Gene Sequence Variability of the Three Surface Proteins of Human Respiratory Syncytial Virus (HRSV) in Texas
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Tapia Faúndes, Lorena
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Gene Sequence Variability of the Three Surface Proteins of Human Respiratory Syncytial Virus (HRSV) in Texas
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Abstract
Human respiratory syncytial virus (HRSV) has three surface glycoproteins: small hydrophobic (SH), attachment (G) and fusion
(F), encoded by three consecutive genes (SH-G-F). A 270-nt fragment of the G gene is used to genotype HRSV isolates. This
study genotyped and investigated the variability of the gene and amino acid sequences of the three surface proteins of
HRSV strains collected from 1987 to 2005 from one center. Sixty original clinical isolates and 5 prototype strains were
analyzed. Sequences containing SH, F and G genes were generated, and multiple alignments and phylogenetic trees were
analyzed. Genetic variability by protein domains comparing virus genotypes was assessed. Complete sequences of the SHG-
F genes were obtained for all 65 samples: HRSV-A = 35; HRSV-B = 30. In group A strains, genotypes GA5 and GA2 were
predominant. For HRSV-B strains, the genotype GB4 was predominant from 1992 to 1994 and only genotype BA viruses
were detected in 2004–2005. Different genetic variability at nucleotide level was detected between the genes, with G gene
being the most variable and the highest variability detected in the 270-nt G fragment that is frequently used to genotype
the virus. High variability (.10%) was also detected in the signal peptide and transmembrane domains of the F gene of
HRSV A strains. Variability among the HRSV strains resulting in non-synonymous changes was detected in hypervariable
domains of G protein, the signal peptide of the F protein, a not previously defined domain in the F protein, and the
antigenic site Ø in the pre-fusion F. Divergent trends were observed between HRSV -A and -B groups for some functional
domains. A diverse population of HRSV -A and -B genotypes circulated in Houston during an 18 year period. We hypothesize
that diverse sequence variation of the surface protein genes provide HRSV strains a survival advantage in a partially
immune-protected community.
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URI: https://repositorio.uchile.cl/handle/2250/129519
DOI: DOI: 10.1371/journal.pone.0090786
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PLOS One March 2014 | Volume 9 | Issue 3 | e90786
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