This work is licensed under the Creative Commons Attribution-NonCommercial-NoDerivatives 3.0 License.
Andersen A.A., Vanrompay D.: Avian chlamydiosis. Rev Sci Tech Off Int Epiz 2000, 19, 396–404, doi: 10.20506/rst.19.2.1223.AndersenA.A.VanrompayD.Avian chlamydiosis20001939640410.20506/rst.19.2.1223Open DOISearch in Google Scholar
Bachmann N.L., Polkinghorne A., Timms P.: Chlamydia genomics: Providing novel insights into chlamydial biology. Trends Microbiol 2014, 22, 464–472, doi: 10.1016/j.tim. 2014.04.013.BachmannN.L.PolkinghorneA.TimmsP.Chlamydia genomics: Providing novel insights into chlamydial biology20142246447210.1016/j.tim.2014.04.01324882432Open DOISearch in Google Scholar
Bedson S.P., Bland J.O.W.: A morphological study of psittacosis virus, with the description of a developmental cycle. Br J Exp Pathol 1932, 13, 461–466.BedsonS.P.BlandJ.O.W.A morphological study of psittacosis virus, with the description of a developmental cycle193213461466Search in Google Scholar
Blomqvist M., Christerson L., Waldenström J., Lindberg P., Helander B., Gunnarsson G., Herrmann B., Olsen B.: Chlamydia psittaci in birds of prey, Sweden. Infect Ecol Epidemiol 2012, 2, 8435, doi: 10.3402/iee.v2i0.8435.BlomqvistM.ChristersonL.WaldenströmJ.LindbergP.HelanderB.GunnarssonG.HerrmannB.OlsenB.Chlamydia psittaci in birds of prey, Sweden20122843510.3402/iee.v2i0.8435342632522957128Open DOISearch in Google Scholar
Bodetti T.J., Jacobson E., Wan C., Hafner L., Pospischil A., Rose K., Timms P.: Molecular evidence to support the expansion of the hostrange of Chlamydophila pneumoniae to include reptiles as well as humans, horses, koalas and amphibians. Syst Appl Microbiol 2002, 25 146–152, doi: 10.1078/0723-2020-00086.BodettiT.J.JacobsonE.WanC.HafnerL.PospischilA.RoseK.TimmsP.Molecular evidence to support the expansion of the hostrange of Chlamydophila pneumoniae to include reptiles as well as humans, horses, koalas and amphibians200225146–15210.1078/0723-2020-0008612086181Open DOISearch in Google Scholar
Borel N., Greub G.: International committee on systematics of prokaryotes (ICSP) subcommittee on the taxonomy of chlamydiae. Minutes of the closed meeting, 5 July 2018, Woudschoten, Zeist, The Netherlands. Int J Syst Evol Microbiol 2019, 69, 2606–2608, doi: 10.1099/ijsem.0.003418.BorelN.GreubG.International committee on systematics of prokaryotes (ICSP) subcommittee on the taxonomy of chlamydiae692606260810.1099/ijsem.0.00341831063120Open DOISearch in Google Scholar
Borel N., Polkinghorne A., Pospischil A.: A Review on Chlamydial Diseases in Animals: Still a Challenge for Pathologists? Vet Pathol 2018, 55, 374–390, doi: 10.1177/ 0300985817751218.BorelN.PolkinghorneA.PospischilA.A Review on Chlamydial Diseases in Animals: Still a Challenge for Pathologists?20185537439010.1177/030098581775121829310550Open DOISearch in Google Scholar
Borges V., Hyden P., Gomes J.P., Rattei T.: Chlamydia Genomics. In: Chlamydia Biology: From Genome to Disease edited by M. Tan, J.H. Hegemann, C. Sütterlin, Caister Academic Press, Norfolk, 2020, pp. 263–286.BorgesV.HydenP.GomesJ.P.RatteiT.Chlamydia GenomicsInedited byTanM.HegemannJ.H.SütterlinC.Caister Academic PressNorfolk2020pp26328610.21775/9781912530281.12Search in Google Scholar
Branley J., Bachmann N.L., Jelocnik M., Myers G.S.A., Polkinghorne A.: Australian human and parrot Chlamydia psittaci strains cluster within the highly virulent 6BC clade of this important zoonotic pathogen. Sci Rep 2016, 6, 30019, doi: 10.1038/srep30019.BranleyJ.BachmannN.L.JelocnikM.MyersG.S.A.PolkinghorneA.Australian human and parrot Chlamydia psittaci strains cluster within the highly virulent 6BC clade of this important zoonotic pathogen201663001910.1038/srep30019497322027488134Open DOISearch in Google Scholar
Christiansen M.T., Brown A.C., Kundu S., Tutill H.J., Williams R., Brown J.R., Holdstock J., Holland M.J., Stevenson S., Dave J., Tong C.Y., Einer-Jensen K., Depledge D.P., Breuer J.: Whole-genome enrichment and sequencing of Chlamydia trachomatis directly from clinical samples. BMC Infect Dis 2014, 14, 591, doi: 10.1186/s12879-014-0591-3.ChristiansenM.T.BrownA.C.KunduS.TutillH.J.WilliamsR.BrownJ.R.HoldstockJ.HollandM.J.StevensonS.DaveJ.TongC.Y.Einer-JensenK.DepledgeD.P.BreuerJ.Whole-genome enrichment and sequencing of Chlamydia trachomatis directly from clinical samples20141459110.1186/s12879-014-0591-3423305725388670Open DOISearch in Google Scholar
Collingro A., Köstlbacher S., Mussmann M., Stepanauskas R., Hallam S.J., Horn M.: Unexpected genomic features in widespread intracellular bacteria: Evidence for motility of marine chlamydiae. ISME J 2017, 11, 2334–2344, doi: 10.1038/ismej. 2017.95.CollingroA.KöstlbacherS.MussmannM.StepanauskasR.HallamS.J.HornM.Unexpected genomic features in widespread intracellular bacteria: Evidence for motility of marine chlamydiae2017112334234410.1038/ismej.2017.95560473528644443Open DOISearch in Google Scholar
Dean F.B., Nelson J.R., Giesler T.L., Lasken R.S.: Rapid amplification of plasmid and phage DNA using Phi29 DNA polymerase and multiply-primed rolling circle amplification. Genome Res 2001, 11, 1095–1099, doi: 10.1101/gr.180501.DeanF.B.NelsonJ.R.GieslerT.L.LaskenR.S.Rapid amplification of plasmid and phage DNA using Phi29 DNA polymerase and multiply-primed rolling circle amplification2001111095109910.1101/gr.18050131112911381035Open DOISearch in Google Scholar
Detter J.C., Jett J.M., Lucas S.M., Dalin E., Arellano A.R., Wang M., Nelson J.R., Chapman J., Lou Y., Rokhsar D., Hawkins T.L., Richardson P.M.: Isothermal strand-displacement amplification applications for high-throughput genomics. Genomics 2002, 80, 691–698, doi: 10.1006/geno.2002.7020.DetterJ.C.JettJ.M.LucasS.M.DalinE.ArellanoA.R.WangM.NelsonJ.R.ChapmanJ.LouY.RokhsarD.HawkinsT.L.RichardsonP.M.Isothermal strand-displacement amplification applications for high-throughput genomics20028069169810.1006/geno.2002.7020Open DOISearch in Google Scholar
Domman D., Horn M.: Following the Footsteps of Chlamydial Gene Regulation. Mol Biol and Evol 2015, 32, 3035–3046, doi: 10.1093/molbev/msv193.DommanD.HornM.Following the Footsteps of Chlamydial Gene Regulation2015323035304610.1093/molbev/msv193Open DOISearch in Google Scholar
Ebani V.V.: Domestic reptiles as source of zoonotic bacteria: A mini review. Asian Pac J Trop Med 2017, 10, 723–728, doi: 10.1016/j.apjtm.2017.07.020.EbaniV.V.Domestic reptiles as source of zoonotic bacteria: A mini review20171072372810.1016/j.apjtm.2017.07.020Open DOISearch in Google Scholar
Feehery G.R., Yigit E., Oyola S.O., Langhorst B.W., Schmidt V.T., Stewart F.J., Dimalanta E.T., Amaral-Zettler L.A., Davis T., Quail M.A., Pradhan S.: A Method for Selectively Enriching Microbial DNA from Contaminating Vertebrate Host DNA. PLoS One 2013, 8, e76096, doi: 10.1371/journal.pone.0076096.FeeheryG.R.YigitE.OyolaS.O.LanghorstB.W.SchmidtV.T.StewartF.J.DimalantaE.T.Amaral-ZettlerL.A.DavisT.QuailM.A.PradhanS.A Method for Selectively Enriching Microbial DNA from Contaminating Vertebrate Host DNA20138e7609610.1371/journal.pone.0076096Open DOISearch in Google Scholar
Frutos M.C., Monetti M.S., Ré V.E., Cuffini C.G.: Molecular evidence of Chlamydophila pneumoniae infection in reptiles in Argentina. Rev Argent Microbiol 2014, 46, 45–48, doi: 10.1016/s0325-7541(14)70047-1.FrutosM.C.MonettiM.S.RéV.E.CuffiniC.G.Molecular evidence of Chlamydophila pneumoniae infection in reptiles in Argentina201446454810.1016/s0325-7541(14)70047-1Open DOISearch in Google Scholar
Gliński Z., Żmuda A.: Chlamydie i chlamydofile człowieka i zwierząt. Życie Weter 2018, 93, 842–850.GlińskiZ.ŻmudaA.Chlamydie i chlamydofile człowieka i zwierząt201893842850Search in Google Scholar
Guo W., Li J., Kaltenboeck B., Gong J., Fan W., Wang C.: Chlamydia gallinacea not C. psittaci is the endemic chlamydial species in chicken Gallus gallus Sci Rep 2016, 6, 19638, doi: 10.1038/srep19638.GuoW.LiJ.KaltenboeckB.GongJ.FanW.WangC.Chlamydia gallinacea not C201661963810.1038/srep19638472604226778053Open DOISearch in Google Scholar
Hadfield J., Harris S.R., Seth-Smith H.M.B., Parmar S., Andersson P., Giffard P.M., Schachter J., Moncada J., Ellison L., Vaulet M.L.G., Fermepin M.R., Radebe F., Mendoza S., Ouburg S., Morré S.A., Sachse K., Puolakkainen M., Korhonen S.J., Sonnex C., Wiggins R., Jalal H., Brunelli T., Casprini P., Pitt R., Ison C., Savicheva A., Shipitsyna E., Hadad R., Kari L., Burton M.J., Mabey D., Solomon A.W., Lewis D., Marsh P., Unemo M., Clarke I.N., Parkhill J., Thomson N.R.: Comprehensive global genome dynamics of Chlamydia trachomatis show ancient diversification followed by contemporary mixing and recent lineage expansion. Genome Res 2017, 27, 1220–1229, doi: 10.1101/gr.212647.116.HadfieldJ.HarrisS.R.Seth-SmithH.M.B.ParmarS.AnderssonP.GiffardP.M.SchachterJ.MoncadaJ.EllisonL.VauletM.L.G.FermepinM.R.RadebeF.MendozaS.OuburgS.MorréS.A.SachseK.PuolakkainenM.KorhonenS.J.SonnexC.WigginsR.JalalH.BrunelliT.CaspriniP.PittR.IsonC.SavichevaA.ShipitsynaE.HadadR.KariL.BurtonM.J.MabeyD.SolomonA.W.LewisD.MarshP.UnemoM.ClarkeI.N.ParkhillJ.ThomsonN.R.Comprehensive global genome dynamics of Chlamydia trachomatis show ancient diversification followed by contemporary mixing and recent lineage expansion2017271220122910.1101/gr.212647.116549507328588068Open DOISearch in Google Scholar
Harris S.R., Clarke I.N., Seth-Smith H.M.B., Solomon A.W., Cutcliffe L.T., Marsh P., Skilton R.J., Holland M.J., Mabey D., Peeling R.W., Lewis D.A., Spratt B.G., Unemo M., Persson K., Bjartling C., Brunham R., de Vries H.J.C., Morré S.A., Speksnijder A., Bébéar C.M., Clerc M., de Barbeyrac B., Parkhill J., Thomson N.R.: Whole-genome analysis of diverse Chlamydia trachomatis strains identifies phylogenetic relationships masked by current clinical typing. Nat Genet 2012, 44, S1, 413–419, doi: 10.1038/ng.2214.HarrisS.R.ClarkeI.N.Seth-SmithH.M.B.SolomonA.W.CutcliffeL.T.MarshP.SkiltonR.J.HollandM.J.MabeyD.PeelingR.W.LewisD.A.SprattB.G.UnemoM.PerssonK.BjartlingC.BrunhamR.de VriesH.J.C.MorréS.A.SpeksnijderA.BébéarC.M.ClercM.de BarbeyracB.ParkhillJ.ThomsonN.R.Whole-genome analysis of diverse Chlamydia trachomatis strains identifies phylogenetic relationships masked by current clinical typing201244S1413–41910.1038/ng.2214337869022406642Open DOISearch in Google Scholar
Homer B.L., Jacobson E.R., Schumacher J., Scherba G.: Chlamydiosis in Mariculture-reared Green Sea Turtles Chelonia mydas Vet Pathol 1994, 31, 1–7, doi: 10.1177/ 030098589403100101.HomerB.L.JacobsonE.R.SchumacherJ.ScherbaG.Chlamydiosis in Mariculture-reared Green Sea Turtles Chelonia mydas1994311710.1177/0300985894031001018140712Open DOISearch in Google Scholar
Hosono S., Faruqi A.F., Dean F.B., Du Y., Sun Z., Wu X., Du J., Kingsmore S.F., Egholm M., Lasken R.S.: Unbiased whole-genome amplification directly from clinical samples. Genome Res 2003, 13, 954–964, doi: 10.1101/gr.816903.HosonoS.FaruqiA.F.DeanF.B.DuY.SunZ.WuX.DuJ.KingsmoreS.F.EgholmM.LaskenR.S.Unbiased whole-genome amplification directly from clinical samples20031395496410.1101/gr.81690343087812695328Open DOISearch in Google Scholar
Hotzel H., Blahak S., Diller R., Sachse K.: Evidence of infection in tortoises by Chlamydia-like organisms that are genetically distinct from known Chlamydiaceae species. Vet Res Commun 2005, 29, S1, 71–80, doi: 10.1007/s11259-005-0838-y.HotzelH.BlahakS.DillerR.SachseK.Evidence of infection in tortoises by Chlamydia-like organisms that are genetically distinct from known Chlamydiaceae species200529S171–8010.1007/s11259-005-0838-yOpen DOISearch in Google Scholar
Huchzermeyer F.W., Gerdes G.H., Foggin C.M., Huchzermeyer K.D., Limper L.C.: Hepatitis in farmed hatchling Nile crocodiles Crocodylus niloticus due to chlamydial infection. J S Afr Vet Assoc 1994, 65, 20–22.HuchzermeyerF.W.GerdesG.H.FogginC.M.HuchzermeyerK.D.LimperL.C.Hepatitis in farmed hatchling Nile crocodiles Crocodylus niloticus due to chlamydial infection1994652022Search in Google Scholar
Hugall A., Timms P., Girjes A.A., Lavin M.F.: Conserved DNA sequences in Chlamydial plasmids. Plasmid 1989, 22, 91–98, doi: 10.1016/0147-619x(89)90018-8.HugallA.TimmsP.GirjesA.A.LavinM.F.Conserved DNA sequences in Chlamydial plasmids198922919810.1016/0147-619x(89)90018-8Open DOISearch in Google Scholar
Humphrys M.S., Creasy T., Sun Y., Shetty A.C., Chibucos M.C., Drabek E.F., Fraser C.M., Farooq U., Sengamalay N., Ott S., Shou H., Bavoil P.M., Mahurkar A., Myers G.S.: Simultaneous transcriptional profiling of bacteria and their host cells. PLoS One 2013, 8, e80597, doi: 10.1371/journal.pone.0080597.HumphrysM.S.CreasyT.SunY.ShettyA.C.ChibucosM.C.DrabekE.F.FraserC.M.FarooqU.SengamalayN.OttS.ShouH.BavoilP.M.MahurkarA.MyersG.S.Simultaneous transcriptional profiling of bacteria and their host cells20138e8059710.1371/journal.pone.0080597385117824324615Open DOISearch in Google Scholar
Johns J.L., Luff J.A., Shooshtari M.P., Zehnder A.M., Borjesson D.L.: What is your diagnosis? Blood smear from an injured red-tailed hawk. Vet Clin Pathol 2009, 38, 247–252, doi: 10.1111/j.1939-165X.2008.00091.x.JohnsJ.L.LuffJ.A.ShooshtariM.P.ZehnderA.M.BorjessonD.L.What is your diagnosis? Blood smear from an injured red-tailed hawk20093824725210.1111/j.1939-165X.2008.00091.x19228359Open DOISearch in Google Scholar
Joseph S.J., Li B., Ghonasgi T., Haase C.P., Qin Z.S., Dean D., Read T.D.: Direct amplification, sequencing and profiling of Chlamydia trachomatis strains in single and mixed infection clinical samples. PLoS One 2014, 9, e99290, doi: 10.1371/ journal.pone.0099290.JosephS.J.LiB.GhonasgiT.HaaseC.P.QinZ.S.DeanD.ReadT.D.Direct amplification, sequencing and profiling of Chlamydia trachomatis strains in single and mixed infection clinical samples20149e9929010.1371/journal.pone.0099290407403924971628Open DOISearch in Google Scholar
Joseph S.J., Marti H., Didelot X., Read T.D., Dean D.: Tetracycline selective pressure and homologous recombination shape the evolution of Chlamydia suis A recently identified zoonotic pathogen. Genome Biol Evol 2016, 8, 2613–2623, doi: 10.1093/gbe/evw182.JosephS.J.MartiH.DidelotX.ReadT.D.DeanD.Tetracycline selective pressure and homologous recombination shape the evolution of Chlamydia suis A recently identified zoonotic pathogen201682613262310.1093/gbe/evw182501091327576537Open DOISearch in Google Scholar
Kaleta E.F., Taday E.M.A.: Avian host range of Chlamydophila spp. based on isolation, antigen detection and serology. Avian Pathol 2003, 32, 435–461, doi: 10.1080/03079450310001593613.KaletaE.F.TadayE.M.A.Avian host range of Chlamydophila spp20033243546110.1080/0307945031000159361314522700Open DOISearch in Google Scholar
Knittler M.R., Sachse K.: Chlamydia psittaci Update on an underestimated zoonotic agent. Pathog Dis 2015, 73, 1–15, doi: 10.1093/femspd/ftu007.KnittlerM.R.SachseK.Chlamydia psittaci Update on an underestimated zoonotic agent20157311510.1093/femspd/ftu00725853998Open DOISearch in Google Scholar
Lagae S., Kalmar I., Laroucau K., Vorimore F., Vanrompay D.: Emerging Chlamydia psittaci infections in chickens and examination of transmission to humans. J Med Microbiol 2014, 63, 399–407, doi: 10.1099/jmm.0.0646 -0.LagaeS.KalmarI.LaroucauK.VorimoreF.VanrompayD.Emerging Chlamydia psittaci infections in chickens and examination of transmission to humans20146339940710.1099/jmm.0.0646-0Open DOISearch in Google Scholar
Laroucau K., Aaziz R., Lécu A., Laidebeure S., Marquis O., Vorimore F., Thierry S., Briend-Marchal A., Miclard J., Izembart A., Borel N., Redon L.: A cluster of Chlamydia serpentis cases in captive snakes. Vet Microbiol 2020, 240, 108499, doi: 10.1016/j.vetmic.2019.108499.LaroucauK.AazizR.LécuA.LaidebeureS.MarquisO.VorimoreF.ThierryS.Briend-MarchalA.MiclardJ.IzembartA.BorelN.RedonL.A cluster of Chlamydia serpentis cases in captive snakes202024010849910.1016/j.vetmic.2019.10849931902484Open DOISearch in Google Scholar
Laroucau K., Aaziz R., Meurice L., Servas V., Chossat I., Royer H., de Barbeyrac B., Vaillant V., Moyen J.L., Meziani F., Sachse K., Rolland P.: Outbreak of psittacosis in a group of women exposed to Chlamydia psittaci-infected chickens. Euro Surveill 2015, 20, 21155, doi: 10.2807/1560-7917.es2015.20.24.21155.LaroucauK.AazizR.MeuriceL.ServasV.ChossatI.RoyerH.de BarbeyracB.VaillantV.MoyenJ.L.MezianiF.SachseK.RollandP.Outbreak of psittacosis in a group of women exposed to Chlamydia psittaci-infected chickens2015202115510.2807/1560-7917.es2015.20.24.21155Open DOISearch in Google Scholar
Laroucau K., Ortega N., Vorimore F., Aaziz R., Mitura A., Szymańska-Czerwińska M., Cicerol M., Salinas J., Sachse K., Caro M.R.: Detection of a novel Chlamydia species in captive spur-thighed tortoises Testudo graeca in southeastern Spain and proposal of Candidatus Chlamydia testudinis. Syst Appl Microbiol 2020, 43, 126071, doi: 10.1016/j.syapm.2020.126071.LaroucauK.OrtegaN.VorimoreF.AazizR.MituraA.Szymańska-CzerwińskaM.CicerolM.SalinasJ.SachseK.CaroM.R.Detection of a novel Chlamydia species in captive spur-thighed tortoises Testudo graeca in southeastern Spain and proposal of Candidatus Chlamydia testudinis20204312607110.1016/j.syapm.2020.126071Open DOISearch in Google Scholar
Laroucau K., Vorimore F., Aaziz R., Solmonson L., Hsia R.C., Bavoil P.M., Fach P., Hölzer M., Wuenschmann A., Sachse K.: Chlamydia buteonis, a new Chlamydia species isolated from a red-shouldered hawk. Syst Appl Microbiol 2019, 42, 125997, doi: 10.1016/j.syapm.2019.06.002.LaroucauK.VorimoreF.AazizR.SolmonsonL.HsiaR.C.BavoilP.M.FachP.HölzerM.WuenschmannA.SachseK.Chlamydia buteonis, a new Chlamydia species isolated from a red-shouldered hawk20194212599710.1016/j.syapm.2019.06.002Open DOISearch in Google Scholar
Longbottom D., Coulter L.J.: Animal chlamydioses and zoonotic implications. J Comp Pathol 2003, 4, 217–244, doi: 10.1053/jcpa. 2002.0629.LongbottomD.CoulterL.J.Animal chlamydioses and zoonotic implications2003421724410.1053/jcpa.2002.0629Open DOISearch in Google Scholar
McLean J.S., Lasken R.S.: Single cell genomics of bacterial pathogens: Outlook for infectious disease research. Genome Med 2014, 6, 108, doi: 10.1186/s13073-014-0108-0.McLeanJ.S.LaskenR.S.Single cell genomics of bacterial pathogens: Outlook for infectious disease research2014610810.1186/s13073-014-0108-0Open DOISearch in Google Scholar
McLean J.S., Lombardo M.-J., Badger J.H., Edlund A., Novotny M., Yee-Greenbaum J., Vyahhi N., Hall A.P., Yang Y., Dupont C.L., Ziegler M.G., Chitsaz H., Allen A.E., Yooseph S., Tesler G., Pevzner P.A., Friedman R.M., Nealson K.H., Venter J.C., Lasken R.S.: Candidate phylum TM6 genome recovered from a hospital sink biofilm provides genomic insights into this uncultivated phylum. Proc Natl Acad Sci USA 2013, 110, E2390–2399, doi: 10.1073/pnas.1219809110.McLeanJ.S.LombardoM.-J.BadgerJ.H.EdlundA.NovotnyM.Yee-GreenbaumJ.VyahhiN.HallA.P.YangY.DupontC.L.ZieglerM.G.ChitsazH.AllenA.E.YoosephS.TeslerG.PevznerP.A.FriedmanR.M.NealsonK.H.VenterJ.C.LaskenR.S.Candidate phylum TM6 genome recovered from a hospital sink biofilm provides genomic insights into this uncultivated phylum2013110E2390239910.1073/pnas.1219809110Open DOISearch in Google Scholar
Mirandé L.A., Howerth E.W., Poston R.P.: Chlamydiosis in a red-tailed hawk Buteo jamaicensis J Wildl Dis 1992, 28, 284–287, doi: 10.7589/0090-3558-28.2.284.MirandéL.A.HowerthE.W.PostonR.P.Chlamydiosis in a red-tailed hawk Buteo jamaicensis19922828428710.7589/0090-3558-28.2.284Open DOISearch in Google Scholar
Mitura A., Niemczuk K., Zaręba K., Zając M., Laroucau K., Szymańska-Czerwińska M.: Free-living and captive turtles and tortoises as carriers of new Chlamydia spp. PLoS One 2017, 12, e185407, doi: 10.1371/journal.pone.0185407.MituraA.NiemczukK.ZarębaK.ZającM.LaroucauK.Szymańska-CzerwińskaM.Free-living and captive turtles and tortoises as carriers of new Chlamydia spp201712e18540710.1371/journal.pone.0185407Open DOISearch in Google Scholar
Moran N.A.: Microbial minimalism: Genome reduction in bacterial pathogens. Cell 2002, 108, 583–586, doi: 10.1016/s0092-8674(02)00665-7.MoranN.A.Microbial minimalism: Genome reduction in bacterial pathogens200210858358610.1016/s0092-8674(02)00665-7Open DOISearch in Google Scholar
Murray P.R., Rosenthal K.S., Pfaller M.A.: Chlamydia and chlamydophila. In: Medical Microbiology edited by P. Murray, Elsevier, Philadelphia, 2016, pp. 348–355.MurrayP.R.RosenthalK.S.PfallerM.A.Chlamydia and chlamydophilaInedited byMurrayP.ElsevierPhiladelphia2016pp348355Search in Google Scholar
Nunes A., Gomes J.P.: Evolution, phylogeny, and molecular epidemiology of Chlamydia Infect Genet Evol 2014, 23, 49–64, doi: 10.1016/j.meegid.2014.01.029.NunesA.GomesJ.P.Evolution, phylogeny, and molecular epidemiology of Chlamydia201423496410.1016/j.meegid.2014.01.02924509351Open DOISearch in Google Scholar
Pantchev A., Sting R., Bauerfeind R., Tyczka J., Sachse K.: New real-time PCR tests for species-specific detection of Chlamydophila psittaci and Chlamydophila abortus from tissue samples. Vet J 2009, 181, 145–150, doi: 10.1016/j.tvjl. 2008.02.025.PantchevA.StingR.BauerfeindR.TyczkaJ.SachseK.New real-time PCR tests for species-specific detection of Chlamydophila psittaci and Chlamydophila abortus from tissue samples200918114515010.1016/j.tvjl.2008.02.02518413292Open DOISearch in Google Scholar
Pawlikowska-Warych M., Śliwa-Dominiak J., Deptuła W.: Chlamydial plasmids and bacteriophages. Acta Biochim Pol 2015, 62, 1–6, doi: 10.18388/abp.2014_764.Pawlikowska-WarychM.Śliwa-DominiakJ.DeptułaW.Chlamydial plasmids and bacteriophages2015621610.18388/abp.2014_76425654356Open DOISearch in Google Scholar
Piasecki T., Chrząstek K., Wieliczko A.: Detection and identification of Chlamydophila psittaci in asymptomatic parrots in Poland. BMC Vet Res 2012, 8, 233, doi: 10.1186/1746-61488-233.PiaseckiT.ChrząstekK.WieliczkoA.Detection and identification of Chlamydophila psittaci in asymptomatic parrots in Poland2012823310.1186/1746-61488-233Open DOISearch in Google Scholar
Putman T.E., Suchland R.J., Ivanovitch J.D., Rockey D.D.: Culture-independent sequence analysis of Chlamydia trachomatis in urogenital specimens identifies regions of recombination and in-patient sequence mutations. Microbiol 2013, 159, 2109–2117, doi: 10.1099/mic.0.070029-0.PutmanT.E.SuchlandR.J.IvanovitchJ.D.RockeyD.D.Culture-independent sequence analysis of Chlamydia trachomatis in urogenital specimens identifies regions of recombination and in-patient sequence mutations20131592109211710.1099/mic.0.070029-0379922923842467Open DOISearch in Google Scholar
Raghunathan A., Ferguson H.R., Bornarth C.J., Song W., Driscoll M., Lasken R.S.: Genomic DNA amplification from a single bacterium. Appl Environ Microbiol 2005, 71, 3342–3347, doi: 10.1128/AEM.71.6.3342-3347.2005.RaghunathanA.FergusonH.R.BornarthC.J.SongW.DriscollM.LaskenR.S.Genomic DNA amplification from a single bacterium2005713342334710.1128/AEM.71.6.3342-3347.2005115181715933038Open DOISearch in Google Scholar
Read T.D., Brunham R.C., Shen C., Gill S.R., Heidelberg J.F., White O., Hickey E.K., Peterson J., Utterback T., Berry K., Bass S., Linher K., Weidman J., Khouri H., Craven B., Bowman C., Dodson R., Gwinn M., Nelson W., DeBoy R., Kolonay J., McClarty G., Salzberg S.L., Eisen J., Fraser C.M.: Genome sequences of Chlamydia trachomatis MoPn and Chlamydia pneumoniae AR39. Nucleic Acids Res 2000, 28, 1397–1406, doi: 10.1093/nar/28.6.1397.ReadT.D.BrunhamR.C.ShenC.GillS.R.HeidelbergJ.F.WhiteO.HickeyE.K.PetersonJ.UtterbackT.BerryK.BassS.LinherK.WeidmanJ.KhouriH.CravenB.BowmanC.DodsonR.GwinnM.NelsonW.DeBoyR.KolonayJ.McClartyG.SalzbergS.L.EisenJ.FraserC.M.Genome sequences of Chlamydia trachomatis MoPn and Chlamydia pneumoniae AR392000281397140610.1093/nar/28.6.139711104610684935Open DOISearch in Google Scholar
Read T.D., Joseph S.J., Didelot X., Liang B., Patel L., Dean D.: Comparative analysis of Chlamydia psittaci genomes reveals the recent emergence of a pathogenic lineage with a broad host range. MBio 2013, 4, e00604-12, doi: 10.1128/mBio.00604-12.ReadT.D.JosephS.J.DidelotX.LiangB.PatelL.DeanD.Comparative analysis of Chlamydia psittaci genomes reveals the recent emergence of a pathogenic lineage with a broad host range20134e006041210.1128/mBio.00604-12362292223532978Open DOISearch in Google Scholar
Rinke C., Lee J., Nath N., Goudeau D., Thompson B., Poulton N., Dmitrieff E., Malmstrom R., Stepanauskas R., Woyke T.: Obtaining genomes from uncultivated environmental microorganisms using FACS-based single-cell genomics. Nat Protoc 2014, 9, 1038–1048, doi: 10.1038/nprot.2014.067.RinkeC.LeeJ.NathN.GoudeauD.ThompsonB.PoultonN.DmitrieffE.MalmstromR.StepanauskasR.WoykeT.Obtaining genomes from uncultivated environmental microorganisms using FACS-based single-cell genomics201491038104810.1038/nprot.2014.06724722403Open DOISearch in Google Scholar
Roulis E., Bachmann N.L., Myers G.S., Huston W., Summersgill J., Hudson A., Dreses-Werringloer U., Polkinghorne A., Timms P.: Comparative genomic analysis of human Chlamydia pneumoniae isolates from respiratory, brain and cardiac tissues. Genomics 2015, 106, 373–383, doi: 10.1016/j.ygeno.2015.09.008.RoulisE.BachmannN.L.MyersG.S.HustonW.SummersgillJ.HudsonA.Dreses-WerringloerU.PolkinghorneA.TimmsP.Comparative genomic analysis of human Chlamydia pneumoniae isolates from respiratory, brain and cardiac tissues201510637338310.1016/j.ygeno.2015.09.00826420648Open DOISearch in Google Scholar
Rüegg S.R., Regenscheit N., Origgi F.C., Kaiser C., Borel N.: Detection of Chlamydia pneumoniae in a collection of captive snakes and response to treatment with marbofloxacin. Vet J 2015, 205, 424–426, doi: 10.1016/j.tvjl.2015.05.007.RüeggS.R.RegenscheitN.OriggiF.C.KaiserC.BorelN.Detection of Chlamydia pneumoniae in a collection of captive snakes and response to treatment with marbofloxacin201520542442610.1016/j.tvjl.2015.05.00726049258Open DOISearch in Google Scholar
Sachse K., Bavoil P.M., Kaltenboeck B., Stephens R.S., Kuo C.C., Rosselló-Móra R., Horn M.: Emendation of the family Chlamydiaceae Proposal of a single genus, Chlamydia to include all currently recognized species. Syst Appl Microbiol 2015, 38, 99–103, doi: 10.1016/j.syapm.2014.12.004.SachseK.BavoilP.M.KaltenboeckB.StephensR.S.KuoC.C.Rosselló-MóraR.HornM.Emendation of the family Chlamydiaceae Proposal of a single genus, Chlamydia to include all currently recognized species2015389910310.1016/j.syapm.2014.12.004Open DOISearch in Google Scholar
Sachse K., Laroucau K.: Avian chlamydiosis: Two more bacterial players discovered. Vet J 2014, 200, 347–348, doi: 10.1016/j.tvjl.2014.03.017.SachseK.LaroucauK.Avian chlamydiosis: Two more bacterial players discovered201420034734810.1016/j.tvjl.2014.03.017Open DOISearch in Google Scholar
Sachse K., Laroucau K.: Two more species of Chlamydia – does it make a difference? Pathog Dis 2015, 73, 1–3, doi: 10.1093/femspd/ftu008.SachseK.LaroucauK.Two more species of Chlamydia – does it make a difference?2015731310.1093/femspd/ftu008Open DOISearch in Google Scholar
Sachse K., Laroucau K., Riege K., Wehner S., Dilcher M., Huot Creasy H., Weidmann M., Myers G., Vorimore F., Vicari N., Magnino S., Liebler-Tenorio E., Ruettger A., Bavoil P.M., Hufert F., Rosselló-Móra R., Marz M.: Evidence for the existence of two new members of the family Chlamydiaceae and proposal of Chlamydia avium sp. nov. and Chlamydia gallinacea sp. nov. Syst Appl Microbiol 2014, 37, 79–88, doi: 10.1016/j.syapm. 2013.12.004.SachseK.LaroucauK.RiegeK.WehnerS.DilcherM.HuotCreasy H.WeidmannM.MyersG.VorimoreF.VicariN.MagninoS.Liebler-TenorioE.RuettgerA.BavoilP.M.HufertF.Rosselló-MóraR.MarzM.Evidence for the existence of two new members of the family Chlamydiaceae and proposal of Chlamydia avium sp201437798810.1016/j.syapm.2013.12.004Open DOISearch in Google Scholar
Sachse K., Laroucau K., Vanrompay D.: Avian Chlamydiosis. Cur Clin Micro Rpt 2015, 2, 10–21, doi: 10.1007/s40588-014-0010-y.SachseK.LaroucauK.VanrompayD.Avian Chlamydiosis20152102110.1007/s40588-014-0010-yOpen DOISearch in Google Scholar
Schachter J.: Chlamydial infections. West J Med 1990, 153, 523–534.SchachterJ.Chlamydial infections1990153523534Search in Google Scholar
Schettler E., Fickel J., Hotzel H., Sachse K., Streich W.J., Wittstatt U., Frölich K.: Newcastle disease virus and Chlamydia psittaci in free-living raptors from eastern Germany. J Wild Dis 2003, 39, 57–63, doi: 10.7589/0090-3558-39.1.57.SchettlerE.FickelJ.HotzelH.SachseK.StreichW.J.WittstattU.FrölichK.Newcastle disease virus and Chlamydia psittaci in free-living raptors from eastern Germany200339576310.7589/0090-3558-39.1.57Open DOISearch in Google Scholar
Seth-Smith H.M., Harris S.R., Scott P., Parmar S., Marsh P., Unemo M., Clarke I.N., Parkhill J., Thomson N.R.: Generating whole bacterial genome sequences of low-abundance species from complex samples with IMS-MDA. Nat Protoc 2013, 8, 2404–2412, doi: 10.1038/nprot.2013.147.Seth-SmithH.M.HarrisS.R.ScottP.ParmarS.MarshP.UnemoM.ClarkeI.N.ParkhillJ.ThomsonN.R.Generating whole bacterial genome sequences of low-abundance species from complex samples with IMS-MDA201382404241210.1038/nprot.2013.147Open DOISearch in Google Scholar
Seth-Smith H.M., Harris S.R., Skilton R.J., Radebe F.M., Golparian D., Shipitsyna E., Duy P.T., Scott P., Cutcliffe L.T., O’Neill C., Parmar S., Pitt R., Baker S., Ison C.A., Marsh P., Jalal H., Lewis D.A., Unemo M., Clarke I.N., Parkhill J., Thomson N.R.: Whole-genome sequences of Chlamydia trachomatis directly from clinical samples without culture. Genome Res 2013, 23, 855–866, doi: 10.1101/gr.150037.112.Seth-SmithH.M.HarrisS.R.SkiltonR.J.RadebeF.M.GolparianD.ShipitsynaE.DuyP.T.ScottP.CutcliffeL.T.O’NeillC.ParmarS.PittR.BakerS.IsonC.A.MarshP.JalalH.LewisD.A.UnemoM.ClarkeI.N.ParkhillJ.ThomsonN.R.Whole-genome sequences of Chlamydia trachomatis directly from clinical samples without culture20132385586610.1101/gr.150037.112Open DOISearch in Google Scholar
Siarkou V., Lambropoulos A.F., Chrisafi S., Kotsis A., Papadopoulos O.: Subspecies variation in Greek strains of Chlamydophila abortus Vet Microbiol 2002, 85, 145–157, doi: 10.1016/S0378-1135(01)00506-5.SiarkouV.LambropoulosA.F.ChrisafiS.KotsisA.PapadopoulosO.Subspecies variation in Greek strains of Chlamydophila abortus20028514515710.1016/S0378-1135(01)00506-5Open DOISearch in Google Scholar
Sigalova O.M., Chaplin A.V., Bochkareva O.O., Shelyakin P.V., Filaretov V.A., Akkuratov E.E., Burskaia V., Gelfand M.S.: Chlamydia pan-genomic analysis reveals balance between host adaptation and selective pressure to genome reduction. BMC Genomics 2019, 20, 710, doi: 10.1186/s12864-019-6059-5.SigalovaO.M.ChaplinA.V.BochkarevaO.O.ShelyakinP.V.FilaretovV.A.AkkuratovE.E.BurskaiaV.GelfandM.S.Chlamydia pan-genomic analysis reveals balance between host adaptation and selective pressure to genome reduction20192071010.1186/s12864-019-6059-5674015831510914Open DOISearch in Google Scholar
Smith K.A., Bradley K.K., Stobierski M.G., Tengelsen L.A.: Compendium of measures to control Chlamydophila psittaci (formerly Chlamydia psittaci infection among humans (psittacosis) and pet birds, 2005. J Am Vet Med Assoc 2005, 226, 532–539, doi: 10.2460/javma.2005.226.532.SmithK.A.BradleyK.K.StobierskiM.G.TengelsenL.A.Compendium of measures to control Chlamydophila psittaci (formerly Chlamydia psittaci infection among humans (psittacosis) and pet birds, 200522653253910.2460/javma.2005.226.53215742693Open DOISearch in Google Scholar
Staub E., Marti H., Biondi R., Levi A., Donati M., Leonard C.A., Ley S.D., Pillonel T., Greub G., Seth-Smith H.M.B., Borel N.: Novel Chlamydia species isolated from snakes are temperature-sensitive and exhibit decreased susceptibility to azithromycin. Sci Rep 2018, 8, 5660, doi: 10.1038/s41598-018-23897-z.StaubE.MartiH.BiondiR.LeviA.DonatiM.LeonardC.A.LeyS.D.PillonelT.GreubG.Seth-SmithH.M.B.BorelN.Novel Chlamydia species isolated from snakes are temperature-sensitive and exhibit decreased susceptibility to azithromycin20188566010.1038/s41598-018-23897-z588482829618824Open DOISearch in Google Scholar
Stepanauskas R., Fergusson E.A., Brown J., Poulton N.J., Tupper B., Labonté J.M., Becraft E.D., Brown J.M., Pachiadaki M.G., Povilaitis T., Thompson B.P., Mascena C.J., Bellows W.K., Lubys A.: Improved genome recovery and integrated cell-size analyses of individual uncultured microbial cells and viral particles. Nat Commun 2017, 8, 84, doi: 10.1038/s41467-017-00128-z.StepanauskasR.FergussonE.A.BrownJ.PoultonN.J.TupperB.LabontéJ.M.BecraftE.D.BrownJ.M.PachiadakiM.G.PovilaitisT.ThompsonB.P.MascenaC.J.BellowsW.K.LubysA.Improved genome recovery and integrated cell-size analyses of individual uncultured microbial cells and viral particles201788410.1038/s41467-017-00128-z551954128729688Open DOISearch in Google Scholar
Szabo K.V., O’Neill C.E., Clarke I.N.: Diversity in Chlamydial plasmids. PLoS One 2020, 15, e0233298, doi: 10.1371/journal.pone.0233298.SzaboK.V.O’NeillC.E.ClarkeI.N.Diversity in Chlamydial plasmids202015e023329810.1371/journal.pone.0233298725957532469898Open DOISearch in Google Scholar
Szymańska-Czerwińska M., Mitura A., Niemczuk K., Zaręba K., Jodełko A., Pluta A., Scharf S., Vitek B., Aaziz R., Vorimore F., Laroucau K., Schnee C.: Dissemination and genetic diversity of chlamydial agents in Polish wildfowl: Isolation and molecular characterisation of avian Chlamydia abortus strains. PLoS One 2017, 12, e0174599, doi: 10.1371/journal.pone.0174599.Szymańska-CzerwińskaM.MituraA.NiemczukK.ZarębaK.JodełkoA.PlutaA.ScharfS.VitekB.AazizR.VorimoreF.LaroucauK.SchneeC.Dissemination and genetic diversity of chlamydial agents in Polish wildfowl: Isolation and molecular characterisation of avian Chlamydia abortus strains201712e017459910.1371/journal.pone.0174599537015328350846Open DOISearch in Google Scholar
Szymańska-Czerwińska M., Mitura A., Zaręba K., Schnee C., Koncicki A., Niemczuk K.: Poultry in Poland as Chlamydiaceae carrier. J Vet Res 2017, 61, 411–419, doi: 10.1515/jvetres-2017-0072.Szymańska-CzerwińskaM.MituraA.ZarębaK.SchneeC.KoncickiA.NiemczukK.Poultry in Poland as Chlamydiaceae carrier20176141141910.1515/jvetres-2017-0072593733829978103Open DOISearch in Google Scholar
Szymańska-Czerwińska M., Niemczuk K.: Avian Chlamydiosis Zoonotic Disease. Vector-Borne Zoonotic Dis 2016, 16, 1–3, doi: 10.1089/vbz.2015.1839.Szymańska-CzerwińskaM.NiemczukK.Avian Chlamydiosis Zoonotic Disease2016161310.1089/vbz.2015.183926741325Open DOISearch in Google Scholar
Szymańska-Czerwińska M., Zaręba K., Mitura A., Niemczuk K.: Chlamydia psittaci infection in Polish walk-through commercial aviary. Anim Sci Pap Reports 2018, 36, 323–332.Szymańska-CzerwińskaM.ZarębaK.MituraA.NiemczukK.Chlamydia psittaci infection in Polish walk-through commercial aviary201836323332Search in Google Scholar
Szymańska-Czerwińska M., Zaręba-Marchewka K., Mitura A., Jodełko A.: Whole genome sequencing of avian C. abortus strains. In: Abstract Book of The 19th International Symposium of World Association of Veterinary Laboratory Diagnosticians and OIE Seminar 2019 (ISWAVLD 2019) Chiang Mai, 2019, pp. 302–303.Szymańska-CzerwińskaM.Zaręba-MarchewkaK.MituraA.JodełkoA.Whole genome sequencing of avian C. abortus strainsInChiang Mai2019pp302303Search in Google Scholar
Taylor H.: Trachoma: A Blinding Scourge from the Bronze Age to the Twenty‐First Century. Clin Infect Dis 2009, 48, 845–847, doi: 10.1086/597091.TaylorH.Trachoma: A Blinding Scourge from the Bronze Age to the Twenty‐First Century20094884584710.1086/597091Open DOISearch in Google Scholar
Taylor-Brown A., Bachmann N.L., Borel N., Polkinghorne A.: Culture-independent genomic characterisation of Candidatus Chlamydia sanzinia, a novel uncultivated bacterium infecting snakes. BMC Genomics 2016, 17, 710, doi: 10.1186/s12864-016-3055-x.Taylor-BrownA.BachmannN.L.BorelN.PolkinghorneA.Culture-independent genomic characterisation of Candidatus Chlamydia sanzinia, a novel uncultivated bacterium infecting snakes20161771010.1186/s12864-016-3055-x501189327595750Open DOISearch in Google Scholar
Taylor-Brown A., Madden D., Polkinghorne A.: Culture-independent approaches to chlamydial genomics. Microb Genom 2018, 4, e000145, doi: 10.1099/mgen.0.000145.Taylor-BrownA.MaddenD.PolkinghorneA.Culture-independent approaches to chlamydial genomics20184e00014510.1099/mgen.0.000145585737229310749Open DOISearch in Google Scholar
Taylor-Brown A., Rüegg S., Polkinghorne A., Borel N.: Characterisation of Chlamydia pneumoniae and other novel chlamydial infections in captive snakes. Vet Microbiol 2015, 178, 88–93, doi: 10.1016/j.vetmic.2015.04.021.Taylor-BrownA.RüeggS.PolkinghorneA.BorelN.Characterisation of Chlamydia pneumoniae and other novel chlamydial infections in captive snakes2015178889310.1016/j.vetmic.2015.04.02125944652Open DOISearch in Google Scholar
Taylor-Brown A., Spang L., Borel N., Polkinghorne A.: Culture-independent metagenomics supports discovery of uncultivable bacteria within the genus Chlamydia Sci Rep 2017, 7, 10661, doi: 10.1038/s41598-017-10757-5.Taylor-BrownA.SpangL.BorelN.PolkinghorneA.Culture-independent metagenomics supports discovery of uncultivable bacteria within the genus Chlamydia201771066110.1038/s41598-017-10757-5558756028878306Open DOISearch in Google Scholar
Thomas N.S., Lusher M., Storey C.C., Clarke I.N.: Plasmid diversity in Chlamydia Microbiology 1997, 143, 1847–1854, doi: 10.1099/00221287-143-6-1847.ThomasN.S.LusherM.StoreyC.C.ClarkeI.N.Plasmid diversity in Chlamydia19971431847185410.1099/00221287-143-6-18479202459Open DOISearch in Google Scholar
Thompson P.E., Huff C.G.: Saurian malarial parasites of the United States and Mexico. J Infect Dis 1944, 74, 68–79, doi: 10.1093/infdis/74.1.68.ThompsonP.E.HuffC.G.Saurian malarial parasites of the United States and Mexico194474687910.1093/infdis/74.1.68Open DOISearch in Google Scholar
Thomson N.R., Yeats C., Bell K., Holden M.T., Bentley S.D., Livingstone M., Cerdeño-Tárraga A.M., Harris B., Doggett J., Ormond D., Mungall K., Clarke K., Feltwell T., Hance Z., Sanders M., Quail M.A., Price C., Barrell B.G., Parkhill J., Longbottom D.: The Chlamydophila abortus genome sequence reveals an array of variable proteins that contribute to interspecies variation. Genome Res 2005, 15, 629–640, doi: 10.1101/gr.3684805.ThomsonN.R.YeatsC.BellK.HoldenM.T.BentleyS.D.LivingstoneM.Cerdeño-TárragaA.M.HarrisB.DoggettJ.OrmondD.MungallK.ClarkeK.FeltwellT.HanceZ.SandersM.QuailM.A.PriceC.BarrellB.G.ParkhillJ.LongbottomD.The Chlamydophila abortus genome sequence reveals an array of variable proteins that contribute to interspecies variation20051562964010.1101/gr.3684805108829115837807Open DOISearch in Google Scholar
Vorimore F., Hsia R.C., Huot-Creasy H., Bastian S., Deruyter L., Passet A., Sachse K., Bavoil P.M., Myers G., Laroucau K.: Isolation of a New Chlamydia species from the Feral Sacred Ibis Threskiornis aethiopicus Chlamydia ibidis. PLoS One 2013, 8, e74823, doi: 10.1371/journal.pone.0074823.VorimoreF.HsiaR.C.Huot-CreasyH.BastianS.DeruyterL.PassetA.SachseK.BavoilP.M.MyersG.LaroucauK.Isolation of a New Chlamydia species from the Feral Sacred Ibis Threskiornis aethiopicus Chlamydia ibidis20138e7482310.1371/journal.pone.0074823377924224073223Open DOISearch in Google Scholar
Wang Y., Kahane S., Cutcliffe L.T., Skilton R.J., Lambden P.R., Clarke I.N.: Development of a transformation system for Chlamydia trachomatis restoration of glycogen biosynthesis by acquisition of a plasmid shuttle vector. PLoS Pathog 2011, 7, e1002258, doi: 10.1371/journal.ppat.1002258.WangY.KahaneS.CutcliffeL.T.SkiltonR.J.LambdenP.R.ClarkeI.N.Development of a transformation system for Chlamydia trachomatis restoration of glycogen biosynthesis by acquisition of a plasmid shuttle vector20117e100225810.1371/journal.ppat.1002258317858221966270Open DOISearch in Google Scholar
World Organisation for Animal Health: Chapter 3.3.1: Avian chlamydiosis. In: Manual of Diagnostic Tests and Vaccines for Terrestrial Animals (“Terrestrial Manual”) World Organisation for Animal Health – (OIE), 2018, pp. 783–795.World Organisation for Animal Health: Chapter 3.3.1: Avian chlamydiosisIn2018pp783795Search in Google Scholar
You J., Wu Y., Zhang X., Wang X., Gong J., Zhao Z., Zhang J., Zhang J., Sun Z., Li J., Guo W., Wang J., Wang Y., Li M., Zhang R., Yang Y., Ye J., Poudel A., Kaltenboeck B., Wang C.: Efficient fecal-oral and possible vertical, but not respiratory, transmission of emerging Chlamydia gallinacea in broilers. Vet Microbiol 2019, 230, 90–94, doi: 10.1016/j.vetmic.2019.01.018.YouJ.WuY.ZhangX.WangX.GongJ.ZhaoZ.ZhangJ.ZhangJ.SunZ.LiJ.GuoW.WangJ.WangY.LiM.ZhangR.YangY.YeJ.PoudelA.KaltenboeckB.WangC.Efficient fecal-oral and possible vertical, but not respiratory, transmission of emerging Chlamydia gallinacea in broilers2019230909410.1016/j.vetmic.2019.01.01830827411Open DOISearch in Google Scholar
Zaręba-Marchewka K., Szymańska-Czerwińska M., Mitura A., Niemczuk K.: Draft genome sequence of avian Chlamydia abortus genotype G1 strain 15-70d24, isolated from Eurasian teal in Poland. Microbiol Resour Announc 2019, 8, e00658-19, doi: 10.1128/MRA.00658-19.Zaręba-MarchewkaK.Szymańska-CzerwińskaM.MituraA.NiemczukK.Draft genome sequence of avian Chlamydia abortus genotype G1 strain 15-70d24, isolated from Eurasian teal in Poland20198e006581910.1128/MRA.00658-19669664731416872Open DOISearch in Google Scholar
Zocevic A., Vorimore F., Marhold C., Horvatek D., Wang D., Slavec B., Prentza Z., Stavianis G., Prukner-Radovcic E., Dovc A., Siarkou V.I., Laroucau K.: Molecular characterization of atypical Chlamydia and evidence of their dissemination in different European and Asian chicken flocks by specific real-time PCR. Environ Microbiol 2012, 14, 2212–2222, doi: 10.1111/j.1462-2920.2012.02800.x.ZocevicA.VorimoreF.MarholdC.HorvatekD.WangD.SlavecB.PrentzaZ.StavianisG.Prukner-RadovcicE.DovcA.SiarkouV.I.LaroucauK.Molecular characterization of atypical Chlamydia and evidence of their dissemination in different European and Asian chicken flocks by specific real-time PCR2012142212222210.1111/j.1462-2920.2012.02800.x22690809Open DOISearch in Google Scholar