Literature DB >> 27056216

Complete Genome Sequence of a Vampire Bat Rabies Virus from French Guiana.

Anne Lavergne¹, Edith Darcissac¹, Hervé Bourhy², Sourakhata Tirera¹, Benoît de Thoisy¹, Vincent Lacoste³.

Abstract

A rabies virus was detected in a common vampire bat (Desmodus rotundus) in French Guiana. Its genomic sequence was obtained and found to be closely related to other hematophagous bat-related viruses that widely circulate in the northern Amazon region. This virus is named AT6.

Entities: Chemical Disease Species

Year: 2016 PMID： 27056216 PMCID： PMC4824249 DOI： 10.1128/genomeA.00188-16

Source DB: PubMed Journal: Genome Announc

GENOME ANNOUNCEMENT

Rabies is a viral disease distributed all over the world, causing more than 55,000 deaths per year, principally in Africa and Asia (1). Most of the time, it is transmitted via rabid domestic animals, but the virus is also maintained and transmitted through sylvatic reservoirs, of which bats are a member. Vampire bats are now considered the main vector of the disease in South America (2, 3). In French Guiana, on the northern part of South America, 14 rabies cases were recorded in cattle and domestic carnivores between 1984 and 2011 (4). In 2008, a human rabies case was recorded (5). All cases were related to vampire bat-associated rabies viruses (RABV). RABV belongs to the Rhabdoviridae family, genus Lyssavirus. Its genome is a single-stranded negative-sense RNA of approximately 12 kb that encodes five structural proteins. A previous work on the circulation of rabies virus in wild bats in French Guiana allowed us to identify, among nearly 1,000 bats belonging to 30 species, one common vampire bat, Desmodus rotundus, which was positive for RABV (6). We report here the full-genome sequence of the rabies virus isolate AT6. To generate the complete genome sequence, total RNA was extracted from the heart using the NucliSENS easyMAG bio-robot (bioMérieux). cDNA was prepared with the SuperScript III reverse transcriptase (Invitrogen). Sequences were generated by reverse transcription PCR (RT-PCR) using different combinations of primers. Overlapping amplicons were generated, cloned, and then sequenced by Beckman Coulter Genomics (Takeley, United Kingdom). One contig sequence was assembled using the MEGA5 software (7). The complete genome of the strain is 11,922 nucleotides (nt) in length. Its genetic organization is consistent with that of previously sequenced rabies virus genomes, with five open reading frames unidirectionally transcribed and separated by intergenic regions of various sizes (8). The coding sequences are 1,353 nt for the nucleoprotein-encoding gene, 894 nt for the phosphoprotein, 609 nt for the matrix protein, 1,575 nt for the glycoprotein, and 6,387 nt for the RNA-dependent RNA polymerase, with the RNA-dependent RNA polymerase having a double start codon characteristic of RABV strains isolated from bats in the Americas (9). We conducted a phylogenetic analysis based on the complete nucleotide sequence using a Bayesian approach with previously published rabies virus sequences. It showed that AT6 is closely related to a strain (accession no. KM594041) isolated from a D. rotundus bat in Brazil in 2013 with 98.79% nucleotide identity. These two sequences belong to a clade composed of sequences of desmodine origin from Brazil and French Guiana identified during the last two decades. All these strains belong to a large group of hematophagous bat-related viruses, named lineage II, which widely circulate in the northern Amazon region (10). Further analysis of RABV genomes detected in the northern Amazon region should enable an understanding of the circulation and transmission of RABV lineages in the bat populations.

Nucleotide sequence accession number.

The complete genome sequence of RABV AT6 is available in the GenBank database under accession no. KU523255.

9 in total

1. MEGA5: molecular evolutionary genetics analysis using maximum likelihood, evolutionary distance, and maximum parsimony methods.

Authors: Koichiro Tamura; Daniel Peterson; Nicholas Peterson; Glen Stecher; Masatoshi Nei; Sudhir Kumar
Journal: Mol Biol Evol Date: 2011-05-04 Impact factor: 16.240

2. Determination and molecular analysis of the complete genome sequence of two wild-type rabies viruses isolated from a haematophagous bat and a frugivorous bat in Brazil.

Authors: Nobuyuki Mochizuki; Yuki Kobayashi; Go Sato; Shinji Hirano; Takuya Itou; Fumio H Ito; Takeo Sakai
Journal: J Vet Med Sci Date: 2011-02-02 Impact factor: 1.267

3. Molecular epidemiology of rabies virus isolated from different sources during a bat-transmitted human outbreak occurring in Augusto Correa municipality, Brazilian Amazon.

Authors: Taciana Fernandes Souza Barbosa; Daniele Barbosa de Almeida Medeiros; Elizabeth Salbe Travassos da Rosa; Lívia Medeiros Neves Casseb; Rita Medeiros; Armando de Souza Pereira; Antonio Carlos Rosário Vallinoto; Marcelo Vallinoto; Alberto Lopes Begot; Reynaldo José da Silva Lima; Pedro Fernando da Costa Vasconcelos; Márcio RobertoTeixeira Nunes
Journal: Virology Date: 2007-11-08 Impact factor: 3.616

4. Rabies Risk: Difficulties Encountered during Management of Grouped Cases of Bat Bites in 2 Isolated Villages in French Guiana.

Authors: Franck Berger; Noëlle Desplanches; Sylvie Baillargeaux; Michel Joubert; Manuelle Miller; Florence Ribadeau-Dumas; André Spiegel; Hervé Bourhy
Journal: PLoS Negl Trop Dis Date: 2013-06-27

5. Bat-transmitted human rabies outbreaks, Brazilian Amazon.

Authors: Elizabeth S T da Rosa; Ivanete Kotait; Taciana F S Barbosa; Maria L Carrieri; Paulo E Brandão; Amiraldo S Pinheiro; Alberto L Begot; Marcelo Y Wada; Rosely C de Oliveira; Edmundo C Grisard; Márcia Ferreira; Reynaldo J da Silva Lima; Lúcia Montebello; Daniele B A Medeiros; Rita C M Sousa; Gilberta Bensabath; Eduardo H Carmo; Pedro F C Vasconcelos
Journal: Emerg Infect Dis Date: 2006-08 Impact factor: 6.883

6. First human rabies case in French Guiana, 2008: epidemiological investigation and control.

Authors: Jean-Baptiste Meynard; Claude Flamand; Céline Dupuy; Aba Mahamat; Françoise Eltges; Frederic Queuche; Julien Renner; Jean-Michel Fontanella; Didier Hommel; Philippe Dussart; Claire Grangier; Félix Djossou; Laurent Dacheux; Maryvonne Goudal; Franck Berger; Vanessa Ardillon; Nicolas Krieger; Hervé Bourhy; André Spiegel
Journal: PLoS Negl Trop Dis Date: 2012-02-21

7. Genomic diversity and evolution of the lyssaviruses.

Authors: Olivier Delmas; Edward C Holmes; Chiraz Talbi; Florence Larrous; Laurent Dacheux; Christiane Bouchier; Hervé Bourhy
Journal: PLoS One Date: 2008-04-30 Impact factor: 3.240

8. Enzootic and epizootic rabies associated with vampire bats, peru.

Authors: Rene Edgar Condori-Condori; Daniel G Streicker; Cesar Cabezas-Sanchez; Andres Velasco-Villa
Journal: Emerg Infect Dis Date: 2013 Impact factor: 6.883

9. Bioecological Drivers of Rabies Virus Circulation in a Neotropical Bat Community.

Authors: Benoit de Thoisy; Hervé Bourhy; Marguerite Delaval; Dominique Pontier; Laurent Dacheux; Edith Darcissac; Damien Donato; Amandine Guidez; Florence Larrous; Rachel Lavenir; Arielle Salmier; Vincent Lacoste; Anne Lavergne
Journal: PLoS Negl Trop Dis Date: 2016-01-25

9 in total