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1.
Front Microbiol ; 13: 930329, 2022.
Article in English | MEDLINE | ID: mdl-36090110

ABSTRACT

Viral diseases in plants have a significant impact on agricultural productivity. Effective detection is needed to facilitate accurate diagnosis and characterization of virus infections essential for crop protection and disease management. For sensitive polymerase chain reaction (PCR)-based methods, it is important to preserve the integrity of nucleic acids in plant tissue samples. This is especially critical when samples are collected from isolated areas, regions distant from a laboratory, or in developing countries that lack appropriate facilities or equipment for diagnostic analyses. RNAlater ® provides effective, reliable sample storage by stabilizing both RNA and DNA in plant tissue samples. Our work indicated that total RNA or DNA extracted from virus-infected leaf samples preserved in RNAlater ® was suitable for reverse transcription polymerase chain reaction (RT-PCR), PCR, Sanger sequencing, high-throughput sequencing (HTS), and enzyme-linked immunosorbent assay (ELISA)-based diagnostic analyses. We demonstrated the effectiveness of this technology using leaf tissue samples from plants with virus symptoms grown in farmers' fields in Bangladesh. The results revealed that RNAlater ® technology was effective for detection and characterization of viruses from samples collected from remote areas and stored for extended periods. Adoption of this technology by developing countries with limited laboratory facilities could greatly increase their capacity to detect and diagnose viral infections in crop plants using modern analytical techniques.

3.
Arch Virol ; 166(12): 3513-3566, 2021 Dec.
Article in English | MEDLINE | ID: mdl-34463877

ABSTRACT

In March 2021, following the annual International Committee on Taxonomy of Viruses (ICTV) ratification vote on newly proposed taxa, the phylum Negarnaviricota was amended and emended. The phylum was expanded by four families (Aliusviridae, Crepuscuviridae, Myriaviridae, and Natareviridae), three subfamilies (Alpharhabdovirinae, Betarhabdovirinae, and Gammarhabdovirinae), 42 genera, and 200 species. Thirty-nine species were renamed and/or moved and seven species were abolished. This article presents the updated taxonomy of Negarnaviricota as now accepted by the ICTV.


Subject(s)
Mononegavirales , Viruses , Humans
4.
Plant Dis ; 103(11): 2920-2924, 2019 Nov.
Article in English | MEDLINE | ID: mdl-31567059

ABSTRACT

Papaya ringspot virus (PRSV) is the major constraint to papaya (Carica papaya) production in Bangladesh. Disease symptoms occurred in 90 to 100% of the plants surveyed. Full-length genomes of PRSV strains from severely infected papaya plants were determined using the Illumina NextSeq 500 platform, followed by Sanger DNA sequencing of viral genomes obtained by reverse-transcription PCR(RT-PCR). The genome sequences of two distinct PRSV strains, PRSV BD-1 (10,300 bp) and PRSV BD-2 (10,325 bp) were 74 and 83% identical to each other, respectively, at the nucleotide and amino acid levels. PRSV BD-1 and PRSV BD-2 were 74 to 75% and 79 to 88% identical, respectively, to other full-length PRSV sequences at the nucleotide level. Based on phylogenetic analysis, PRSV BD-2 was most closely related to PRSV-Meghalaya (MF356497) from papaya in India. PRSV BD-1 formed a branch distinct from the other PRSV sequences based on nucleotide and amino acid sequence comparisons. Comparisons of the genome sequences of these two strains with other sequenced PRSV genomes indicated two putative recombination events in PRSV BD-2. One recombinant event contained a 2,766-nucleotide fragment highly identical to PRSV-Meghalaya (MF356497). The other recombinant event contained a 5,105-nucleotide fragment highly identical to PRSV-China (KY933061). The occurrence rates of PRSV BD-1 and PRSV BD-2 in the sampled areas of Bangladesh were approximately 19 and 69%, respectively. Plants infected with both strains (11%) exhibited more severe symptoms than plants infected with either strain alone. The full-length genome sequences of these new PRSV strains and their distribution provide important information regarding the dynamics of papaya ringspot virus infections in papaya in Bangladesh.


Subject(s)
Carica , Phylogeny , Potyvirus , Bangladesh , Carica/virology , China , Genome, Viral/genetics , India , Plant Diseases/virology , Potyvirus/classification , Potyvirus/genetics
5.
Plant Dis ; 103(9): 2345-2352, 2019 Sep.
Article in English | MEDLINE | ID: mdl-31306086

ABSTRACT

Ti ringspot is an emerging foliar disease of the ti plant (Cordyline fruticosa) in Hawaii that is quickly spreading throughout the islands. Symptoms include small chlorotic ringspots on leaves that often coalesce to form larger lesions. Although several virus species have been discovered in symptomatic plants, none have been associated with these symptoms. Here, we report and characterize a novel virus closely associated with ti ringspot symptoms in Hawaii. The presence of double membrane bodies approximately 85 nm in diameter in symptomatic cells and sequence analyses of five genomic RNA segments obtained by high-throughput sequencing indicate that this virus is most closely related to members of the plant virus genus Emaravirus. Phylogenetic and sequence homology analyses place this virus on a distinct clade within the Emaravirus genus along with High Plains wheat mosaic emaravirus, blue palo verde broom virus, and Raspberry leaf blotch emaravirus. Sequence identity values with taxonomically relevant proteins indicate that this represents a new virus species, which we are tentatively naming ti ringspot-associated virus (TiRSaV). TiRSaV-specific reverse transcription PCR assays detected the virus in several experimental herbaceous host species following mechanical inoculation. TiRSaV was also detected in eriophyid mites collected from symptomatic ti plants, which may represent a putative arthropod vector of the virus.


Subject(s)
Bunyaviridae , Cordyline , Animals , Bunyaviridae/classification , Bunyaviridae/genetics , Bunyaviridae/physiology , Cordyline/virology , Hawaii , Phylogeny , Plant Diseases/virology
6.
Arch Virol ; 164(6): 1661-1665, 2019 Jun.
Article in English | MEDLINE | ID: mdl-30949815

ABSTRACT

Forty-five papaya samples showing severe leaf curl symptoms were tested by PCR with a degenerate primer set for virus species in the genus Begomovirus. Of these, 29 were positive for tomato leaf curl Bangladesh virus (ToLCBV). The complete genome sequences of ToLCBV (GenBank accession no. MH380003) and its associated tomato leaf curl betasatellite (ToLCB) (MH397223) from papaya isolate Gaz17-Pap were determined and characterized. Defective betasatellites were found in ToLCBV-positive papaya isolates Gaz19-Pap, Gaz20-Pap and Gaz21-Pap. This study confirmed that papaya is a host of ToLCBV, ToLCB, and other defective and recombinant DNA satellites in Bangladesh.


Subject(s)
Begomovirus/isolation & purification , Carica/virology , Plant Diseases/virology , Sequence Analysis, DNA/methods , Bangladesh , Begomovirus/genetics , Begomovirus/pathogenicity , Genome, Viral , Solanum lycopersicum/virology , Phylogeny , Satellite Viruses/genetics , Satellite Viruses/isolation & purification , Satellite Viruses/pathogenicity
7.
Phytopathology ; 107(6): 791-799, 2017 06.
Article in English | MEDLINE | ID: mdl-28430018

ABSTRACT

Canna yellow mottle virus (CaYMV) is an important badnavirus infecting Canna spp. worldwide. This is the first report of CaYMV in flowering ginger (Alpinia purpurata) in Hawaii, where it is associated with yellow mottling and necrosis of leaves, vein streaking, and stunted plants. We have sequenced CaYMV in A. purpurata (CaYMV-Ap) using a combination of next-generation sequencing and traditional Sanger sequencing techniques. The complete genome of CaYMV-Ap was 7,120 bp with an organization typical of other Badnavirus species. Our results indicated that CaYMV-Ap was present in the episomal form in infected flowering ginger. We determined that this virus disease is prevalent in Hawaii and could potentially have significant economic impact on the marketing of A. purpurata as cut flowers. There is a potential concern that the host range of CaYMV-Ap may expand to include other important tropical plants.


Subject(s)
Alpinia/virology , Badnavirus/classification , Plant Diseases/virology , Badnavirus/genetics , Badnavirus/isolation & purification , Hawaii , High-Throughput Nucleotide Sequencing , Sequence Analysis, DNA
8.
Plant Dis ; 101(12): 1980-1989, 2017 Dec.
Article in English | MEDLINE | ID: mdl-30677375

ABSTRACT

Dasheen mosaic virus (DsMV) is one of the major viruses affecting taro (Colocasia esculenta) production worldwide. Whole genome sequences were determined for two DsMV strains, Hawaii Strain I (KY242358) and Hawaii Strain II (KY242359), from taro in Hawaii. They represent the first full-length coding sequences of DsMV reported from the United States. Hawaii Strains I and II were 77 and 85% identical, respectively, with other completely sequenced DsMV isolates. Hawaii Strain I was most closely related to vanilla mosaic virus (VanMV) (KX505964.1), a strain of DsMV infecting vanilla in the southern Pacific Islands. Hawaii Strain II was most closely related to a taro DsMV isolate CTCRI-II-14 (KT026108.1) from India. Phylogenetic analysis of all available DsMV isolates based on amino acid sequences of their coat protein showed some correlation between host plant and genetic diversity. Analyses of DsMV genome sequences detected three recombinants from China and India among the six isolates with known complete genome sequences. The DsMV strain NC003537.1 from China is a recombinant of KJ786965.1 from India and Hawaii Strain II. Another DsMV strain KT026108.1 is a recombinant of Hawaii Strain II and NC003537.1 from China. The third DsMV strain KJ786965.1 from India is a recombinant of Hawaii Strain II and NC003537.1 from China. To our knowledge, this is the first report of recombination events in DsMV. Both Hawaii Strains I and II of DsMV were found widespread throughout the Hawaiian islands.


Subject(s)
Colocasia , Potyvirus , Capsid Proteins/genetics , Colocasia/virology , Hawaii , Phylogeny , Potyvirus/classification , Potyvirus/genetics
9.
Arch Virol ; 161(7): 1783-95, 2016 Jul.
Article in English | MEDLINE | ID: mdl-27038825

ABSTRACT

Banana bract mosaic virus (BBrMV) has never been reported in banana plants in Hawaii. In 2010, however, it was detected in a new host, flowering ginger (Alpinia purpurata). In this study, we characterize the A. purpurata isolate and study its spread in flowering ginger in Hawaii. A laboratory study demonstrated that BBrMV could be transmitted from flowering ginger to its natural host, banana, therefore raising a serious concern about the potential risk to the rapidly growing banana industry of Hawaii. To quickly monitor this virus in the field, we developed a robust immunocapture reverse transcription loop-mediated isothermal amplification (IC-RT-LAMP) assay. Deep sequencing of the BBrMV isolate from A. purpurata revealed a single-stranded RNA virus with a genome of 9,713 nt potentially encoding a polyprotein of 3,124 aa, and another predicted protein, PIPO, in the +2 reading-frame shift. Most of the functional motifs in the Hawaiian isolate were conserved among the genomes of isolates from one found in the Philippines and India. However, the A. purpurata isolate had an amino acid deletion in the Pl protein that was most similar to the Philippine isolate. Phylogenetic analysis of an eastern Pacific subpopulation that included A. purpurata was closest in genetic distance to a Southeast Asian subpopulation, suggesting frequent gene flow and supporting the hypothesis that the A. purpurata isolate arrived in Hawaii from Southeast Asia.


Subject(s)
Nucleic Acid Amplification Techniques/methods , Plant Diseases/virology , Potyvirus/genetics , Zingiber officinale/virology , High-Throughput Nucleotide Sequencing , India , Phylogeny , Potyvirus/classification , Potyvirus/isolation & purification
10.
Viruses ; 7(3): 969-95, 2015 Mar 05.
Article in English | MEDLINE | ID: mdl-25751306

ABSTRACT

Higher plants use RNA silencing to defend against viral infections. As a counter defense, plant viruses have evolved proteins that suppress RNA silencing. Mealybug wilt of pineapple (MWP), an important disease of pineapple, has been associated with at least three distinct viruses, Pineapple mealybug wilt associated virus -1, -2, and -3 (PMWaV-1, -2, and -3). Selected open reading frames (ORFs) of PMWaV-1 and PMWaV-2 were screened for their local and systemic suppressor activities in Agrobacterium-mediated transient assays using green fluorescent protein (GFP) in Nicotiana benthamiana. Results indicate that PMWaV-2 utilizes a multiple-component RNA silencing suppression mechanism. Two proteins, p20 and CP, target both local and systemic silencing in N. benthamiana, while the p22 and CPd proteins target only systemic silencing. In the related virus PMWaV-1, we found that only one of the encoded proteins, p61, had only systemic suppressor activity. Of all the proteins tested from both viruses, only the PMWaV-2 p20 protein suppressed local silencing induced by double-stranded RNA (dsRNA), but only when low levels of inducing dsRNA were used. None of the proteins analyzed could interfere with the short distance spread of silencing. We examined the mechanism of systemic suppression activity by investigating the effect of PMWaV-2-encoded p20 and CP proteins on secondary siRNAs. Our results suggest that the PMWaV-2 p20 and CP proteins block the systemic silencing signal by repressing production of secondary siRNAs. We also demonstrate that the PMWaV-2 p20 and p22 proteins enhanced the pathogenicity of Potato virus X in N. benthamiana.


Subject(s)
Closteroviridae/genetics , Gene Expression Regulation, Plant/drug effects , Nicotiana/immunology , Viral Proteins/genetics , Virulence Factors/genetics , Genes, Reporter , Green Fluorescent Proteins/analysis , Green Fluorescent Proteins/genetics , Host-Pathogen Interactions , Open Reading Frames , RNA Interference , Nicotiana/virology
11.
Arch Virol ; 158(11): 2421-4, 2013 Nov.
Article in English | MEDLINE | ID: mdl-23732930

ABSTRACT

The complete nucleotide sequence of a virus infecting ornamental hibiscus (Hibiscus sp.) in Hawaii with symptoms of green ringspots on senescing leaves was determined from double-stranded RNA isolated from symptomatic tissue. Excluding polyadenylated regions at the 3' termini, the bipartite RNA genome was 8748 and 5019 nt in length for RNA1 and RNA2, respectively. The genome organization was typical of a cilevirus: RNA1 encoded a large replication-associated protein with methyltransferase, protease, helicase and RNA-dependent RNA polymerase domains as well as a 29-kDa protein of unknown function. RNA2 possessed five open reading frames that potentially encoded proteins with molecular masses of 15, 7, 62, 32, and 24 kDa. The 32-kDa protein is homologous to 3A movement proteins of RNA viruses; the other proteins are of unknown function. A proteome comparison revealed that this virus was 92 % identical to citrus leprosis virus cytoplasmic type 2 (CiLV-C2), a recently characterized cilevirus infecting citrus with leprosis-like symptoms in Colombia. The high sequence similarity suggests that the virus described in this study could be a strain of CiLV-C2, but since the new genus Cilevirus does not have species demarcation criteria established at present, the classification of this virus infecting hibiscus is open to interpretation. This study represents the first documented case of a cilevirus established in the United States and provides insight into the diversity within the genus Cilevirus.


Subject(s)
Genome, Viral , Hibiscus/virology , Plant Diseases/virology , RNA Viruses/isolation & purification , Base Sequence , Citrus/virology , Hawaii , Molecular Sequence Data , Open Reading Frames , Plant Leaves/virology , RNA Viruses/classification , RNA Viruses/genetics , RNA Viruses/pathogenicity , RNA, Double-Stranded/genetics , RNA, Viral/genetics , Sequence Analysis, DNA , Species Specificity , Viral Proteins/genetics
12.
Front Microbiol ; 4: 39, 2013.
Article in English | MEDLINE | ID: mdl-23467405

ABSTRACT

In Hawaii, common green ti plants (Cordyline fruticosa L.) have been shown to harbor Cordyline virus 1 (CoV-1) which, along with Little cherry virus 1 (LChV-1), and Grapevine leafroll-associated virus 7 (GLRaV-7), form a distinct clade within the family Closteroviridae. Preliminary work has indicated that, aside from CoV-1, three additional closteroviruses may infect common green ti plants in Hawaii. In this study, pyrosequencing was used to characterize the genomes of closteroviruses infecting a single common green ti plant. The sequence data confirmed the presence of CoV-1 as well as three additional closteroviruses. Although all four viruses had the same general genome organization, the sequence divergence between the RNA-dependent RNA polymerase, heat shock protein 70 homolog, and coat protein ranged from 22 to 61%, indicating these represent four distinct closterovirus species. The names CoV-2, CoV-3, and CoV-4 are proposed for the three new viruses. Phylogenetic analyses placed CoV-2, CoV-3, and CoV-4 in the same clade as CoV-1, LChV-1, and GLRaV-7.

13.
Phytopathology ; 102(1): 122-7, 2012 Jan.
Article in English | MEDLINE | ID: mdl-21916557

ABSTRACT

A Citrus volkameriana tree displaying symptoms similar to citrus leprosis on its leaves and bark was found in Hawaii. Citrus leprosis virus C (CiLV-C)-specific detection assays, however, were negative for all tissues tested. Short, bacilliform virus-like particles were observed by transmission electron microscopy in the cytoplasm of symptomatic leaves but not in healthy controls. Double-stranded (ds) RNAs ≈8 and 3 kbp in size were present in symptomatic leaf tissue but not in healthy controls. Excluding poly(A) tails, the largest molecule, RNA1, was 8,354 bp in length. The ≈3 kbp dsRNA band was found to be composed of two distinct molecules, RNA2 and RNA3, which were 3,169 and 3,113 bp, respectively. Phylogenetic analyses indicated that the RNA-dependent RNA polymerase (RdRp) domain located in RNA1 was most closely related to the RdRp domain of CiLV-C. A reverse-transcription polymerase chain reaction assay developed for the detection of this virus was used to screen nearby citrus trees as well as Hibiscus arnottianus plants with symptoms of hibiscus green spot, a disease associated with infection by Hibiscus green spot virus (HGSV). All nearby citrus trees tested negative with the assay; however, symptomatic H. arnottianus plants were positive. All three RNAs were present in symptomatic H. arnottianus and were >98% identical to the RNAs isolated from C. volkameriana. We contend that the virus described in this study is HGSV, and propose that it be the type member of a new virus genus, Higrevirus.


Subject(s)
Citrus/virology , Plant Diseases/virology , Plant Viruses/isolation & purification , RNA Viruses/isolation & purification , RNA-Dependent RNA Polymerase/genetics , Amino Acid Sequence , Base Sequence , Citrus/ultrastructure , DNA, Complementary/chemistry , DNA, Complementary/genetics , Genome, Viral/genetics , Hawaii , Hibiscus/virology , Microscopy, Electron, Transmission , Molecular Sequence Data , Phylogeny , Plant Bark/virology , Plant Leaves/virology , Plant Viruses/classification , Plant Viruses/genetics , Plant Viruses/ultrastructure , Protein Structure, Tertiary/genetics , RNA Viruses/classification , RNA Viruses/genetics , RNA Viruses/ultrastructure , RNA, Double-Stranded/genetics , RNA, Viral/genetics , Reverse Transcriptase Polymerase Chain Reaction , Sequence Analysis, DNA , Virion/ultrastructure
14.
Virus Genes ; 42(2): 254-60, 2011 Apr.
Article in English | MEDLINE | ID: mdl-21153877

ABSTRACT

The ti plant (Cordyline fruticosa L.) is culturally important throughout most of Polynesia and has considerable economic importance in Hawai'i where the foliage is commonly used in cultural ceremonies as well as food and ornamental industries. In Hawai'i, ringspot symptoms were recently observed on leaves of the common green variety of ti growing in Kahalu'u on the island of O'ahu, and Wailuku and Hana on the island of Maui. High molecular weight double-stranded (ds)RNAs were isolated from the leaves of symptomatic plants as well as plants without symptoms. A cDNA library derived from the dsRNAs present in symptomatic plants was generated and sequenced. These sequences indicated at least four distinct clostero-like viruses were present in the plants, and phylogenetic analyses suggested they were most closely related to Little cherry virus 1, an unassigned member of the family Closteroviridae. The 16,883 nucleotide genome of one of these viruses was determined and predicted to contain ten open reading frames with an organization typical of closteroviruses. Reverse-transcription PCR revealed this virus was present in both symptomatic and asymptomatic ti plants, making it unlikely to be responsible for the observed ringspot symptoms. We propose the name Cordyline virus 1 (CoV-1) for this virus and include it as a new, unassigned member of the family Closteroviridae.


Subject(s)
Closteroviridae/classification , Cordyline/virology , Genome, Viral , Plant Diseases/virology , Amino Acid Sequence , Closteroviridae/genetics , Gene Library , Hawaii , Molecular Sequence Data , Open Reading Frames , Phylogeny , Plant Leaves/virology , RNA, Double-Stranded/analysis , RNA, Double-Stranded/genetics , RNA, Double-Stranded/isolation & purification , RNA, Viral/genetics , Reverse Transcriptase Polymerase Chain Reaction/methods
15.
Virus Genes ; 40(1): 111-8, 2010 Feb.
Article in English | MEDLINE | ID: mdl-19834797

ABSTRACT

The Hawaiian Islands are home to a widespread and diverse population of Citrus tristeza virus (CTV), an economically important pathogen of citrus. In this study, we quantified the genetic diversity of two CTV genes and determined the complete genomic sequence for two strains of Hawaiian CTV. The nucleotide diversity was estimated to be 0.0565 + or - 0.0022 for the coat protein (CP) gene (n = 137) and 0.0822 + or - 0.0033 for the p23 gene (n = 30). The genome size and organization of CTV strains HA18-9 and HA16-5 were similar to other fully sequenced strains of CTV. The 3'-terminal halves of their genomes were nearly identical (98.5% nucleotide identity), whereas the 5'-terminal halves were more distantly related (72.3% nucleotide identity), suggesting a possible recombination event. Closer examination of strain HA16-5 indicated that it arose through recent recombination between the movement module of an HA18-9 genotype, and the replication module of an undescribed CTV genotype.


Subject(s)
Closterovirus/genetics , Genetic Variation , Recombination, Genetic , Amino Acid Sequence , Base Sequence , Capsid Proteins/chemistry , Capsid Proteins/genetics , Closterovirus/chemistry , Hawaii , Molecular Sequence Data , Phylogeny , Sequence Alignment
16.
Virus Genes ; 38(3): 414-20, 2009 Jun.
Article in English | MEDLINE | ID: mdl-19225875

ABSTRACT

The nucleotide sequence of Pineapple mealybug wilt associated virus-3 (PMWaV-3) (Closteroviridae: Ampelovirus), spanning seven open reading frames (ORFs) and the untranslatable region of the 3' end was determined. Based on the amino acid identities with orthologous ORFs of PMWaV-1 (54%-73%) and PMWaV-2 (13%-35%), we propose PMWaV-3 is a new species in the PMWaV complex. PMWaV-3 lacks an intergenic region between ORF1b and ORF2, encodes a relatively small, 28.8 kDa, coat protein, and lacks a coat protein duplicate. Phylogenetic analyses were used to analyze seven different domains and ORFs from members of the family Closteroviridae. Two distinct clades within the recognized genus Ampelovirus were observed; one that includes PMWaV-3 and PMWaV-1 and several GLRaVs and another that includes PMWaV-2 and GLRaV-3, the type member of the genus Ampelovirus.


Subject(s)
Closteroviridae/classification , Closteroviridae/genetics , Gene Order , Phylogeny , 3' Untranslated Regions , Ananas/virology , Closteroviridae/isolation & purification , Cluster Analysis , Molecular Sequence Data , Open Reading Frames , Plant Diseases/virology , RNA, Viral/genetics , Sequence Analysis, DNA , Sequence Homology, Amino Acid , Viral Proteins/genetics
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