Distribution and genetic analysis of TTV and TTMV major phylogenetic groups in French blood donors

TTV and TTMV (recently assigned to the floating genus Anellovirus) infect human populations (including healthy individuals) at high prevalence (>80%). They display notably high levels of genetic diversity, but very little is known regarding the distribution of Anellovirus genetic groups in human...

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Published inJournal of medical virology Vol. 78; no. 2; pp. 298 - 304
Main Authors Biagini, Philippe, Pierre Gallian, Cantaloube, Jean-François, Attoui, Houssam, de Micco, Philippe, de Lamballerie, Xavier
Format Journal Article
LanguageEnglish
Published Hoboken Wiley Subscription Services, Inc., A Wiley Company 01.02.2006
Wiley-Liss
Wiley-Blackwell
Subjects
Adolescent
Adult
Aged
Anelloviridae - genetics
Anelloviridae - isolation & purification
anellovirus
Biological and medical sciences
Blood Donors
Cohort Studies
DNA Virus Infections - prevention & control
DNA Virus Infections - virology
Female
France
Fundamental and applied biological sciences. Psychology
Genetics
Genome, Viral
Human viral diseases
Humans
Infectious diseases
Life Sciences
Male
Medical sciences
Microbiology
Middle Aged
Miscellaneous
Molecular Sequence Data
phylogenetic groups
Species Specificity
Torque teno virus - genetics
Torque teno virus - isolation & purification
TTMV
TTV
Viral diseases
Virology
France
blood donors
Blood group
anellovirus
TTV
Genetics
Phylogeny
phylogenetic groups
TTMV
Blood donor
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Abstract TTV and TTMV (recently assigned to the floating genus Anellovirus) infect human populations (including healthy individuals) at high prevalence (>80%). They display notably high levels of genetic diversity, but very little is known regarding the distribution of Anellovirus genetic groups in human populations. We analyzed the distribution of the major genetic groups of TTV and TTMV in healthy voluntary blood donors using group‐independent and group‐specific PCR amplifications systems, combined with sequence determination and phylogenetic analysis. Analysis of Anellovirus groups revealed a non‐random pattern of group distribution with a predominant prevalence of TTV phylogenetic groups 1, 3, and 5, and of TTMV group 1. Multiple co‐infections were observed. In addition, TTMV sequences exhibiting a high genetic divergence with reference sequences were identified. This study provided the first picture of the genetic distribution of the major phylogenetic groups of members of the genus Anellovirus in a cohort of French voluntary blood donors. Obtaining such data from a reference population comprising healthy individuals was an essential step that will allow the subsequent comparative analysis of cohorts including patients with well‐characterized diseases, in order to identify any possible relationship between Anellovirus infection and human diseases. J. Med. Virol. 78:298–304, 2006. © 2005 Wiley‐Liss, Inc.
AbstractList TTV and TTMV (recently assigned to the floating genus Anellovirus) infect human populations (including healthy individuals) at high prevalence (>80%). They display notably high levels of genetic diversity, but very little is known regarding the distribution of Anellovirus genetic groups in human populations. We analyzed the distribution of the major genetic groups of TTV and TTMV in healthy voluntary blood donors using group‐independent and group‐specific PCR amplifications systems, combined with sequence determination and phylogenetic analysis. Analysis of Anellovirus groups revealed a non‐random pattern of group distribution with a predominant prevalence of TTV phylogenetic groups 1, 3, and 5, and of TTMV group 1. Multiple co‐infections were observed. In addition, TTMV sequences exhibiting a high genetic divergence with reference sequences were identified. This study provided the first picture of the genetic distribution of the major phylogenetic groups of members of the genus Anellovirus in a cohort of French voluntary blood donors. Obtaining such data from a reference population comprising healthy individuals was an essential step that will allow the subsequent comparative analysis of cohorts including patients with well‐characterized diseases, in order to identify any possible relationship between Anellovirus infection and human diseases. J. Med. Virol. 78:298–304, 2006. © 2005 Wiley‐Liss, Inc.
TTV and TTMV (recently assigned to the floating genus Anellovirus) infect human populations (including healthy individuals) at high prevalence (>80%). They display notably high levels of genetic diversity, but very little is known regarding the distribution of Anellovirus genetic groups in human populations. We analyzed the distribution of the major genetic groups of TTV and TTMV in healthy voluntary blood donors using group-independent and group-specific PCR amplifications systems, combined with sequence determination and phylogenetic analysis. Analysis of Anellovirus groups revealed a non-random pattern of group distribution with a predominant prevalence of TTV phylogenetic groups 1, 3, and 5, and of TTMV group 1. Multiple co-infections were observed. In addition, TTMV sequences exhibiting a high genetic divergence with reference sequences were identified. This study provided the first picture of the genetic distribution of the major phylogenetic groups of members of the genus Anellovirus in a cohort of French voluntary blood donors. Obtaining such data from a reference population comprising healthy individuals was an essential step that will allow the subsequent comparative analysis of cohorts including patients with well-characterized diseases, in order to identify any possible relationship between Anellovirus infection and human diseases. J. Med. Virol. 78:298-304, 2006.
TTV and TTMV (recently assigned to the floating genus Anellovirus) infect human populations (including healthy individuals) at high prevalence (>80%). They display notably high levels of genetic diversity, but very little is known regarding the distribution of Anellovirus genetic groups in human populations. We analyzed the distribution of the major genetic groups of TTV and TTMV in healthy voluntary blood donors using group-independent and group-specific PCR amplifications systems, combined with sequence determination and phylogenetic analysis. Analysis of Anellovirus groups revealed a non-random pattern of group distribution with a predominant prevalence of TTV phylogenetic groups 1, 3, and 5, and of TTMV group 1. Multiple co-infections were observed. In addition, TTMV sequences exhibiting a high genetic divergence with reference sequences were identified. This study provided the first picture of the genetic distribution of the major phylogenetic groups of members of the genus Anellovirus in a cohort of French voluntary blood donors. Obtaining such data from a reference population comprising healthy individuals was an essential step that will allow the subsequent comparative analysis of cohorts including patients with well-characterized diseases, in order to identify any possible relationship between Anellovirus infection and human diseases.
TTV and TTMV (recently assigned to the floating genus Anellovirus) infect human populations (including healthy individuals) at high prevalence (>80%). They display notably high levels of genetic diversity, but very little is known regarding the distribution of Anellovirus genetic groups in human populations. We analyzed the distribution of the major genetic groups of TTV and TTMV in healthy voluntary blood donors using group-independent and group-specific PCR amplifications systems, combined with sequence determination and phylogenetic analysis. Analysis of Anellovirus groups revealed a non-random pattern of group distribution with a predominant prevalence of TTV phylogenetic groups 1, 3, and 5, and of TTMV group 1. Multiple co-infections were observed. In addition, TTMV sequences exhibiting a high genetic divergence with reference sequences were identified. This study provided the first picture of the genetic distribution of the major phylogenetic groups of members of the genus Anellovirus in a cohort of French voluntary blood donors. Obtaining such data from a reference population comprising healthy individuals was an essential step that will allow the subsequent comparative analysis of cohorts including patients with well-characterized diseases, in order to identify any possible relationship between Anellovirus infection and human diseases.
Author Biagini, Philippe
de Micco, Philippe
Pierre Gallian
de Lamballerie, Xavier
Cantaloube, Jean-François
Attoui, Houssam
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  surname: Pierre Gallian
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  givenname: Xavier
  surname: de Lamballerie
  fullname: de Lamballerie, Xavier
  organization: Faculté de Médecine, Marseille, France
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Issue 2
Keywords blood donors
Blood group
anellovirus
TTV
Genetics
Phylogeny
phylogenetic groups
TTMV
Blood donor
Language English
License CC BY 4.0
Copyright 2005 Wiley-Liss, Inc.
Distributed under a Creative Commons Attribution 4.0 International License: http://creativecommons.org/licenses/by/4.0
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The GenBank accession numbers of the TTMV sequences reported in this article are: DQ221102 for F1TL1, DQ221103 for H1TL1, DQ221104 for D2TL3, and DQ223687-DQ223717 for the sequences of 31 clones (NCR region).
The GenBank accession numbers of the TTMV sequences reported in this article are: DQ221102 for F1TL1, DQ221103 for H1TL1, DQ221104 for D2TL3, and DQ223687‐DQ223717 for the sequences of 31 clones (NCR region).
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2002; 30
2003; 35
2003; 36
2001a; 82
2004; 5
1999; 86
2004
2001a; 22
2000b; 271
1998; 352
1999; 80
2001b; 82
2001; 63
2001; 41
2001; 64
2003; 77
2001; 65
2004; 72
2000; 38
2002; 85
2001b; 288
2002; 67
1997; 241
1999; 260
2002; 147
1999; 37
2000; 74
2000; 40
2000; 81
2001; 15
1999; 96
1999; 73
2000; 145
2000a; 40
1998; 10
1998; 12
2005; 79
Devalle (10.1002/jmv.20539-BIB10) 2004; 72
Huang (10.1002/jmv.20539-BIB17) 2001; 64
Takahashi (10.1002/jmv.20539-BIB35) 1998; 12
Hijikata (10.1002/jmv.20539-BIB16) 1999; 260
Peng (10.1002/jmv.20539-BIB32) 2002; 147
Biagini (10.1002/jmv.20539-BIB4) 2000b; 271
Handa (10.1002/jmv.20539-BIB15) 2000; 40
Biagini (10.1002/jmv.20539-BIB8) 2004
Worobey (10.1002/jmv.20539-BIB37) 2000; 74
Jones (10.1002/jmv.20539-BIB18) 2005; 79
Takahashi (10.1002/jmv.20539-BIB36) 2000; 145
Shibayama (10.1002/jmv.20539-BIB33) 2001; 15
Kumar (10.1002/jmv.20539-BIB20) 2004; 5
Takacs (10.1002/jmv.20539-BIB34) 2003; 35
Biagini (10.1002/jmv.20539-BIB3) 2000a; 40
Niel (10.1002/jmv.20539-BIB27) 2000; 38
Biagini (10.1002/jmv.20539-BIB5) 2001a; 22
Miyata (10.1002/jmv.20539-BIB24) 1999; 73
Okamoto (10.1002/jmv.20539-BIB29) 1998; 10
Al-Moslih (10.1002/jmv.20539-BIB1) 2004; 72
Nishizawa (10.1002/jmv.20539-BIB28) 1997; 241
Maggi (10.1002/jmv.20539-BIB23) 2003; 77
Mushahwar (10.1002/jmv.20539-BIB25) 1999; 96
Erensoy (10.1002/jmv.20539-BIB11) 2002; 30
Katsoulidou (10.1002/jmv.20539-BIB19) 2001; 65
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Love (10.1002/jmv.20539-BIB22) 2000; 40
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Zhong (10.1002/jmv.20539-BIB39) 2001; 41
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Snippet TTV and TTMV (recently assigned to the floating genus Anellovirus) infect human populations (including healthy individuals) at high prevalence (>80%). They...
TTV and TTMV (recently assigned to the floating genus Anellovirus) infect human populations (including healthy individuals) at high prevalence (&gt;80%). They...
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StartPage 298
SubjectTerms Adolescent
Adult
Aged
Anelloviridae - genetics
Anelloviridae - isolation & purification
anellovirus
Biological and medical sciences
Blood Donors
Cohort Studies
DNA Virus Infections - prevention & control
DNA Virus Infections - virology
Female
France
Fundamental and applied biological sciences. Psychology
Genetics
Genome, Viral
Human viral diseases
Humans
Infectious diseases
Life Sciences
Male
Medical sciences
Microbiology
Middle Aged
Miscellaneous
Molecular Sequence Data
phylogenetic groups
Species Specificity
Torque teno virus - genetics
Torque teno virus - isolation & purification
TTMV
TTV
Viral diseases
Virology
Title Distribution and genetic analysis of TTV and TTMV major phylogenetic groups in French blood donors
URI https://api.istex.fr/ark:/67375/WNG-QWJBCGK9-L/fulltext.pdf
https://onlinelibrary.wiley.com/doi/abs/10.1002%2Fjmv.20539
https://www.ncbi.nlm.nih.gov/pubmed/16372292
https://search.proquest.com/docview/19995185
https://search.proquest.com/docview/67595203
https://hal.science/hal-01817732
Volume 78
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