Literature DB >> 12902263

Intraspecies polymorphism of Cryptosporidium parvum revealed by PCR-restriction fragment length polymorphism (RFLP) and RFLP-single-strand conformational polymorphism analyses.

Zhiliang Wu1, Isao Nagano, Thidarut Boonmars, Takumi Nakada, Yuzo Takahashi.   

Abstract

A glycoprotein (Cpgp40/15)-encoding gene of Cryptosporidium parvum was analyzed to reveal intraspecies polymorphism within C. parvum isolates. Forty-one isolates were collected from different geographical origins (Japan, Italy, and Nepal) and hosts (humans, calves, and a goat). These isolates were characterized by means of DNA sequencing, PCR-restriction fragment length polymorphism (PCR-RFLP), and RFLP-single-strand conformational polymorphism (RFLP-SSCP) analyses of the gene for Cpgp40/15. The sequence analysis indicated that there was DNA polymorphism between genotype I and II, as well as within genotype I, isolates. The DNA and amino acid sequence identities between genotypes I and II differed, depending on the isolates, ranging from 73.3 to 82.9% and 62.4 to 80.1%, respectively. Those among genotype I isolates differed, depending on the isolates, ranging from 69.0 to 85.4% and 54.8 to 79.2%, respectively. Because of the high resolution generated by PCR-RFLP and RFLP-SSCP, the isolates of genotype I could be subtyped as genotypes Ia1, Ia2, Ib, and Ie. The isolates of genotype II could be subtyped as genotypes IIa, IIb, and IIc. The isolates from calves, a goat, and one Japanese human were identified as genotype II. Within genotype II, the isolates from Japan were identified as genotype IIa, those from calves in Italy were identified as genotype IIb, and the goat isolate was identified as genotype IIc. All of the genotype I isolates were from humans. The Japanese isolate (code no. HJ3) and all of the Nepalese isolates were identified as genotypes Ia1 and Ia2, respectively. The Italian isolates were identified as genotype Ib, and the Japanese isolate (code no. HJ2) was identified as genotype Ie. Thus, the PCR-RFLP-SSCP analysis of this glycoprotein Cpgp40/15 gene generated a high resolution that has not been achieved by previous methods of genotypic differentiation of C. parvum.

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Year:  2003        PMID: 12902263      PMCID: PMC169079          DOI: 10.1128/AEM.69.8.4720-4726.2003

Source DB:  PubMed          Journal:  Appl Environ Microbiol        ISSN: 0099-2240            Impact factor:   4.792


  19 in total

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Journal:  FEMS Microbiol Lett       Date:  1997-05-15       Impact factor: 2.742

2.  Molecular cloning and expression analysis of a Cryptosporidium parvum gene encoding a new member of the thrombospondin family.

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Journal:  Mol Biochem Parasitol       Date:  1998-04-01       Impact factor: 1.759

3.  Genetic diversity within Cryptosporidium parvum and related Cryptosporidium species.

Authors:  L Xiao; U M Morgan; J Limor; A Escalante; M Arrowood; W Shulaw; R C Thompson; R Fayer; A A Lal
Journal:  Appl Environ Microbiol       Date:  1999-08       Impact factor: 4.792

4.  Phylogenetic analysis of Cryptosporidium parasites based on the small-subunit rRNA gene locus.

Authors:  L Xiao; L Escalante; C Yang; I Sulaiman; A A Escalante; R J Montali; R Fayer; A A Lal
Journal:  Appl Environ Microbiol       Date:  1999-04       Impact factor: 4.792

5.  Polymerase chain reaction-restriction fragment length polymorphism (PCR-RFLP) for the identification of Trichinella isolates.

Authors:  Z Wu; I Nagano; E Pozio; Y Takahashi
Journal:  Parasitology       Date:  1999-02       Impact factor: 3.234

6.  Cryptosporidium parvum: PCR-RFLP analysis of the TRAP-C1 (thrombospondin-related adhesive protein of Cryptosporidium-1) gene discriminates between two alleles differentially associated with parasite isolates of animal and human origin.

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Journal:  Exp Parasitol       Date:  1998-10       Impact factor: 2.011

7.  Multilocus genotypic analysis of Cryptosporidium parvum isolates from different hosts and geographical origins.

Authors:  F Spano; L Putignani; A Crisanti; P Sallicandro; U M Morgan; S M Le Blancq; L Tchack; S Tzipori; G Widmer
Journal:  J Clin Microbiol       Date:  1998-11       Impact factor: 5.948

8.  Analysis of sequence diversity at the highly polymorphic Cpgp40/15 locus among Cryptosporidium isolates from human immunodeficiency virus-infected children in South Africa.

Authors:  Brett A Leav; Malanie R Mackay; Akudo Anyanwu; Roberta M O' Connor; Ana Maria Cevallos; Gurpreet Kindra; Nigel C Rollins; Michael L Bennish; Richard G Nelson; Honorine D Ward
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9.  Differentiating human from animal isolates of Cryptosporidium parvum.

Authors:  I M Sulaiman; L Xiao; C Yang; L Escalante; A Moore; C B Beard; M J Arrowood; A A Lal
Journal:  Emerg Infect Dis       Date:  1998 Oct-Dec       Impact factor: 6.883

Review 10.  Genetic polymorphism among Cryptosporidium parvum isolates: evidence of two distinct human transmission cycles.

Authors:  M M Peng; L Xiao; A R Freeman; M J Arrowood; A A Escalante; A C Weltman; C S Ong; W R Mac Kenzie; A A Lal; C B Beard
Journal:  Emerg Infect Dis       Date:  1997 Oct-Dec       Impact factor: 6.883
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  20 in total

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Journal:  J Clin Microbiol       Date:  2006-02       Impact factor: 5.948

2.  Molecular and spatial epidemiology of cryptosporidiosis in children in a semiurban community in South India.

Authors:  Sitara Swarna Rao Ajjampur; Beryl Primrose Gladstone; David Selvapandian; Jaya Prakash Muliyil; Honorine Ward; Gagandeep Kang
Journal:  J Clin Microbiol       Date:  2007-01-24       Impact factor: 5.948

3.  Distribution of Cryptosporidium parvum subtypes in calves in eastern United States.

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4.  Subgenotype analysis of Cryptosporidium parvum isolates from humans and animals in Japan using the 60-kDa glycoprotein gene sequences.

Authors:  Niichiro Abe; Makoto Matsubayashi; Isao Kimata; Motohiro Iseki
Journal:  Parasitol Res       Date:  2006-03-25       Impact factor: 2.289

5.  Identification of Cpgp40/15 Type Ib as the predominant allele in isolates of Cryptosporidium spp. from a waterborne outbreak of gastroenteritis in South Burgundy, France.

Authors:  Seth Cohen; Frédéric Dalle; Anne Gallay; Marc Di Palma; Alain Bonnin; Honorine D Ward
Journal:  J Clin Microbiol       Date:  2006-02       Impact factor: 5.948

6.  Genotyping of Cryptosporidium isolates from Chamelea gallina clams in Italy.

Authors:  Donato Traversa; Annunziata Giangaspero; Umberto Molini; Raffaella Iorio; Barbara Paoletti; Domenico Otranto; Carla Giansante
Journal:  Appl Environ Microbiol       Date:  2004-07       Impact factor: 4.792

7.  Cryptosporidium genotypes and subtypes in lambs and goat kids in Spain.

Authors:  Joaquín Quílez; Eucaris Torres; Rachel M Chalmers; Stephen J Hadfield; Emilio Del Cacho; Caridad Sánchez-Acedo
Journal:  Appl Environ Microbiol       Date:  2008-07-11       Impact factor: 4.792

8.  Classification of Cryptosporidium species from patients with sporadic cryptosporidiosis by use of sequence-based multilocus analysis following mutation scanning.

Authors:  Aaron R Jex; Aradhana Pangasa; Bronwyn E Campbell; Margaret Whipp; Geoff Hogg; Martha I Sinclair; Melita Stevens; Robin B Gasser
Journal:  J Clin Microbiol       Date:  2008-04-30       Impact factor: 5.948

9.  An evaluation of primers amplifying DNA targets for the detection of Cryptosporidium spp. using C. parvum HNJ-1 Japanese isolate in water samples.

Authors:  Anna Susanne Leetz; Isaia Sotiriadou; Jerry Ongerth; Panagiotis Karanis
Journal:  Parasitol Res       Date:  2007-05-19       Impact factor: 2.289

10.  Distribution of Cryptosporidium subtypes in humans and domestic and wild ruminants in Portugal.

Authors:  Margarida Alves; Lihua Xiao; Francisco Antunes; Olga Matos
Journal:  Parasitol Res       Date:  2006-03-22       Impact factor: 2.289
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