siderophore production. Infect. Immun. 47, 388–394 (1985)WestS.E.SparlingP.F.: Response of Neisseria gonorrhoeae to iron limitation: alterations in expression of membrane proteins without apparent siderophore production. Infect. Immun. 47, 388–394 (1985)Search in Google Scholar
Whelan J., Kløvstad H., Haugen I.L., Holle M.R., Holle M.R., Storsaeter J.: Ecologic study of meningococcal B vaccine and Neisseria gonorrhoeae infection, Norway. Emerg Infect Dis. 22, 1137–9 (2016)WhelanJ.KløvstadH.HaugenI.L.HolleM.R.HolleM.R.StorsaeterJ.: Ecologic study of meningococcal B vaccine and Neisseria gonorrhoeae infection, Norway. Emerg Infect Dis. 22, 1137–9 (2016)Search in Google Scholar
Zarantonelli L., Borthagaray G., Lee E.H., Veal W., Shafer W.M.: Decreased susceptibility to azithromycin and erythromycin mediated by a novel mtr(R) promoter mutation in Neisseria gonorrhoeae. J. Antimicrob. Chemother. 47, 651–654 (2001)ZarantonelliL.BorthagarayG.LeeE.H.VealW.ShaferW.M.: Decreased susceptibility to azithromycin and erythromycin mediated by a novel mtr(R) promoter mutation in Neisseria gonorrhoeae. J. Antimicrob. Chemother. 47, 651–654 (2001)Search in Google Scholar
Zielke R.A., Wierzbicki I.H., Weber J.V., Gafken P.R., Sikora A.E.: Quantitative proteomics of the Neisseria gonorrhoeae cell envelope and membrane vesicles for the discovery of potential therapeutic targets. Mol. Cell. Proteomics. 13, 1299–1317 (2014)ZielkeR.A.WierzbickiI.H.WeberJ.V.GafkenP.R.SikoraA.E.: Quantitative proteomics of the Neisseria gonorrhoeae cell envelope and membrane vesicles for the discovery of potential therapeutic targets. Mol. Cell. Proteomics. 13, 1299–1317 (2014)Search in Google Scholar
Zielke R.A., Wierzbicki I.H., Baarda B.I. et al.: Proteomics-driven antigen discovery for development of vaccines against gonorrhea. Mol Cell Proteomics, 15, 2338–55 (2016)ZielkeR.A.WierzbickiI.H.BaardaB.I.: Proteomics-driven antigen discovery for development of vaccines against gonorrhea. Mol Cell Proteomics, 15, 2338–55 (2016)Search in Google Scholar
Zweig M., Schork S., Koerdt A., Siewering K., Sternberg C., Thormann K., Albers S.V., Molin S., van der Does C.: Secreted single-stranded DNA is involved in the initial phase of biofilm formation by Neisseria gonorrhoeae. Environ. Microbiol. 16, 1040–1052 (2014)ZweigM.SchorkS.KoerdtA.SieweringK.SternbergC.ThormannK.AlbersS.V.MolinS.van der DoesC.: Secreted single-stranded DNA is involved in the initial phase of biofilm formation by Neisseria gonorrhoeae. Environ. Microbiol. 16, 1040–1052 (2014)Search in Google Scholar