This work is licensed under the Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.
Ajene A.N., Fischer Walker C.L., Black R.E.: Enteric pathogens and reactive arthritis: a systematic review of Campylobacter, Salmonella and Shigella-associated reactive arthritis. J. Health Popul. Nutr. 31, 299–307 (2013)AjeneA.N.Fischer WalkerC.L.BlackR.E.Enteric pathogens and reactive arthritis: a systematic review of Campylobacter, Salmonella and Shigella-associated reactive arthritisJ. Health Popul. Nutr.31299307201310.3329/jhpn.v31i3.16515380587824288942Search in Google Scholar
Annamalai T., Pina-Mimbela R., Kumar A., Binjawadagi B., Liu Z., Renukaradhya G.J., Rajashekara G.: Evaluation of nanoparticle-encapsulated outer membrane proteins for the control of Campylobacter jejuni colonization in chickens. Poult. Sci. 92, 2201–2211 (2013)AnnamalaiT.Pina-MimbelaR.KumarA.BinjawadagiB.LiuZ.RenukaradhyaG.J.RajashekaraG.Evaluation of nanoparticle-encapsulated outer membrane proteins for the control of Campylobacter jejuni colonization in chickensPoult. Sci.9222012211201310.3382/ps.2012-0300423873570Search in Google Scholar
Audouy S.A., van Selm S., van Roosmalen M.L., Post E., Kanninga R., Neef J., Estevao S., Nieuwenhuis E.E., Adrian P.V., Leenhouts K. i wsp.: Development of lactococcal GEM-based pneumococcal vaccines. Vaccine, 25, 2497–2506 (2007)AudouyS.A.van SelmS.van RoosmalenM.L.PostE.KanningaR.NeefJ.EstevaoS.NieuwenhuisE.E.AdrianP.V.LeenhoutsK.i wspDevelopment of lactococcal GEM-based pneumococcal vaccinesVaccine2524972506200710.1016/j.vaccine.2006.09.02617081660Search in Google Scholar
Awad W.A., Dublecz F., Hess C., Dublecz K., Khayal B., Aschenbach J.R., Hess M.: Campylobacter jejuni colonization promotes the translocation of Escherichia coli to extra-intestinal organs and disturbs the short-chain fatty acids profiles in the chicken gut. Poult. Sci. 95, 2259–2265 (2016)AwadW.A.DubleczF.HessC.DubleczK.KhayalB.AschenbachJ.R.HessM.Campylobacter jejuni colonization promotes the translocation of Escherichia coli to extra-intestinal organs and disturbs the short-chain fatty acids profiles in the chicken gutPoult. Sci.9522592265201610.3382/ps/pew15127143773Search in Google Scholar
Awad W.A., Molnar A., Aschenbach J.R., Ghareeb K., Khayal B., Hess C., Liebhart D., Dublecz K., Hess M.: Campylobacter infection in chickens modulates the intestinal epithelial barrier function. Innate Immun. 21, 151–160 (2015)AwadW.A.MolnarA.AschenbachJ.R.GhareebK.KhayalB.HessC.LiebhartD.DubleczK.HessM.Campylobacter infection in chickens modulates the intestinal epithelial barrier functionInnate Immun.21151160201510.1177/175342591452164824553586Search in Google Scholar
Blaser M.J.: Epidemiologic and clinical features of Campylobacter jejuni infections. J. Infect. Dis. 176 Suppl 2, S103–105 (1997)BlaserM.J.Epidemiologic and clinical features of Campylobacter jejuni infectionsJ. Infect. Dis.176Suppl2S103105199710.1086/5137809396691Search in Google Scholar
Bosma T., Kanninga R., Neef J., Audouy S.A., van Roosmalen M.L., Steen A., Buist G., Kok J., Kuipers O.P., Robillard G. i wsp.: Novel surface display system for proteins on non-genetically modified gram-positive bacteria. Appl. Environ. Microbiol. 72, 880–889 (2006)BosmaT.KanningaR.NeefJ.AudouyS.A.van RoosmalenM.L.SteenA.BuistG.KokJ.KuipersO.P.RobillardG.i wspNovel surface display system for proteins on non-genetically modified gram-positive bacteriaAppl. Environ. Microbiol.72880889200610.1128/AEM.72.1.880-889.2006135219016391130Search in Google Scholar
Brownlie R., Allan B.: Avian toll-like receptors. Cell Tissue Res. 343, 121–130 (2011)BrownlieR.AllanB.Avian toll-like receptorsCell Tissue Res.343121130201110.1007/s00441-010-1026-020809414Search in Google Scholar
Brownlie R., Zhu J., Allan B., Mutwiri G.K., Babiuk L.A., Potter A., Griebel P.: Chicken TLR21 acts as a functional homologue to mammalian TLR9 in the recognition of CpG oligodeoxynucleotides. Mol. Immunol. 46, 3163–3170 (2009)BrownlieR.ZhuJ.AllanB.MutwiriG.K.BabiukL.A.PotterA.GriebelP.Chicken TLR21 acts as a functional homologue to mammalian TLR9 in the recognition of CpG oligodeoxynucleotidesMol. Immunol.4631633170200910.1016/j.molimm.2009.06.00219573927Search in Google Scholar
Buckley A.M., Wang J., Hudson D.L., Grant A.J., Jones M.A., Maskell D.J., Stevens M.P.: Evaluation of live-attenuated Salmonella vaccines expressing Campylobacter antigens for control of C. jejuni in poultry. Vaccine, 28, 1094–1105 (2010)BuckleyA.M.WangJ.HudsonD.L.GrantA.J.JonesM.A.MaskellD.J.StevensM.P.Evaluation of live-attenuated Salmonella vaccines expressing Campylobacter antigens for control of C. jejuni in poultryVaccine2810941105201010.1016/j.vaccine.2009.10.01819853682Search in Google Scholar
Byrne C.M., Clyne M., Bourke B.: Campylobacter jejuni adhere to and invade chicken intestinal epithelial cells in vitro. Microbiology, 153, 561–569 (2007)ByrneC.M.ClyneM.BourkeB.Campylobacter jejuni adhere to and invade chicken intestinal epithelial cells in vitroMicrobiology153561569200710.1099/mic.0.2006/000711-017259628Search in Google Scholar
Cawthraw S.A., Newell D.G.: Investigation of the presence and protective effects of maternal antibodies against Campylobacter jejuni in chickens. Avian Dis. 54, 86–93 (2010)CawthrawS.A.NewellD.G.Investigation of the presence and protective effects of maternal antibodies against Campylobacter jejuni in chickensAvian Dis.548693201010.1637/9004-072709-Reg.120408404Search in Google Scholar
Cean A., Stef L., Simiz E., Julean C., Dumitrescu G., Vasile A., Pet E., Drinceanu D., Corcionivoschi N.: Effect of human isolated probiotic bacteria on preventing Campylobacter jejuni colonization of poultry. Foodborne Pathog. Dis. 12, 122–130 (2015)CeanA.StefL.SimizE.JuleanC.DumitrescuG.VasileA.PetE.DrinceanuD.CorcionivoschiN.Effect of human isolated probiotic bacteria on preventing Campylobacter jejuni colonization of poultryFoodborne Pathog. Dis.12122130201510.1089/fpd.2014.184925585278Search in Google Scholar
Chen H.Y., Shang Y.H., Yao H.X., Cui B.A., Zhang H.Y., Wang Z.X., Wang Y.D., Chao A.J., Duan T.Y.: Immune responses of chickens inoculated with a recombinant fowlpox vaccine coexpressing HA of H9N2 avain influenza virus and chicken IL-18. Antiviral Res. 91, 50–56 (2011)ChenH.Y.ShangY.H.YaoH.X.CuiB.A.ZhangH.Y.WangZ.X.WangY.D.ChaoA.J.DuanT.Y.Immune responses of chickens inoculated with a recombinant fowlpox vaccine coexpressing HA of H9N2 avain influenza virus and chicken IL-18Antiviral Res.915056201110.1016/j.antiviral.2011.04.00721549153Search in Google Scholar
Chiou C.J., Tseng L.P., Deng M.C., Jiang P.R., Tasi S.L., Chung T.W., Huang Y.Y., Liu D.Z.: Mucoadhesive liposomes for intranasal immunization with an avian influenza virus vaccine in chickens. Biomaterials, 30, 5862–5868 (2009)ChiouC.J.TsengL.P.DengM.C.JiangP.R.TasiS.L.ChungT.W.HuangY.Y.LiuD.Z.Mucoadhesive liposomes for intranasal immunization with an avian influenza virus vaccine in chickensBiomaterials3058625868200910.1016/j.biomaterials.2009.06.04619608270Search in Google Scholar
Clark J.D., Oakes R.D., Redhead K., Crouch C.F., Francis M.J., Tomley F.M., Blake D.P.: Eimeria species parasites as novel vaccine delivery vectors: anti-Campylobacter jejuni protective immunity induced by Eimeria tenella-delivered CjaA. Vaccine, 30, 2683–2688 (2012)ClarkJ.D.OakesR.D.RedheadK.CrouchC.F.FrancisM.J.TomleyF.M.BlakeD.P.Eimeria species parasites as novel vaccine delivery vectors: anti-Campylobacter jejuni protective immunity induced by Eimeria tenella-delivered CjaAVaccine3026832688201210.1016/j.vaccine.2012.02.00222342500Search in Google Scholar
Conlan A.J., Coward C., Grant A.J., Maskell D.J., Gog J.R.: Campylobacter jejuni colonization and transmission in broiler chickens: a modelling perspective. J. R. Soc. Interface, 4, 819–829 (2007)ConlanA.J.CowardC.GrantA.J.MaskellD.J.GogJ.R.Campylobacter jejuni colonization and transmission in broiler chickens: a modelling perspectiveJ. R. Soc. Interface4819829200710.1098/rsif.2007.1015207735717472905Search in Google Scholar
Connell S., Meade K.G., Allan B., Lloyd A.T., Kenny E., Cormican P., Morris D.W., Bradley D.G., O’Farrelly C.: Avian resistance to Campylobacter jejuni colonization is associated with an intestinal immunogene expression signature identified by mRNA sequencing. PLoS One, 7, e40409 (2012)ConnellS.MeadeK.G.AllanB.LloydA.T.KennyE.CormicanP.MorrisD.W.BradleyD.G.O’FarrellyC.Avian resistance to Campylobacter jejuni colonization is associated with an intestinal immunogene expression signature identified by mRNA sequencingPLoS One7e40409201210.1371/journal.pone.0040409341157822870198Search in Google Scholar
Dasti J.I., Tareen A.M., Lugert R., Zautner A.E., Gross U.: Campylobacter jejuni: a brief overview on pathogenicity-associated factors and disease-mediating mechanisms. Int. J. Med. Microbiol. 300, 205–211 (2010)DastiJ.I.TareenA.M.LugertR.ZautnerA.E.GrossU.Campylobacter jejuni: a brief overview on pathogenicity-associated factors and disease-mediating mechanismsInt. J. Med. Microbiol.300205211201010.1016/j.ijmm.2009.07.00219665925Search in Google Scholar
Degen W.G., van Zuilekom H.I., Scholtes N.C., van Daal N., Schijns V.E.: Potentiation of humoral immune responses to vaccine antigens by recombinant chicken IL-18 (rChIL-18). Vaccine, 23, 4212–4218 (2005)DegenW.G.van ZuilekomH.I.ScholtesN.C.van DaalN.SchijnsV.E.Potentiation of humoral immune responses to vaccine antigens by recombinant chicken IL-18 (rChIL-18)Vaccine2342124218200510.1016/j.vaccine.2005.04.00315919141Search in Google Scholar
EFSA: The European Union summary report on trends and sources of zoonoses, zoonotic agents and food-borne outbreaks in 2015. EFSA J. 14, 4634 (2016)EFSAThe European Union summary report on trends and sources of zoonoses, zoonotic agents and food-borne outbreaks in 2015EFSA J.144634201610.2903/j.efsa.2016.4634Search in Google Scholar
EFSA: The European Union summary report on trends and sources ofzoonoses, zoonotic agents and food-borne outbreaks in 2017. EFSA J. 16, 262 (2018)EFSAThe European Union summary report on trends and sources ofzoonoses, zoonotic agents and food-borne outbreaks in 2017EFSA J.16262201810.2903/j.efsa.2018.5500700954032625785Search in Google Scholar
EFSA, ECDC: The European Union summary report on trends and sources of zoonoses, zoonotic agents and food-borne outbreaks in 2016. EFSA J. 2017, 15, 228 (2017)EFSA, ECDCThe European Union summary report on trends and sources of zoonoses, zoonotic agents and food-borne outbreaks in 2016EFSA J. 201715228201710.2903/j.efsa.2017.5077700996232625371Search in Google Scholar
El-Shibiny A., Scott A., Timms A., Metawea Y., Connerton P., Connerton I.: Application of a group II Campylobacter bacteriophage to reduce strains of Campylobacter jejuni and Campylobacter coli colonizing broiler chickens. J. Food Prot. 72, 733–740 (2009)El-ShibinyA.ScottA.TimmsA.MetaweaY.ConnertonP.ConnertonI.Application of a group II Campylobacter bacteriophage to reduce strains of Campylobacter jejuni and Campylobacter coli colonizing broiler chickensJ. Food Prot.72733740200910.4315/0362-028X-72.4.73319435220Search in Google Scholar
Esson D., Mather A.E., Scanlan E., Gupta S., de Vries S.P., Bailey D., Harris S.R., McKinley T.J., Meric G., Berry S.K. i wsp.: Genomic variations leading to alterations in cell morphology of Campylobacter spp. Sci. Rep. 6, 38303 (2016)EssonD.MatherA.E.ScanlanE.GuptaS.de VriesS.P.BaileyD.HarrisS.R.McKinleyT.J.MericG.BerryS.K.i wspGenomic variations leading to alterations in cell morphology of Campylobacter sppSci. Rep.638303201610.1038/srep38303513358727910897Search in Google Scholar
Fanelli A., Agazzi A., Alborali G.L., Pilotto A., Bontempo V., Dell’Orto V., Demey V., Caputo J.M., Savoini G.: Prevalence reduction of pathogens in poultry fed with Saccharomyces cerevisiae. Biotechnology, Agronomy, Soc. Environ. 19, 3–10 (2015)FanelliA.AgazziA.AlboraliG.L.PilottoA.BontempoV.Dell’OrtoV.DemeyV.CaputoJ.M.SavoiniG.Prevalence reduction of pathogens in poultry fed with Saccharomyces cerevisiaeBiotechnology, Agronomy, Soc. Environ.193102015Search in Google Scholar
Gillespie M., Shamovsky V., D’Eustachio P.: Human and chicken TLR pathways: manual curation and computer-based orthology analysis. Mamm. Genome, 22, 130–138 (2011)GillespieM.ShamovskyV.D’EustachioP.Human and chicken TLR pathways: manual curation and computer-based orthology analysisMamm. Genome22130138201110.1007/s00335-010-9296-0303581221052677Search in Google Scholar
Godlewska R., Kuczkowski M., Wyszynska A., Klim J., Derlatka K., Wozniak-Biel A., Jagusztyn-Krynicka E.K.: Evaluation of a protective effect of in ovo delivered Campylobacter jejuni OMVs. Appl. Microbiol. Biotechnol. 100, 8855–8864 (2016)GodlewskaR.KuczkowskiM.WyszynskaA.KlimJ.DerlatkaK.Wozniak-BielA.Jagusztyn-KrynickaE.K.Evaluation of a protective effect of in ovo delivered Campylobacter jejuni OMVsAppl. Microbiol. Biotechnol.10088558864201610.1007/s00253-016-7699-x503566227383607Search in Google Scholar
Goodfellow J.A., Willison H.J.: Guillain-Barre syndrome: a century of progress. Nat. Rev. Neurol. 12, 723–731 (2016)GoodfellowJ.A.WillisonH.J.Guillain-Barre syndrome: a century of progressNat. Rev. Neurol.12723731201610.1038/nrneurol.2016.17227857121Search in Google Scholar
Guerry P., Poly F., Riddle M., Maue A.C., Chen Y.H., Monteiro M.A.: Campylobacter polysaccharide capsules: virulence and vaccines. Front. Cell Infect. Microbiol. 2, 7 (2012)GuerryP.PolyF.RiddleM.MaueA.C.ChenY.H.MonteiroM.A.Campylobacter polysaccharide capsules: virulence and vaccinesFront. Cell Infect. Microbiol.27201210.3389/fcimb.2012.00007341758822919599Search in Google Scholar
Han Z., Pielsticker C., Gerzova L., Rychlik I., Rautenschlein S.: The influence of age on Campylobacter jejuni infection in chicken. Dev. Comp. Immunol. 62, 58–71 (2016)HanZ.PielstickerC.GerzovaL.RychlikI.RautenschleinS.The influence of age on Campylobacter jejuni infection in chickenDev. Comp. Immunol.625871201610.1016/j.dci.2016.04.02027131855Search in Google Scholar
Havelaar A.H., Ivarsson S., Lofdahl M., Nauta M.J.: Estimating the true incidence of campylobacteriosis and salmonellosis in the European Union, 2009. Epidemiol. Infect. 141, 293–302 (2013)HavelaarA.H.IvarssonS.LofdahlM.NautaM.J.Estimating the true incidence of campylobacteriosis and salmonellosis in the European Union, 2009Epidemiol. Infect.141293302201310.1017/S0950268812000568915207222717051Search in Google Scholar
Havelaar A.H., Mangen M.J., de Koeijer A.A., Bogaardt M.J., Evers E.G., Jacobs-Reitsma W.F., van Pelt W., Wagenaar J.A., de Wit G.A., van der Zee H. i wsp.: Effectiveness and efficiency of controlling Campylobacter on broiler chicken meat. Risk. Anal. 27, 831–844 (2007)HavelaarA.H.MangenM.J.de KoeijerA.A.BogaardtM.J.EversE.G.Jacobs-ReitsmaW.F.van PeltW.WagenaarJ.A.de WitG.A.van der ZeeH.i wspEffectiveness and efficiency of controlling Campylobacter on broiler chicken meatRisk. Anal.27831844200710.1111/j.1539-6924.2007.00926.x17958495Search in Google Scholar
Hegazy W.A., Hensel M.: Salmonella enterica as a vaccine carrier. Future Microbiol. 7, 111–127 (2012)HegazyW.A.HenselM.Salmonella enterica as a vaccine carrierFuture Microbiol.7111127201210.2217/fmb.11.14422191450Search in Google Scholar
Hermans D., Pasmans F., Heyndrickx M., Van Immerseel F., Martel A., Van Deun K., Haesebrouck F.: A tolerogenic mucosal immune response leads to persistent Campylobacter jejuni colonization in the chicken gut. Crit. Rev. Microbiol. 38, 17–29 (2012)HermansD.PasmansF.HeyndrickxM.Van ImmerseelF.MartelA.Van DeunK.HaesebrouckF.A tolerogenic mucosal immune response leads to persistent Campylobacter jejuni colonization in the chicken gutCrit. Rev. Microbiol.381729201210.3109/1040841X.2011.61529821995731Search in Google Scholar
Hermans D., Van Steendam K., Verbrugghe E., Verlinden M., Martel A., Seliwiorstow T., Heyndrickx M., Haesebrouck F., De Zutter L., Deforce D. i wsp.: Passive immunization to reduce Campylobacter jejuni colonization and transmission in broiler chickens. Vet. Res. 45, 27 (2014)HermansD.Van SteendamK.VerbruggheE.VerlindenM.MartelA.SeliwiorstowT.HeyndrickxM.HaesebrouckF.De ZutterL.DeforceD.i wspPassive immunization to reduce Campylobacter jejuni colonization and transmission in broiler chickensVet. Res.4527201410.1186/1297-9716-45-27399651724589217Search in Google Scholar
Hickey T.E., Majam G., Guerry P.: Intracellular survival of Campylobacter jejuni in human monocytic cells and induction of apoptotic death by cytholethal distending toxin. Infect. Immun. 73, 5194–5197 (2005)HickeyT.E.MajamG.GuerryP.Intracellular survival of Campylobacter jejuni in human monocytic cells and induction of apoptotic death by cytholethal distending toxinInfect. Immun.7351945197200510.1128/IAI.73.8.5194-5197.2005120126916041038Search in Google Scholar
Hu Y., Huang J., Jiao X.A.: Screening of genes expressed in vivo during interaction between chicken and Campylobacter jejuni. J. Microbiol. Biotechnol. 24, 217–224 (2014)HuY.HuangJ.JiaoX.A.Screening of genes expressed in vivo during interaction between chicken and Campylobacter jejuniJ. Microbiol. Biotechnol.24217224201410.4014/jmb.1308.0809224225374Search in Google Scholar
Hu Y., Huang J., Li Q., Shang Y., Ren F., Jiao Y., Liu Z., Pan Z., Jiao X.A.: Use of in vivo-induced antigen technology to identify in vivo-expressed genes of Campylobacter jejuni during human infection. J. Microbiol. Biotechnol. 24, 363–370 (2014)HuY.HuangJ.LiQ.ShangY.RenF.JiaoY.LiuZ.PanZ.JiaoX.A.Use of in vivo-induced antigen technology to identify in vivo-expressed genes of Campylobacter jejuni during human infectionJ. Microbiol. Biotechnol.24363370201410.4014/jmb.1311.1101924346471Search in Google Scholar
Humphrey S., Chaloner G., Kemmett K., Davidson N., Williams N., Kipar A., Humphrey T., Wigley P.: Campylobacter jejuni is not merely a commensal in commercial broiler chickens and affects bird welfare. MBio. 5, e01364-01314 (2014)HumphreyS.ChalonerG.KemmettK.DavidsonN.WilliamsN.KiparA.HumphreyT.WigleyP.Campylobacter jejuni is not merely a commensal in commercial broiler chickens and affects bird welfareMBio.5e0136401314201410.1128/mBio.01364-14416124624987092Search in Google Scholar
Ijaz U.Z., Sivaloganathan L., Mckenna A., Richmond A., Kelly C., Linton M., Stratakos A., Lavery U., Elmi A., Wren B. i wsp.: Comprehensive longitudinal microbiome analysis of the chicken cecum reveals a shift from competitive to environmental drivers and a window of opportunity for Campylobacter. Front Microbiol. 15, 2452 (2018)IjazU.Z.SivaloganathanL.MckennaA.RichmondA.KellyC.LintonM.StratakosA.LaveryU.ElmiA.WrenB.i wspComprehensive longitudinal microbiome analysis of the chicken cecum reveals a shift from competitive to environmental drivers and a window of opportunity for CampylobacterFront Microbiol.152452201810.3389/fmicb.2018.02452619631330374341Search in Google Scholar
Jain R., Singh S., Verma S.K., Jain A.: Genome-wide prediction of potential vaccine candidates for Campylobacter jejuni using reverse vaccinology. Interdiscip. Sci. 11, 337–347 (2019)JainR.SinghS.VermaS.K.JainA.Genome-wide prediction of potential vaccine candidates for Campylobacter jejuni using reverse vaccinologyInterdiscip. Sci.11337347201910.1007/s12539-017-0260-529128919Search in Google Scholar
Johnson J.G., Yuhas C., McQuade T.J., Larsen M.J., DiRita V.J.: Narrow-spectrum inhibitors of Campylobacter jejuni flagellar expression and growth. Antimicrob. Agents Chemother. 59, 3880–3886 (2015)JohnsonJ.G.YuhasC.McQuadeT.J.LarsenM.J.DiRitaV.J.Narrow-spectrum inhibitors of Campylobacter jejuni flagellar expression and growthAntimicrob. Agents Chemother.5938803886201510.1128/AAC.04926-14446870425870073Search in Google Scholar
Kaakoush N.O., Castano-Rodriguez N., Mitchell H.M., Man S.M.: Global epidemiology of Campylobacter infection. Clin. Microbiol. Rev. 28, 687–720 (2015)KaakoushN.O.Castano-RodriguezN.MitchellH.M.ManS.M.Global epidemiology of Campylobacter infectionClin. Microbiol. Rev.28687720201510.1128/CMR.00006-15446268026062576Search in Google Scholar
Kirkpatrick B.D., Tribble D.R.: Update on human Campylobacter jejuni infections. Curr. Opin. Gastroenterol. 27, 1–7 (2011)KirkpatrickB.D.TribbleD.R.Update on human Campylobacter jejuni infectionsCurr. Opin. Gastroenterol.2717201110.1097/MOG.0b013e328341376321124212Search in Google Scholar
Kobierecka P.A., Olech B., Ksiazek M., Derlatka K., Adamska I., Majewski P.M., Jagusztyn-Krynicka E.K., Wyszynska A.K.: Cell Wall Anchoring of the Campylobacter antigens to Lactococcus lactis. Front. Microbiol. 7, 165 (2016)KobiereckaP.A.OlechB.KsiazekM.DerlatkaK.AdamskaI.MajewskiP.M.Jagusztyn-KrynickaE.K.WyszynskaA.K.Cell Wall Anchoring of the Campylobacter antigens to Lactococcus lactisFront. Microbiol.7165201610.3389/fmicb.2016.00165475769526925040Search in Google Scholar
Kobierecka P.A., Wyszynska A.K., Aleksandrzak-Piekarczyk T., Kuczkowski M., Tuzimek A., Piotrowska W., Gorecki A., Adamska I., Wieliczko A., Bardowski J. i wsp.: In vitro characteristics of Lactobacillus spp. strains isolated from the chicken digestive tract and their role in the inhibition of Campylobacter colonization. MicrobiologyOpen, 6, (2017)KobiereckaP.A.WyszynskaA.K.Aleksandrzak-PiekarczykT.KuczkowskiM.TuzimekA.PiotrowskaW.GoreckiA.AdamskaI.WieliczkoA.BardowskiJ.i wspIn vitro characteristics of Lactobacillus spp. strains isolated from the chicken digestive tract and their role in the inhibition of Campylobacter colonizationMicrobiologyOpen6201710.1002/mbo3.512563515528736979Search in Google Scholar
Kopp E., Medzhitov R.: Recognition of microbial infection by Toll-like receptors. Curr. Opin. Immunol. 15, 396–401 (2003)KoppE.MedzhitovR.Recognition of microbial infection by Toll-like receptorsCurr. Opin. Immunol.15396401200310.1016/S0952-7915(03)00080-312900270Search in Google Scholar
Korsak D., Mackiw E., Rozynek E., Zylowska M.: Prevalence of Campylobacter spp. in retail chicken, turkey, pork, and beef meat in Poland between 2009 and 2013. J. Food. Prot. 78, 1024–1028 (2015)KorsakD.MackiwE.RozynekE.ZylowskaM.Prevalence of Campylobacter spp. in retail chicken, turkey, pork, and beef meat in Poland between 2009 and 2013J. Food. Prot.7810241028201510.4315/0362-028X.JFP-14-35325951401Search in Google Scholar
Kumar A., Drozd M., Pina-Mimbela R., Xu X., Helmy Y.A., Antwi J., Fuchs J.R., Nislow C., Templeton J., Blackall P.J. i wsp.: Novel anti-Campylobacter compounds identified using high throughput screening of a pre-selected enriched small molecules library. Front. Microbiol. 7, 405 (2016)KumarA.DrozdM.Pina-MimbelaR.XuX.HelmyY.A.AntwiJ.FuchsJ.R.NislowC.TempletonJ.BlackallP.J.i wspNovel anti-Campylobacter compounds identified using high throughput screening of a pre-selected enriched small molecules libraryFront. Microbiol.7405201610.3389/fmicb.2016.00405482185627092106Search in Google Scholar
Lacharme-Lora L., Chaloner G., Gilroy R., Humphrey S., Gibbs K., Jopson S., Wright E., Reid W., Ketley J., Humphrey T. i wsp.: B lymphocytes play a limited role in clearance of Campylobacter jejuni from the chicken intestinal tract. Sci. Rep. 7, 45090 (2017)Lacharme-LoraL.ChalonerG.GilroyR.HumphreyS.GibbsK.JopsonS.WrightE.ReidW.KetleyJ.HumphreyT.i wspB lymphocytes play a limited role in clearance of Campylobacter jejuni from the chicken intestinal tractSci. Rep.745090201710.1038/srep45090536281028332622Search in Google Scholar
Laniewski P., Kuczkowski M., Chrzastek K., Wozniak A., Wyszynska A., Wieliczko A., Jagusztyn-Krynicka E.K.: Evaluation of the immunogenicity of Campylobacter jejuni CjaA protein delivered by Salmonella enterica sv. Typhimurium strain with regulated delayed attenuation in chickens. World J. Microbiol. Biotechnol. 30, 281–292 (2014)LaniewskiP.KuczkowskiM.ChrzastekK.WozniakA.WyszynskaA.WieliczkoA.Jagusztyn-KrynickaE.K.Evaluation of the immunogenicity of Campylobacter jejuni CjaA protein delivered by Salmonella enterica sv. Typhimurium strain with regulated delayed attenuation in chickensWorld J. Microbiol. Biotechnol.30281292201410.1007/s11274-013-1447-5388047223913025Search in Google Scholar
Layton S.L., Morgan M.J., Cole K., Kwon Y.M., Donoghue D.J., Hargis B.M., Pumford N.R.: Evaluation of Salmonella-vectored Campylobacter peptide epitopes for reduction of Campylobacter jejuni in broiler chickens. Clin. Vaccine Immunol. 18, 449–454 (2011)LaytonS.L.MorganM.J.ColeK.KwonY.M.DonoghueD.J.HargisB.M.PumfordN.R.Evaluation of Salmonella-vectored Campylobacter peptide epitopes for reduction of Campylobacter jejuni in broiler chickensClin. Vaccine Immunol.18449454201110.1128/CVI.00379-10306739021177910Search in Google Scholar
Lee M.D., Newell D.G.: Campylobacter in poultry: filling an ecological niche. Avian Dis. 50, 1–9 (2006)LeeM.D.NewellD.G.Campylobacter in poultry: filling an ecological nicheAvian Dis.5019200610.1637/7474-111605R.116617973Search in Google Scholar
Li W., Watarai S., Iwasaki T., Kodama H.: Suppression of Salmonella enterica serovar Enteritidis excretion by intraocular vaccination with fimbriae proteins incorporated in liposomes. Dev. Comp. Immunol. 28, 29–38 (2004)LiW.WataraiS.IwasakiT.KodamaH.Suppression of Salmonella enterica serovar Enteritidis excretion by intraocular vaccination with fimbriae proteins incorporated in liposomesDev. Comp. Immunol.282938200410.1016/S0145-305X(03)00086-712962980Search in Google Scholar
List of Prokaryotic names with Standing in Nomenclature: LPSN. https://www.bacterio.net/campylobacter.html (30.09.2019)List of Prokaryotic names with Standing in Nomenclature: LPSNhttps://www.bacterio.net/campylobacter.html (30.09.2019)Search in Google Scholar
Łaniewski P. L., M. Wyszyńska, A. Majewski, P. Godlewska, R. Jagusztyn-Krynicka, E.K.: Assessment of chicken protection against Campylobacter jejuni infection by immunization with avirulent Salmonella enterica sv. Typhimurium strain producing Campylobacter CjaD/Pal protein. Vaccine: Develop. Therapy, 2, 43–50 (2012)ŁaniewskiP.L.M.WyszyńskaA.MajewskiP.GodlewskaR.Jagusztyn-KrynickaE.K.Assessment of chicken protection against Campylobacter jejuni infection by immunization with avirulent Salmonella enterica sv. Typhimurium strain producing Campylobacter CjaD/Pal proteinVaccine: Develop. Therapy243502012Search in Google Scholar
Marder Mph E., Griffin P., Cieslak P., Dunn J., Hurd S., Jervis R.: Preliminary incidence and trends of infections with pathogens transmitted commonly through food – Foodborne Diseases Active Surveillance Network, 10 U.S. Sites, 2006–2017. Morb. Mortal. Wkly. Rep. 67, 324–328 (2018)Marder MphE.GriffinP.CieslakP.DunnJ.HurdS.JervisR.Preliminary incidence and trends of infections with pathogens transmitted commonly through food – Foodborne Diseases Active Surveillance Network, 10 U.S. Sites, 2006–2017Morb. Mortal. Wkly. Rep.67324328201810.15585/mmwr.mm6711a3586820229565841Search in Google Scholar
Mehla K., Ramana J.: Surface proteome mining for identification of potential vaccine candidates against Campylobacter jejuni: an in silico approach. Funct. Integr. Genomics, 17, 27–37 (2017)MehlaK.RamanaJ.Surface proteome mining for identification of potential vaccine candidates against Campylobacter jejuni: an in silico approachFunct. Integr. Genomics172737201710.1007/s10142-016-0530-z27778110Search in Google Scholar
Meric G., Yahara K., Mageiros L., Pascoe B., Maiden M.C., Jolley K.A., Sheppard S.K.: A reference pan-genome approach to comparative bacterial genomics: identification of novel epidemiological markers in pathogenic Campylobacter. PLoS One, 9, e92798 (2014)MericG.YaharaK.MageirosL.PascoeB.MaidenM.C.JolleyK.A.SheppardS.K.A reference pan-genome approach to comparative bacterial genomics: identification of novel epidemiological markers in pathogenic CampylobacterPLoS One9e92798201410.1371/journal.pone.0092798396802624676150Search in Google Scholar
Meunier M., Guyard-Nicodeme M., Dory D., Chemaly M.: Control strategies against Campylobacter at the poultry production level: biosecurity measures, feed additives and vaccination. J. Appl. Microbiol. 120, 1139–1173 (2016)MeunierM.Guyard-NicodemeM.DoryD.ChemalyM.Control strategies against Campylobacter at the poultry production level: biosecurity measures, feed additives and vaccinationJ. Appl. Microbiol.12011391173201610.1111/jam.1298626541243Search in Google Scholar
Meunier M., Guyard-Nicodeme M., Hirchaud E., Parra A., Chemaly M., Dory D.: Identification of novel vaccine candidates against Campylobacter through reverse vaccinology. J. Immunol. Res. 2016, 5715790 (2016)MeunierM.Guyard-NicodemeM.HirchaudE.ParraA.ChemalyM.DoryD.Identification of novel vaccine candidates against Campylobacter through reverse vaccinologyJ. Immunol. Res.20165715790201610.1155/2016/5715790492800927413761Search in Google Scholar
Meunier M., Guyard-Nicodeme M., Vigouroux E., Poezevara T., Beven V., Quesne S., Bigault L., Amelot M., Dory D., Chemaly M.: Promising new vaccine candidates against Campylobacter in broilers. PLoS One, 12, e0188472 (2017)MeunierM.Guyard-NicodemeM.VigourouxE.PoezevaraT.BevenV.QuesneS.BigaultL.AmelotM.DoryD.ChemalyM.Promising new vaccine candidates against Campylobacter in broilersPLoS One12e0188472201710.1371/journal.pone.0188472570350629176789Search in Google Scholar
Murray C.J., Vos T., Lozano R., Naghavi M., Flaxman A.D., Michaud C., Ezzati M., Shibuya K., Salomon J.A., Abdalla S. i wsp.: Disability-adjusted life years (DALYs) for 291 diseases and injuries in 21 regions, 1990–2010: a systematic analysis for the Global Burden of Disease Study 2010. Lancet, 380, 2197–2223 (2012)MurrayC.J.VosT.LozanoR.NaghaviM.FlaxmanA.D.MichaudC.EzzatiM.ShibuyaK.SalomonJ.A.AbdallaS.i wspDisability-adjusted life years (DALYs) for 291 diseases and injuries in 21 regions, 1990–2010: a systematic analysis for the Global Burden of Disease Study 2010Lancet38021972223201210.1016/S0140-6736(12)61689-423245608Search in Google Scholar
Neal-McKinney J.M., Lu X., Duong T., Larson C.L., Call D.R., Shah D.H., Konkel M.E.: Production of organic acids by probiotic lactobacilli can be used to reduce pathogen load in poultry. PLoS One, 7, e43928 (2012)Neal-McKinneyJ.M.LuX.DuongT.LarsonC.L.CallD.R.ShahD.H.KonkelM.E.Production of organic acids by probiotic lactobacilli can be used to reduce pathogen load in poultryPLoS One7e43928201210.1371/journal.pone.0043928343345822962594Search in Google Scholar
Negash T., al-Garib S.O., Gruys E.: Comparison of in ovo and post-hatch vaccination with particular reference to infectious bursal disease. A review. Vet. Q. 26, 76–87 (2004)NegashT.al-GaribS.O.GruysE.Comparison of in ovo and post-hatch vaccination with particular reference to infectious bursal disease. A reviewVet. Q.267687200410.1080/01652176.2004.969517015230052Search in Google Scholar
Newell D.G., Elvers K.T., Dopfer D., Hansson I., Jones P., James S., Gittins J., Stern N.J., Davies R., Connerton I. i wsp.: Biosecurity-based interventions and strategies to reduce Campylobacter spp. on poultry farms. Appl. Environ. Microbiol. 77, 8605–8614 (2011)NewellD.G.ElversK.T.DopferD.HanssonI.JonesP.JamesS.GittinsJ.SternN.J.DaviesR.ConnertonI.i wspBiosecurity-based interventions and strategies to reduce Campylobacter spp. on poultry farmsAppl. Environ. Microbiol.7786058614201110.1128/AEM.01090-10323307321984249Search in Google Scholar
Nothaft H., Davis B., Lock Y.Y., Perez-Munoz M.E., Vinogradov E., Walter J., Coros C., Szymanski C.M.: Engineering the Campylobacter jejuni N-glycan to create an effective chicken vaccine. Sci. Rep. 6, 26511 (2016)NothaftH.DavisB.LockY.Y.Perez-MunozM.E.VinogradovE.WalterJ.CorosC.SzymanskiC.M.Engineering the Campylobacter jejuni N-glycan to create an effective chicken vaccineSci. Rep.626511201610.1038/srep26511487952127221144Search in Google Scholar
Nothaft H., Perez-Munoz M.E., Gouveia G.J., Duar R.M., Wanford J.J., Lango-Scholey L., Panagos C.G., Srithayakumar V., Plastow G.S., Coros C. i wsp.: Coadministration of the Campylobacter jejuni N-Glycan-Based vaccine with probiotics improves vaccine performance in broiler chickens. Appl. Environ. Microbiol. 83, (2017)NothaftH.Perez-MunozM.E.GouveiaG.J.DuarR.M.WanfordJ.J.Lango-ScholeyL.PanagosC.G.SrithayakumarV.PlastowG.S.CorosC.i wspCoadministration of the Campylobacter jejuni N-Glycan-Based vaccine with probiotics improves vaccine performance in broiler chickensAppl. Environ. Microbiol.83201710.1128/AEM.01523-17569141228939610Search in Google Scholar
Patel B.A., Gomis S., Dar A., Willson P.J., Babiuk L.A., Potter A., Mutwiri G., Tikoo S.K.: Oligodeoxynucleotides containing CpG motifs (CpG-ODN) predominantly induce Th1-type immune response in neonatal chicks. Dev. Comp. Immunol. 32, 1041–1049 (2008)PatelB.A.GomisS.DarA.WillsonP.J.BabiukL.A.PotterA.MutwiriG.TikooS.K.Oligodeoxynucleotides containing CpG motifs (CpG-ODN) predominantly induce Th1-type immune response in neonatal chicksDev. Comp. Immunol.3210411049200810.1016/j.dci.2008.02.00718395255Search in Google Scholar
Paul N.C., Al-Adwani S., Crespo R., Shah D.H.: Evaluation of passive immunotherapeutic efficacy of hyperimmunized egg yolk powder against intestinal colonization of Campylobacter jejuni in chickens. Poult. Sci. 93, 2779–2787 (2014)PaulN.C.Al-AdwaniS.CrespoR.ShahD.H.Evaluation of passive immunotherapeutic efficacy of hyperimmunized egg yolk powder against intestinal colonization of Campylobacter jejuni in chickensPoult. Sci.9327792787201410.3382/ps.2014-0423425214556Search in Google Scholar
Peebles E.D.: In ovo applications in poultry: A review. Poult. Sci. 97, 2322–2338 (2018)PeeblesE.D.In ovo applications in poultry: A reviewPoult. Sci.9723222338201810.3382/ps/pey08129617899Search in Google Scholar
Platts-Mills J.A., Kosek M.: Update on the burden of Campylobacter in developing countries. Curr Opin. Infect. Dis. 27, 444–450 (2014)Platts-MillsJ.A.KosekM.Update on the burden of Campylobacter in developing countriesCurr Opin. Infect. Dis.27444450201410.1097/QCO.0000000000000091454201825023741Search in Google Scholar
Price N.L., Goyette-Desjardins G., Nothaft H., Valguarnera E., Szymanski C.M., Segura M., Feldman M.F.: Glycoengineered Outer Membrane Vesicles: a novel platform for bacterial vaccines. Sci. Rep. 6, 24931 (2016)PriceN.L.Goyette-DesjardinsG.NothaftH.ValguarneraE.SzymanskiC.M.SeguraM.FeldmanM.F.Glycoengineered Outer Membrane Vesicles: a novel platform for bacterial vaccinesSci. Rep.624931201610.1038/srep24931484030427103188Search in Google Scholar
Radomska K.A., Vaezirad M.M., Verstappen K.M., Wosten M.M., Wagenaar J.A., van Putten J.P.: Chicken immune response after in ovo immunization with chimeric TLR5 activating flagellin of Campylobacter jejuni. PLoS One, 11, e0164837 (2016)RadomskaK.A.VaeziradM.M.VerstappenK.M.WostenM.M.WagenaarJ.A.van PuttenJ.P.Chicken immune response after in ovo immunization with chimeric TLR5 activating flagellin of Campylobacter jejuniPLoS One11e0164837201610.1371/journal.pone.0164837507079627760175Search in Google Scholar
Robyn J., Rasschaert G., Pasmans F., Heyndrickx M.: Thermotolerant Campylobacter during broiler rearing: risk factors and intervention. Compr. Rev. Food Sci. F. 14, 81–105 (2015)RobynJ.RasschaertG.PasmansF.HeyndrickxM.Thermotolerant Campylobacter during broiler rearing: risk factors and interventionCompr. Rev. Food Sci. F.1481105201510.1111/1541-4337.1212433401809Search in Google Scholar
Rollins S.M., Peppercorn A., Hang L., Hillman J.D., Calderwood S.B., Handfield M., Ryan E.T.: In vivo induced antigen technology (IVIAT). Cell Microbiol., 7, 1–9 (2005)RollinsS.M.PeppercornA.HangL.HillmanJ.D.CalderwoodS.B.HandfieldM.RyanE.T.In vivo induced antigen technology (IVIAT)Cell Microbiol.719200510.1111/j.1462-5822.2004.00477.x15617518Search in Google Scholar
Romero E.L., Morilla M.J.: Topical and mucosal liposomes for vaccine delivery. Wiley Interdiscip. Rev. Nanomed. Nanobiotechnol. 3, 356–375 (2011)RomeroE.L.MorillaM.J.Topical and mucosal liposomes for vaccine deliveryWiley Interdiscip. Rev. Nanomed. Nanobiotechnol.3356375201110.1002/wnan.13121360692Search in Google Scholar
Rosenquist H., Nielsen N.L., Sommer H.M., Norrung B., Christensen B.B.: Quantitative risk assessment of human campylobacteriosis associated with thermophilic Campylobacter species in chickens. Int. J. Food Microbiol. 83, 87–103 (2003)RosenquistH.NielsenN.L.SommerH.M.NorrungB.ChristensenB.B.Quantitative risk assessment of human campylobacteriosis associated with thermophilic Campylobacter species in chickensInt. J. Food Microbiol.8387103200310.1016/S0168-1605(02)00317-3Search in Google Scholar
Sadkowska-Todys M., Kucharczyk B.: Campylobacteriosis in Poland in 2013 and 2014. Przegl. Epidemiol. 70, 209–215 (2016)Sadkowska-TodysM.KucharczykB.Campylobacteriosis in Poland in 2013 and 2014Przegl. Epidemiol.702092152016Search in Google Scholar
Sahin O., Luo N., Huang S., Zhang Q.: Effect of Campylobacter-specific maternal antibodies on Campylobacter jejuni colonization in young chickens. Appl. Environ. Microbiol. 69, 5372–5379 (2003)SahinO.LuoN.HuangS.ZhangQ.Effect of Campylobacter-specific maternal antibodies on Campylobacter jejuni colonization in young chickensAppl. Environ. Microbiol.6953725379200310.1128/AEM.69.9.5372-5379.200319490812957925Search in Google Scholar
Saint-Cyr M.J., Guyard-Nicodeme M., Messaoudi S., Chemaly M., Cappelier J.M., Dousset X., Haddad N.: Recent advances in screening of anti-Campylobacter activity in probiotics for use in poultry. Front. Microbiol. 7, 553 (2016)Saint-CyrM.J.Guyard-NicodemeM.MessaoudiS.ChemalyM.CappelierJ.M.DoussetX.HaddadN.Recent advances in screening of anti-Campylobacter activity in probiotics for use in poultryFront. Microbiol.7553201610.3389/fmicb.2016.00553488583027303366Search in Google Scholar
Schmidt C.S., Morrow W.J., Sheikh N.A.: Smart adjuvants. Expert Rev Vaccines, 6, 391–400 (2007)SchmidtC.S.MorrowW.J.SheikhN.A.Smart adjuvantsExpert Rev Vaccines6391400200710.1586/14760584.6.3.39117542754Search in Google Scholar
Schwendener R.A.: Liposomes as vaccine delivery systems: a review of the recent advances. Ther. Adv. Vaccines, 2, 159–182 (2014)SchwendenerR.A.Liposomes as vaccine delivery systems: a review of the recent advancesTher. Adv. Vaccines2159182201410.1177/2051013614541440421247425364509Search in Google Scholar
Silva J., Leite D., Fernandes M., Mena C., Gibbs P.A., Teixeira P.: Campylobacter spp. as a foodborne pathogen: a review. Front. Microbiol. 2, 200 (2011)SilvaJ.LeiteD.FernandesM.MenaC.GibbsP.A.TeixeiraP.Campylobacter spp. as a foodborne pathogen: a reviewFront. Microbiol.2200201110.3389/fmicb.2011.00200318064321991264Search in Google Scholar
Skanseng B., Trosvik P., Zimonja M., Johnsen G., Bjerrum L., Pedersen K., Wallin N., Rudi K.: Co-infection dynamics of a major food-borne zoonotic pathogen in chicken. PLoS Pathog. 3, e175 (2007)SkansengB.TrosvikP.ZimonjaM.JohnsenG.BjerrumL.PedersenK.WallinN.RudiK.Co-infection dynamics of a major food-borne zoonotic pathogen in chickenPLoS Pathog.3e175200710.1371/journal.ppat.0030175207790418020703Search in Google Scholar
Skarp C.P.A., Hanninen M.L., Rautelin H.I.K.: Campylobacteriosis: the role of poultry meat. Clin Microbiol. Infect. 22, 103–109 (2016)SkarpC.P.A.HanninenM.L.RautelinH.I.K.Campylobacteriosis: the role of poultry meatClin Microbiol. Infect.22103109201610.1016/j.cmi.2015.11.01926686808Search in Google Scholar
Stavropoulos P.G., Soura E., Kanelleas A., Katsambas A., Antoniou C.: Reactive arthritis. J. Eur. Acad. Dermatol. Venereol. 29, 415–424 (2015)StavropoulosP.G.SouraE.KanelleasA.KatsambasA.AntoniouC.Reactive arthritisJ. Eur. Acad. Dermatol. Venereol.29415424201510.1111/jdv.1274125199646Search in Google Scholar
Su B.S., Chiu H.H., Lin C.C., Shien J.H., Yin H.S., Lee L.H.: Adjuvant activity of chicken interleukin-12 co-administered with infectious bursal disease virus recombinant VP2 antigen in chickens. Vet. Immunol. Immunopathol. 139, 167–175 (2011)SuB.S.ChiuH.H.LinC.C.ShienJ.H.YinH.S.LeeL.H.Adjuvant activity of chicken interleukin-12 co-administered with infectious bursal disease virus recombinant VP2 antigen in chickensVet. Immunol. Immunopathol.139167175201110.1016/j.vetimm.2010.10.00121035196Search in Google Scholar
Szymanski C.M., Logan S.M., Linton D., Wren B.W.: Campylobacter – a tale of two protein glycosylation systems. Trends Microbiol. 11, 233–238 (2003)SzymanskiC.M.LoganS.M.LintonD.WrenB.W.Campylobacter – a tale of two protein glycosylation systemsTrends Microbiol.11233238200310.1016/S0966-842X(03)00079-912781527Search in Google Scholar
Terra V.S., Mills D.C., Yates L.E., Abouelhadid S., Cuccui J., Wren B.W.: Recent developments in bacterial protein glycan coupling technology and glycoconjugate vaccine design. J. Med. Microbiol. 61, 919–926 (2012)TerraV.S.MillsD.C.YatesL.E.AbouelhadidS.CuccuiJ.WrenB.W.Recent developments in bacterial protein glycan coupling technology and glycoconjugate vaccine designJ. Med. Microbiol.61919926201210.1099/jmm.0.039438-022516134Search in Google Scholar
Theoret J.R., Cooper K.K., Zekarias B., Roland K.L., Law B.F., Curtiss R., 3rd, Joens L.A.: The Campylobacter jejuni Dps homologue is important for in vitro biofilm formation and cecal colonization of poultry and may serve as a protective antigen for vaccination. Clin. Vaccine Immunol. 19, 1426–1431 (2012)TheoretJ.R.CooperK.K.ZekariasB.RolandK.L.LawB.F.CurtissR.3rdJoensL.A.The Campylobacter jejuni Dps homologue is important for in vitro biofilm formation and cecal colonization of poultry and may serve as a protective antigen for vaccinationClin. Vaccine Immunol.1914261431201210.1128/CVI.00151-12342839122787197Search in Google Scholar
Thibodeau A., Fravalo P., Yergeau E., Arsenault J., Lahaye L., Letellier A.: Chicken caecal microbiome modifications induced by Campylobacter jejuni colonization and by a non-antibiotic feed additive. PLoS One, 10, e0131978 (2015)ThibodeauA.FravaloP.YergeauE.ArsenaultJ.LahayeL.LetellierA.Chicken caecal microbiome modifications induced by Campylobacter jejuni colonization and by a non-antibiotic feed additivePLoS One10e0131978201510.1371/journal.pone.0131978449864326161743Search in Google Scholar
Toro H., Tang D.C., Suarez D.L., Sylte M.J., Pfeiffer J., Van Kampen K.R.: Protective avian influenza in ovo vaccination with non-replicating human adenovirus vector. Vaccine, 25, 2886–2891 (2007)ToroH.TangD.C.SuarezD.L.SylteM.J.PfeifferJ.Van KampenK.R.Protective avian influenza in ovo vaccination with non-replicating human adenovirus vectorVaccine2528862891200710.1016/j.vaccine.2006.09.047273685917055126Search in Google Scholar
Wacker M., Linton D., Hitchen P.G., Nita-Lazar M., Haslam S.M., North S.J., Panico M., Morris H.R., Dell A., Wren B.W. i wsp.: N-linked glycosylation in Campylobacter jejuni and its functional transfer into E. coli. Science, 298, 1790–1793 (2002)WackerM.LintonD.HitchenP.G.Nita-LazarM.HaslamS.M.NorthS.J.PanicoM.MorrisH.R.DellA.WrenB.W.i wspN-linked glycosylation in Campylobacter jejuni and its functional transfer into E. coliScience29817901793200210.1126/science.298.5599.179012459590Search in Google Scholar
Watarai S., Iwase T., Tajima T., Yuba E., Kono K.: Efficiency of pH-sensitive fusogenic polymer-modified liposomes as a vaccine carrier. Sci.World J. 2013, 903234 (2013)WataraiS.IwaseT.TajimaT.YubaE.KonoK.Efficiency of pH-sensitive fusogenic polymer-modified liposomes as a vaccine carrierSci.World J.2013903234201310.1155/2013/903234357562223431260Search in Google Scholar
Watson D.S., Endsley A.N., Huang L.: Design considerations for liposomal vaccines: influence of formulation parameters on antibody and cell-mediated immune responses to liposome associated antigens. Vaccine, 30, 2256–2272 (2012)WatsonD.S.EndsleyA.N.HuangL.Design considerations for liposomal vaccines: influence of formulation parameters on antibody and cell-mediated immune responses to liposome associated antigensVaccine3022562272201210.1016/j.vaccine.2012.01.070329688522306376Search in Google Scholar
Watson R.O., Galan J.E.: Campylobacter jejuni survives within epithelial cells by avoiding delivery to lysosomes. PLoS Pathog. 4, e14 (2008)WatsonR.O.GalanJ.E.Campylobacter jejuni survives within epithelial cells by avoiding delivery to lysosomesPLoS Pathog.4e14200810.1371/journal.ppat.0040014232327918225954Search in Google Scholar
Williams L.K., Sait L.C., Trantham E.K., Cogan T.A., Humphrey T.J.: Campylobacter infection has different outcomes in fast – and slow-growing broiler chickens. Avian Dis. 57, 238–241 (2013)WilliamsL.K.SaitL.C.TranthamE.K.CoganT.A.HumphreyT.J.Campylobacter infection has different outcomes in fast – and slow-growing broiler chickensAvian Dis.57238241201310.1637/10442-110212-Reg.124689180Search in Google Scholar
Wilson D.L., Rathinam V.A., Qi W., Wick L.M., Landgraf J., Bell J.A., Plovanich-Jones A., Parrish J., Finley R.L., Mansfield L.S. i wsp.: Genetic diversity in Campylobacter jejuni is associated with differential colonization of broiler chickens and C57BL/6J IL10-deficient mice. Microbiology, 156, 2046–2057 (2010)WilsonD.L.RathinamV.A.QiW.WickL.M.LandgrafJ.BellJ.A.Plovanich-JonesA.ParrishJ.FinleyR.L.MansfieldL.S.i wspGenetic diversity in Campylobacter jejuni is associated with differential colonization of broiler chickens and C57BL/6J IL10-deficient miceMicrobiology15620462057201010.1099/mic.0.035717-0306867620360176Search in Google Scholar
World Health Organisation: Global priority list of antibiotic-resistant bacteria to guide research, discovery, and development of new antibiotics. https://www.who.int/medicines/publications/global-priority-list-antibiotic-resistant-bacteria/en/ (30.09.2019)World Health OrganisationGlobal priority list of antibiotic-resistant bacteria to guide research, discovery, and development of new antibioticshttps://www.who.int/medicines/publications/global-priority-list-antibiotic-resistant-bacteria/en/ (30.09.2019)Search in Google Scholar
Wyszynska A., Kobierecka P., Bardowski J., Jagusztyn-Krynicka E.K.: Lactic acid bacteria – 20 years exploring their potential as live vectors for mucosal vaccination. Appl. Microbiol. Biotechnol. 99, 2967–2977 (2015)WyszynskaA.KobiereckaP.BardowskiJ.Jagusztyn-KrynickaE.K.Lactic acid bacteria – 20 years exploring their potential as live vectors for mucosal vaccinationAppl. Microbiol. Biotechnol.9929672977201510.1007/s00253-015-6498-0436518225750046Search in Google Scholar
Wyszynska A., Raczko A., Lis M., Jagusztyn-Krynicka E.K.: Oral immunization of chickens with avirulent Salmonella vaccine strain carrying C. jejuni 72Dz/92 cjaA gene elicits specific humoral immune response associated with protection against challenge with wild-type Campylobacter. Vaccine, 22, 1379–1389 (2004)WyszynskaA.RaczkoA.LisM.Jagusztyn-KrynickaE.K.Oral immunization of chickens with avirulent Salmonella vaccine strain carrying C. jejuni 72Dz/92 cjaA gene elicits specific humoral immune response associated with protection against challenge with wild-type CampylobacterVaccine2213791389200410.1016/j.vaccine.2003.11.00115063560Search in Google Scholar
Wyszynska A., Zycka J., Godlewska R., Jagusztyn-Krynicka E.K.: The Campylobacter jejuni/coli cjaA (cj0982c) gene encodes an N-glycosylated lipoprotein localized in the inner membrane. Curr. Microbiol. 57, 181–188 (2008)WyszynskaA.ZyckaJ.GodlewskaR.Jagusztyn-KrynickaE.K.The Campylobacter jejuni/coli cjaA (cj0982c) gene encodes an N-glycosylated lipoprotein localized in the inner membraneCurr. Microbiol.57181188200810.1007/s00284-008-9171-318584243Search in Google Scholar
Yaguchi K., Ohgitani T., Noro T., Kaneshige T., Shimizu Y.: Vaccination of chickens with liposomal inactivated avian pathogenic Escherichia coli (APEC) vaccine by eye drop or coarse spray administration. Avian Dis. 53, 245–249 (2009)YaguchiK.OhgitaniT.NoroT.KaneshigeT.ShimizuY.Vaccination of chickens with liposomal inactivated avian pathogenic Escherichia coli (APEC) vaccine by eye drop or coarse spray administrationAvian Dis.53245249200910.1637/8475-092908-Reg.119630231Search in Google Scholar
Zeng X., Xu F., Lin J.: Development and Evaluation of CmeC Subunit Vaccine against Campylobacter jejuni. J. Vaccines Vaccin. 1, (2010)ZengX.XuF.LinJ.Development and Evaluation of CmeC Subunit Vaccine against Campylobacter jejuniJ. Vaccines Vaccin12010Search in Google Scholar
