Detection and In Vivo Validation of <i>Dichorhavirus</i> e-Probes in Meta-Transcriptomic Data via Microbe Finder (MiFi<sup>®</sup>) Discovers a Novel Host and a Possible New Strain of Orchid Fleck Virus

Detection and In Vivo Validation of <i>Dichorhavirus</i> e-Probes in Meta-Transcriptomic Data via Microbe Finder (MiFi<sup>®</sup>) Discovers a Novel Host and a Possible New Strain of Orchid Fleck Virus

<i>Dichorhavirus</i> is a recently accepted plant virus genus within the family <i>Rhabdoviridae</i>. Species assigned to the genus consist of bi-segmented, negative sense, single-stranded RNA viruses and are transmitted by <i>Brevipalpus</i> spp. Currently, there...

Full description

Saved in:
Bibliographic Details
Main Authors: Avijit Roy, Jonathan Shao, Andres S. Espindola, Daniel Ramos Lopez, Gabriel Otero-Colina, Yazmín Rivera, Vessela A. Mavrodieva, Mark K. Nakhla, William L. Schneider, Kitty Cardwell
Format: Article
Language:English
Published: MDPI AG 2025-03-01
Series:Viruses
Subjects:
<i>Brevipalpus</i> transmitted virus (BTV)
EDNA
MiFi
e-probe
high-throughput sequencing
orchid fleck virus
Online Access:https://www.mdpi.com/1999-4915/17/3/441
Tags: Add Tag
No Tags, Be the first to tag this record!
_version_ 1849340416695992320
author Avijit Roy
Jonathan Shao
Andres S. Espindola
Daniel Ramos Lopez
Gabriel Otero-Colina
Yazmín Rivera
Vessela A. Mavrodieva
Mark K. Nakhla
William L. Schneider
Kitty Cardwell
author_facet Avijit Roy
Jonathan Shao
Andres S. Espindola
Daniel Ramos Lopez
Gabriel Otero-Colina
Yazmín Rivera
Vessela A. Mavrodieva
Mark K. Nakhla
William L. Schneider
Kitty Cardwell
author_sort Avijit Roy
collection DOAJ
description <i>Dichorhavirus</i> is a recently accepted plant virus genus within the family <i>Rhabdoviridae</i>. Species assigned to the genus consist of bi-segmented, negative sense, single-stranded RNA viruses and are transmitted by <i>Brevipalpus</i> spp. Currently, there are five recognized species and two unclassified members in the genus <i>Dichorhavirus.</i> Four out of seven-orchid fleck virus (OFV), citrus leprosis virus N, citrus chlorotic spot virus, and citrus bright spot virus-can infect citrus and produce leprosis disease-like symptoms. The E-probe Diagnostic for Nucleic Acid Analysis (EDNA) was developed to reduce computational effort and then integrated within Microbe-Finder (MiFi<sup>®</sup>) online platform to design and evaluate e-probes in raw High Throughput Sequencing (HTS) data. During this study, <i>Dichorhavirus</i> genomes were downloaded from public databases and e-probes were designed using the MiProbe incorporated into the MiFi<sup>®</sup> platform. Three different sizes of e-probes, 40, 60, and 80 nucleotides, were developed and selected based on whole genome comparisons with near-neighbor genomes. For curation, each e-probe was searched in the NCBI nucleotide sequence database using BLASTn. All the e-probes that had hits with non-target species with ≥90% identities were removed. The sensitivity and specificity of <i>Dichorhavirus</i> genus, species, strain, and variant-specific e-probes were validated in vivo using HTS meta-transcriptomic libraries generated from <i>Dichorhavirus</i>-suspected citrus, orchid, and ornamentals. Through downstream analysis of HTS data, EDNA not only detected the known hosts of OFV but also discovered an unknown host leopard plant (<i>Farfugium japonicum</i>), and the possible existence of a new ornamental strain of OFV in nature.
format Article
id doaj-art-c20d9ce9a9064b8ca56d4ac7eb2bd90b
institution Kabale University
issn 1999-4915
language English
publishDate 2025-03-01
publisher MDPI AG
record_format Article
series Viruses
spelling doaj-art-c20d9ce9a9064b8ca56d4ac7eb2bd90b2025-08-20T03:43:55ZengMDPI AGViruses1999-49152025-03-0117344110.3390/v17030441Detection and In Vivo Validation of <i>Dichorhavirus</i> e-Probes in Meta-Transcriptomic Data via Microbe Finder (MiFi<sup>®</sup>) Discovers a Novel Host and a Possible New Strain of Orchid Fleck VirusAvijit Roy0Jonathan Shao1Andres S. Espindola2Daniel Ramos Lopez3Gabriel Otero-Colina4Yazmín Rivera5Vessela A. Mavrodieva6Mark K. Nakhla7William L. Schneider8Kitty Cardwell9Molecular Plant Pathology Laboratory, Beltsville Agricultural Research Center (BARC), United States Department of Agriculture (USDA)-Agricultural Research Service (ARS), Beltsville, MD 20705, USAAnimal Parasitic Diseases Laboratory, Beltsville Agricultural Research Center (BARC), United States Department of Agriculture (USDA)-Agricultural Research Service (ARS), Beltsville, MD 20705, USAInstitute for Biosecurity and Microbial Forensics, Oklahoma State University, Stillwater, OK 74078, USAInstitute for Biosecurity and Microbial Forensics, Oklahoma State University, Stillwater, OK 74078, USAColegio de Postgraduados, Campus Montecillo, Texcoco 56264, MexicoPlant Protection and Quarantine, Science and Technology, Plant Pathogen Confirmatory Diagnostics Laboratory, Animal Plant Health Inspection Service, United States Department of Agriculture (USDA), Laurel, MD 20708, USAPlant Protection and Quarantine, Science and Technology, Plant Pathogen Confirmatory Diagnostics Laboratory, Animal Plant Health Inspection Service, United States Department of Agriculture (USDA), Laurel, MD 20708, USAPlant Protection and Quarantine, Science and Technology, Plant Pathogen Confirmatory Diagnostics Laboratory, Animal Plant Health Inspection Service, United States Department of Agriculture (USDA), Laurel, MD 20708, USAF1/K9 LLC, Palm Coast, FL 32164, USAInstitute for Biosecurity and Microbial Forensics, Oklahoma State University, Stillwater, OK 74078, USA<i>Dichorhavirus</i> is a recently accepted plant virus genus within the family <i>Rhabdoviridae</i>. Species assigned to the genus consist of bi-segmented, negative sense, single-stranded RNA viruses and are transmitted by <i>Brevipalpus</i> spp. Currently, there are five recognized species and two unclassified members in the genus <i>Dichorhavirus.</i> Four out of seven-orchid fleck virus (OFV), citrus leprosis virus N, citrus chlorotic spot virus, and citrus bright spot virus-can infect citrus and produce leprosis disease-like symptoms. The E-probe Diagnostic for Nucleic Acid Analysis (EDNA) was developed to reduce computational effort and then integrated within Microbe-Finder (MiFi<sup>®</sup>) online platform to design and evaluate e-probes in raw High Throughput Sequencing (HTS) data. During this study, <i>Dichorhavirus</i> genomes were downloaded from public databases and e-probes were designed using the MiProbe incorporated into the MiFi<sup>®</sup> platform. Three different sizes of e-probes, 40, 60, and 80 nucleotides, were developed and selected based on whole genome comparisons with near-neighbor genomes. For curation, each e-probe was searched in the NCBI nucleotide sequence database using BLASTn. All the e-probes that had hits with non-target species with ≥90% identities were removed. The sensitivity and specificity of <i>Dichorhavirus</i> genus, species, strain, and variant-specific e-probes were validated in vivo using HTS meta-transcriptomic libraries generated from <i>Dichorhavirus</i>-suspected citrus, orchid, and ornamentals. Through downstream analysis of HTS data, EDNA not only detected the known hosts of OFV but also discovered an unknown host leopard plant (<i>Farfugium japonicum</i>), and the possible existence of a new ornamental strain of OFV in nature.https://www.mdpi.com/1999-4915/17/3/441<i>Brevipalpus</i> transmitted virus (BTV)EDNAMiFie-probehigh-throughput sequencingorchid fleck virus
spellingShingle Avijit Roy
Jonathan Shao
Andres S. Espindola
Daniel Ramos Lopez
Gabriel Otero-Colina
Yazmín Rivera
Vessela A. Mavrodieva
Mark K. Nakhla
William L. Schneider
Kitty Cardwell
Detection and In Vivo Validation of <i>Dichorhavirus</i> e-Probes in Meta-Transcriptomic Data via Microbe Finder (MiFi<sup>®</sup>) Discovers a Novel Host and a Possible New Strain of Orchid Fleck Virus
Viruses
<i>Brevipalpus</i> transmitted virus (BTV)
EDNA
MiFi
e-probe
high-throughput sequencing
orchid fleck virus
title Detection and In Vivo Validation of <i>Dichorhavirus</i> e-Probes in Meta-Transcriptomic Data via Microbe Finder (MiFi<sup>®</sup>) Discovers a Novel Host and a Possible New Strain of Orchid Fleck Virus
title_full Detection and In Vivo Validation of <i>Dichorhavirus</i> e-Probes in Meta-Transcriptomic Data via Microbe Finder (MiFi<sup>®</sup>) Discovers a Novel Host and a Possible New Strain of Orchid Fleck Virus
title_fullStr Detection and In Vivo Validation of <i>Dichorhavirus</i> e-Probes in Meta-Transcriptomic Data via Microbe Finder (MiFi<sup>®</sup>) Discovers a Novel Host and a Possible New Strain of Orchid Fleck Virus
title_full_unstemmed Detection and In Vivo Validation of <i>Dichorhavirus</i> e-Probes in Meta-Transcriptomic Data via Microbe Finder (MiFi<sup>®</sup>) Discovers a Novel Host and a Possible New Strain of Orchid Fleck Virus
title_short Detection and In Vivo Validation of <i>Dichorhavirus</i> e-Probes in Meta-Transcriptomic Data via Microbe Finder (MiFi<sup>®</sup>) Discovers a Novel Host and a Possible New Strain of Orchid Fleck Virus
title_sort detection and in vivo validation of i dichorhavirus i e probes in meta transcriptomic data via microbe finder mifi sup r sup discovers a novel host and a possible new strain of orchid fleck virus
topic <i>Brevipalpus</i> transmitted virus (BTV)
EDNA
MiFi
e-probe
high-throughput sequencing
orchid fleck virus
url https://www.mdpi.com/1999-4915/17/3/441
work_keys_str_mv AT avijitroy detectionandinvivovalidationofidichorhavirusieprobesinmetatranscriptomicdataviamicrobefindermifisupsupdiscoversanovelhostandapossiblenewstrainoforchidfleckvirus
AT jonathanshao detectionandinvivovalidationofidichorhavirusieprobesinmetatranscriptomicdataviamicrobefindermifisupsupdiscoversanovelhostandapossiblenewstrainoforchidfleckvirus
AT andressespindola detectionandinvivovalidationofidichorhavirusieprobesinmetatranscriptomicdataviamicrobefindermifisupsupdiscoversanovelhostandapossiblenewstrainoforchidfleckvirus
AT danielramoslopez detectionandinvivovalidationofidichorhavirusieprobesinmetatranscriptomicdataviamicrobefindermifisupsupdiscoversanovelhostandapossiblenewstrainoforchidfleckvirus
AT gabrieloterocolina detectionandinvivovalidationofidichorhavirusieprobesinmetatranscriptomicdataviamicrobefindermifisupsupdiscoversanovelhostandapossiblenewstrainoforchidfleckvirus
AT yazminrivera detectionandinvivovalidationofidichorhavirusieprobesinmetatranscriptomicdataviamicrobefindermifisupsupdiscoversanovelhostandapossiblenewstrainoforchidfleckvirus
AT vesselaamavrodieva detectionandinvivovalidationofidichorhavirusieprobesinmetatranscriptomicdataviamicrobefindermifisupsupdiscoversanovelhostandapossiblenewstrainoforchidfleckvirus
AT markknakhla detectionandinvivovalidationofidichorhavirusieprobesinmetatranscriptomicdataviamicrobefindermifisupsupdiscoversanovelhostandapossiblenewstrainoforchidfleckvirus
AT williamlschneider detectionandinvivovalidationofidichorhavirusieprobesinmetatranscriptomicdataviamicrobefindermifisupsupdiscoversanovelhostandapossiblenewstrainoforchidfleckvirus
AT kittycardwell detectionandinvivovalidationofidichorhavirusieprobesinmetatranscriptomicdataviamicrobefindermifisupsupdiscoversanovelhostandapossiblenewstrainoforchidfleckvirus

Similar Items