Your search keyword '"Caulimoviridae"' showing total 216 results

1. Study of Endogenous Viruses in the Strawberry Plants.

Author

Wang, Zongneng, Liu, Jian, Qi, Xingyang, Su, Daifa, Yang, Junyu, and Cui, Xiaolong

Subjects

*VIRAL genomes, *EUKARYOTIC genomes, *PLANT viruses, *VIRUS diversity, *GENETICS

Abstract

Endogenous viral elements (EVEs) have been reported to exist widely in the genomes of eukaryotic organisms, and they are closely associated with the growth, development, genetics, adaptation, and evolution of their hosts. In this study, two methods—homologous sequence search and genome alignment—were used to explore the endogenous viral sequences in the genomes of Fragaria species. Results revealed abundant endogenous pararetroviruses (EPRVs) in the genomes of Fragaria species, including 786 sequences belonging to five known taxa such as Caulimovirus and other unclassified taxa. Differences were observed in the detected EPRVs between the two methods, with the homologous sequence search having a greater number of EPRVs. On the contrary, genome alignment identified various types and sources of virus-like sequences. Furthermore, through genome alignment, a 267-bp sequence with 95% similarity to the gene encoding the aphid-transmitted protein of Strawberry vein banding virus (Caulimovirus venafragariae) was discovered in the F. chiloensis genome, which was likely a recent insertion. In addition, the statistical analysis of the genome alignment results indicated a remarkably higher abundance of virus-like sequences in the genomes of polyploid strawberries compared with diploid ones. Moreover, the differences in virus-like sequences were observed between the genomes of Fragaria species and those of their close relatives. This study enriched the diversity of viruses that infect strawberries, and laid a theoretical foundation for further research on the origin of endogenous viruses in the strawberry genome, host–virus interactions, adaptation, evolution, and their functions. [ABSTRACT FROM AUTHOR]

Published

2024

2. Molecular Surveillance, Prevalence, and Distribution of Cacao Infecting Badnavirus Species in Côte d'Ivoire and Ghana.

Author

Ameyaw, George A., Kouakou, Koffié, Iqbal, Mohammed Javed, Belé, Luc, Wolf, Valentin L. F., Keith, Cory V., Bi, Bolou A. Bolou, Kouamé, Christophe, Livingstone, Donald, Domfeh, Owusu, Gyamera, Ebenezer A., Marelli, Jean-Philippe, and Brown, Judith K.

Subjects

*CACAO, *SPECIES, *BORDERLANDS, *PROTEIN domains, *CACAO beans, *VIRAL proteins

Abstract

The cacao swollen shoot disease (CSSD) caused by a complex of badnavirus species presents a major challenge for cacao production in West Africa, especially Ghana and Côte d'Ivoire. In this study, CSSD species detection efficiency, diversity, and geographic distribution patterns in cacao plantations in Ghana and Côte d'Ivoire were investigated through field surveillance, PCR detection assays, sequencing of positive amplicons, and phylogeographic clustering. Cumulatively, the detection efficiency of the tested CSSD primer sets that were targeting the movement protein domain of the virus ranged from 0.15% (CSSD-3 primer) to 66.91% (CSSD-1 primer) on all the symptomatic cacao leaf samples assessed. The identified CSSD species differed phylogenetically and overlapped in distribution, with the cacao swollen shoot Togo B virus (CSSTBV) (n = 588 sequences) being the most prevalent and widely distributed compared to the other CSSD species that were encountered in both countries. Geographically, the cacao swollen shoot CE virus (CSSCEV) species (n = 124 sequences) that was identified was largely restricted to the bordering regions of Ghana and Côte d'Ivoire. These results provide updated knowledge of the geographic distribution of the key CSSD species and their diagnostic efficiency and, thus, provide guidance in identifying locations for structured testing of cacao germplasm and optimal diagnostics for the predominant CSSD species in Ghana and Côte d'Ivoire. [ABSTRACT FROM AUTHOR]

Published

2024

3. Study of Endogenous Viruses in the Strawberry Plants

Author

Zongneng Wang, Jian Liu, Xingyang Qi, Daifa Su, Junyu Yang, and Xiaolong Cui

Subjects

plant virus, endogenous viral elements (EVEs), endogenous pararetroviruses (EPRVs), Caulimoviridae, Microbiology, QR1-502

Abstract

Endogenous viral elements (EVEs) have been reported to exist widely in the genomes of eukaryotic organisms, and they are closely associated with the growth, development, genetics, adaptation, and evolution of their hosts. In this study, two methods—homologous sequence search and genome alignment—were used to explore the endogenous viral sequences in the genomes of Fragaria species. Results revealed abundant endogenous pararetroviruses (EPRVs) in the genomes of Fragaria species, including 786 sequences belonging to five known taxa such as Caulimovirus and other unclassified taxa. Differences were observed in the detected EPRVs between the two methods, with the homologous sequence search having a greater number of EPRVs. On the contrary, genome alignment identified various types and sources of virus-like sequences. Furthermore, through genome alignment, a 267-bp sequence with 95% similarity to the gene encoding the aphid-transmitted protein of Strawberry vein banding virus (Caulimovirus venafragariae) was discovered in the F. chiloensis genome, which was likely a recent insertion. In addition, the statistical analysis of the genome alignment results indicated a remarkably higher abundance of virus-like sequences in the genomes of polyploid strawberries compared with diploid ones. Moreover, the differences in virus-like sequences were observed between the genomes of Fragaria species and those of their close relatives. This study enriched the diversity of viruses that infect strawberries, and laid a theoretical foundation for further research on the origin of endogenous viruses in the strawberry genome, host–virus interactions, adaptation, evolution, and their functions.

Published

2024

4. Molecular Surveillance, Prevalence, and Distribution of Cacao Infecting Badnavirus Species in Côte d’Ivoire and Ghana

Author

George A. Ameyaw, Koffié Kouakou, Mohammed Javed Iqbal, Luc Belé, Valentin L. F. Wolf, Cory V. Keith, Bolou A. Bolou Bi, Christophe Kouamé, Donald Livingstone, Owusu Domfeh, Ebenezer A. Gyamera, Jean-Philippe Marelli, and Judith K. Brown

Subjects

Badnavirus, Caulimoviridae, cacao swollen shoot disease, epidemiology, mealybug vector, Theobroma cacao, Microbiology, QR1-502

Abstract

The cacao swollen shoot disease (CSSD) caused by a complex of badnavirus species presents a major challenge for cacao production in West Africa, especially Ghana and Côte d’Ivoire. In this study, CSSD species detection efficiency, diversity, and geographic distribution patterns in cacao plantations in Ghana and Côte d’Ivoire were investigated through field surveillance, PCR detection assays, sequencing of positive amplicons, and phylogeographic clustering. Cumulatively, the detection efficiency of the tested CSSD primer sets that were targeting the movement protein domain of the virus ranged from 0.15% (CSSD-3 primer) to 66.91% (CSSD-1 primer) on all the symptomatic cacao leaf samples assessed. The identified CSSD species differed phylogenetically and overlapped in distribution, with the cacao swollen shoot Togo B virus (CSSTBV) (n = 588 sequences) being the most prevalent and widely distributed compared to the other CSSD species that were encountered in both countries. Geographically, the cacao swollen shoot CE virus (CSSCEV) species (n = 124 sequences) that was identified was largely restricted to the bordering regions of Ghana and Côte d’Ivoire. These results provide updated knowledge of the geographic distribution of the key CSSD species and their diagnostic efficiency and, thus, provide guidance in identifying locations for structured testing of cacao germplasm and optimal diagnostics for the predominant CSSD species in Ghana and Côte d’Ivoire.

Published

2024

5. Discovery and Analyses of Caulimovirid-like Sequences in Upland Cotton (Gossypium hirsutum).

Author

Aboughanem-Sabanadzovic, Nina, Allen, Thomas W., Frelichowski, James, Scheffler, Jodi, and Sabanadzovic, Sead

Subjects

*VIRAL proteins, *REVERSE transcriptase, *SEQUENCE analysis, *NUCLEOTIDE sequencing, *CHROMOSOMES, *COTTON, *BT cotton, *GENOMES

Abstract

Analyses of Illumina-based high-throughput sequencing data generated during characterization of the cotton leafroll dwarf virus population in Mississippi (2020–2022) consistently yielded contigs varying in size (most frequently from 4 to 7 kb) with identical nucleotide content and sharing similarities with reverse transcriptases (RTases) encoded by extant plant pararetroviruses (family Caulimoviridiae). Initial data prompted an in-depth study involving molecular and bioinformatic approaches to characterize the nature and origins of these caulimovirid-like sequences. As a result, here, we report on endogenous viral elements (EVEs) related to extant members of the family Caulimoviridae, integrated into a genome of upland cotton (Gossypium hirsutum), for which we propose the provisional name "endogenous cotton pararetroviral elements" (eCPRVE). Our investigations pinpointed a ~15 kbp-long locus on the A04 chromosome consisting of head-to-head orientated tandem copies located on positive- and negative-sense DNA strands (eCPRVE+ and eCPRVE-). Sequences of the eCPRVE+ comprised nearly complete and slightly decayed genome information, including ORFs coding for the viral movement protein (MP), coat protein (CP), RTase, and transactivator/viroplasm protein (TA). Phylogenetic analyses of major viral proteins suggest that the eCPRVE+ may have been initially derived from a genome of a cognate virus belonging to a putative new genus within the family. Unexpectedly, an identical 15 kb-long locus composed of two eCPRVE copies was also detected in a newly recognized species G. ekmanianum, shedding some light on the relatively recent evolution within the cotton family. [ABSTRACT FROM AUTHOR]

Published

2023

6. Endogenous Caulimovirids: Fossils, Zombies, and Living in Plant Genomes.

Author

Vassilieff, Héléna, Geering, Andrew D. W., Choisne, Nathalie, Teycheney, Pierre-Yves, and Maumus, Florian

Subjects

*PLANT genomes, *VIRAL DNA, *FOSSILS, *ECOLOGICAL niche, *CHROMOSOMES, *DNA viruses

Abstract

The Caulimoviridae is a family of double-stranded DNA viruses that infect plants. The genomes of most vascular plants contain endogenous caulimovirids (ECVs), a class of repetitive DNA elements that is abundant in some plant genomes, resulting from the integration of viral DNA in the chromosomes of germline cells during episodes of infection that have sometimes occurred millions of years ago. In this review, we reflect on 25 years of research on ECVs that has shown that members of the Caulimoviridae have occupied an unprecedented range of ecological niches over time and shed light on their diversity and macroevolution. We highlight gaps in knowledge and prospects of future research fueled by increased access to plant genome sequence data and new tools for genome annotation for addressing the extent, impact, and role of ECVs on plant biology and the origin and evolutionary trajectories of the Caulimoviridae. [ABSTRACT FROM AUTHOR]

Published

2023

7. CAULIFINDER: a pipeline for the automated detection and annotation of caulimovirid endogenous viral elements in plant genomes

Author

Héléna Vassilieff, Sana Haddad, Véronique Jamilloux, Nathalie Choisne, Vikas Sharma, Delphine Giraud, Mariène Wan, Saad Serfraz, Andrew D. W. Geering, Pierre-Yves Teycheney, and Florian Maumus

Subjects

Endogenous viral elements, Plant genomes, Paleovirology, Caulimoviridae, Repetitive elements, Bioinformatics, Genetics, QH426-470

Abstract

Abstract Plant, animal and protist genomes often contain endogenous viral elements (EVEs), which correspond to partial and sometimes entire viral genomes that have been captured in the genome of their host organism through a variety of integration mechanisms. While the number of sequenced eukaryotic genomes is rapidly increasing, the annotation and characterization of EVEs remains largely overlooked. EVEs that derive from members of the family Caulimoviridae are widespread across tracheophyte plants, and sometimes they occur in very high copy numbers. However, existing programs for annotating repetitive DNA elements in plant genomes are poor at identifying and then classifying these EVEs. Other than accurately annotating plant genomes, there is intrinsic value in a tool that could identify caulimovirid EVEs as they testify to recent or ancient host-virus interactions and provide valuable insights into virus evolution. In response to this research need, we have developed CAULIFINDER, an automated and sensitive annotation software package. CAULIFINDER consists of two complementary workflows, one to reconstruct, annotate and group caulimovirid EVEs in a given plant genome and the second to classify these genetic elements into officially recognized or tentative genera in the Caulimoviridae. We have benchmarked the CAULIFINDER package using the Vitis vinifera reference genome, which contains a rich assortment of caulimovirid EVEs that have previously been characterized using manual methods. The CAULIFINDER package is distributed in the form of a Docker image.

Published

2022

8. Rearranged Endogenized Plant Pararetroviruses as Evidence of Heritable RNA-based Immunity.

Author

Valli, Adrian A, Gonzalo-Magro, Irene, and Sanchez, Diego H

Subjects

TOMATOES, GENE silencing, NUCLEIC acids, LINCRNA, IMMUNITY

Abstract

Eukaryotic genomics frequently revealed historical spontaneous endogenization events of external invading nucleic acids, such as viral elements. In plants, an extensive occurrence of endogenous plant pararetroviruses (EPRVs) is usually believed to endow hosts with an additional layer of internal suppressive weaponry. However, an actual demonstration of this activity remains speculative. We analyzed the EPRV component and accompanying silencing effectors of Solanum lycopersicum , documenting that intronic/intergenic pararetroviral integrations bearing inverted-repeats fuel the plant's RNA-based immune system with suitable transcripts capable of evoking a silencing response. A surprisingly small set of rearrangements explained a substantial fraction of pararetroviral-derived endogenous small-interfering (si)RNAs, enriched in 22-nt forms typically associated with anti-viral post-transcriptional gene silencing. We provide preliminary evidence that such genetic and immunological signals may be found in other species outside the genus Solanum. Based on molecular dating, bioinformatics, and empirical explorations, we propose that homology-dependent silencing emerging from particular immuno-competent rearranged chromosomal areas that constitute an adaptive heritable trans -acting record of past infections, with potential impact against the unlocking of plant latent EPRVs and cognate-free pararetroviruses. [ABSTRACT FROM AUTHOR]

Published

2023

9. Genome-wide identification of Reverse Transcriptase domains of recently inserted endogenous plant pararetrovirus (Caulimoviridae).

Author

de Tomás, Carlos and Vicient, Carlos M.

Subjects

PLANT genomes, ASPARTIC proteinases, DNA viruses, CHROMOSOMES, AMINO acids

Abstract

Endogenous viral elements (EVEs) are viral sequences that have been integrated into the nuclear chromosomes. Endogenous pararetrovirus (EPRV) are a class of EVEs derived from DNA viruses of the family Caulimoviridae. Previous works based on a limited number of genome assemblies demonstrated that EPRVs are abundant in plants and are present in several species. The availability of genome sequences has been immensely increased in the recent years and we took advantage of these resources to have a more extensive view of the presence of EPRVs in plant genomes. We analyzed 278 genome assemblies corresponding to 267 species (254 from Viridiplantae) using tBLASTn against a collection of conserved domains of the Reverse Transcriptases (RT) of Caulimoviridae. We concentrated our search on complete and well-conserved RT domains with an uninterrupted ORF comprising the genetic information for at least 300 amino acids. We obtained 11.527 sequences from the genomes of 202 species spanning the whole Tracheophyta clade. These elements were grouped in 57 clusters and classified in 13 genera, including a newly proposed genus we called Wendovirus. Wendoviruses are characterized by the presence of four open reading frames and two of them encode for aspartic proteinases. Comparing plant genomes, we observed important differences between the plant families and genera in the number and type of EPRVs found. In general, florendoviruses are the most abundant and widely distributed EPRVs. The presence of multiple identical RT domain sequences in some of the genomes suggests their recent amplification. [ABSTRACT FROM AUTHOR]

Published

2022

10. CAULIFINDER: a pipeline for the automated detection and annotation of caulimovirid endogenous viral elements in plant genomes.

Author

Vassilieff, Héléna, Haddad, Sana, Jamilloux, Véronique, Choisne, Nathalie, Sharma, Vikas, Giraud, Delphine, Wan, Mariène, Serfraz, Saad, Geering, Andrew D. W., Teycheney, Pierre-Yves, and Maumus, Florian

Subjects

*PLANT genomes, *EUKARYOTIC genomes, *VIRAL genomes, *VITIS vinifera, *PLANT DNA, *ANNOTATIONS

Abstract

Plant, animal and protist genomes often contain endogenous viral elements (EVEs), which correspond to partial and sometimes entire viral genomes that have been captured in the genome of their host organism through a variety of integration mechanisms. While the number of sequenced eukaryotic genomes is rapidly increasing, the annotation and characterization of EVEs remains largely overlooked. EVEs that derive from members of the family Caulimoviridae are widespread across tracheophyte plants, and sometimes they occur in very high copy numbers. However, existing programs for annotating repetitive DNA elements in plant genomes are poor at identifying and then classifying these EVEs. Other than accurately annotating plant genomes, there is intrinsic value in a tool that could identify caulimovirid EVEs as they testify to recent or ancient host-virus interactions and provide valuable insights into virus evolution. In response to this research need, we have developed CAULIFINDER, an automated and sensitive annotation software package. CAULIFINDER consists of two complementary workflows, one to reconstruct, annotate and group caulimovirid EVEs in a given plant genome and the second to classify these genetic elements into officially recognized or tentative genera in the Caulimoviridae. We have benchmarked the CAULIFINDER package using the Vitis vinifera reference genome, which contains a rich assortment of caulimovirid EVEs that have previously been characterized using manual methods. The CAULIFINDER package is distributed in the form of a Docker image. [ABSTRACT FROM AUTHOR]

Published

2022

11. Genome-wide identification of Reverse Transcriptase domains of recently inserted endogenous plant pararetrovirus (Caulimoviridae)

Author

Carlos de Tomás and Carlos M. Vicient

Subjects

pararetrovirus, Reverse Transcriptase (RT), Caulimoviridae, endogenous, virus, Plant culture, SB1-1110

Abstract

Endogenous viral elements (EVEs) are viral sequences that have been integrated into the nuclear chromosomes. Endogenous pararetrovirus (EPRV) are a class of EVEs derived from DNA viruses of the family Caulimoviridae. Previous works based on a limited number of genome assemblies demonstrated that EPRVs are abundant in plants and are present in several species. The availability of genome sequences has been immensely increased in the recent years and we took advantage of these resources to have a more extensive view of the presence of EPRVs in plant genomes. We analyzed 278 genome assemblies corresponding to 267 species (254 from Viridiplantae) using tBLASTn against a collection of conserved domains of the Reverse Transcriptases (RT) of Caulimoviridae. We concentrated our search on complete and well-conserved RT domains with an uninterrupted ORF comprising the genetic information for at least 300 amino acids. We obtained 11.527 sequences from the genomes of 202 species spanning the whole Tracheophyta clade. These elements were grouped in 57 clusters and classified in 13 genera, including a newly proposed genus we called Wendovirus. Wendoviruses are characterized by the presence of four open reading frames and two of them encode for aspartic proteinases. Comparing plant genomes, we observed important differences between the plant families and genera in the number and type of EPRVs found. In general, florendoviruses are the most abundant and widely distributed EPRVs. The presence of multiple identical RT domain sequences in some of the genomes suggests their recent amplification.

Published

2022

12. Discovery and Analyses of Caulimovirid-like Sequences in Upland Cotton (Gossypium hirsutum)

Author

Nina Aboughanem-Sabanadzovic, Thomas W. Allen, James Frelichowski, Jodi Scheffler, and Sead Sabanadzovic

Subjects

virus, pararetrovirus, cotton, Caulimoviridae, genome integration, episomal form, Microbiology, QR1-502

Abstract

Analyses of Illumina-based high-throughput sequencing data generated during characterization of the cotton leafroll dwarf virus population in Mississippi (2020–2022) consistently yielded contigs varying in size (most frequently from 4 to 7 kb) with identical nucleotide content and sharing similarities with reverse transcriptases (RTases) encoded by extant plant pararetroviruses (family Caulimoviridiae). Initial data prompted an in-depth study involving molecular and bioinformatic approaches to characterize the nature and origins of these caulimovirid-like sequences. As a result, here, we report on endogenous viral elements (EVEs) related to extant members of the family Caulimoviridae, integrated into a genome of upland cotton (Gossypium hirsutum), for which we propose the provisional name “endogenous cotton pararetroviral elements” (eCPRVE). Our investigations pinpointed a ~15 kbp-long locus on the A04 chromosome consisting of head-to-head orientated tandem copies located on positive- and negative-sense DNA strands (eCPRVE+ and eCPRVE-). Sequences of the eCPRVE+ comprised nearly complete and slightly decayed genome information, including ORFs coding for the viral movement protein (MP), coat protein (CP), RTase, and transactivator/viroplasm protein (TA). Phylogenetic analyses of major viral proteins suggest that the eCPRVE+ may have been initially derived from a genome of a cognate virus belonging to a putative new genus within the family. Unexpectedly, an identical 15 kb-long locus composed of two eCPRVE copies was also detected in a newly recognized species G. ekmanianum, shedding some light on the relatively recent evolution within the cotton family.

Published

2023

13. Endogenous Caulimovirids: Fossils, Zombies, and Living in Plant Genomes

Author

Héléna Vassilieff, Andrew D. W. Geering, Nathalie Choisne, Pierre-Yves Teycheney, and Florian Maumus

Subjects

Caulimoviridae, pararetrovirus, endogenous viral elements, plant genomes, repetitive elements, centromeres, Microbiology, QR1-502

Abstract

The Caulimoviridae is a family of double-stranded DNA viruses that infect plants. The genomes of most vascular plants contain endogenous caulimovirids (ECVs), a class of repetitive DNA elements that is abundant in some plant genomes, resulting from the integration of viral DNA in the chromosomes of germline cells during episodes of infection that have sometimes occurred millions of years ago. In this review, we reflect on 25 years of research on ECVs that has shown that members of the Caulimoviridae have occupied an unprecedented range of ecological niches over time and shed light on their diversity and macroevolution. We highlight gaps in knowledge and prospects of future research fueled by increased access to plant genome sequence data and new tools for genome annotation for addressing the extent, impact, and role of ECVs on plant biology and the origin and evolutionary trajectories of the Caulimoviridae.

Published

2023

14. Virus Diseases of Vegetable and Melon Crops in the South of the Russian Far East

Author

V. F. Tolkach, N. N. Kakareka, Yu. G. Volkov, Z. N. Kozlovskaya, M. V. Sapotskiy, T. I. Pleshakova, K. P. D'yakonov, and M. Yu. Shchelkanov

Subjects

phytovirus, bromoviridae, caulimoviridae, potyviridae, secoviridae, virgaviridae, natural reservoir, vector, aphid, nematode, Ecology, QH540-549.5

Abstract

Aim. The development of an inventory of phytoviruses affecting vegetable and melon crops in the South of the Russian Far East.Discussion. On the basis of many years of original research, carried out on a regular basis by the Laboratory of Virology (Federal Scientific Centre of East Asia Biodiversity, Far Eastern Branch, Russian Academy of Sciences) since 1962 as well as available data in the literature, information about the symptoms of diseases, circulation, reserve plants and vectors are presented for the alfalfa mosaic virus (Bromoviridae, Alfamovirus); tomato aspermy virus and cucumber mosaic virus (Bromoviridae, Cucumovirus); cauliflower mosaic virus (Caulimoviridae, Caulimovirus); garlic mosaic virus (Potyviridae, Carlavirus); tobacco etch virus, allium yellow dwarf virus, bean yellow mosaic virus, watermelon mosaic virus 2, turnip mosaic virus and bean common mosaic virus (Potyviridae, Potyvirus); radish mosaic virus (Picornavirales, Secoviridae, Comovirus); tobacco ringspot virus (Picornavirales, Secoviridae, Nepo-virus); cucumber green mottle mosaic virus, tobacco mosaic virus and tomato mosaic virus (Virgaviridae, Tobamovirus).Conclusion. The information presented forms the basis for the development of a set of diagnostic test systems for phytovirus diseases of vegetable and melon crops; a necessary element of activities directed to the improvement of food productivity and security of the Russian Federation in the Far East.

Published

2020

15. Structural and biochemical characterization of cauliflower mosaic virus reverse transcriptase.

Author

Prabaharan C, Figiel M, Szczepanowski RH, Skowronek K, Zajko W, Thangaraj V, Chamera S, Nowak E, and Nowotny M

Subjects

Crystallography, X-Ray, Viral Proteins chemistry, Viral Proteins metabolism, Viral Proteins genetics, RNA, Viral metabolism, RNA, Viral chemistry, RNA, Viral genetics, Models, Molecular, Caulimovirus genetics, Caulimovirus metabolism, Caulimovirus chemistry, RNA-Directed DNA Polymerase metabolism, RNA-Directed DNA Polymerase chemistry, RNA-Directed DNA Polymerase genetics

Abstract

Reverse transcriptases (RTs) are enzymes with DNA polymerase and RNase H activities. They convert ssRNA into dsDNA and are key enzymes for the replication of retroviruses and retroelements. Caulimoviridae is a major family of plant-infecting viruses. Caulimoviruses have a circular dsDNA genome that is replicated by reverse transcription, but in contrast to retroviruses, they lack integrase. Caulimoviruses are related to Ty3 retroelements. Ty3 RT has been extensively studied structurally and biochemically, but corresponding information for caulimoviral RTs is unavailable. In the present study, we report the first crystal structure of cauliflower mosaic virus (CaMV) RT in complex with a duplex made of RNA and DNA strands (RNA/DNA hybrid). CaMV RT forms a monomeric complex with the hybrid, unlike Ty3 RT, which does so as a dimer. Results of the RNA-dependent DNA polymerase and DNA-dependent DNA polymerase activity assays showed that individual CaMV RT molecules are able to perform full polymerase functions. However, our analyses showed that an additional CaMV RT molecule needs to transiently associate with a polymerase-competent RT molecule to execute RNase H cuts of the RNA strand. Collectively, our results provide details into the structure and function of CaMV RT and describe how the enzyme compares to other related RTs., Competing Interests: Conflict of interest The authors declare that they have no conflicts of interest with the contents of this article., (Copyright © 2024 The Authors. Published by Elsevier Inc. All rights reserved.)

Published

2024

16. Construction of an Infectious Clone of the Badnavirus Cacao Swollen Shoot Ghana M Virus and Infectivity by Gene Gun- and Agrobacterium-Mediated Inoculation

Author

Cory V. Keith, Roberto Ramos-Sobrinho, Jean-Philippe Marelli, and Judith K. Brown

Subjects

Caulimoviridae, Badnavirus, emergent disease, tropical tree, seamless cloning, infectious clone, Agriculture, Plant culture, SB1-1110

Abstract

Cacao swollen shoot disease (CSSD) is a damaging disease of Theobroma cacao L. associated with infection by a group of poorly characterized badnaviral species. To establish causality and characterize the symptomatology associated with infection by the badnavirus cacao swollen shoot Ghana M virus (CSSGMV), an infectious clone (1.3-mer) was constructed and used to inoculated cacao “Amelonado” seedlings by biolistic inoculation (BI; n = 18) and agroinoculation (AI; n = 15). Newly expanded leaves of BI (10/18) and AI (12/15) plants developed foliar mosaic and curling symptoms 30-days post inoculation (dpi), with chlorotic mottling and necrotic crinkling being evident by 90 dpi. By 120 dpi, three of 15 AI plants exhibited characteristic stem-swelling. Viral infection was verified by PCR-amplification and sequencing of a 1068 bp fragment of the CSSGMV ORF3 from newly expanding leaves 60 dpi. The PCR results indicated that 14 of 18 and 15 of 15 BI and AI plants, respectively, were systemically infected. The complete CSSGMV genome sequence was determined, by Illumina sequencing, from representative AI and BI plants and shared >99.5% pairwise nucleotide identity with CSSGMV-Nig9 (GenBank Accession No. MH785299). Based on the development of characteristic CSSD symptoms and recovery of partial and complete genome sequences of CSSGMV-Nig9 from systemically infected cacao plants, Koch's postulates have been fulfilled.

Published

2021

17. Broken, silent, and in hiding: tamed endogenous pararetroviruses escape elimination from the genome of sugar beet (Beta vulgaris).

Author

Schmidt, Nicola, Seibt, Kathrin M, Weber, Beatrice, Schwarzacher, Trude, Schmidt, Thomas, and Heitkam, Tony

Subjects

*SUGAR beets, *SUGAR crops, *PLANT genomes, *FLUORESCENCE in situ hybridization, *SATELLITE DNA, *BEETS, *PLANT gene silencing

Abstract

Background and Aims Endogenous pararetroviruses (EPRVs) are widespread components of plant genomes that originated from episomal DNA viruses of the Caulimoviridae family. Due to fragmentation and rearrangements, most EPRVs have lost their ability to replicate through reverse transcription and to initiate viral infection. Similar to the closely related retrotransposons, extant EPRVs were retained and often amplified in plant genomes for several million years. Here, we characterize the complete genomic EPRV fraction of the crop sugar beet (Beta vulgaris , Amaranthaceae) to understand how they shaped the beet genome and to suggest explanations for their absent virulence. Methods Using next- and third-generation sequencing data and genome assembly, we reconstructed full-length in silico representatives for the three host-specific EPRVs (beetEPRVs) in the B. vulgaris genome. Focusing on the endogenous caulimovirid beetEPRV3, we investigated its chromosomal localization, abundance and distribution by fluorescent in situ and Southern hybridization. Key Results Full-length beetEPRVs range between 7.5 and 10.7 kb in size, are heterogeneous in structure and sequence, and occupy about 0.3 % of the beet genome. Although all three beetEPRVs were assigned to the florendoviruses, they showed variably arranged protein-coding domains, different fragmentation, and preferences for diverse sequence contexts. We observed small RNAs that specifically target the individual beetEPRVs, indicating stringent epigenetic suppression. BeetEPRV3 sequences occur along all sugar beet chromosomes, preferentially in the vicinity of each other and are associated with heterochromatic, centromeric and intercalary satellite DNAs. BeetEPRV3 members also exist in genomes of related wild species, indicating an initial beetEPRV3 integration 13.4–7.2 million years ago. Conclusions Our study in beet illustrates the variability of EPRV structure and sequence in a single host genome. Evidence of sequence fragmentation and epigenetic silencing implies possible plant strategies to cope with long-term persistence of EPRVs, including amplification, fixation in the heterochromatin, and containment of EPRV virulence. [ABSTRACT FROM AUTHOR]

Published

2021

18. Sixty Years from the First Disease Description, a Novel Badnavirus Associated with Chestnut Mosaic Disease.

Author

Marais, Armelle, Murolo, Sergio, Faure, Chantal, Brans, Yoann, Larue, Clément, Maclot, François, Massart, Sébastien, Chiumenti, Michela, Minafra, Angelantonio, Romanazzi, Gianfranco, Lefebvre, Marie, Barreneche, Teresa, Robin, Cécile, Petit, Rémy J., and Candresse, Thierry

Subjects

*MOSAIC diseases, *CASTANEA, *CHESTNUT, *VIRAL genomes, *MOSAIC viruses, *PLANT indicators

Abstract

Although chestnut mosaic disease (ChMD) was described several decades ago, its etiology is still not clear. Using classical approaches and highthroughput sequencing (HTS) techniques, we identified a novel Badnavirus that is a strong etiological candidate for ChMD. Two disease sources from Italy and France were submitted to HTS-based viral indexing. Total RNAs were extracted, ribodepleted, and sequenced on an Illumina NextSeq500 (2 × 150 nt or 2 × 75 nt). In each source, we identified a single contig of -7.2 kb that corresponds to a complete circular viral genome and shares homologies with various badnaviruses. The genomes of the two isolates have an average nucleotide identity of 90.5%, with a typical badnaviral genome organization comprising three open reading frames. Phylogenetic analyses and sequence comparisons showed that this virus is a novel species; we propose the name Chestnut mosaic virus (ChMV). Using a newly developed molecular detection test, we systematically detected the virus in symptomatic graft-inoculated indicator plants (chestnut and American oak) as well in chestnut trees presenting typical ChMD symptoms in the field (100 and 87% in France and Italy surveys, respectively). Datamining of publicly available chestnut sequence read archive transcriptomic data allowed the reconstruction of two additional complete ChMV genomes from two Castanea mollissima sources from the United States as well as ChMV detection in C. dentata from the United States. Preliminary epidemiological studies performed in France and central eastern Italy showed that ChMV has a high incidence in some commercial orchards and low within-orchard genetic diversity. [ABSTRACT FROM AUTHOR]

Published

2021

19. Identification and characterization of water chestnut Soymovirus-1 (WCSV-1), a novel Soymovirus in water chestnuts (Eleocharis dulcis)

Author

Fangpeng Zhang, Zuokun Yang, Ni Hong, Guoping Wang, Aiming Wang, and Liping Wang

Subjects

Caulimoviridae, Soymovirus, Water chestnut, Virus-derived small RNA (vsRNA), Pararetrovirus, RNA sequencing, Botany, QK1-989

Abstract

Abstract Background A disease of unknown etiology in water chestnut plants (Eleocharis dulcis) was reported in China between 2012 and 2014. High throughput sequencing of small RNA (sRNA) combined with bioinformatics, and molecular identification based on PCR detection with virus-specific primers and DNA sequencing is a desirable approach to identify an unknown infectious agent. In this study, we employed this approach to identify viral sequences in water chestnut plants and to explore the molecular interaction of the identified viral pathogen and its natural plant host. Results Based on high throughput sequencing of virus-derived small RNAs (vsRNA), we identified the sequence a new-to-science double-strand DNA virus isolated from water chestnut cv. ‘Tuanfeng’ samples, a widely grown cultivar in Hubei province, China, and analyzed its genomic organization. The complete genomic sequence is 7535 base-pairs in length, and shares 42–52% nucleotide sequence identity with viruses in the Caulimoviridae family. The virus contains nine predicated open reading frames (ORFs) encoding nine hypothetical proteins, with conserved domains characteristic of caulimoviruses. Phylogenetic analyses at the nucleotide and amino acid levels indicated that the virus belongs to the genus Soymovirus. The virus is tentatively named Water chestnut soymovirus-1 (WCSV-1). Phylogenetic analysis of the putative viral polymerase protein suggested that WCSV-1 is distinct to other well established species in the Soymovirus genus. This conclusion was supported by phylogenetic analyses of the amino acid sequences encoded by ORFs I, IV, VI, or VII. The sRNA bioinformatics showed that the majority of the vsRNAs are 22-nt in length with a preference for U at the 5′-terminal nucleotide. The vsRNAs are unevenly distributed over both strands of the entire WCSV-1 circular genome, and are clustered into small defined regions. In addition, we detected WCSV-1 in asymptomatic and symptomatic water chestnut samples collected from different regions of China by using PCR. RNA-seq assays further confirmed the presence of WCSV-1-derived viral RNA in infected plants. Conclusions This is the first discovery of a dsDNA virus in the genus Soymovirus infecting water chestnuts. Data presented also add new information towards a better understanding of the co-evolutionary mechanisms between the virus and its natural plant host.

Published

2019

20. Identification and distribution of novel badnaviral sequences integrated in the genome of cacao (Theobroma cacao).

Author

Muller, Emmanuelle, Ullah, Ihsan, Dunwell, Jim M., Daymond, Andrew J., Richardson, Megan, Allainguillaume, Joël, and Wetten, Andy

Subjects

*CACAO, *PLANT genomes, *CAULIMOVIRIDAE, *VIRUS diseases of plants, *BIOINFORMATICS

Abstract

Theobroma cacao is one of the most economically important tropical trees, being the source of chocolate. As part of an ongoing study to understand the diversity of the badnavirus complex, responsible for the cacao swollen shoot virus disease in West Africa, evidence was found recently of virus-like sequences in asymptomatic cacao plants. The present study exploited the wealth of genomic resources in this crop, and combined bioinformatic, molecular, and genetic approaches to report for the first time the presence of integrated badnaviral sequences in most of the cacao genetic groups. These sequences, which we propose to name eTcBV for endogenous T. cacao bacilliform virus, varied in type with each predominating in a specific genetic group. A diagnostic multiplex PCR method was developed to identify the homozygous or hemizygous condition of one specific insert, which was inherited as a single Mendelian trait. These data suggest that these integration events occurred before or during the species diversification in Central and South America, and prior to its cultivation in other regions. Such evidence of integrated sequences is relevant to the management of cacao quarantine facilities and may also aid novel methods to reduce the impact of such viruses in this crop. [ABSTRACT FROM AUTHOR]

Published

2021

21. Badnaviruses of Sweet Potato: Symptomless Coinhabitants on a Global Scale

Author

Jan F. Kreuze, Ana Perez, Marco Galvez Gargurevich, and Wilmer J. Cuellar

Subjects

Ipomoea batatas, Caulimoviridae, episomal, siRNA, genome integration, Plant culture, SB1-1110

Abstract

Sweet potato is among the most important root crops worldwide, particularly in developing countries, and its production is affected severely by a variety of virus diseases. During the last decade, a number of new viruses have been discovered in sweet potatoes through next-generation sequencing studies. Among them are viruses belonging to the genus Badnavirus and collectively assigned to the species sweet potato pakakuy virus (SPPV). We determined the complete genome sequence of two SPPV isolates and show the ubiquitous presence of similar viruses in germplasm and field material from around the globe. We show that SPPV is not integrated into the sweet potato genome, occurs only at extremely low titers, and is efficiently transmitted through seeds and cuttings. They are unaffected by virus elimination therapy and do not induce discernible symptoms in sweet potatoes or indicator host plants. They show considerable variation in their nucleotide sequences and correspond to several genetic lineages. Studies of their interaction with the two most important sweet potato viruses showed only limited synergistic increase in the titers of one of two SPPV isolates. We contend that these viruses may pose little threat to sweet potato production and more likely represent a new type of persistent virus in sweet potato.

Published

2020

22. Badnaviruses of Sweet Potato: Symptomless Coinhabitants on a Global Scale.

Author

Kreuze, Jan F., Perez, Ana, Gargurevich, Marco Galvez, and Cuellar, Wilmer J.

Subjects

SWEET potatoes, ROOT crops, PLANT indicators, VIRUS diseases, NUCLEOTIDE sequence, HOST plants

Abstract

Sweet potato is among the most important root crops worldwide, particularly in developing countries, and its production is affected severely by a variety of virus diseases. During the last decade, a number of new viruses have been discovered in sweet potatoes through next-generation sequencing studies. Among them are viruses belonging to the genus Badnavirus and collectively assigned to the species sweet potato pakakuy virus (SPPV). We determined the complete genome sequence of two SPPV isolates and show the ubiquitous presence of similar viruses in germplasm and field material from around the globe. We show that SPPV is not integrated into the sweet potato genome, occurs only at extremely low titers, and is efficiently transmitted through seeds and cuttings. They are unaffected by virus elimination therapy and do not induce discernible symptoms in sweet potatoes or indicator host plants. They show considerable variation in their nucleotide sequences and correspond to several genetic lineages. Studies of their interaction with the two most important sweet potato viruses showed only limited synergistic increase in the titers of one of two SPPV isolates. We contend that these viruses may pose little threat to sweet potato production and more likely represent a new type of persistent virus in sweet potato. [ABSTRACT FROM AUTHOR]

Published

2020

23. Piper DNA virus 1 and 2 are endogenous pararetroviruses integrated into chromosomes of black pepper (Piper nigrum L)

Author

Bhat, A. I., Mohandas, A., Sreenayana, B., Archana, T. S., and Jasna, K.

Published

2022

24. Rearranged Endogenized Plant Pararetroviruses as Evidence of Heritable RNA-based Immunity

Author

Ministerio de Ciencia, Innovación y Universidades (España), Agencia Estatal de Investigación (España), Valli, Adrián, Gonzalo-Magro, Irene, Sánchez, Diego H., Ministerio de Ciencia, Innovación y Universidades (España), Agencia Estatal de Investigación (España), Valli, Adrián, Gonzalo-Magro, Irene, and Sánchez, Diego H.

Abstract

Eukaryotic genomics frequently revealed historical spontaneous endogenization events of external invading nucleic acids, such as viral elements. In plants, an extensive occurrence of endogenous plant pararetroviruses (EPRVs) is usually believed to endow hosts with an additional layer of internal suppressive weaponry. However, an actual demonstration of this activity remains speculative. We analyzed the EPRV component and accompanying silencing effectors of Solanum lycopersicum, documenting that intronic/intergenic pararetroviral integrations bearing inverted-repeats fuel the plant's RNA-based immune system with suitable transcripts capable of evoking a silencing response. A surprisingly small set of rearrangements explained a substantial fraction of pararetroviral-derived endogenous small-interfering (si)RNAs, enriched in 22-nt forms typically associated with anti-viral post-transcriptional gene silencing. We provide preliminary evidence that such genetic and immunological signals may be found in other species outside the genus Solanum. Based on molecular dating, bioinformatics, and empirical explorations, we propose that homology-dependent silencing emerging from particular immuno-competent rearranged chromosomal areas that constitute an adaptive heritable trans-acting record of past infections, with potential impact against the unlocking of plant latent EPRVs and cognate-free pararetroviruses.

Published

2023

25. Infectivity of an Infectious Clone of Banana Streak CA Virus in A-Genome Bananas (Musa acuminata ssp.)

Author

Anthony P. James, Dawit B. Kidanemariam, Sharon D. Hamill, James L. Dale, and Robert M. Harding

Subjects

badnavirus, banana, banana streak virus, Caulimoviridae, infectious clone, Microbiology, QR1-502

Abstract

We have characterized the complete genome sequence of an Australian isolate of banana streak CA virus (BSCAV). A greater-than-full-length, cloned copy of the virus genome was assembled and agroinoculated into five tissue-cultured plants of nine different Musa acuminata banana accessions. BSCAV was highly infectious in all nine accessions. All five inoculated plants from eight accessions developed symptoms by 28 weeks post-inoculation, while all five plants of M. acuminata AA subsp. zebrina remained symptomless. Symptoms were mild in six accessions but were severe in Khae Phrae (M. acuminata subsp. siamea) and the East African Highland banana accession Igisahira Gisanzwe. This is the first full-length BSCAV genome sequence reported from Australia and the first report of the infectivity of an infectious clone of banana streak virus.

Published

2021

26. The proposed new species, cacao red vein virus, and three previously recognized badnavirus species are associated with cacao swollen shoot disease

Author

Nomatter Chingandu, Koffie Kouakou, Romain Aka, George Ameyaw, Osman A. Gutierrez, Hans-Werner Herrmann, and Judith K. Brown

Subjects

Caulimoviridae, Cacao virus, Double-stranded DNA plant virus, Mealybug-transmitted virus, Pararetrovirus, Infectious and parasitic diseases, RC109-216

Abstract

Abstract Background Cacao swollen shoot virus (CSSV), Cacao swollen shoot CD virus (CSSCDV), and Cacao swollen shoot Togo A virus (CSSTAV) cause cacao swollen shoot disease (CSSD) in West Africa. During 2000–2003, leaf and shoot-swelling symptoms and rapid tree death were observed in cacao in Cote d’Ivoire and Ghana. Molecular tests showed positive infection in only ~50–60% of symptomatic trees, suggesting the possible emergence of an unknown badnavirus. Methods The DNA virome was determined from symptomatic cacao samples using Illumina-Hi Seq, and sequence accuracy was verified by Sanger sequencing. The resultant 14, and seven previously known, full-length badnaviral genomic and RT-RNase H sequences were analyzed by pairwise distance analysis to resolve species relationships, and by Maximum likelihood (ML) to reconstruct phylogenetic relationships. The viral coding and non-coding sequences, genome organization, and predicted conserved protein domains (CPDs) were identified and characterized at the species level. Results The 21 CSSD-badnaviral genomes and RT-RNase H sequences shared 70–100% and 72–100% identity, respectively. The RT-RNase H analysis predicted four species, based on an ≥80% species cutoff. The ML genome sequence tree resolved three well-supported clades, with ≥70% bootstrap, whereas, the RT-RNase H phylogeny was poorly resolved, however, both trees grouped CSSD isolates within one large clade, including the newly discovered Cacao red vein virus (CRVV) proposed species. The genome arrangement of the four species consists of four, five, or six predicted open reading frames (ORFs), and the CPDs have similar architectures. By comparison, two New World cacao-infecting badnaviruses encode four ORFs, and harbor CPDs like the West African species. Conclusions Three previously recognized West African cacao-infecting badnaviral species were identified, and a fourth, previously unidentified species, CRVV, is described for the first time. The CRVV is a suspect causal agent of the rapid decline phenotype, however Koch’s Postulates have not been proven. To reconcile viral evolutionary with epidemiology considerations, more detailed information about CSSD-genomic variability is essential. Also, the functional basis for the multiple genome arrangements and subtly distinct CPD architectures among cacao-infecting badnaviruses is poorly understood. New knowledge about functional relationships may help explain the diverse symptomatologies observed in affected cacao trees.

Published

2017

27. Identification and molecular characterization of Taro bacilliform virus and Taro bacilliform CH virus from East Africa.

Author

Kidanemariam, D. B., Sukal, A. C., Abraham, A. D., Stomeo, F., Dale, J. L., James, A. P., and Harding, R. M.

Subjects

*TARO, *ROOT crops, *FARMERS, *CROP yields

Abstract

Taro (Colocasia esculenta) and tannia (Xanthosoma sp.) are important root crops cultivated mainly by small‐scale farmers in sub‐Saharan Africa and the South Pacific. Viruses are known to be one of the most important constraints to production, with infections resulting in severe yield reduction. In 2014 and 2015, surveys were conducted in Ethiopia, Kenya, Tanzania and Uganda to determine the identity of viruses infecting taro in East Africa. Screening of 392 samples collected from the region using degenerate badnavirus primers revealed an incidence of 58–74% among the four countries surveyed, with sequence analysis identifying both Taro bacilliform virus (TaBV) and Taro bacilliform CH virus (TaBCHV). TaBCHV was identified from all four countries while TaBV was identified in all except Ethiopia. Full‐length sequences from representative TaBV and TaBCHV isolates showed that the genome organization of TaBV isolates from East Africa was consistent with previous reports while TaBCHV isolates from East Africa were found to encode only four ORFs, distinct from a previous report from China. Phylogenetic analysis showed that all East African TaBV isolates form a single subgroup within known TaBV isolates, while TaBCHV isolates form at least two distinct subgroups. To the authors' knowledge, this is the first report describing the occurrence and genome organization of TaBV and TaBCHV isolates from East Africa and the first full‐length sequence of the two viruses from tannia. [ABSTRACT FROM AUTHOR]

Published

2018

28. Genome-wide identification of Reverse Transcriptase domains of recently inserted endogenous plant pararetrovirus (Caulimoviridae)

Author

Tomás, Carlos de, Vicient, Carlos M., Ministerio de Economía y Competitividad (España), European Commission, Ministerio de Ciencia, Innovación y Universidades (España), and Generalitat de Catalunya

Subjects

Reverse Transcriptase (RT), Endogenous, Caulimoviridae, Plant Science, Pararetrovirus, Virus

Abstract

Endogenous viral elements (EVEs) are viral sequences that have been integrated into the nuclear chromosomes. Endogenous pararetrovirus (EPRV) are a class of EVEs derived from DNA viruses of the family Caulimoviridae. Previous works based on a limited number of genome assemblies demonstrated that EPRVs are abundant in plants and are present in several species. The availability of genome sequences has been immensely increased in the recent years and we took advantage of these resources to have a more extensive view of the presence of EPRVs in plant genomes. We analyzed 278 genome assemblies corresponding to 267 species (254 from Viridiplantae) using tBLASTn against a collection of conserved domains of the Reverse Transcriptases (RT) of Caulimoviridae. We concentrated our search on complete and well-conserved RT domains with an uninterrupted ORF comprising the genetic information for at least 300 amino acids. We obtained 11.527 sequences from the genomes of 202 species spanning the whole Tracheophyta clade. These elements were grouped in 57 clusters and classified in 13 genera, including a newly proposed genus we called Wendovirus. Wendoviruses are characterized by the presence of four open reading frames and two of them encode for aspartic proteinases. Comparing plant genomes, we observed important differences between the plant families and genera in the number and type of EPRVs found. In general, florendoviruses are the most abundant and widely distributed EPRVs. The presence of multiple identical RT domain sequences in some of the genomes suggests their recent amplification., This work was funded by grants from the Spanish Ministerio de Economía, Industria y Competitividad (AGL2016-78992-R/FEDER), Ministerio de Ciencia e Innovación (PID2019-106374RB-I00/AEI/10.13039/501100011033), by “ERDF A way of making Europe” and by the CERCA Programme of the Generalitat de Catalunya. We also acknowledge financial support from the Spanish Ministerio de Economía y Competitividad through the “Severo Ochoa Programme for Centres of Excellence in R&D” 2016-2019 (SEV-2015-0533) and CEX2019-000902-S funded by MCIN/AEI/10.13039/501100011033., With funding from the Spanish government through the ‘Severo Ochoa Centre of Excellence’ accreditation CEX2019-000902-S

Published

2022

29. A Complex of Badnavirus Species Infecting Cacao Reveals Mixed Infections, Extensive Genomic Variability, and Interspecific Recombination

Author

Roberto Ramos-Sobrinho, Nomatter Chingandu, Osman A. Gutierrez, Jean-Philippe Marelli, and Judith K. Brown

Subjects

Badnavirus, Caulimoviridae, dsDNA plant virus, emerging diseases, Microbiology, QR1-502

Abstract

The incidence of cacao swollen shoot disease (CSSD) in cacao (Theobroma cacao L.) has increased in West Africa since ~2000. To investigate the genomic and species diversity of the CSSD-badnaviruses infecting cacao in Côte d’Ivoire and Ghana, symptomatic leaves were subjected to high-throughput sequencing. Among the 30 newly determined genomes, three badnaviruses were identified, Cacao swollen shoot Togo B virus (CSSTBV), Cacao swollen shoot CD virus, and Cacao swollen shoot CE virus (CSSCEV). The phylogenetic trees reconstructed for the reverse transcriptase (RT) and ribonuclease H (RNase H) sequences were incongruent with the complete viral genomes, which had the most robust statistical support. Recombination seems to be involved in the CSSD-badnavirus diversification. The genomic diversity varied among different CSSD-badnaviruses, with CSSTBV showing the lowest nucleotide diversity (π = 0.06236), and CSSCEV exhibiting the greatest variability (π = 0.21911). Evidence of strong purifying selection was found in the coding regions of the CSSTBV isolates.

Published

2020

30. Virus diversity in metagenomes of a lichen symbiosis ( Umbilicaria phaea ): complete viral genomes, putative hosts and elevational distributions

Author

Jürgen Otte, Imke Schmitt, Francesco Dal Grande, Carola Greve, and Dominik Merges

Subjects

Genome, Caulimovirus, Lichens, Host (biology), viruses, Genome, Viral, Biology, Umbilicaria phaea, biology.organism_classification, Microbiology, Holobiont, Siphoviridae, Podoviridae, Ascomycota, Evolutionary biology, Metagenome, Phylogeny, Symbiosis, Bacteriophages, Horizontal gene transfer, Viral, Caulimoviridae, Ecology, Evolution, Behavior and Systematics

Abstract

Viruses can play critical roles in symbioses by initiating horizontal gene transfer, affecting host phenotypes, or expanding their host's ecological niche. However, knowledge of viral diversity and distribution in symbiotic organisms remains elusive. Here we use deep-sequenced metagenomic DNA (PacBio Sequel II; two individuals), paired with a population genomics approach (Pool-seq; 11 populations, 550 individuals) to understand viral distributions in the lichen Umbilicaria phaea. We assess (i) viral diversity in lichen thalli, (ii) putative viral hosts (fungi, algae, bacteria) and (iii) viral distributions along two replicated elevation gradients. We identified five novel viruses, showing 28%-40% amino acid identity to known viruses. They tentatively belong to the families Caulimoviridae, Myoviridae, Podoviridae and Siphoviridae. Our analysis suggests that the Caulimovirus is associated with green algal photobionts (Trebouxia) of the lichen, and the remaining viruses with bacterial hosts. We did not detect viral sequences in the mycobiont. Caulimovirus abundance decreased with increasing elevation, a pattern reflected by a specific algal lineage hosting this virus. Bacteriophages showed population-specific patterns. Our work provides the first comprehensive insights into viruses associated with a lichen holobiont and suggests an interplay of viral hosts and environment in structuring viral distributions.

Published

2021

31. Genome-wide identification of endogenous viral sequences in alfalfa (Medicago sativa L.)

Author

Lev G. Nemchinov and Alexander M. Boutanaev

Subjects

food.ingredient, Short Report, Caulimoviridae, Infectious and parasitic diseases, RC109-216, Genome, Soymovirus, Medicago sativa L, Soybean chlorotic mottle virus, food, Caulimovirus, Genus, Virology, Endogenous viral elements, Medicago sativa, Virus classification, Genetics, Genetic diversity, biology, Alfalfa, fungi, food and beverages, biology.organism_classification, Infectious Diseases, Horizontal gene transfer, Figwort mosaic virus, Genome, Plant

Abstract

Endogenous viral elements (EVEs) have been for the most part described in animals and to a less extent in plants. The endogenization was proposed to contribute toward evolution of living organisms via horizontal gene transfer of novel genetic material and resultant genetic diversity. During the last two decades, several full-length and fragmented EVEs of pararetroviral and non-retroviral nature have been identified in different plant genomes, both monocots and eudicots. Prior to this work, no EVEs have been reported in alfalfa (Medicago sativa L.), the most cultivated forage legume in the world. In this study, taking advantage of the most recent developments in the field of alfalfa research, we have assessed alfalfa genome on the presence of viral-related sequences. Our analysis revealed segmented EVEs resembling two dsDNA reverse-transcribing virus species: Soybean chlorotic mottle virus (family Caulimoviridae, genus Soymovirus) and Figwort mosaic virus (family Caulimoviridae, genus Caulimovirus). The EVEs appear to be stable constituents of the host genome and in that capacity could potentially acquire functional roles in alfalfa’s development and response to environmental stresses.

Published

2021

32. Deep Sequencing Reveals the Complete Genome and Evidence for Transcriptional Activity of the First Virus-Like Sequences Identified in Aristotelia chilensis (Maqui Berry)

Author

Javier Villacreses, Marcelo Rojas-Herrera, Carolina Sánchez, Nicole Hewstone, Soledad F. Undurraga, Juan F. Alzate, Patricio Manque, Vinicius Maracaja-Coutinho, and Victor Polanco

Subjects

Aristotelia chilensis, Maqui berry, genome, transcriptome, comparative genomics, deep sequencing, RNA sequencing, Petuvirus, Caulimoviridae, plant virus, Microbiology, QR1-502

Abstract

Here, we report the genome sequence and evidence for transcriptional activity of a virus-like element in the native Chilean berry tree Aristotelia chilensis. We propose to name the endogenous sequence as Aristotelia chilensis Virus 1 (AcV1). High-throughput sequencing of the genome of this tree uncovered an endogenous viral element, with a size of 7122 bp, corresponding to the complete genome of AcV1. Its sequence contains three open reading frames (ORFs): ORFs 1 and 2 shares 66%–73% amino acid similarity with members of the Caulimoviridae virus family, especially the Petunia vein clearing virus (PVCV), Petuvirus genus. ORF1 encodes a movement protein (MP); ORF2 a Reverse Transcriptase (RT) and a Ribonuclease H (RNase H) domain; and ORF3 showed no amino acid sequence similarity with any other known virus proteins. Analogous to other known endogenous pararetrovirus sequences (EPRVs), AcV1 is integrated in the genome of Maqui Berry and showed low viral transcriptional activity, which was detected by deep sequencing technology (DNA and RNA-seq). Phylogenetic analysis of AcV1 and other pararetroviruses revealed a closer resemblance with Petuvirus. Overall, our data suggests that AcV1 could be a new member of Caulimoviridae family, genus Petuvirus, and the first evidence of this kind of virus in a fruit plant.

Published

2015

33. Characterization of a novel member of the family Caulimoviridae infecting Dioscorea nummularia in the Pacific, which may represent a new genus of dsDNA plant viruses.

Author

Sukal, Amit C., Kidanemariam, Dawit B., Dale, James L., Harding, Robert M., and James, Anthony P.

Subjects

*YAM diseases & pests, *CAULIMOVIRIDAE, *PLANT viruses, *DNA viruses, *OPEN reading frames (Genetics), *VIRUSES

Abstract

We have characterized the complete genome of a novel circular double-stranded DNA virus, tentatively named Dioscorea nummularia-associated virus (DNUaV), infecting Dioscorea nummularia originating from Samoa. The genome of DNUaV comprised 8139 bp and contained four putative open reading frames (ORFs). ORFs 1 and 2 had no identifiable conserved domains, while ORF 3 had conserved motifs typical of viruses within the family Caulimoviridae including coat protein, movement protein, aspartic protease, reverse transcriptase and ribonuclease H. A transactivator domain, similar to that present in members of several caulimoviridae genera, was also identified in the putative ORF 4. The genome size, organization, and presence of conserved amino acid domains are similar to other viruses in the family Caulimoviridae. However, based on nucleotide sequence similarity and phylogenetic analysis, DNUaV appears to be a distinct novel member of the family and may represent a new genus. [ABSTRACT FROM AUTHOR]

Published

2018

34. Ortervirales: New Virus Order Unifying Five Families of Reverse-Transcribing Viruses.

Author

Krupovic, Mart, Blomberg, Jonas, Coffin, John M., Dasgupta, Indranil, Hung Fan, Geering, Andrew D., Gifford, Robert, Harrach, Balázs, Hull, Roger, Johnson, Welkin, Kreuze, Jan F., Lindemann, Dirk, Llorens, Carlos, Lockhart, Ben, Mayer, Jens, Muller, Emmanuelle, Olszewski, Neil E., Pappu, Hanu R., Pooggin, Mikhail M., and Richert-Pöggeler, Katja R.

Subjects

*REVERSE transcriptase, *VIRUS-induced enzymes, *CAULIMOVIRIDAE, *METAVIRIDAE, *VIRAL proteins, *VIRAL genomes

Published

2018

35. Euphyllophyte Paleoviruses Illuminate Hidden Diversity and Macroevolutionary Mode of Caulimoviridae.

Author

Zhen Gong and Guan-Zhu Han

Subjects

*CAULIMOVIRIDAE, *VIRUS diversity, *VIRAL evolution, *ANGIOSPERMS, *VIRUS diseases of plants

Abstract

Endogenous viral elements (paleoviruses) provide "molecular fossils" for studying the deep history and macroevolution of viruses. Endogenous plant pararetroviruses (EPRVs) are widespread in angiosperms, but little is known about EPRVs in earlier-branching plants. Here we use a large-scale phylogenomic approach to investigate the diversity and macroevolution of plant pararetroviruses (formally known as Caulimoviridae). We uncover an unprecedented and unappreciated diversity of EPRVs within the genomes of gymnosperms and ferns. The known angiosperm viruses constitute only a minor part of the Caulimoviridae diversity. By characterizing the distribution of EPRVs, we show that no major euphyllophyte lineages escape the activity of Caulimoviridae, raising the possibility that many exogenous Caulimoviridae remain to be discovered in euphyllophytes. We find that the copy numbers of EPRVs are generally high, suggesting that EPRVs might define a unique group of repetitive elements and represent important components of euphyllophyte genomes. Evolutionary analyses suggest an ancient origin of Caulimoviridae and at least three independent origins of Caulimoviridae in angiosperms. Our findings reveal the remarkable diversity of Caulimoviridae and have important implications for understanding the origin and macroevolution of plant pararetroviruses. [ABSTRACT FROM AUTHOR]

Published

2018

36. A novel badnavirus discovered from Betula sp. affected by birch leaf-roll disease.

Author

Rumbou, Artemis, Candresse, Thierry, Marais, Armelle, Theil, Sebastien, Langer, Juliane, Jalkanen, Risto, and Büttner, Carmen

Subjects

*BIRCH diseases & pests, *CAULIMOVIRIDAE, *LEAFROLLERS, *NUCLEOTIDE sequence, *HAPLOTYPES

Abstract

In declining birches (Betula sp.) from different European stands affected by the “birch leaf-roll disease” (BLRD) a novel virus is identified by means of RNA-Seq virome analysis. The virus represents a new member in the genus Badnavirus, family Caulimoviridae, tentatively named Birch leaf roll-associated virus (BLRaV) and it is the first badnavirus found to infect birch. Complete genome sequences (7,862–7,864 nucleotides) of three viral isolates of Finnish and German origin have been determined. The virus sequences show a typical badnavirus organization with three major open reading frames (ORFs) and a fourth potential ORF overlapping with the end of ORF3. ORFs 1-2-3 show low level of amino acid identity to the corresponding proteins encoded by other badnaviruses, reaching a maximum of 44% identity (ORF3). Grapevine vein-clearing virus appears as the closest badnavirus when considering the polymerase region. So far, we can exclude evidence for presence of endogenous BLRaV elements in the birch genome, while evidence for the episomal activity of BLRaV is provided. The viral population holds significant haplotype diversity, while co-infection by different BLRaV variants are observed in single hosts. BLRaV presence is associated with the BLRD in both silver (B. pendula) and downy birch (B. pubescens). These results challenge the earlier hypothesis of a causal role of Cherry leaf roll virus in BLRD. Further work is now needed to finally prove that BLRaV is the causal agent for the BLRD. [ABSTRACT FROM AUTHOR]

Published

2018

37. Broken, silent, and in hiding: tamed endogenous pararetroviruses escape elimination from the genome of sugar beet (Beta vulgaris)

Author

Trude Schwarzacher, Nicola Schmidt, Thomas Schmidt, Beatrice Weber, Kathrin M. Seibt, and Tony Heitkam

Subjects

0106 biological sciences, Genetics, biology, Heterochromatin, In silico, Sequence assembly, Retrotransposon, Plant Science, biology.organism_classification, 010603 evolutionary biology, 01 natural sciences, Genome, chemistry.chemical_compound, chemistry, Caulimoviridae, DNA, 010606 plant biology & botany, Southern blot

Abstract

Background and AimsEndogenous pararetroviruses (EPRVs) are widespread components of plant genomes that originated from episomal DNA viruses of the Caulimoviridae family. Due to fragmentation and rearrangements, most EPRVs have lost their ability to replicate through reverse transcription and to initiate viral infection. Similar to the closely related retrotransposons, extant EPRVs were retained and often amplified in plant genomes for several million years. Here, we characterize the complete genomic EPRV fraction of the crop sugar beet (Beta vulgaris, Amaranthaceae) to understand how they shaped the beet genome and to suggest explanations for their absent virulence.MethodsUsing next- and third-generation sequencing data and genome assembly, we reconstructed full-length in silico representatives for the three host-specific EPRVs (beetEPRVs) in the B. vulgaris genome. Focusing on the endogenous caulimovirid beetEPRV3, we investigated its chromosomal localization, abundance and distribution by fluorescent in situ and Southern hybridization.Key ResultsFull-length beetEPRVs range between 7.5 and 10.7 kb in size, are heterogeneous in structure and sequence, and occupy about 0.3 % of the beet genome. Although all three beetEPRVs were assigned to the florendoviruses, they showed variably arranged protein-coding domains, different fragmentation, and preferences for diverse sequence contexts. We observed small RNAs that specifically target the individual beetEPRVs, indicating stringent epigenetic suppression. BeetEPRV3 sequences occur along all sugar beet chromosomes, preferentially in the vicinity of each other and are associated with heterochromatic, centromeric and intercalary satellite DNAs. BeetEPRV3 members also exist in genomes of related wild species, indicating an initial beetEPRV3 integration 13.4–7.2 million years ago.ConclusionsOur study in beet illustrates the variability of EPRV structure and sequence in a single host genome. Evidence of sequence fragmentation and epigenetic silencing implies possible plant strategies to cope with long-term persistence of EPRVs, including amplification, fixation in the heterochromatin, and containment of EPRV virulence.

Published

2021

38. DataSheet_5_Genome-wide identification of Reverse Transcriptase domains of recently inserted endogenous plant pararetrovirus (Caulimoviridae).xlsx

Author

Tomás, Carlos de, Vicient, Carlos M., Tomás, Carlos de, and Vicient, Carlos M.

Abstract

Endogenous viral elements (EVEs) are viral sequences that have been integrated into the nuclear chromosomes. Endogenous pararetrovirus (EPRV) are a class of EVEs derived from DNA viruses of the family Caulimoviridae. Previous works based on a limited number of genome assemblies demonstrated that EPRVs are abundant in plants and are present in several species. The availability of genome sequences has been immensely increased in the recent years and we took advantage of these resources to have a more extensive view of the presence of EPRVs in plant genomes. We analyzed 278 genome assemblies corresponding to 267 species (254 from Viridiplantae) using tBLASTn against a collection of conserved domains of the Reverse Transcriptases (RT) of Caulimoviridae. We concentrated our search on complete and well-conserved RT domains with an uninterrupted ORF comprising the genetic information for at least 300 amino acids. We obtained 11.527 sequences from the genomes of 202 species spanning the whole Tracheophyta clade. These elements were grouped in 57 clusters and classified in 13 genera, including a newly proposed genus we called Wendovirus. Wendoviruses are characterized by the presence of four open reading frames and two of them encode for aspartic proteinases. Comparing plant genomes, we observed important differences between the plant families and genera in the number and type of EPRVs found. In general, florendoviruses are the most abundant and widely distributed EPRVs. The presence of multiple identical RT domain sequences in some of the genomes suggests their recent amplification.

Published

2022

39. Genome-wide identification of Reverse Transcriptase domains of recently inserted endogenous plant pararetrovirus (Caulimoviridae)

Author

Ministerio de Economía y Competitividad (España), European Commission, Ministerio de Ciencia, Innovación y Universidades (España), Generalitat de Catalunya, Tomás, Carlos de, Vicient, Carlos M., Ministerio de Economía y Competitividad (España), European Commission, Ministerio de Ciencia, Innovación y Universidades (España), Generalitat de Catalunya, Tomás, Carlos de, and Vicient, Carlos M.

Abstract

Endogenous viral elements (EVEs) are viral sequences that have been integrated into the nuclear chromosomes. Endogenous pararetrovirus (EPRV) are a class of EVEs derived from DNA viruses of the family Caulimoviridae. Previous works based on a limited number of genome assemblies demonstrated that EPRVs are abundant in plants and are present in several species. The availability of genome sequences has been immensely increased in the recent years and we took advantage of these resources to have a more extensive view of the presence of EPRVs in plant genomes. We analyzed 278 genome assemblies corresponding to 267 species (254 from Viridiplantae) using tBLASTn against a collection of conserved domains of the Reverse Transcriptases (RT) of Caulimoviridae. We concentrated our search on complete and well-conserved RT domains with an uninterrupted ORF comprising the genetic information for at least 300 amino acids. We obtained 11.527 sequences from the genomes of 202 species spanning the whole Tracheophyta clade. These elements were grouped in 57 clusters and classified in 13 genera, including a newly proposed genus we called Wendovirus. Wendoviruses are characterized by the presence of four open reading frames and two of them encode for aspartic proteinases. Comparing plant genomes, we observed important differences between the plant families and genera in the number and type of EPRVs found. In general, florendoviruses are the most abundant and widely distributed EPRVs. The presence of multiple identical RT domain sequences in some of the genomes suggests their recent amplification.

Published

2022

40. Novo badnavírus em infecção mista com begomovírus em Centrosema brasilianum

Author

Gaus Silvestre de Andrade Lima, Mayra Machado de Medeiros Ferro, Iraildes Pereira Assunção, Sarah Jacqueline Cavalcanti da Silva, Raíza da Rocha Oliveira Teixeira, and Aline M. Melo

Subjects

Phylogenetic tree, Science, Begomovirus, Social Sciences, food and beverages, Context (language use), Biology, biology.organism_classification, Virology, Education, Badnavirus, Dioscorea rotundata, Plant virus, Caulimoviridae, Geminiviridae

Abstract

Plant viruses have a wide range of weed/wild hosts, which can act as virus reservoirs. Centosema brasilianum is a wild leguminous species frequently found in association with cultivated fields in the Northeast region of the country. In March 2017, a plant of C. brasilianum was found showing symptoms of mosaic and leaf rolling, in the municipality of Maceió, state of Alagoas. In this context, the present study aimed to detect and molecular characterize viruses with DNA genomes infecting C. brasilianum. Total DNA was extracted from the leaf sample and used as a template via PCR amplification reactions assays using universal primers, aiming respectively at the detection of badnavirus and begomovirus. Partial sequences were obtained for the badnavirus RT/RNaseH and begomovirus DNA-A regions. Comparisons of paired sequences and phylogenetic analyzes indicated the presence of coinfection in C. brasilianum by badnavirus and begomovirus. The isolate BR:Mac:17 should be considered a putative new species of badnavirus, for which the name ‘Centrosema bacilliform virus’ (CenBV) is proposed. This species was phylogenetically more related to Dioscorea bacilliform AL virus (DBALV, KX008573), from the Dioscorea rotundata. Meanwhile, the isolate BR:Mac2:17 is a Begomovirus, probably of the species Bean golden mosaic virus (BGMV). The results demonstrate that C. brasilianum can act as a reservoir of badnavirus and begomovirus in the absence of culture in the field. KEYWORDS: Molecular characterization, Caulimoviridae, Geminiviridae, non-cultivated plants. RESUMO: Fitovírus possuem uma ampla gama de hospedeiras daninhas/silvestres, as quais podem funcionar como reservatórios de vírus. Centosema brasilianum é uma espécie silvestre leguminosa frequentemente encontrada em associação com campos de cultivo na região Nordeste do país. Em março de 2017, foi encontrada uma planta de C. brasilianum apresentando sintomas de mosaico e enrolamento foliar, no município de Maceió, estado de Alagoas. Neste contexto, o presente estudo teve como objetivo detectar e caracterizar molecularmente vírus com genoma de DNA infectando C. brasilianum. O DNA total foi extraído a partir da amostra foliar e usado como molde para reações de amplificação via PCR utilizando os primers universais para detecção de badnavírus e begomovírus. Sequências parciais foram obtidas para região RT/RNaseH dos badnavírus e DNA-A dos begomovírus. Comparações de sequências pareadas e análises filogenéticas indicaram a presença de infecção mista em C. brasilianum por badnavírus e begomovírus. O isolado BR:Mac:17 pode ser considerado uma putativa nova espécie de badnavírus para a qual o nome ‘Centrosema bacilliform virus’ (CenBV) foi proposto. Esta espécie foi filogeneticamente mais relacionada com Dioscorea bacilliform AL virus (DBALV, KX008573), proveniente de Dioscorea rotundata. Enquanto, o isolado BR:Mac2:17 é um Begomovirus, provavelmente, da espécie Bean golden mosaic virus (BGMV). Os resultados demonstram que C. brasilianum pode atuar como reservatório de badnavírus e begomovírus na ausência da cultura no campo. PALAVRAS-CHAVE: Caracterização molecular, Caulimoviridae, Geminiviridae,, Plantas não cultivadas.

Published

2021

41. The proposed new species, cacao red vein virus, and three previously recognized badnavirus species are associated with cacao swollen shoot disease.

Author

Chingandu, Nomatter, Kouakou, Koffie, Aka, Romain, Ameyaw, George, Gutierrez, Osman A., Herrmann, Hans-Werner, and Brown, Judith K.

Subjects

*PROTEIN domains, *CACAO diseases & pests, *PHYLOGENY, *RIBONUCLEASES, *EPIDEMIOLOGY

Abstract

Background: Cacao swollen shoot virus (CSSV), Cacao swollen shoot CD virus (CSSCDV), and Cacao swollen shoot Togo A virus (CSSTAV) cause cacao swollen shoot disease (CSSD) in West Africa. During 2000-2003, leaf and shoot-swelling symptoms and rapid tree death were observed in cacao in Cote d'Ivoire and Ghana. Molecular tests showed positive infection in only ~50-60% of symptomatic trees, suggesting the possible emergence of an unknown badnavirus. Methods: The DNA virome was determined from symptomatic cacao samples using Illumina-Hi Seq, and sequence accuracy was verified by Sanger sequencing. The resultant 14, and seven previously known, full-length badnaviral genomic and RT-RNase H sequences were analyzed by pairwise distance analysis to resolve species relationships, and by Maximum likelihood (ML) to reconstruct phylogenetic relationships. The viral coding and non-coding sequences, genome organization, and predicted conserved protein domains (CPDs) were identified and characterized at the species level. Results: The 21 CSSD-badnaviral genomes and RT-RNase H sequences shared 70-100% and 72-100% identity, respectively. The RT-RNase H analysis predicted four species, based on an ⩾80% species cutoff. The ML genome sequence tree resolved three well-supported clades, with ⩾70% bootstrap, whereas, the RT-RNase H phylogeny was poorly resolved, however, both trees grouped CSSD isolates within one large clade, including the newly discovered Cacao red vein virus (CRVV) proposed species. The genome arrangement of the four species consists of four, five, or six predicted open reading frames (ORFs), and the CPDs have similar architectures. By comparison, two New World cacao-infecting badnaviruses encode four ORFs, and harbor CPDs like the West African species. Conclusions: Three previously recognized West African cacao-infecting badnaviral species were identified, and a fourth, previously unidentified species, CRVV, is described for the first time. The CRVV is a suspect causal agent of the rapid decline phenotype, however Koch's Postulates have not been proven. To reconcile viral evolutionary with epidemiology considerations, more detailed information about CSSD-genomic variability is essential. Also, the functional basis for the multiple genome arrangements and subtly distinct CPD architectures among cacaoinfecting badnaviruses is poorly understood. New knowledge about functional relationships may help explain the diverse symptomatologies observed in affected cacao trees. [ABSTRACT FROM AUTHOR]

Published

2017

42. PCR-DGGE Analysis: Unravelling Complex Mixtures of Badnavirus Sequences Present in Yam Germplasm.

Author

Turaki, Aliyu A., Bömer, Moritz, Silva, Gonçalo, Kumar, P. Lava, and Seal, Susan E.

Subjects

*CAULIMOVIRIDAE, *NUCLEOTIDE sequence, *GENOMES, *POLYMERASE chain reaction, *DENATURING gradient gel electrophoresis

Abstract

Badnaviruses (family Caulimoviridae, genus Badnavirus) have emerged as serious pathogens especially affecting the cultivation of tropical crops. Badnavirus sequences can be integrated in host genomes, complicating the detection of episomal infections and the assessment of viral genetic diversity in samples containing a complex mixture of sequences. Yam (Dioscorea spp.) plants are hosts to a diverse range of badnavirus species, and recent findings have suggested that mixed infections occur frequently in West African yam germplasm. Historically, the determination of the diversity of badnaviruses present in yam breeding lines has been achieved by cloning and sequencing of polymerase chain reaction (PCR) products. In this study, the molecular diversity of partial reverse transcriptase (RT)-ribonuclease H (RNaseH) sequences from yam badnaviruses was analysed using PCR-dependent denaturing gradient gel electrophoresis (PCR-DGGE). This resulted in the identification of complex 'fingerprints' composed of multiple sequences of Dioscorea bacilliform viruses (DBVs). Many of these sequences show high nucleotide identities to endogenous DBV (eDBV) sequences deposited in GenBank, and fall into six monophyletic species groups. Our findings highlight PCR-DGGE as a powerful tool in badnavirus diversity studies enabling a rapid indication of sequence diversity as well as potential candidate integrated sequences revealed by their conserved nature across germplasm. [ABSTRACT FROM AUTHOR]

Published

2017

43. Homologous Capsid Proteins Testify to the Common Ancestry of Retroviruses, Caulimoviruses, Pseudoviruses, and Metaviruses.

Author

Krupovic, Mart and Koonin, Eugene V.

Subjects

*CAULIMOVIRIDAE, *METAVIRIDAE, *RETROVIRUSES, *NUCLEOCAPSIDS, *RETROTRANSPOSONS

Published

2017

44. Genetic and Phenotypic Characterization of Grapevine vein clearing virus from Wild Vitis rupestris.

Author

Beach, Steven, Kovens, Michael, Hubbert, LeAnn, Honesty, Shae, Qiang Guo, Pap, Daniel, Ru Dai, Kovacs, Laszlo, and Wenping Qiu

Subjects

*GRAPE diseases & pests, *CAULIMOVIRIDAE, *FUNGAL diseases of grapes

Abstract

Grapevine vein clearing virus (GVCV), a new member of the genus Badnavirus in the family Caulimoviridae, is associated with a vein clearing and vine decline disease that severely affects grape production and berry quality in commercial vineyards in the Midwest region of the United States. In this paper, the genetic and phenotypic characteristics of GVCV-VRU1 and GVCV-VRU2, two isolates from wild Vitis rupestris grapevines in their native habitat, are described. The GVCV-VRUI genome is 7,755 bp long while the GVCV-VRU2 genome consists of 7,725 bp, both of which are different from the genome of the GVCV-CHA isolate (7,753 bp), which was originally discovered in the grape cultivar 'Chardonel'. The nucleotide sequence identity among GVCV-VRU I. GVCV-VRU2, and GVCV-CHA ranges from 91.6 to 93.4%, and open reading frame (ORF) II is the most divergent ORF with only 83.3 to 88.5% identity. Sequence analysis of the ORF II indicated that GVCV isolates genetically similar to GVCV-VRU 1 and GVCV-VRU2 also are present in commercial vineyards. Symptoms of GVCV-VRU 1- or GVCV-VRU2-infected wild V. rupestris grapevine appeared initially as translucent vein clearing on young leaves and progressed to vein necrosis on mature leaves. Inoculation of GVCV-VRU I or GVCV-VRU2 by grafting onto grape cultivar Chardonel resulted in mild mottle and leaf distortion. The natural range of wild V. rupestris grapevines overlaps with commercial vineyards in the Midwestern United States. Therefore, the discovery of GVCV isolates in wild V. rupestris grapevines has important implications for epidemics and management of the GVCV-associated disease. [ABSTRACT FROM AUTHOR]

Published

2017

45. Genomic Characterization and Population Structure of a Badnavirus Infecting Blackberry.

Author

Shahid, Muhammad Shafiq, Aboughanem-Sabanadzovic, Nina, Sabanadzovic, Sead, and Tzanetakis, Ioannis E.

Subjects

*BLACKBERRIES, *VIRUS diseases of plants, *DNA viruses, *CAULIMOVIRIDAE, *PLANT genomes, *DISEASES

Abstract

Blackberry viruses are pervasive, decreasing growth, yield, and plant longevity. In a quest to identify viruses associated with blackberry yellow vein, a disease caused by virus complexes, a new double-stranded DNA virus, referred to as blackberry virus F (BVF), a putative member of the genus Badnavirus, family Caulimoviridae, was identified. The virus was found in both cultivated and wild blackberry samples collected from several states in the southern United States. Population structure, host range, and association with disease symptoms were assessed. As BVF integrates into the plant genome, it affects the production of virus-free propagation material, the cornerstone for certification programs. [ABSTRACT FROM AUTHOR]

Published

2017

46. Viral diversity in oral cavity from Sapajus nigritus by metagenomic analyses

Author

Paulo Guilherme Carniel Wagner, Aline Alves Scarpellini Campos, Helena Beatriz de Carvalho Ruthner Batista, Fabrício Souza Campos, Ana Cláudia Franco, Fernando Finoketti, Raíssa Nunes dos Santos, Anne Caroline Ramos dos Santos, and Paulo Michel Roehe

Subjects

Iridoviridae, Cebinae, viruses, Genome, Viral, Anelloviridae, Microbiology, Virologia [Boca], 03 medical and health sciences, Sapajus nigritus, Media Technology, Cebidae, Animals, Poxviridae, Oral virome, Environmental Microbiology - Research Paper, Phylogeny, 030304 developmental biology, Parvoviridae, Mouth, 0303 health sciences, biology, 030306 microbiology, Genomoviridae, Genetic Variation, High-Throughput Nucleotide Sequencing, biology.organism_classification, Virology, Vírus de DNA, Polyomaviridae, Sapajus, Wild fauna, Viruses, Metagenome, Metagenomics, Caulimoviridae, Brazil

Abstract

Sapajus nigritus are non-human primates which are widespread in South America. They are omnivores and live in troops of up to 40 individuals. The oral cavity is one of the main entry routes for microorganisms, including viruses. Our study proposed the identification of viral sequences from oral swabs collected in a group of capuchin monkeys (n = 5) living in a public park in a fragment of Mata Atlantica in South Brazil. Samples were submitted to nucleic acid extraction and enrichment, which was followed by the construction of libraries. After high-throughput sequencing and contig assembly, we used a pipeline to identify 11 viral families, which are Herpesviridae, Parvoviridae, Papillomaviridae, Polyomaviridae, Caulimoviridae, Iridoviridae, Astroviridae, Poxviridae, and Baculoviridae, in addition to two complete viral genomes of Anelloviridae and Genomoviridae. Some of these viruses were closely related to known viruses, while other fragments are more distantly related, with 50% of identity or less to the currently available virus sequences in databases. In addition to host-related viruses, insect and small vertebrate-related viruses were also found, as well as plant-related viruses, bringing insights about their diet. In conclusion, this viral metagenomic analysis reveals, for the first time, the profile of viruses in the oral cavity of wild, free ranging capuchin monkeys.

Published

2020

47. Virus Diseases of Vegetable and Melon Crops in the South of the Russian Far East

Author

Yu. G. Volkov, M. V. Sapotskiy, N. N. Kakareka, K. P. D'yakonov, V.F. Tolkach, Z. N. Kozlovskaya, T. I. Pleshakova, and M. Yu Shchelkanov

Subjects

Radish mosaic virus, viruses, nematode, Geography, Planning and Development, Biology, bromoviridae, phytovirus, Cucumber mosaic virus, Turnip mosaic virus, Tomato mosaic virus, Cucumber green mottle mosaic virus, virgaviridae, Ecology, Evolution, Behavior and Systematics, QH540-549.5, caulimoviridae, potyviridae, Mosaic virus, Ecology, food and beverages, Bean yellow mosaic virus, biology.organism_classification, natural reservoir, Horticulture, aphid, Alfalfa mosaic virus, vector, secoviridae

Abstract

Aim. The development of an inventory of phytoviruses affecting vegetable and melon crops in the South of the Russian Far East. Discussion. On the basis of many years of original research, carried out on a regular basis by the Laboratory of Virology (Federal Scientific Centre of East Asia Biodiversity, Far Eastern Branch, Russian Academy of Sciences) since 1962 as well as available data in the literature, information about the symptoms of diseases, circulation, reserve plants and vectors are presented for the alfalfa mosaic virus (Bromoviridae, Alfamovirus); tomato aspermy virus and cucumber mosaic virus (Bromoviridae, Cucumovirus); cauliflower mosaic virus (Caulimoviridae, Caulimovirus); garlic mosaic virus (Potyviridae, Carlavirus); tobacco etch virus, allium yellow dwarf virus, bean yellow mosaic virus, watermelon mosaic virus 2, turnip mosaic virus and bean common mosaic virus (Potyviridae, Potyvirus); radish mosaic virus (Picornavirales, Secoviridae, Comovirus); tobacco ringspot virus (Picornavirales, Secoviridae, Nepo-virus); cucumber green mottle mosaic virus, tobacco mosaic virus and tomato mosaic virus (Virgaviridae, Tobamovirus). Conclusion. The information presented forms the basis for the development of a set of diagnostic test systems for phytovirus diseases of vegetable and melon crops; a necessary element of activities directed to the improvement of food productivity and security of the Russian Federation in the Far East.

Published

2020

48. ICTV Virus Taxonomy Profile: Belpaoviridae 2021

Author

Carlos Llorens, Mart Krupovic, and Beatriz Soriano

Subjects

0303 health sciences, biology, 030302 biochemistry & molecular biology, Retrotransposon, Pseudoviridae, biology.organism_classification, Virology, Genome, Long terminal repeat, 3. Good health, 03 medical and health sciences, Caulimoviridae, Metaviridae, Gene, Virus classification, 030304 developmental biology

Abstract

The family Belpaoviridae comprises metazoan-infecting reverse-transcribing viruses with long terminal repeats, commonly known as Bel/Pao LTR retrotransposons. These viruses share evolutionary history and genes involved in genome replication and virion formation with reverse-transcribing viruses of the families Metaviridae, Pseudoviridae, Retroviridae and Caulimoviridae. These five families form the order Ortervirales. This is a summary of the ICTV Report on the family Belpaoviridae, which is available at ictv.global/report/belpaoviridae.

Published

2021

49. Construction of an Infectious Clone of the Badnavirus Cacao Swollen Shoot Ghana M Virus and Infectivity by Gene Gun- and Agrobacterium-Mediated Inoculation

Author

Judith K. Brown, Cory Von Keith, Jean-Philippe Marelli, and Roberto Ramos-Sobrinho

Subjects

Infectivity, biology, Inoculation, Agrobacterium, infectious clone, food and beverages, seamless cloning, Plant culture, Caulimoviridae, Agriculture, biology.organism_classification, emergent disease, Virology, Virus, SB1-1110, Badnavirus, Shoot, tropical tree, Illumina dye sequencing

Abstract

Cacao swollen shoot disease (CSSD) is a damaging disease of Theobroma cacao L. associated with infection by a group of poorly characterized badnaviral species. To establish causality and characterize the symptomatology associated with infection by the badnavirus cacao swollen shoot Ghana M virus (CSSGMV), an infectious clone (1.3-mer) was constructed and used to inoculated cacao “Amelonado” seedlings by biolistic inoculation (BI; n = 18) and agroinoculation (AI; n = 15). Newly expanded leaves of BI (10/18) and AI (12/15) plants developed foliar mosaic and curling symptoms 30-days post inoculation (dpi), with chlorotic mottling and necrotic crinkling being evident by 90 dpi. By 120 dpi, three of 15 AI plants exhibited characteristic stem-swelling. Viral infection was verified by PCR-amplification and sequencing of a 1068 bp fragment of the CSSGMV ORF3 from newly expanding leaves 60 dpi. The PCR results indicated that 14 of 18 and 15 of 15 BI and AI plants, respectively, were systemically infected. The complete CSSGMV genome sequence was determined, by Illumina sequencing, from representative AI and BI plants and shared >99.5% pairwise nucleotide identity with CSSGMV-Nig9 (GenBank Accession No. MH785299). Based on the development of characteristic CSSD symptoms and recovery of partial and complete genome sequences of CSSGMV-Nig9 from systemically infected cacao plants, Koch's postulates have been fulfilled.

Published

2021

50. Cacao Swollen Shoot Viruses in Ghana.

Author

Gyamera EA, Domfeh O, and Ameyaw GA

Subjects

Ghana, Plant Diseases, Badnavirus genetics, Cacao

Abstract

Cacao swollen shoot virus causes cacao swollen shoot disease of Theobroma cacao (cacao) plants. At least six cacao-infecting Badnavirus species- Cacao swollen shoot Togo A virus , Cacao swollen shoot Togo B virus (previously known as Cacao swollen shoot virus ), Cacao swollen shoot CE virus , Cacao swollen shoot Ghana M virus , Cacao swollen shoot Ghana N virus , and Cacao swollen shoot Ghana Q virus -are responsible for the swollen shoot disease of cacao in Ghana. Each of these species consists of a multiplicity of strains. The New Juaben strain, the most virulent cacao swollen shoot virus strain in Ghana, belongs to the Cacao swollen shoot Togo B virus species, and is a commonly used strain in laboratory transmission assays. Infection of cacao trees with multiple strains of the virus is common and new evidence suggests that these coinfections may have resulted in the emergence of recombinant strains of the virus. The impact of these emerging recombinant strains on disease severity is uncertain. This review focuses largely on the discovery of cacao swollen shoot virus in Ghana, diversity of the virus strains, molecular characterization, propagation of virus infection in cacao plants, emergence of recombinant virus strains, vector-mediated transmission of the virus, and the management of the cacao swollen shoot disease in Ghana. It also contains sections on the botany and origin of the cacao tree, its introduction to Ghana, the role of cacao swollen shoot disease in facilitating Ghana's independence from Britain, and a brief history of chocolate., Competing Interests: The author(s) declare no conflict of interest.

Published

2023