Ryan KJ; Ray CG (editors). Sherris Medical Microbiology. 4. vyd. [s.l.]: McGraw Hill, 2004. Dostupné online. ISBN0-8385852-9-9. S. 484–8. (anglicky)
Howard-Jones N. Was Shibasaburo Kitasato the discoverer of the plague bacillus?. Perspect Biol Med. 1973, roč. 16, čís. 2, s. 292–307. Dostupné online. PMID4570035. (anglicky)
Guiyoule A, Grimont F, Iteman I, Grimont P, Lefevre M, Carniel E. Plague pandemics investigated by ribotyping of Yersinia pestis strains. J Clin Microbiol. 1994, roč. 32, čís. 3, s. 634–41. Dostupné online. PMID8195371. (anglicky)
(anglicky)von Reyn CF, Weber NS, Tempest B, et al. Epidemiologic and clinical features of an outbreak of bubonic plague in New Mexico. J. Infect. Dis.. 1977, roč. 136, čís. 4, s. 489–94. Dostupné online. PMID90884.
(anglicky)Forman S, Wulff CR, Myers-Morales T, Cowan C, Perry RD, Straley SC. yadBC of Yersinia pestis, a new virulence determinant for bubonic plague. Infect. Immun.. 2008, roč. 76, čís. 2, s. 578–87. Dostupné online. DOI10.1128/IAI.00219-07. PMID18025093.
Zhou D, Tong Z, Song Y, Han Y, Pei D, Pang X, Zhai J, Li M, Cui B, Qi Z, Jin L, Dai R, Du Z, Wang J, Guo Z, Wang J, Huang P, Yang R. Genetics of metabolic variations between Yersinia pestis biovars and the proposal of a new biovar, microtus. J Bacteriol. 2004, roč. 186, čís. 15, s. 5147–52. Dostupné online. DOI10.1128/JB.186.15.5147-5152.2004. PMID15262951. (anglicky)
Parkhill, J., B. W. Wren, N. R. Thomson, R. W. Titball, M. T. G. Holden, M. B. Prentice, M. Sebaihia et al. Genome sequence of Yersinia pestis, the causative agent of plague. Nature. 2001, roč. 413, čís. 6855, s. 523–527. DOI10.1038/35097083. PMID11586360. (anglicky)
(anglicky)Hinnebusch BJ, Rudolph AE, Cherepanov P, Dixon JE, Schwan TG, Forsberg A. Role of Yersinia murine toxin in survival of Yersinia pestis in the midgut of the flea vector. Science. 2002, roč. 296, čís. 5568, s. 733–5. DOI10.1126/science.1069972. PMID11976454.
(anglicky)Lathem WW, Price PA, Miller VL, Goldman WE. A plasminogen-activating protease specifically controls the development of primary pneumonic plague. Science. 2007, roč. 315, čís. 5811, s. 509–13. DOI10.1126/science.1137195. PMID17255510.
(anglicky)Hixson K et al.. Biomarker candidate identification in Yersinia pestis using organism-wide semiquantitative proteomics.. Journal of Proteome Research. 2006, roč. 5, čís. 11, s. 3008–3017. DOI10.1021/pr060179y. PMID16684765.
(anglicky)Webb CT, Brooks CP, Gage KL, Antolin MF. Classic flea-borne transmission does not drive plague epizootics in prairie dogs. Proc. Natl. Acad. Sci. U.S.A.. 2006, roč. 103, čís. 16, s. 6236–41. DOI10.1073/pnas.0510090103. PMID16603630.
(anglicky)Zhou D, Han Y, Yang R. Molecular and physiological insights into plague transmission, virulence and etiology. Microbes Infect.. 2006, roč. 8, čís. 1, s. 273–84. DOI10.1016/j.micinf.2005.06.006. PMID16182593.
(anglicky)B.J. Hinnebusch, R.D. Perry and T.G. Schwan. Role of the Yersinia pestis hemin storage (hms) locus in the transmission of plague by fleas. Science.. 1996, roč. 8, čís. 1, s. 367–70. DOI10.1126/science.273.5273.367. PMID8662526.
(anglicky)Forman S, Wulff CR, Myers-Morales T, Cowan C, Perry RD, Straley SC. yadBC of Yersinia pestis, a new virulence determinant for bubonic plague. Infect. Immun.. 2008, roč. 76, čís. 2, s. 578–87. Dostupné online. DOI10.1128/IAI.00219-07. PMID18025093.
(anglicky)de la Puerta ML, Trinidad AG, del Carmen Rodríguez M, Bogetz J, Sánchez Crespo M, Mustelin T, Alonso A, Bayón Y. Characterization of new substrates targeted by Yersinia tyrosine phosphatase YopH. PLoS ONE. February 2009, roč. 4, čís. 2, s. e4431. Dostupné online. DOI10.1371/journal.pone.0004431. PMID19221593.
(anglicky)Mejía E, Bliska JB, Viboud GI. Yersinia controls type III effector delivery into host cells by modulating Rho activity. PLoS ONE. February 2009, roč. 4, čís. 2, s. e4431. Dostupné online. DOI10.1371/journal.ppat.0040003. PMID18193942.
(anglicky)Hao YH, Wang Y, Burdette D, Mukherjee S, Keitany G, Goldsmith E, Orth K. Structural requirements for Yersinia YopJ inhibition of MAP kinase pathways. PLoS ONE. January 2008, roč. 2, čís. 3, s. e1375. Dostupné online. DOI10.1371/journal.pone.0001375. PMID18167536.
(anglicky)Welkos S et al.. Determination of the virulence of the pigmentation-deficient and pigmentation-/plasminogen activator-deficient strains of Yersinia pestis in non-human primate and mouse models of pneumonic plague. Vaccine. 2002, roč. 20, s. 2206–2214. DOI10.1016/S0264-410X(02)00119-6. PMID12009274.
KLUNK, Jennifer; VILGALYS, Tauras P.; DEMEURE, Christian E. Evolution of immune genes is associated with the Black Death. Nature. 2022-11-10, roč. 611, čís. 7935, s. 312–319. Dostupné online [cit. 2022-11-16]. ISSN0028-0836. DOI10.1038/s41586-022-05349-x. PMID36261521. (anglicky)
(anglicky)Kilonzo BS, Makundi RH, Mbise TJ. A decade of plague epidemiology and control in the Western Usambara mountains, north-east Tanzania. Acta Tropica. 1992, roč. 50, s. 323–9. DOI10.1016/0001-706X(92)90067-8. PMID1356303.
(anglicky)Mwengee W, Butler T, Mgema S, et al.. Treatment of plague with gentamicin or doxycycline in a randomized clinical trial in Tanzania. Clin Infect Dis. 2006, roč. 42, s. 614–21. DOI10.1086/500137. PMID16447105.
CENTER FOR BIOLOGICS EVALUATION AND RESEARCH. DEPARTMENT OF HEALTH AND HUMAN RESOURCES FOOD AND DRUG ADMINISTRATION. In: [Workshop on Animal Models and Correlates of Protection for Plague Vaccines]. [s.l.]: [s.n.], Wednesday, October 13, 2004. Přepis přednášky Nonhuman Primates as a Model for Pneumonic Plague, s. 222–248. (anglicky)
jimmunol.org
(anglicky)Park H, Teja K, O'Shea JJ, Siegel RM. The Yersinia effector protein YpkA induces apoptosis independently of actin depolymerization. J Immunol.. May 2007, roč. 178, čís. 10, s. 6426–6434. Dostupné online. PMID17475872.
nature.com
KLUNK, Jennifer; VILGALYS, Tauras P.; DEMEURE, Christian E. Evolution of immune genes is associated with the Black Death. Nature. 2022-11-10, roč. 611, čís. 7935, s. 312–319. Dostupné online [cit. 2022-11-16]. ISSN0028-0836. DOI10.1038/s41586-022-05349-x. PMID36261521. (anglicky)
nih.gov
ncbi.nlm.nih.gov
Bockemühl J. [100 years after the discovery of the plague-causing agent--importance and veneration of Alexandre Yersin in Vietnam today]. Immun Infekt. 1994, roč. 22, čís. 2, s. 72–5. PMID7959865. (anglicky)
Howard-Jones N. Was Shibasaburo Kitasato the discoverer of the plague bacillus?. Perspect Biol Med. 1973, roč. 16, čís. 2, s. 292–307. Dostupné online. PMID4570035. (anglicky)
Zhou D, Tong Z, Song Y, Han Y, Pei D, Pang X, Zhai J, Li M, Cui B, Qi Z, Jin L, Dai R, Du Z, Wang J, Guo Z, Wang J, Huang P, Yang R. Genetics of metabolic variations between Yersinia pestis biovars and the proposal of a new biovar, microtus. J Bacteriol. 2004, roč. 186, čís. 15, s. 5147–52. Dostupné online. DOI10.1128/JB.186.15.5147-5152.2004. PMID15262951. (anglicky)
Guiyoule A, Grimont F, Iteman I, Grimont P, Lefevre M, Carniel E. Plague pandemics investigated by ribotyping of Yersinia pestis strains. J Clin Microbiol. 1994, roč. 32, čís. 3, s. 634–41. Dostupné online. PMID8195371. (anglicky)
Parkhill, J., B. W. Wren, N. R. Thomson, R. W. Titball, M. T. G. Holden, M. B. Prentice, M. Sebaihia et al. Genome sequence of Yersinia pestis, the causative agent of plague. Nature. 2001, roč. 413, čís. 6855, s. 523–527. DOI10.1038/35097083. PMID11586360. (anglicky)
Drancourt M, Aboudharam G, Signolidagger M, Dutourdagger O, Raoult D. Detection of 400-year-old Yersinia pestis DNA in human dental pulp: An approach to the diagnosis of ancient septicemia. PNAS. 1998, roč. 95, čís. 21, s. 12637–12640. Dostupné online. PMID9770538. (anglicky)
(anglicky)Collins FM. Pasteurella, Yersinia, and Francisella. In: Baron's Medical Microbiology (Baron S et al, eds.). 4th. vyd. [s.l.]: Univ of Texas Medical Branch, 1996. Dostupné online. ISBN0-9631172-1-1.
(anglicky)Hinnebusch BJ, Rudolph AE, Cherepanov P, Dixon JE, Schwan TG, Forsberg A. Role of Yersinia murine toxin in survival of Yersinia pestis in the midgut of the flea vector. Science. 2002, roč. 296, čís. 5568, s. 733–5. DOI10.1126/science.1069972. PMID11976454.
(anglicky)Lathem WW, Price PA, Miller VL, Goldman WE. A plasminogen-activating protease specifically controls the development of primary pneumonic plague. Science. 2007, roč. 315, čís. 5811, s. 509–13. DOI10.1126/science.1137195. PMID17255510.
(anglicky)Hixson K et al.. Biomarker candidate identification in Yersinia pestis using organism-wide semiquantitative proteomics.. Journal of Proteome Research. 2006, roč. 5, čís. 11, s. 3008–3017. DOI10.1021/pr060179y. PMID16684765.
(anglicky)MEYER KF. The natural history of plague and psittacosis. Public Health Rep. 1957, roč. 72, čís. 8, s. 705–19. PMID13453634.
(anglicky)von Reyn CF, Weber NS, Tempest B, et al. Epidemiologic and clinical features of an outbreak of bubonic plague in New Mexico. J. Infect. Dis.. 1977, roč. 136, čís. 4, s. 489–94. Dostupné online. PMID90884.
(anglicky)Pauli JN, Buskirk SW, Williams ES, Edwards WH. A plague epizootic in the black-tailed prairie dog (Cynomys ludovicianus). J. Wildl. Dis.. 2006, roč. 42, čís. 1, s. 74–80. PMID16699150.
(anglicky)Webb CT, Brooks CP, Gage KL, Antolin MF. Classic flea-borne transmission does not drive plague epizootics in prairie dogs. Proc. Natl. Acad. Sci. U.S.A.. 2006, roč. 103, čís. 16, s. 6236–41. DOI10.1073/pnas.0510090103. PMID16603630.
(anglicky)Bertherat E, Bekhoucha S, Chougrani S, et al. Plague Reappearance in Algeria after 50 Years, 2003. Emerging Infect. Dis.. 2007, roč. 13, čís. 10, s. 1459–1462. PMID18257987.
(anglicky)Zhou D, Han Y, Yang R. Molecular and physiological insights into plague transmission, virulence and etiology. Microbes Infect.. 2006, roč. 8, čís. 1, s. 273–84. DOI10.1016/j.micinf.2005.06.006. PMID16182593.
(anglicky)B.J. Hinnebusch, R.D. Perry and T.G. Schwan. Role of the Yersinia pestis hemin storage (hms) locus in the transmission of plague by fleas. Science.. 1996, roč. 8, čís. 1, s. 367–70. DOI10.1126/science.273.5273.367. PMID8662526.
(anglicky)Forman S, Wulff CR, Myers-Morales T, Cowan C, Perry RD, Straley SC. yadBC of Yersinia pestis, a new virulence determinant for bubonic plague. Infect. Immun.. 2008, roč. 76, čís. 2, s. 578–87. Dostupné online. DOI10.1128/IAI.00219-07. PMID18025093.
(anglicky)de la Puerta ML, Trinidad AG, del Carmen Rodríguez M, Bogetz J, Sánchez Crespo M, Mustelin T, Alonso A, Bayón Y. Characterization of new substrates targeted by Yersinia tyrosine phosphatase YopH. PLoS ONE. February 2009, roč. 4, čís. 2, s. e4431. Dostupné online. DOI10.1371/journal.pone.0004431. PMID19221593.
(anglicky)Mejía E, Bliska JB, Viboud GI. Yersinia controls type III effector delivery into host cells by modulating Rho activity. PLoS ONE. February 2009, roč. 4, čís. 2, s. e4431. Dostupné online. DOI10.1371/journal.ppat.0040003. PMID18193942.
(anglicky)Hao YH, Wang Y, Burdette D, Mukherjee S, Keitany G, Goldsmith E, Orth K. Structural requirements for Yersinia YopJ inhibition of MAP kinase pathways. PLoS ONE. January 2008, roč. 2, čís. 3, s. e1375. Dostupné online. DOI10.1371/journal.pone.0001375. PMID18167536.
(anglicky)Monack DM, Mecsas J, Ghori N, Falkow S. Yersinia signals macrophages to undergo apoptosis and YopJ is necessary for this cell death. Proc Natl Acad Sci U S A.. September 1997, roč. 94, čís. 19, s. 10 385 – 10 390. Dostupné online. PMID9294220.
(anglicky)Park H, Teja K, O'Shea JJ, Siegel RM. The Yersinia effector protein YpkA induces apoptosis independently of actin depolymerization. J Immunol.. May 2007, roč. 178, čís. 10, s. 6426–6434. Dostupné online. PMID17475872.
(anglicky)Welkos S et al.. Determination of the virulence of the pigmentation-deficient and pigmentation-/plasminogen activator-deficient strains of Yersinia pestis in non-human primate and mouse models of pneumonic plague. Vaccine. 2002, roč. 20, s. 2206–2214. DOI10.1016/S0264-410X(02)00119-6. PMID12009274.
KLUNK, Jennifer; VILGALYS, Tauras P.; DEMEURE, Christian E. Evolution of immune genes is associated with the Black Death. Nature. 2022-11-10, roč. 611, čís. 7935, s. 312–319. Dostupné online [cit. 2022-11-16]. ISSN0028-0836. DOI10.1038/s41586-022-05349-x. PMID36261521. (anglicky)
(anglicky)Riedel S. Plague: from natural disease to bio-terrorism. Proc (Bayl Univ Med Cent). 2005, roč. 18, čís. 2, s. 116–24. PMID16200159.
(anglicky)Meyer KF. Modern therapy of plague. JAMA. 1950, roč. 144, s. 982–5. PMID14774219.
(anglicky)Kilonzo BS, Makundi RH, Mbise TJ. A decade of plague epidemiology and control in the Western Usambara mountains, north-east Tanzania. Acta Tropica. 1992, roč. 50, s. 323–9. DOI10.1016/0001-706X(92)90067-8. PMID1356303.
(anglicky)Mwengee W, Butler T, Mgema S, et al.. Treatment of plague with gentamicin or doxycycline in a randomized clinical trial in Tanzania. Clin Infect Dis. 2006, roč. 42, s. 614–21. DOI10.1086/500137. PMID16447105.
pubmedcentral.nih.gov
Zhou D, Tong Z, Song Y, Han Y, Pei D, Pang X, Zhai J, Li M, Cui B, Qi Z, Jin L, Dai R, Du Z, Wang J, Guo Z, Wang J, Huang P, Yang R. Genetics of metabolic variations between Yersinia pestis biovars and the proposal of a new biovar, microtus. J Bacteriol. 2004, roč. 186, čís. 15, s. 5147–52. Dostupné online. DOI10.1128/JB.186.15.5147-5152.2004. PMID15262951. (anglicky)
plosone.org
(anglicky)de la Puerta ML, Trinidad AG, del Carmen Rodríguez M, Bogetz J, Sánchez Crespo M, Mustelin T, Alonso A, Bayón Y. Characterization of new substrates targeted by Yersinia tyrosine phosphatase YopH. PLoS ONE. February 2009, roč. 4, čís. 2, s. e4431. Dostupné online. DOI10.1371/journal.pone.0004431. PMID19221593.
(anglicky)Mejía E, Bliska JB, Viboud GI. Yersinia controls type III effector delivery into host cells by modulating Rho activity. PLoS ONE. February 2009, roč. 4, čís. 2, s. e4431. Dostupné online. DOI10.1371/journal.ppat.0040003. PMID18193942.
(anglicky)Hao YH, Wang Y, Burdette D, Mukherjee S, Keitany G, Goldsmith E, Orth K. Structural requirements for Yersinia YopJ inhibition of MAP kinase pathways. PLoS ONE. January 2008, roč. 2, čís. 3, s. e1375. Dostupné online. DOI10.1371/journal.pone.0001375. PMID18167536.
pnas.org
Drancourt M, Aboudharam G, Signolidagger M, Dutourdagger O, Raoult D. Detection of 400-year-old Yersinia pestis DNA in human dental pulp: An approach to the diagnosis of ancient septicemia. PNAS. 1998, roč. 95, čís. 21, s. 12637–12640. Dostupné online. PMID9770538. (anglicky)
(anglicky)Monack DM, Mecsas J, Ghori N, Falkow S. Yersinia signals macrophages to undergo apoptosis and YopJ is necessary for this cell death. Proc Natl Acad Sci U S A.. September 1997, roč. 94, čís. 19, s. 10 385 – 10 390. Dostupné online. PMID9294220.
KLUNK, Jennifer; VILGALYS, Tauras P.; DEMEURE, Christian E. Evolution of immune genes is associated with the Black Death. Nature. 2022-11-10, roč. 611, čís. 7935, s. 312–319. Dostupné online [cit. 2022-11-16]. ISSN0028-0836. DOI10.1038/s41586-022-05349-x. PMID36261521. (anglicky)
