Open AccessDetermination of the G and P Types of Previously Nontypeable Rotavirus Strains from the African Rotavirus Network, 1996–2004: Identification of Unusual G Types
Author(s) -
Mathew D. Esona,
A. Duncan Steele,
Tara Kerin,
George Armah,
Ina Peenze,
A. Geyer,
Nicola Page,
James Nyangao,
V.A. Agbaya,
Abdelhalim Trabelsi,
Tsion Bizuneh,
Maryam Aminu,
Theresia Sebunya,
John Barr Dewar,
Roger I. Glass,
Jon R. Gentsch
Publication year - 2010
Publication title -
the journal of infectious diseases
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 2.69
H-Index - 252
eISSN - 1537-6613
pISSN - 0022-1899
DOI - 10.1086/653552
Subject(s) - rotavirus , reassortment , genotyping , genotype , biology , virology , polymerase chain reaction , reoviridae , microbiology and biotechnology , virus , genetics , gene , medicine , disease , covid-19 , pathology , infectious disease (medical specialty)
A total of 215 nontypeable rotavirus samples collected from children <5 years of age by members of the African Rotavirus Network were characterized using reverse-transcription polymerase chain reaction analysis and sequencing. The most predominant strain identified was P[8]G1 (46.9%). Genotypes P[8]G10, P[8]G8, P[6]G8, and P[7]G5 were also detected at frequencies varying from 0.5% to 2.3%. This study suggests that reassortment of unusual G types into a background of globally common genotype P[8] strains may be a major mechanism of generating rotavirus diversity. Nucleotide substitutions at the P[8], P[6], and G1 primer binding sites accounted for the failure to type these strains initially. Hence, these findings highlight the need for regular evaluation of rotavirus genotyping methods.
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