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Pubmed for Handhelds

PUBMED FOR HANDHELDS

Journal Abstract Search

265 related items for PubMed ID: 26210385

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  • 5. Tuberculosis and leprosy associated with historical human population movements in Europe and beyond - an overview based on mycobacterial ancient DNA.
    Donoghue HD.
    Ann Hum Biol; 2019 Mar; 46(2):120-128. PubMed ID: 31137975
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  • 8. Archival, paleopathological and aDNA-based techniques in leprosy research and the case of Father Petrus Donders at the Leprosarium 'Batavia', Suriname.
    Van Dissel JT, Pieters T, Geluk A, Maat G, Menke HE, Tió-Coma M, Altena E, Laros JFJ, Adhin MR.
    Int J Paleopathol; 2019 Dec; 27():1-8. PubMed ID: 31430635
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  • 9. Mycobacterium leprae genomes from a British medieval leprosy hospital: towards understanding an ancient epidemic.
    Mendum TA, Schuenemann VJ, Roffey S, Taylor GM, Wu H, Singh P, Tucker K, Hinds J, Cole ST, Kierzek AM, Nieselt K, Krause J, Stewart GR.
    BMC Genomics; 2014 Apr 08; 15():270. PubMed ID: 24708363
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  • 10. Development of diagnostic tests for leprosy and tuberculosis.
    Hermans PW, Hartskeerl RA, Thole JE, Klatser PR.
    Trop Med Parasitol; 1990 Sep 08; 41(3):301-3. PubMed ID: 1701561
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  • 12. HLA and leprosy in the pre and postgenomic eras.
    Geluk A, Ottenhoff TH.
    Hum Immunol; 2006 Jun 08; 67(6):439-45. PubMed ID: 16728267
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  • 13. Ancient Mycobacterium leprae genome reveals medieval English red squirrels as animal leprosy host.
    Urban C, Blom AA, Avanzi C, Walker-Meikle K, Warren AK, White-Iribhogbe K, Turle R, Marter P, Dawson-Hobbis H, Roffey S, Inskip SA, Schuenemann VJ.
    Curr Biol; 2024 May 20; 34(10):2221-2230.e8. PubMed ID: 38703773
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  • 15. The Recovery, Interpretation and Use of Ancient Pathogen Genomes.
    Duchêne S, Ho SYW, Carmichael AG, Holmes EC, Poinar H.
    Curr Biol; 2020 Oct 05; 30(19):R1215-R1231. PubMed ID: 33022266
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  • 16. A migration-driven model for the historical spread of leprosy in medieval Eastern and Central Europe.
    Donoghue HD, Michael Taylor G, Marcsik A, Molnár E, Pálfi G, Pap I, Teschler-Nicola M, Pinhasi R, Erdal YS, Velemínsky P, Likovsky J, Belcastro MG, Mariotti V, Riga A, Rubini M, Zaio P, Besra GS, Lee OY, Wu HH, Minnikin DE, Bull ID, O'Grady J, Spigelman M.
    Infect Genet Evol; 2015 Apr 05; 31():250-6. PubMed ID: 25680828
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  • 17. Do leprosy and tuberculosis generate a systemic inflammatory shift? Setting the ground for a new dialogue between experimental immunology and bioarchaeology.
    Crespo FA, Klaes CK, Switala AE, DeWitte SN.
    Am J Phys Anthropol; 2017 Jan 05; 162(1):143-156. PubMed ID: 27704524
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  • 18. Co-infection of Mycobacterium tuberculosis and Mycobacterium leprae in human archaeological samples: a possible explanation for the historical decline of leprosy.
    Donoghue HD, Marcsik A, Matheson C, Vernon K, Nuorala E, Molto JE, Greenblatt CL, Spigelman M.
    Proc Biol Sci; 2005 Feb 22; 272(1561):389-94. PubMed ID: 15734693
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  • 19. A study on PCR for detecting infection with M. leprae.
    Qinxue W, Xinyu L, Wei H, Tao L, Yaoping Y, Jinping Z, Xiuling C, Ganyun Y.
    Chin Med Sci J; 1999 Dec 22; 14(4):237-41. PubMed ID: 12894900
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