A metagenomic viral discovery approach identifies potential zoonotic and novel mammalian viruses in Neoromicia bats within South Africa

Geldenhuys, Marike; Mortlock, Marinda; Weyer, Jacqueline; Bezuidt, Keoagile Ignatius Oliver; Seamark, E.C.J. (Ernest); Kearney, Teresa; Gleasner, Cheryl; Erkkila, Tracy H.; Cui, Helen; Markotter, Wanda

A metagenomic viral discovery approach identifies potential zoonotic and novel mammalian viruses in Neoromicia bats within South Africa

dc.contributor.author	Geldenhuys, Marike
dc.contributor.author	Mortlock, Marinda
dc.contributor.author	Weyer, Jacqueline
dc.contributor.author	Bezuidt, Keoagile Ignatius Oliver
dc.contributor.author	Seamark, E.C.J. (Ernest)
dc.contributor.author	Kearney, Teresa
dc.contributor.author	Gleasner, Cheryl
dc.contributor.author	Erkkila, Tracy H.
dc.contributor.author	Cui, Helen
dc.contributor.author	Markotter, Wanda
dc.contributor.email	wanda.markotter@up.ac.za	en_ZA
dc.date.accessioned	2018-05-25T12:19:46Z
dc.date.available	2018-05-25T12:19:46Z
dc.date.issued	2018-03-26
dc.description	S1 File. Virome sequence data information from the Parvoviridae and Papillomaviridae families (with references and figures).	en_ZA
dc.description	S1 Table. Neoromicia samples collected to investigate the South African Neoromicia virome.	en_ZA
dc.description	S3 Table. Neoromicia samples pooled for molecular detection of selected viruses.	en_ZA
dc.description	S4 Table. Alpha- and Betacoronavirus genera hemi-nested RT-PCR primers.	en_ZA
dc.description	S5 Table. Pairwise similarities inferred from distance estimations of full length genomes of the Circoviridae family. Sequence similarities of viruses in the Circoviridae family inferred from estimated evolutionary divergence calculated from pairwise distances. Full genomes were aligned and trimmed to 1075 overlapping positions. All ambiguous positions were removed for each sequence pair. Analyses were conducted in MEGA7 [41].	en_ZA
dc.description	S6 Table. Pairwise similarities inferred from distance estimations of an L gene region between selected Bunyavirales. The table shows pairwise sequence similarities inferred from evolutionary divergence estimates of 249 positions of compared Bunyavirales. The number of base differences per site from between sequences were converted to percentage of similarities. Standard errors for distance estimates are shown above the diagonal. Codon positions included were 1±3 as well as noncoding. Ambiguous positions were removed for each sequence pair as per pairwise deletion. Estimates were analysed in MEGA7 [41].	en_ZA
dc.description	S7 Table. Pairwise similarities inferred from distance estimations of a 605bp conserved segment of the coronavirus RNA dependent RNA polymerase gene. The table shows pairwise sequence similarities inferred from evolutionary divergence estimates of 605 positions of compared coronaviruses. The number of base differences per site from between sequences were converted to percentage of similarities. The sequences from this study are highlighted in grey and closest similarities to sequences from other studies are indicated in bold. Standard errors for distance estimates are shown above the diagonal in grey text. Codon positions included were 1±3 as well as noncoding and ambiguous positions were removed for each sequence pair as per pairwise deletion. Estimates were analysed in MEGA 7 [41].	en_ZA
dc.description	S8 Table. Genome annotation of BtCoVNeo5038 with similarities to compared lineage C betacoronaviruses. The percentage similarities were inferred from pairwise distance estimates of the base pair and amino acid differences per site for each gene and of the overall genome. The estimates were calculated in MEGA7 [41] using pairwise deletion to treat gaps. All percentage similarities are given in comparison to BtCoVNeoV5038. Accession number of compared betacoronaviruses are listed in order: KC869678.4, KX574227, EF065505.1, EF065509.1, JX869059.2, KF958702.1, KF917527.1, and KJ477102.1.	en_ZA
dc.description	S9 Table. Pairwise similarities inferred from distance estimations between betacoronavirus full genomes. The table shows pairwise similarities inferred from evolutionary divergence estimates of betacoronavirus full genomes. The number of base differences per site between sequences were converted to percentage similarities. Within lineage similarities are indicated in shaded blocks. Standard errors for distance estimates are shown above the diagonal in grey text. Codon positions included were 1±3 as well as noncoding and ambiguous positions were removed for each sequence pair as per pairwise deletion. Estimates were analysed in MEGA 7 [41].	en_ZA
dc.description	S10 Table. Coronavirus strains and Genbank accession numbers of sequences used in the full genome phylogeny.	en_ZA
dc.description.abstract	Species within the Neoromicia bat genus are abundant and widely distributed in Africa. It is common for these insectivorous bats to roost in anthropogenic structures in urban regions. Additionally, Neoromicia capensis have previously been identified as potential hosts for Middle East respiratory syndrome (MERS)-related coronaviruses. This study aimed to ascertain the gastrointestinal virome of these bats, as viruses excreted in fecal material or which may be replicating in rectal or intestinal tissues have the greatest opportunities of coming into contact with other hosts. Samples were collected in five regions of South Africa over eight years. Initial virome composition was determined by viral metagenomic sequencing by pooling samples and enriching for viral particles. Libraries were sequenced on the Illumina MiSeq and NextSeq500 platforms, producing a combined 37 million reads. Bioinformatics analysis of the high throughput sequencing data detected the full genome of a novel species of the Circoviridae family, and also identified sequence data from the Adenoviridae, Coronaviridae, Herpesviridae, Parvoviridae, Papillomaviridae, Phenuiviridae, and Picornaviridae families. Metagenomic sequencing data was insufficient to determine the viral diversity of certain families due to the fragmented coverage of genomes and lack of suitable sequencing depth, as some viruses were detected from the analysis of reads-data only. Follow up conventional PCR assays targeting conserved gene regions for the Adenoviridae, Coronaviridae, and Herpesviridae families were used to confirm metagenomic data and generate additional sequences to determine genetic diversity. The complete coding genome of a MERS-related coronavirus was recovered with additional amplicon sequencing on the MiSeq platform. The new genome shared 97.2% overall nucleotide identity to a previous Neoromicia-associated MERS-related virus, also from South Africa. Conventional PCR analysis detected diverse adenovirus and herpesvirus sequences that were widespread throughout Neoromicia populations in South Africa. Furthermore, similar adenovirus sequences were detected within these populations throughout several years. With the exception of the coronaviruses, the study represents the first report of sequence data from several viral families within a Southern African insectivorous bat genus; highlighting the need for continued investigations in this regard.	en_ZA
dc.description.department	Mammal Research Institute	en_ZA
dc.description.department	Medical Virology	en_ZA
dc.description.librarian	am2018	en_ZA
dc.description.sponsorship	This work was financially supported in part by the National Research Foundation (NRF) of South Africa: the South African Research Chair held by WMgrant no. 98339, as well as grant numbers 92524, 85756, and 91496. The opinions, findings and conclusions expressed are those of the authors alone, and the NRF accepts no liability in this regard for research supported. Additional support was obtained byWMfrom the Poliomyelitis Research Foundation (grant number: 12/14). The Research Trust of the National Health Laboratory Service and the Medical Research Council was awarded to JW. This research was partially supported by the Grant or Cooperative Agreement Number [5 NU2GGH001874-02-00], funded by the Centers for Disease Control and Prevention. Its contents are solely the responsibility of the authors and do not necessarily represent the official views of the Centers for Disease Control and Prevention or the Department of Health and Human Services. MG was supported by funding from the NRF's Innovation bursary award (grant UID: 79409), the Poliomyelitis Research Foundation (grant no. 13/48), and the postgraduate study abroad bursary program of the University of Pretoria, which funded a research visit to the Los Alamos National Laboratory in New Mexico.	en_ZA
dc.description.uri	http://www.plosone.org	en_ZA
dc.identifier.citation	Geldenhuys M, Mortlock M, Weyer J, Bezuidt O, Seamark ECJ, Kearney T, et al. (2018) A metagenomic viral discovery approach identifies potential zoonotic and novel mammalian viruses in Neoromicia bats within South Africa. PLoS ONE 13 (3): e0194527. https://DOI.org/ 10.1371/journal.pone.0194527.	en_ZA
dc.identifier.issn	1932-6203 (online)
dc.identifier.other	10.1371/journal.pone.0194527
dc.identifier.uri	http://hdl.handle.net/2263/65027
dc.language.iso	en	en_ZA
dc.publisher	Public Library of Science	en_ZA
dc.rights	The work is made available under the Creative Commons CC0.	en_ZA
dc.subject	Africa	en_ZA
dc.subject	Neoromicia bat	en_ZA
dc.subject	Urban regions	en_ZA
dc.subject	Middle East respiratory syndrome (MERS)	en_ZA
dc.subject	Classification	en_ZA
dc.subject	Paramyxoviruses	en_ZA
dc.subject	Adenoviruses	en_ZA
dc.subject	China	en_ZA
dc.subject	Prevalence	en_ZA
dc.subject	Genome analysis	en_ZA
dc.subject	Genetic diversity	en_ZA
dc.subject	Dromedary camels	en_ZA
dc.subject	Respiratory syndrome coronavirus	en_ZA
dc.title	A metagenomic viral discovery approach identifies potential zoonotic and novel mammalian viruses in Neoromicia bats within South Africa	en_ZA
dc.type	Article	en_ZA