This work is licensed under the Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.
Anderson R.M., May R.M.: Immunisation and herd immunity. Lancet, 335, 641–645 (1990)AndersonR.M.MayR.M.Immunisation and herd immunityLancet335641645199010.1016/0140-6736(90)90420-ASearch in Google Scholar
Aricò B., Rappuoli R.: Bordetella parapertussis and Bordetella bronchiseptica contain transcriptionally silent pertussis toxin genes. J. Bacteriol. 169, 2847–2853 (1987)AricòB.RappuoliR.Bordetella parapertussis and Bordetella bronchiseptica contain transcriptionally silent pertussis toxin genesJ. Bacteriol16928472853198710.1128/jb.169.6.2847-2853.1987Search in Google Scholar
Aslanabadi A., Ghabili K., Shad K., Khalili M., Sajadi M.M. Emergence of whooping cough: notes from three early epidemics in Persia. Lancet Infect. Dis. 15, 1480–1484 (2015)AslanabadiA.GhabiliK.ShadK.KhaliliM.SajadiM.M.Emergence of whooping cough: notes from three early epidemics in PersiaLancet Infect. Dis1514801484201510.1016/S1473-3099(15)00292-3Search in Google Scholar
Austin B.: The Prokaryotes: Alphaproteobacteria and Betaproteobacteria (w) The Family Alcaligenaceae, red. E. Rosenberg, E.F. DeLong, S. Lory, E. Stackebrandt i F. Thompson, Springer Berlin Heidelberg: Berlin, Heidelberg, 2014, s. 729–757AustinB.The Prokaryotes: Alphaproteobacteria and Betaproteobacteria (w) The Family Alcaligenaceaered.RosenbergE.DeLongE.F.LoryS.StackebrandtE.ThompsonF.Springer Berlin HeidelbergBerlin, Heidelberg201472975710.1007/978-3-642-30197-1_397Search in Google Scholar
Bart M.J., Mooi F.R. i wsp.: Global population structure and evolution of Bordetella pertussis and their relationship with vaccination. MBio, 5, e01074 (2014)BartM.J.MooiF.R.Global population structure and evolution of Bordetella pertussis and their relationship with vaccinationMBio5e01074201410.1128/mBio.01074-14Search in Google Scholar
Bergfors E., Trollfors B., Taranger J., Lagergård T., Sundh V., Zackrisson G.: Parapertussis and pertussis: Differences and similarities in incidence, clinical course, and antibody responses. Int. J. Infect. Dis. 3, 140–146 (1999)BergforsE.TrollforsB.TarangerJ.LagergårdT.SundhV.ZackrissonG.Parapertussis and pertussis: Differences and similarities in incidence, clinical course, and antibody responsesInt. J. Infect. Dis3140146199910.1016/S1201-9712(99)90035-8Search in Google Scholar
Blennow M., Granström M.: Adverse reactions and serologic response to a booster dose of acellular pertussis vaccine in children immunized with acellular or whole-cell vaccine as infants. Pediatrics, 84, 62–67 (1989)BlennowM.GranströmM.Adverse reactions and serologic response to a booster dose of acellular pertussis vaccine in children immunized with acellular or whole-cell vaccine as infantsPediatrics8462671989Search in Google Scholar
Bordet J., Gengou O.: Le microbe de la coqueluche. ‘Ann Inst Pasteur’, s. 731–741. (Institut Pasteur: Paris) http://archive.org/details/bulletindelinst00pastgoog (1906)BordetJ.GengouO.Le microbe de la coqueluche. ‘Ann Inst Pasteur’731741Institut PasteurParishttp://archive.org/details/bulletindelinst00pastgoog1906Search in Google Scholar
Caroff M., Brisson J., Martin A., Karibian D.: Structure of the Bordetella pertussis 1414 endotoxin. FEBS Lett. 477, 8–14 (2000)CaroffM.BrissonJ.MartinA.KaribianD.Structure of the Bordetella pertussis 1414 endotoxinFEBS Lett477814200010.1016/S0014-5793(00)01720-8Search in Google Scholar
Chasaide C.N., Mills K.H.G.: Next-generation pertussis vaccines based on the induction of protective T cells in the respiratory tract. Vaccines, 8, 621 (2020)ChasaideC.N.MillsK.H.G.Next-generation pertussis vaccines based on the induction of protective T cells in the respiratory tractVaccines8621202010.3390/vaccines8040621771167133096737Search in Google Scholar
Cherry J.D. The 112-year odyssey of pertussis and pertussis vaccines-mistakes made and implications for the future. J. Pediatric Infect. Dis. Soc. 8, 334–341 (2019)CherryJ.D.The 112-year odyssey of pertussis and pertussis vaccines-mistakes made and implications for the futureJ. Pediatric Infect. Dis. Soc8334341201910.1093/jpids/piz00530793754Search in Google Scholar
Cherry J.D., Tan T., Wirsing von König C.-H., Forsyth K.D., Thisyakorn U., Greenberg D., Johnson D., Marchant C., Plotkin S.: Clinical definitions of pertussis: summary of a global pertussis initiative roundtable meeting, February 2011. Clin. Infect. Dis. 54, 1756–1764 (2012)CherryJ.D.TanT.Wirsing von KönigC.-H.ForsythK.D.ThisyakornU.GreenbergD.JohnsonD.MarchantC.PlotkinS.Clinical definitions of pertussis: summary of a global pertussis initiative roundtable meeting, February 2011Clin. Infect. Dis5417561764201210.1093/cid/cis302335748222431797Search in Google Scholar
Decker M.D., Edwards K.M., Steinhoff M.C., Rennels M.B., Pichichero M.E., Englund J.A., Anderson E.L., Deloria M.A., Reed G.F.: Comparison of 13 acellular pertussis vaccines: adverse reactions. Pediatrics, 96, 557–566 (1995)DeckerM.D.EdwardsK.M.SteinhoffM.C.RennelsM.B.PichicheroM.E.EnglundJ.A.AndersonE.L.DeloriaM.A.ReedG.F.Comparison of 13 acellular pertussis vaccines: adverse reactionsPediatrics96557566199510.1542/peds.96.3.557Search in Google Scholar
Dias W.O., Raw I. i wsp.: An improved whole cell pertussis vaccine with reduced content of endotoxin. Hum. Vaccin. Immunother. 9, 339–348 (2013)DiasW.O.RawI.An improved whole cell pertussis vaccine with reduced content of endotoxinHum. Vaccin. Immunother9339348201310.4161/hv.22847385975723291935Search in Google Scholar
Dias W.O., Prestes A.F.R.O., Cunegundes P., Silva E.P., Raw I. Immunization against Pertussis: An almost solved problem or a headache in public health. Vaccines, doi:10.5772/intechopen.69283 (2017)DiasW.O.PrestesA.F.R.O.CunegundesP.SilvaE.P.RawI.Immunization against Pertussis: An almost solved problem or a headache in public healthVaccines10.5772/intechopen.692832017Open DOISearch in Google Scholar
Diavatopoulos D.A., Cummings C.A., van der Heide H.G.J., van Gent M., Liew S., Relman D.A., Mooi F.R.: Characterization of a highly conserved island in the otherwise divergent Bordetella holmesii and Bordetella pertussis Genomes. J. Bacteriol. 188, 8385–8394 (2006)DiavatopoulosD.A.CummingsC.A.van der HeideH.G.J.van GentM.LiewS.RelmanD.A.MooiF.R.Characterization of a highly conserved island in the otherwise divergent Bordetella holmesii and Bordetella pertussis GenomesJ. Bacteriol18883858394200610.1128/JB.01081-06169822017041054Search in Google Scholar
Dieckmann U., Marrow P., Law R.: Evolutionary cycling in predator-prey interactions: population dynamics and the red queen. J. Theor. Biol. 176, 91–102 (1995)DieckmannU.MarrowP.LawR.Evolutionary cycling in predator-prey interactions: population dynamics and the red queenJ. Theor. Biol17691102199510.1006/jtbi.1995.01797475110Search in Google Scholar
Dworkin M.S., Sullivan P.S., Buskin S.E., Harrington R.D., Olliffe J., MacArthur R.D., Lopez C.E.: Bordetella bronchiseptica infection in human immunodeficiency virus-infected patients. Clin. Infect. Dis. 28, 1095–1099 (1999)DworkinM.S.SullivanP.S.BuskinS.E.HarringtonR.D.OlliffeJ.MacArthurR.D.LopezC.E.Bordetella bronchiseptica infection in human immunodeficiency virus-infected patientsClin. Infect. Dis2810951099199910.1086/51476110452641Search in Google Scholar
ECDC (2020). Pertussis – Annual Epidemiological Report for 2018. European Centre for Disease Prevention and Control, (Stockholm) https://www.ecdc.europa.eu/en/publications-data/pertussis-annual-epidemiological-report-2018ECDC2020Pertussis – Annual Epidemiological Report for 2018European Centre for Disease Prevention and ControlStockholmhttps://www.ecdc.europa.eu/en/publications-data/pertussis-annual-epidemiological-report-2018Search in Google Scholar
Eriksson M., Sodersten E., Yu Z., Dalhammar G., Mohn W.W.: Degradation of polycyclic aromatic hydrocarbons at low temperature under aerobic and nitrate-reducing conditions in enrichment cultures from northern soils. Appl. Environ. Microbiol. 69, 275–284 (2003)ErikssonM.SoderstenE.YuZ.DalhammarG.MohnW.W.Degradation of polycyclic aromatic hydrocarbons at low temperature under aerobic and nitrate-reducing conditions in enrichment cultures from northern soilsAppl. Environ. Microbiol69275284200310.1128/AEM.69.1.275-284.200315244412514005Search in Google Scholar
Fine P.E., Clarkson J.A.: Reflections on the efficacy of pertussis vaccines. Rev. Infect. Dis. 9, 866–883 (1987)FineP.E.ClarksonJ.A.Reflections on the efficacy of pertussis vaccinesRev. Infect. Dis9866883198710.1093/clinids/9.5.8663317732Search in Google Scholar
Forsyth K.D., Tan T., von König C.-H. W., Heininger U., Chitkara A.J., Plotkin S.: Recommendations to control pertussis prioritized relative to economies: A Global Pertussis Initiative update. Vaccine, 36, 7270–7275 (2018)ForsythK.D.TanT.von KönigC.-H. W.HeiningerU.ChitkaraA.J.PlotkinS.Recommendations to control pertussis prioritized relative to economies: A Global Pertussis Initiative updateVaccine3672707275201810.1016/j.vaccine.2018.10.02830337176Search in Google Scholar
Fry N.K., Duncan J., Malnick H., Warner M., Smith A.J., Jackson M.S., Ayoub A.: Bordetella petrii clinical isolate. Emerg. Infect. Dis. 11, 1131–1133 (2005)FryN.K.DuncanJ.MalnickH.WarnerM.SmithA.J.JacksonM.S.AyoubA.Bordetella petrii clinical isolateEmerg. Infect. Dis1111311133200510.3201/eid1107.050046337181416022798Search in Google Scholar
Fulton T.R., Phadke V.K., Orenstein W.A., Hinman A.R., Johnson W.D., Omer S.B.: Protective effect of contemporary pertussis vaccines: a systematic review and meta-analysis. Clin. Infect. Dis. 62, 1100–1110 (2016)FultonT.R.PhadkeV.K.OrensteinW.A.HinmanA.R.JohnsonW.D.OmerS.B.Protective effect of contemporary pertussis vaccines: a systematic review and meta-analysisClin. Infect. Dis6211001110201610.1093/cid/ciw051Search in Google Scholar
Glare E.M., Paton J.C., Premier R.R., Lawrence A.J., Nisbet I.T.: Analysis of a repetitive DNA sequence from Bordetella pertussis and its application to the diagnosis of pertussis using the polymerase chain reaction. J. Clin. Microbiol. 28, 1982–1987 (1990)GlareE.M.PatonJ.C.PremierR.R.LawrenceA.J.NisbetI.T.Analysis of a repetitive DNA sequence from Bordetella pertussis and its application to the diagnosis of pertussis using the polymerase chain reactionJ. Clin. Microbiol2819821987199010.1128/jcm.28.9.1982-1987.1990Search in Google Scholar
Goodnow R.A.: Biology of Bordetella bronchiseptica. Microbiol. Rev. 44, 722–738 (1980)GoodnowR.A.Biology of Bordetella bronchisepticaMicrobiol. Rev44722738198010.1128/mr.44.4.722-738.1980Search in Google Scholar
Guiso N.: Bordetella pertussis (w) Molecular Medical Micro-biology (wyd. 2.) red. Y-W. Tang, M. Sussman, D. Liu, I. Poxton i J. Schwartzman, s. 1507–1527, Academic Press: Boston, 2015GuisoN.Bordetella pertussis (w) Molecular Medical Micro-biology (wyd. 2.)red.TangY-W.SussmanM.LiuD.PoxtonI.SchwartzmanJ.15071527Academic PressBoston201510.1016/B978-0-12-397169-2.00085-8Search in Google Scholar
Guthrie J.L., Robertson A.V., Tang P., Jamieson F., Drews S.J.: Novel duplex real-time pcr assay detects Bordetella holmesii in specimens from patients with pertussis-like symptoms in Ontario, Canada. J. Clin. Microbiol. 48, 1435–1437 (2010)GuthrieJ.L.RobertsonA.V.TangP.JamiesonF.DrewsS.J.Novel duplex real-time pcr assay detects Bordetella holmesii in specimens from patients with pertussis-like symptoms in Ontario, CanadaJ. Clin. Microbiol4814351437201010.1128/JCM.02417-09Search in Google Scholar
Hamidou Soumana I., Linz B., Harvill E.T.: Environmental origin of the genus Bordetella. Front. Microbiol. 8, 28 (2017)Hamidou SoumanaI.LinzB.HarvillE.T.Environmental origin of the genus BordetellaFront. Microbiol828201710.3389/fmicb.2017.00028Search in Google Scholar
Harvill E.T., Goodfield L.L., Ivanov Y., Smallridge WE., Meyer J.A., Cassiday P.K., Tondella M.L., Brinkac L., Sanka R., Kim M., Losada L.: Genome sequences of nine Bordetella holmesii strains isolated in the United States. Genome Announc. 2, doi:10.1128/genomeA.00438-14 (2014)HarvillE.T.GoodfieldL.L.IvanovY.SmallridgeWE.MeyerJ.A.CassidayP.K.TondellaM.L.BrinkacL.SankaR.KimM.LosadaL.Genome sequences of nine Bordetella holmesii strains isolated in the United StatesGenome Announc210.1128/genomeA.00438-142014Open DOISearch in Google Scholar
Heininger U.: Update on pertussis in children. Expert Rev. Anti. Infect. Ther. 8, 163–173 (2010)HeiningerU.Update on pertussis in childrenExpert Rev. Anti. Infect. Ther8163173201010.1586/eri.09.124Search in Google Scholar
Ibsen P., Møller S., Heron I.: Lipopolysaccharides in a traditional pertussis vaccine. J. Biol. Stand. 16, 299–309 (1988)IbsenP.MøllerS.HeronI.Lipopolysaccharides in a traditional pertussis vaccineJ. Biol. Stand16299309198810.1016/0092-1157(88)90018-2Search in Google Scholar
Ivanov Y.V., Harvill E.T. i wsp. Identification and taxonomic characterization of Bordetella pseudohinzii sp. nov. isolated from laboratory-raised mice. Int. J. Syst. Evol. Microbiol. 66, 5452–5459 (2016)IvanovY.V.HarvillE.T.Identification and taxonomic characterization of Bordetella pseudohinzii sp. nov. isolated from laboratory-raised miceInt. J. Syst. Evol. Microbiol6654525459201610.1099/ijsem.0.001540524450027707434Search in Google Scholar
Jefferson T., Rudin M., Di Pietrantonj C.: Adverse events after immunisation with aluminium-containing DTP vaccines: systematic review of the evidence. Lancet Infect. Dis. 4, 84–90 (2004)JeffersonT.RudinM.Di PietrantonjC.Adverse events after immunisation with aluminium-containing DTP vaccines: systematic review of the evidenceLancet Infect. Dis48490200410.1016/S1473-3099(04)00927-2Search in Google Scholar
Kamiya H., Okabe N. i wsp.: Transmission of Bordetella holmesii during pertussis outbreak, Japan. Emerg. Infect. Dis. 18, 1166–1169 (2012)KamiyaH.OkabeN.Transmission of Bordetella holmesii during pertussis outbreak, JapanEmerg. Infect. Dis1811661169201210.3201/eid1807.120130Search in Google Scholar
Kersters K., Hinz K.-H., Hertle A., Segers P., Lievens A., Siegmann O., De Ley J.: Bordetella avium sp. nov., isolated from the respiratory tracts of turkeys and other birds. Int. J. Syst. Evol. Microbiol. 34, 56–70 (1984)KerstersK.HinzK.-H.HertleA.SegersP.LievensA.SiegmannO.De LeyJ.Bordetella avium sp. nov., isolated from the respiratory tracts of turkeys and other birdsInt. J. Syst. Evol. Microbiol345670198410.1099/00207713-34-1-56Search in Google Scholar
Klein N.P., Bartlett J., Fireman B., Baxter R.: Waning Tdap effectiveness in adolescents. Pediatrics, 137, e20153326 (2016)KleinN.P.BartlettJ.FiremanB.BaxterR.Waning Tdap effectiveness in adolescentsPediatrics137e20153326201610.1542/peds.2015-3326Search in Google Scholar
Ko K.S., Peck K.R., Oh WS., Lee N.Y., Lee J.H., Song J.-H.: New species of Bordetella, Bordetella ansorpii sp. nov., isolated from the purulent exudate of an epidermal cyst. J. Clin. Microbiol. 43, 2516–2519 (2005)KoK.S.PeckK.R.OhWS.LeeN.Y.LeeJ.H.SongJ.-H.New species of Bordetella, Bordetella ansorpii sp. nov., isolated from the purulent exudate of an epidermal cystJ. Clin. Microbiol4325162519200510.1128/JCM.43.5.2516-2519.2005Search in Google Scholar
Koj S., Ługowski C., Niedziela T.: Bordetella pertussis lipooligosaccharide-derived neoglycoconjugates – new components of pertussis vaccine. Postepy Hig. Med. Dosw. 69, 1013–1030 (2015)KojS.ŁugowskiC.NiedzielaT.Bordetella pertussis lipooligosaccharide-derived neoglycoconjugates – new components of pertussis vaccinePostepy Hig. Med. Dosw69101310302015Search in Google Scholar
Lin A., Loré K. i wsp.: Live attenuated pertussis vaccine BPZE1 induces a broad antibody response in humans. J. Clin. Invest. 130, 2332–2346 (2020)LinA.LoréK.Live attenuated pertussis vaccine BPZE1 induces a broad antibody response in humansJ. Clin. Invest13023322346202010.1172/JCI135020Search in Google Scholar
Linz B., Harvill E.T. i wsp.: Acquisition and loss of virulence-associated factors during genome evolution and speciation in three clades of Bordetella species. BMC Genomics, 17, 1–17 (2016)LinzB.HarvillE.T.Acquisition and loss of virulence-associated factors during genome evolution and speciation in three clades of Bordetella speciesBMC Genomics17117201610.1186/s12864-016-3112-5Search in Google Scholar
Locht C., Papin J.F., Lecher S., Debrie A.-S., Thalen M., Solovay K., Rubin K., Mielcarek N.: Live attenuated pertussis vaccine BPZE1 protects baboons against Bordetella pertussis disease and infection. J. Infect. Dis. 216, 117–124 (2017)LochtC.PapinJ.F.LecherS.DebrieA.-S.ThalenM.SolovayK.RubinK.MielcarekN.Live attenuated pertussis vaccine BPZE1 protects baboons against Bordetella pertussis disease and infectionJ. Infect. Dis216117124201710.1093/infdis/jix254Search in Google Scholar
Lugowski C., Niedziela T., Jachymek W.: Anti-endotoxin antibodies directed against Escherichia coli R-1 oligosaccharide core-tetanus toxoid conjugate bind to smooth, live bacteria and smooth lipopolysaccharides and attenuate their tumor necrosis factor stimulating activity. FEMS Immunol. Med. Microbiol. 16, 31–38 (1996)LugowskiC.NiedzielaT.JachymekW.Anti-endotoxin antibodies directed against Escherichia coli R-1 oligosaccharide core-tetanus toxoid conjugate bind to smooth, live bacteria and smooth lipopolysaccharides and attenuate their tumor necrosis factor stimulating activityFEMS Immunol. Med. Microbiol163138199610.1016/S0928-8244(96)00067-3Search in Google Scholar
Lund S.J., Rowe H.A., Parton R., Donachie W.: Adherence of ovine and human Bordetella parapertussis to continuous cell lines and ovine tracheal organ culture. FEMS Microbiol. Lett. 194, 197–200 (2001)LundS.J.RoweH.A.PartonR.DonachieW.Adherence of ovine and human Bordetella parapertussis to continuous cell lines and ovine tracheal organ cultureFEMS Microbiol. Lett194197200200110.1111/j.1574-6968.2001.tb09469.x11164308Search in Google Scholar
Martini H., Detemmerman L., Soetens O., Yusuf E., Piérard D.: Improving specificity of Bordetella pertussis detection using a four target real-time PCR. PLoS ONE, 12, e0175587 (2017)MartiniH.DetemmermanL.SoetensO.YusufE.PiérardD.Improving specificity of Bordetella pertussis detection using a four target real-time PCRPLoS ONE12e0175587201710.1371/journal.pone.0175587538983428403204Search in Google Scholar
Mazengia E., Silva E.A., Peppe J.A., Timperi R., George H.: Recovery of Bordetella holmesii from patients with pertussis-like symptoms: use of pulsed-field gel electrophoresis to characterize circulating strains. J. Clin. Microbiol. 38, 2330–2333 (2000)MazengiaE.SilvaE.A.PeppeJ.A.TimperiR.GeorgeH.Recovery of Bordetella holmesii from patients with pertussis-like symptoms: use of pulsed-field gel electrophoresis to characterize circulating strainsJ. Clin. Microbiol3823302333200010.1128/JCM.38.6.2330-2333.20008679410834997Search in Google Scholar
McGirr A., Fisman D.N.: Duration of pertussis immunity after DTaP immunization: a meta-analysis. Pediatrics, 135, 331–343 (2015)McGirrA.FismanD.N.Duration of pertussis immunity after DTaP immunization: a meta-analysisPediatrics135331343201510.1542/peds.2014-172925560446Search in Google Scholar
Mielcarek N., Debrie A.-S., Raze D., Bertout J., Rouanet C., Younes A.B., Creusy C., Engle J., Goldman W.E., Locht C.: Live attenuated B. pertussis as a single-dose nasal vaccine against whooping cough. PLoS Pathog. 2, e65 (2006)MielcarekN.DebrieA.-S.RazeD.BertoutJ.RouanetC.YounesA.B.CreusyC.EngleJ.GoldmanW.E.LochtC.Live attenuated B. pertussis as a single-dose nasal vaccine against whooping coughPLoS Pathog2e65200610.1371/journal.ppat.0020065148717516839199Search in Google Scholar
Mir-Cros A., González-López J.J. i wsp.: Emergence of Bordetella holmesii as a causative agent of whooping cough, Barcelona, Spain. Emerg. Infect. Dis. 23, 1856–1859 (2017)Mir-CrosA.González-LópezJ.J.Emergence of Bordetella holmesii as a causative agent of whooping cough, Barcelona, SpainEmerg. Infect. Dis2318561859201710.3201/eid2311.170960565243029052540Search in Google Scholar
Mooi F.R., Mertsola J. i wsp.: Bordetella pertussis strains with increased toxin production associated with pertussis resurgence. Emerg. Infect. Dis. 15, 1206–1213 (2009)MooiF.R.MertsolaJ.Bordetella pertussis strains with increased toxin production associated with pertussis resurgenceEmerg. Infect. Dis1512061213200910.3201/eid1508.081511281596119751581Search in Google Scholar
Ner Z., Ross L.A., Horn M.V., Keens T.G., MacLaughlin E.F., Starnes V.A., Woo M.S.: Bordetella bronchiseptica infection in pediatric lung transplant recipients. Pediatr. Transplant. 7, 413–417 (2003)NerZ.RossL.A.HornM.V.KeensT.G.MacLaughlinE.F.StarnesV.A.WooM.S.Bordetella bronchiseptica infection in pediatric lung transplant recipientsPediatr. Transplant7413417200310.1034/j.1399-3046.2003.00074.x14738306Search in Google Scholar
Niedziela T., Letowska I., Lukasiewicz J., Kaszowska M., Czarnecka A., Kenne L., Lugowski C.: Epitope of the vaccine-type Bordetella pertussis strain 186 lipooligosaccharide and antiendotoxin activity of antibodies directed against the terminal pentasaccharide-tetanus toxoid conjugate. Infect. Immun. 73, 7381–7389 (2005)NiedzielaT.LetowskaI.LukasiewiczJ.KaszowskaM.CzarneckaA.KenneL.LugowskiC.Epitope of the vaccine-type Bordetella pertussis strain 186 lipooligosaccharide and antiendotoxin activity of antibodies directed against the terminal pentasaccharide-tetanus toxoid conjugateInfect. Immun7373817389200510.1128/IAI.73.11.7381-7389.2005127387916239537Search in Google Scholar
Nisola G.M., Tuuguu E., Farnazo D.M.D., Han M., Kim Y., Cho E., Chung W.-J.: Hydrogen sulfide degradation characteristics of Bordetella sp. Sulf-8 in a biotrickling filter. Bioprocess Biosyst. Eng. 33, 1131–1138 (2010)NisolaG.M.TuuguuE.FarnazoD.M.D.HanM.KimY.ChoE.ChungW.-J.Hydrogen sulfide degradation characteristics of Bordetella sp. Sulf-8 in a biotrickling filterBioprocess Biosyst. Eng3311311138201010.1007/s00449-010-0440-820535619Search in Google Scholar
Njamkepo E., Bonacorsi S., Debruyne M., Gibaud S.A., Guillot S., Guiso N.: Significant finding of Bordetella holmesii DNA in nasopharyngeal samples from French patients with suspected pertussis. J. Clin. Microbiol. 49, 4347–4348 (2011)NjamkepoE.BonacorsiS.DebruyneM.GibaudS.A.GuillotS.GuisoN.Significant finding of Bordetella holmesii DNA in nasopharyngeal samples from French patients with suspected pertussisJ. Clin. Microbiol4943474348201110.1128/JCM.01272-11323300422012009Search in Google Scholar
Odanaka K., Iwatsuki M., Satho T., Watanabe M.: Identification and characterization of a brilliant yellow pigment produced by Bordetella pertussis. Microbiol. Immunol. 61, 490–496 (2017)OdanakaK.IwatsukiM.SathoT.WatanabeM.Identification and characterization of a brilliant yellow pigment produced by Bordetella pertussisMicrobiol. Immunol61490496201710.1111/1348-0421.1254128906022Search in Google Scholar
Pawloski L.C., Tondella M.L. i wsp.: Prevalence and molecular characterization of pertactin-deficient Bordetella pertussis in the United States. Clin. Vaccine Immunol. 21, 119–125 (2014)PawloskiL.C.TondellaM.L.Prevalence and molecular characterization of pertactin-deficient Bordetella pertussis in the United StatesClin. Vaccine Immunol21119125201410.1128/CVI.00717-13391093824256623Search in Google Scholar
Pittet L.F., Emonet S., François P., Bonetti E.-J., Schrenzel J., Hug M., Altwegg M., Siegrist C.-A., Posfay-Barbe K.M.: Diagnosis of whooping cough in Switzerland: differentiating Bordetella pertussis from Bordetella holmesii by polymerase chain reaction. PLoS ONE, 9, e88936 (2014)PittetL.F.EmonetS.FrançoisP.BonettiE.-J.SchrenzelJ.HugM.AltweggM.SiegristC.-A.Posfay-BarbeK.M.Diagnosis of whooping cough in Switzerland: differentiating Bordetella pertussis from Bordetella holmesii by polymerase chain reactionPLoS ONE9e88936201410.1371/journal.pone.0088936392976024586447Search in Google Scholar
Pittet L.F., Posfay-Barbe K.M.: Bordetella holmesii infection: current knowledge and a vision for future research. Expert Rev. Anti. Infect. Ther. 13, 965–971 (2015)PittetL.F.Posfay-BarbeK.M.Bordetella holmesii infection: current knowledge and a vision for future researchExpert Rev. Anti. Infect. Ther13965971201510.1586/14787210.2015.105616126065696Search in Google Scholar
Polak M., Zasada A.A., Mosiej E., Krysztopa-Grzybowska K., Witkowski L., Rzeczkowska M., Piekarska K., Lutyńska A.: Pertactin-deficient Bordetella pertussis isolates in Poland-a country with whole-cell pertussis primary vaccination. Microbes and Infection, doi:10.1016/j.micinf.2018.12.001 (2018)PolakM.ZasadaA.A.MosiejE.Krysztopa-GrzybowskaK.WitkowskiL.RzeczkowskaM.PiekarskaK.LutyńskaA.Pertactin-deficient Bordetella pertussis isolates in Poland-a country with whole-cell pertussis primary vaccinationMicrobes and Infection10.1016/j.micinf.2018.12.001201830580013Open DOISearch in Google Scholar
Rappuoli R.: From Pasteur to genomics: progress and challenges in infectious diseases. Nature Med. 10, 1177–1185 (2004)RappuoliR.From Pasteur to genomics: progress and challenges in infectious diseasesNature Med1011771185200410.1038/nm1129709602415516917Search in Google Scholar
Raw I.: Developing countries can innovate and produce vaccines: the case of Butantan in Brazil. Vaccines – the History and Future, doi:10.5772/intechopen.83351 (2019)RawI.Developing countries can innovate and produce vaccines: the case of Butantan in BrazilVaccines – the History and Future10.5772/intechopen.833512019Open DOISearch in Google Scholar
Roberts R., Moreno G., Bottero D., Gaillard M.E., Fingermann M., Graieb A., Rumbo M., Hozbor D.: Outer membrane vesicles as acellular vaccine against pertussis. Vaccine, 26, 4639–4646 (2008)RobertsR.MorenoG.BotteroD.GaillardM.E.FingermannM.GraiebA.RumboM.HozborD.Outer membrane vesicles as acellular vaccine against pertussisVaccine2646394646200810.1016/j.vaccine.2008.07.00418640169Search in Google Scholar
Rodgers L., Diorio M. i wsp.: Epidemiologic and laboratory features of a large outbreak of pertussis-like illnesses associated with cocirculating Bordetella holmesii and Bordetella pertussis-Ohio, 2010–2011. Clin. Infect. Dis. 56, 322–331 (2013)RodgersL.DiorioM.Epidemiologic and laboratory features of a large outbreak of pertussis-like illnesses associated with cocirculating Bordetella holmesii and Bordetella pertussis--Ohio, 2010–2011Clin. Infect. Dis56322331201310.1093/cid/cis88823087388Search in Google Scholar
Saito M., Odanaka K., Otsuka N., Kamachi K., Watanabe M.: Development of vaccines against pertussis caused by Bordetella holmesii using a mouse intranasal challenge model. Microbiol. Immunol. 60, 599–608 (2016)SaitoM.OdanakaK.OtsukaN.KamachiK.WatanabeM.Development of vaccines against pertussis caused by Bordetella holmesii using a mouse intranasal challenge modelMicrobiol. Immunol60599608201610.1111/1348-0421.1240927515393Search in Google Scholar
Scheifele D.W., Halperin S.A., Ferguson A.C.: Assessment of injection site reactions to an acellular pertussis-based combination vaccine, including novel use of skin tests with vaccine antigens. Vaccine, 19, 4720–4726 (2001)ScheifeleD.W.HalperinS.A.FergusonA.C.Assessment of injection site reactions to an acellular pertussis-based combination vaccine, including novel use of skin tests with vaccine antigensVaccine1947204726200110.1016/S0264-410X(01)00230-4Search in Google Scholar
Shepard C.W., Daneshvar M.I., Kaiser R.M., Ashford D.A., Lonsway D., Patel J.B., Morey R.E., Jordan J.G., Weyant R.S., Fischer M.: Bordetella holmesii bacteremia: a newly recognized clinical entity among asplenic patients. Clin. Infect. Dis. 38, 799–804 (2004)ShepardC.W.DaneshvarM.I.KaiserR.M.AshfordD.A.LonswayD.PatelJ.B.MoreyR.E.JordanJ.G.WeyantR.S.FischerM.Bordetella holmesii bacteremia: a newly recognized clinical entity among asplenic patientsClin. Infect. Dis38799804200410.1086/38188814999621Search in Google Scholar
Spilker T., Liwienski A.A., LiPuma J.J.: Identification of Bordetella spp. in respiratory specimens from individuals with cystic fibrosis. Clin. Microbiol. Infect. 14, 504–506 (2008)SpilkerT.LiwienskiA.A.LiPumaJ.J.Identification of Bordetella spp. in respiratory specimens from individuals with cystic fibrosisClin. Microbiol. Infect14504506200810.1111/j.1469-0691.2008.01968.x18325036Search in Google Scholar
Stark D., Riley L.A., Harkness J., Marriott D.: Bordetella petrii from a clinical sample in Australia: isolation and molecular identification. J. Med. Microbiol. 56, 435–437 (2007)StarkD.RileyL.A.HarknessJ.MarriottD.Bordetella petrii from a clinical sample in Australia: isolation and molecular identificationJ. Med. Microbiol56435437200710.1099/jmm.0.46976-017314377Search in Google Scholar
Szvalb A.D., Rolston K.V., Mori N., Tarrand J.J., Mulanovich V.E.: Infections with the agent of ‘kennel cough’ in patients with cancer. J. Infect. doi:10.1016/j.jinf.2018.07.010 (2018)SzvalbA.D.RolstonK.V.MoriN.TarrandJ.J.MulanovichV.E.Infections with the agent of ‘kennel cough’ in patients with cancerJ. Infect10.1016/j.jinf.2018.07.010201830048653Open DOISearch in Google Scholar
Tatti K.M., Sparks K.N., Boney K.O., Tondella M.L.: Novel multitarget real-time PCR assay for rapid detection of Bordetella species in clinical specimens. J. Clin. Microbiol. 49, 4059–4066 (2011)TattiK.M.SparksK.N.BoneyK.O.TondellaM.L.Novel multitarget real-time PCR assay for rapid detection of Bordetella species in clinical specimensJ. Clin. Microbiol4940594066201110.1128/JCM.00601-11323295121940464Search in Google Scholar
Tatti K.M., Wu K.-H., Tondella M.L., Cassiday P.K., Cortese M.M., Wilkins P.P., Sanden G.N.: Development and evaluation of dual-target real-time polymerase chain reaction assays to detect Bordetella spp. Diagn. Microbiol. Infect. Dis. 61, 264–272 (2008)TattiK.M.WuK.-H.TondellaM.L.CassidayP.K.CorteseM.M.WilkinsP.P.SandenG.N.Development and evaluation of dual-target real-time polymerase chain reaction assays to detect Bordetella sppDiagn. Microbiol. Infect. Dis61264272200810.1016/j.diagmicrobio.2008.02.01718440175Search in Google Scholar
Tazato N., Handa Y., Nishijima M., Kigawa R., Sano C., Sugiyama J.: Novel environmental species isolated from the plaster wall surface of mural paintings in the Takamatsuzuka tumulus: Bordetella muralis sp. nov., Bordetella tumulicola sp. nov. and Bordetella tumbae sp. nov. Int. J. Syst. Evol. Microbiol. 65, 4830–4838 (2015)TazatoN.HandaY.NishijimaM.KigawaR.SanoC.SugiyamaJ.Novel environmental species isolated from the plaster wall surface of mural paintings in the Takamatsuzuka tumulus: Bordetella muralis sp. nov., Bordetella tumulicola sp. nov. and Bordetella tumbae sp. novInt. J. Syst. Evol. Microbiol6548304838201510.1099/ijsem.0.00065526443672Search in Google Scholar
Thalen M., Debrie A.-S., Coutte L., Raze D., Solovay K., Rubin K., Mielcarek N., Locht C.: Manufacture of a stable lyophilized formulation of the live attenuated pertussis vaccine BPZE1. Vaccines, 8, doi:10.3390/vaccines8030523 (2020)ThalenM.DebrieA.-S.CoutteL.RazeD.SolovayK.RubinK.MielcarekN.LochtC.Manufacture of a stable lyophilized formulation of the live attenuated pertussis vaccine BPZE1Vaccines810.3390/vaccines80305232020756520932933132Open DOISearch in Google Scholar
Tizolova A., Guiso N., Guillot S.: Insertion sequences shared by Bordetella species and implications for the biological diagnosis of pertussis syndrome. Eur. J. Clin. Microbiol. Infect. Dis. 32, 89–96 (2013)TizolovaA.GuisoN.GuillotS.Insertion sequences shared by Bordetella species and implications for the biological diagnosis of pertussis syndromeEur. J. Clin. Microbiol. Infect. Dis328996201310.1007/s10096-012-1718-322886091Search in Google Scholar
Ucieklak K., Koj S., Niedziela T.: Bordetella holmesii lipopolysaccharide hide and seek game with pertussis: structural analysis of the O-Specific polysaccharide and the core oligosaccharide of the type strain ATCC 51541. Int. J. Mol. Sci. 21 (2020)UcieklakK.KojS.NiedzielaT.Bordetella holmesii lipopolysaccharide hide and seek game with pertussis: structural analysis of the O-Specific polysaccharide and the core oligosaccharide of the type strain ATCC 51541Int. J. Mol. Sci21202010.3390/ijms21176433750455432899371Search in Google Scholar
Valero-Rello A., Henares D., Acosta L., Jane M., Jordan I., Godoy P., Muñoz-Almagro C.: Validation and implementation of a diagnostic algorithm for DNA detection of Bordetella pertussis, B. parapertussis, and B. holmesii in a pediatric referral hospital in Barcelona, Spain. J. Clin. Microbiol. 57, doi:10.1128/JCM.01231-18 (2019)Valero-RelloA.HenaresD.AcostaL.JaneM.JordanI.GodoyP.Muñoz-AlmagroC.Validation and implementation of a diagnostic algorithm for DNA detection of Bordetella pertussis, B. parapertussis, and B. holmesii in a pediatric referral hospital in Barcelona, SpainJ. Clin. Microbiol5710.1128/JCM.01231-182019632247630404946Open DOISearch in Google Scholar
Vandamme P., Heyndrickx M., Vancanneyt M., Hoste B., De Vos P., Falsen E., Kersters K., Hinz K.H.: Bordetella trematum sp. nov., isolated from wounds and ear infections in humans, and reassessment of Alcaligenes denitrificans Rüger and Tan 1983. Int. J. Syst. Bacteriol. 46, 849–858 (1996)VandammeP.HeyndrickxM.VancanneytM.HosteB.De VosP.FalsenE.KerstersK.HinzK.H.Bordetella trematum sp. nov., isolated from wounds and ear infections in humans, and reassessment of Alcaligenes denitrificans Rüger and Tan 1983Int. J. Syst. Bacteriol46849858199610.1099/00207713-46-4-8498863408Search in Google Scholar
Vandamme P., Hommez J., Vancanneyt M., Monsieurs M., Hoste B., Cookson B., Wirsing von König C.H., Kersters K., Blackall P.J.: Bordetella hinzii sp. nov., isolated from poultry and humans. Int. J. Syst. Bacteriol. 45, 37–45 (1995)VandammeP.HommezJ.VancanneytM.MonsieursM.HosteB.CooksonB.Wirsing von KönigC.H.KerstersK.BlackallP.J.Bordetella hinzii sp. nov., isolated from poultry and humansInt. J. Syst. Bacteriol453745199510.1099/00207713-45-1-377857806Search in Google Scholar
Vandamme P. A., Peeters C., Cnockaert M., Inganäs E., Falsen E., Moore E.R. B., Nunes O.C., Manaia C.M., Spilker T., LiPuma J.J.: Bordetella bronchialis sp. nov., Bordetella flabilis sp. nov. and Bordetella sputigena sp. nov., isolated from human respiratory specimens, and reclassification of Achromobacter sediminum Zhang et al. 2014 as Verticia sediminum gen. nov., comb. nov. Int. J. Syst. Evol. Microbiol. 65, 3674–3682 (2015)VandammeP. A.PeetersC.CnockaertM.InganäsE.FalsenE.MooreE.R. B.NunesO.C.ManaiaC.M.SpilkerT.LiPumaJ.J.Bordetella bronchialis sp. nov., Bordetella flabilis sp. nov. and Bordetella sputigena sp. nov., isolated from human respiratory specimens, and reclassification of Achromobacter sediminum Zhang et al. 2014 as Verticia sediminum gen. nov., comb. novInt. J. Syst. Evol. Microbiol6536743682201510.1099/ijsem.0.00047326220296Search in Google Scholar
Wang F., Grundmann S., Schmid M., Dörfler U., Roherer S., Charles Munch J., Hartmann A., Jiang X., Schroll R.: Isolation and characterization of 1,2,4-trichlorobenzene mineralizing Bordetella sp. and its bioremediation potential in soil. Chemosphere, 67, 896–902 (2007)WangF.GrundmannS.SchmidM.DörflerU.RohererS.Charles MunchJ.HartmannA.JiangX.SchrollR.Isolation and characterization of 1,2,4-trichlorobenzene mineralizing Bordetella sp. and its bioremediation potential in soilChemosphere67896902200710.1016/j.chemosphere.2006.11.01917204305Search in Google Scholar
Warfel J.M., Merkel T.J.: Bordetella pertussis infection induces a mucosal IL-17 response and long-lived Th17 and Th1 immune memory cells in nonhuman primates. Mucosal Immunol. 6, 787–796 (2013)WarfelJ.M.MerkelT.J.Bordetella pertussis infection induces a mucosal IL-17 response and long-lived Th17 and Th1 immune memory cells in nonhuman primatesMucosal Immunol6787796201310.1038/mi.2012.11723187316Search in Google Scholar
Warfel J.M., Zimmerman L.I., Merkel T.J.: Acellular pertussis vaccines protect against disease but fail to prevent infection and transmission in a nonhuman primate model. Proc. Natl. Acad. Sci. USA, 111, 787–792 (2014)WarfelJ.M.ZimmermanL.I.MerkelT.J.Acellular pertussis vaccines protect against disease but fail to prevent infection and transmission in a nonhuman primate modelProc. Natl. Acad. Sci. USA111787792201410.1073/pnas.1314688110389620824277828Search in Google Scholar
Wei S.-H., Chao Y.-N., Huang S.-E., Lee T.-F., and Chang L.-Y.: Adverse effects of tetanus toxoid, reduced diphtheria toxoid, and acellular pertussis vaccine in 6- to 7-year-old children. Pediatr. Neonatol. 52, 38–41 (2011)WeiS.-H.ChaoY.-N.HuangS.-E.LeeT.-F.ChangL.-Y.Adverse effects of tetanus toxoid, reduced diphtheria toxoid, and acellular pertussis vaccine in 6- to 7-year-old childrenPediatr. Neonatol523841201110.1016/j.pedneo.2010.12.01021385656Search in Google Scholar
Weiss A.: The Genus Bordetella. (w) The Prokaryotes: Volume 5: Proteobacteria: Alpha and Beta Subclasses, red. M. Dworkin, S. Falkow, E. Rosenberg, K-H. Schleifer i E. Stackebrandt, Springer New York: New York, NY, 2006, s. 648–674WeissA.The Genus Bordetella. (w) The Prokaryotes: Volume 5: Proteobacteria: Alpha and Beta Subclassesred.DworkinM.FalkowS.RosenbergE.SchleiferK-H.StackebrandtE.Springer New YorkNew York, NY2006648674Search in Google Scholar
Wen Z., and Zhang J.-R.: Bacterial Capsules (w) Molecular Medical Microbiology (wyd. 2.), red. Y-W. Tang, M. Sussman, D. Liu, I. Poxton, J. Schwartzman, Academic Press: Boston, 2015, s. 33–53WenZ.ZhangJ.-R.Bacterial Capsules (w) Molecular Medical Microbiology (wyd. 2.)red.TangY-W.SussmanM.LiuD.PoxtonI.SchwartzmanJ.Academic PressBoston20153353Search in Google Scholar
Wendelboe A.M., Van Rie A., Salmaso S., Englund J.A.: Duration of immunity against pertussis after natural infection or vaccination. Pediatr. Infect. Dis. J. 24, 58–61 (2005)WendelboeA.M.Van RieA.SalmasoS.EnglundJ.A.Duration of immunity against pertussis after natural infection or vaccinationPediatr. Infect. Dis. J245861200510.1097/01.inf.0000160914.59160.4115876927Search in Google Scholar
Weyant R.S., Hollis D.G., Weaver R.E., Amin M.F., Steigerwalt A.G., O’Connor S.P., Whitney A.M., Daneshvar M.I., Moss C.W., Brenner D.J.: Bordetella holmesii sp. nov., a new gram-negative species associated with septicemia. J. Clin. Microbiol. 33, 1–7 (1995)WeyantR.S.HollisD.G.WeaverR.E.AminM.F.SteigerwaltA.G.O’ConnorS.P.WhitneyA.M.DaneshvarM.I.MossC.W.BrennerD.J.Bordetella holmesii sp. nov., a new gram-negative species associated with septicemiaJ. Clin. Microbiol3317199510.1128/jcm.33.1.1-7.19952278687699023Search in Google Scholar
WHO. Laboratory Manual for the diagnosis of whooping cough caused by Bordetella pertussis/Bordetella parapertussis: update 2014. World Health Organization, Technical documents WHO/IVB/14.03. http://apps.who.int/iris/handle/10665/127891 (2014)WHOLaboratory Manual for the diagnosis of whooping cough caused by Bordetella pertussis/Bordetella parapertussis: update 2014World Health Organization, Technical documents WHO/IVB/14.03. http://apps.who.int/iris/handle/10665/1278912014Search in Google Scholar
WHO. ‘The immunological basis for immunization series: module 4: pertussis.’ (World Health Organization) http://apps.who.int/iris/handle/10665/259388 (2017)WHO‘The immunological basis for immunization series: module 4: pertussis.’ (World Health Organization)http://apps.who.int/iris/handle/10665/2593882017Search in Google Scholar
WHO. Pertussis Overview. Pertussis. https://www.who.int/westernpacific/health-topics/pertussis (2021)WHOPertussis Overview. Pertussishttps://www.who.int/westernpacific/health-topics/pertussis2021Search in Google Scholar
Wilk M.M., Borkner L., Misiak A., Curham L., Allen A.C., Mills K.H.G. Immunization with whole cell but not acellular pertussis vaccines primes CD4 TRM cells that sustain protective immunity against nasal colonization with Bordetella pertussis. Emerg. Microbes Infect. 8, 169–185 (2019)WilkM.M.BorknerL.MisiakA.CurhamL.AllenA.C.MillsK.H.G.Immunization with whole cell but not acellular pertussis vaccines primes CD4 TRM cells that sustain protective immunity against nasal colonization with Bordetella pertussisEmerg. Microbes Infect8169185201910.1080/22221751.2018.1564630645518430866771Search in Google Scholar
von Wintzingerode F., Schattke A., Siddiqui R.A., Rösick U., Göbel U.B., Gross R.: Bordetella petrii sp. nov., isolated from an anaerobic bioreactor, and emended description of the genus Bordetella. Int. J. Syst. Evol. Microbiol. 51, 1257–1265 (2001)von WintzingerodeF.SchattkeA.SiddiquiR.A.RösickU.GöbelU.B.GrossR.Bordetella petrii sp. nov., isolated from an anaerobic bioreactor, and emended description of the genus BordetellaInt. J. Syst. Evol. Microbiol5112571265200110.1099/00207713-51-4-125711491321Search in Google Scholar
Wong A., Opinel A., Combes S. J.-B., Toubiana J., Brisse S.: Determining factors for pertussis vaccination policy: a study in five EU countries. Vaccines, 8, 46 (2020)WongA.OpinelA.CombesS. J.-B.ToubianaJ.BrisseS.Determining factors for pertussis vaccination policy: a study in five EU countriesVaccines846202010.3390/vaccines8010046715866131991855Search in Google Scholar
Woolfrey B.F., Moody J.A.: Human infections associated with Bordetella bronchiseptica. Clin. Microbiol. Rev. 4, 243–255 (1991)WoolfreyB.F.MoodyJ.A.Human infections associated with Bordetella bronchisepticaClin. Microbiol. Rev4243255199110.1128/CMR.4.3.2433581971889042Search in Google Scholar
Yih W.K., Silva E.A., Ida J., Harrington N., Lett S.M., George H.: Bordetella holmesii-like organisms isolated from Massachusetts patients with pertussis-like symptoms. Emerg. Infect. Dis. 5, 441–443 (1999)YihW.K.SilvaE.A.IdaJ.HarringtonN.LettS.M.GeorgeH.Bordetella holmesii-like organisms isolated from Massachusetts patients with pertussis-like symptomsEmerg. Infect. Dis5441443199910.3201/eid0503.990317264077110341183Search in Google Scholar
van der Zee A., Groenendijk H., Peeters M., Mooi F.R.: The differentiation of Bordetella parapertussis and Bordetella bronchiseptica from humans and animals as determined by DNA polymorphism mediated by two different insertion sequence elements suggests their phylogenetic relationship. Int. J. Syst. Bacteriol. 46, 640–647 (1996)van der ZeeA.GroenendijkH.PeetersM.MooiF.R.The differentiation of Bordetella parapertussis and Bordetella bronchiseptica from humans and animals as determined by DNA polymorphism mediated by two different insertion sequence elements suggests their phylogenetic relationshipInt. J. Syst. Bacteriol46640647199610.1099/00207713-46-3-6408782670Search in Google Scholar
Zhang X., Weyrich L.S., Lavine J.S., Karanikas A.T., Harvill E.T.: Lack of cross-protection against Bordetella holmesii after pertussis vaccination. Emerg. Infect. Dis. 18, 1771–1779 (2012)ZhangX.WeyrichL.S.LavineJ.S.KaranikasA.T.HarvillE.T.Lack of cross-protection against Bordetella holmesii after pertussis vaccinationEmerg. Infect. Dis1817711779201210.3201/eid1811.111544355917723092514Search in Google Scholar
Zintgraff J., Irazu L., Lara C.S., Rodriguez M., Santos M.: The classical Bordetella species and MALDI-TOF technology: a brief experience. J. Med. Microbiol. 67, 1737–1742 (2018)ZintgraffJ.IrazuL.LaraC.S.RodriguezM.SantosM.The classical Bordetella species and MALDI-TOF technology: a brief experienceJ. Med. Microbiol6717371742201810.1099/jmm.0.00086030372410Search in Google Scholar
Zurita M.E., Wilk M.M., Carriquiriborde F., Bartel E., Moreno G., Misiak A., Mills K.H.G., Hozbor D.A.: Pertussis outer membrane vesicle-based vaccine induces lung-resident memory CD4 t cells and protection against Bordetella pertussis, including pertactin deficient strains. Front. Cell. Infect. Microbiol. 9 (2019)ZuritaM.E.WilkM.M.CarriquiribordeF.BartelE.MorenoG.MisiakA.MillsK.H.G.HozborD.A.Pertussis outer membrane vesicle-based vaccine induces lung-resident memory CD4 t cells and protection against Bordetella pertussis, including pertactin deficient strainsFront. Cell. Infect. Microbiol9201910.3389/fcimb.2019.00125649839831106160Search in Google Scholar