Literature DB >> 24478483

Multilocus sequence typing of an emerging Cryptosporidium hominis subtype in the United States.

Yaoyu Feng1, Narry Tiao, Na Li, Michele Hlavsa, Lihua Xiao.   

Abstract

The United States has experienced a substantial increase in the reported incidence of cryptosporidiosis since 2005. Accompanying this is the emergence of a new subtype of Cryptosporidium hominis based on variation at the 60-kDa glycoprotein (gp60) locus, IaA28R4, which has become a frequently identified subtype in both sporadic and outbreak-related cases. In this study, using multilocus sequence typing (MLST) at eight genetic loci, we characterized 62 specimens of IaA28R4 and 33 specimens of three other gp60 subtypes of C. hominis from four U.S. states with increased cryptosporidiosis incidences during the summer of 2008. Extensive genetic heterogeneity was seen within the gp60 subtype IaA28R4, but specimens from Ohio and southwestern states formed two distinct subpopulations, suggesting that there were at least two origins of IaA28R4 within the United States. Discordance in typing results was observed between gp60 and other genetic markers, especially DZ-HRGP, and this discordance was largely the result of genetic recombination within the gp60 subtype IaA28R4. The results of population genetic analyses supported the presence of two subpopulations of IaA28R4 and the occurrence of genetic recombination within this gp60 subtype. Thus, the IaA28R4 subtype at gp60 is likely a fitness marker for C. hominis, and genetic recombination is potentially a driving force in the emergence of the virulent IaA28R4 subtype in the United States. A rapid evolution of IaA28R4 was indicated by the observation of multiple MLST subtypes of IaA28R4 within two large outbreaks that lasted for extended periods and involved multiple swimming pools.

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Year:  2013        PMID: 24478483      PMCID: PMC3911340          DOI: 10.1128/JCM.02973-13

Source DB:  PubMed          Journal:  J Clin Microbiol        ISSN: 0095-1137            Impact factor:   5.948


  27 in total

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3.  Molecular characterization of the Cryptosporidium parvum IOWA isolate kept in different laboratories.

Authors:  Vitaliano A Cama; Michael J Arrowood; Ynes R Ortega; Lihua Xiao
Journal:  J Eukaryot Microbiol       Date:  2006       Impact factor: 3.346

4.  Cryptosporidiosis surveillance--United States, 2003-2005.

Authors:  Jonathan S Yoder; Michael J Beach
Journal:  MMWR Surveill Summ       Date:  2007-09-07

5.  Population genetic characterisation of dominant Cryptosporidium parvum subtype IIaA15G2R1.

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6.  Molecular characterisation of Cryptosporidium outbreaks in Western and South Australia.

Authors:  Josephine S Y Ng; Nevada Pingault; Robyn Gibbs; Ann Koehler; Una Ryan
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7.  Molecular epidemiology and spatial distribution of a waterborne cryptosporidiosis outbreak in Australia.

Authors:  Liette S Waldron; Belinda C Ferrari; Cristel Cheung-Kwok-Sang; Paul J Beggs; Nicola Stephens; Michelle L Power
Journal:  Appl Environ Microbiol       Date:  2011-09-09       Impact factor: 4.792

8.  Detection of Cryptosporidium species and sources of contamination with Cryptosporidium hominis during a waterborne outbreak in north west Wales.

Authors:  Rachel M Chalmers; Guy Robinson; Kristin Elwin; Stephen J Hadfield; Euron Thomas; John Watkins; David Casemore; David Kay
Journal:  J Water Health       Date:  2009-11-09       Impact factor: 1.744

9.  Simultaneous increase of Cryptosporidium infections in the Netherlands, the United Kingdom and Germany in late summer season, 2012.

Authors:  N Fournet; M P Deege; A T Urbanus; G Nichols; B M Rosner; R M Chalmers; R Gorton; K G Pollock; J W van der Giessen; P C Wever; J W Dorigo-Zetsma; B Mulder; T G Mank; I Overdevest; J G Kusters; W van Pelt; L M Kortbeek
Journal:  Euro Surveill       Date:  2013-01-10

10.  Multiple risk factors associated with a large statewide increase in cryptosporidiosis.

Authors:  A L Valderrama; M C Hlavsa; A Cronquist; S Cosgrove; S P Johnston; J M Roberts; M L Stock; L Xiao; K Xavier; M J Beach
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  18 in total

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2.  Diverse single-amino-acid repeat profiles in the genus Cryptosporidium.

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Review 4.  Comparative genomics: how has it advanced our knowledge of cryptosporidiosis epidemiology?

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Journal:  J Clin Microbiol       Date:  2014-12-17       Impact factor: 5.948

6.  Multilocus Sequence Typing helps understand the genetic diversity of Cryptosporidium hominis and Cryptosporidium parvum isolated from Colombian patients.

Authors:  Johanna Uran-Velasquez; Juan F Alzate; Ana E Farfan-Garcia; Oscar G Gomez-Duarte; Larry L Martinez-Rosado; Diego D Dominguez-Hernandez; Winston Rojas; Ana Luz Galvan-Diaz; Gisela M Garcia-Montoya
Journal:  PLoS One       Date:  2022-07-08       Impact factor: 3.752

7.  First detection of Cryptosporidium DNA in blood and cerebrospinal fluid of HIV-infected patients.

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8.  Comparative genomic analysis reveals occurrence of genetic recombination in virulent Cryptosporidium hominis subtypes and telomeric gene duplications in Cryptosporidium parvum.

Authors:  Yaqiong Guo; Kevin Tang; Lori A Rowe; Na Li; Dawn M Roellig; Kristine Knipe; Michael Frace; Chunfu Yang; Yaoyu Feng; Lihua Xiao
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9.  Genetic diversity of Cryptosporidium identified in clinical samples from cities in Brazil and Argentina.

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Journal:  Mem Inst Oswaldo Cruz       Date:  2016-01       Impact factor: 2.743

10.  Intra-Species Diversity and Panmictic Structure of Cryptosporidium parvum Populations in Cattle Farms in Northern Spain.

Authors:  Ana Ramo; Joaquín Quílez; Luis Monteagudo; Emilio Del Cacho; Caridad Sánchez-Acedo
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