Synergistic Interaction of Sweet potato chlorotic stunt virus (Crinivirus) with Carla-, Cucumo-, Ipomo-, and Potyviruses Infecting Sweet Potato.
@article{Untiveros2007SynergisticIO,
title={Synergistic Interaction of Sweet potato chlorotic stunt virus (Crinivirus) with Carla-, Cucumo-, Ipomo-, and Potyviruses Infecting Sweet Potato.},
author={Milton Untiveros and Segundo Fuentes and Luis F. Salazar},
journal={Plant disease},
year={2007},
volume={91 6},
pages={
669-676
}
}Co-infection of Sweet potato chlorotic stunt virus (SPCSV, genus Crinivirus) with Sweet potato feathery mottle virus (SPFMV, genus Potyvirus) results in sweet potato virus disease (SPVD), a synergistic disease that is widely distributed in the sweet potato (Ipomoea batatas) growing regions of the world. Since both SPCSV and SPFMV are common and often detected as part of multiple co-infections of severely diseased plants, the occurrence of synergistic interactions with other viruses was…
Figures, Tables, and Topics from this paper
123 Citations
SURVEY OF SWEET POTATO VIRUSES IN WESTERN KENYA AND DETECTION OF CUCUMBER MOSAIC VIRUS
- Biology
- 2010
The occurrence of CMV was low (5%) but was confirmed by RT-PCR with amplification of a 670 bp coat protein gene fragment from total RNA and this is the first record ofCMV in sweet potato in Kenya.
Synergistic interactions of begomoviruses with Sweet potato chlorotic stunt virus (genus Crinivirus) in sweet potato (Ipomoea batatas L.).
- Biology, MedicineMolecular plant pathology
- 2015
Infection in RNase3-expressing transgenic plants showed that this protein was sufficient to mediate this synergistic interaction with DNA viruses, similar to RNA viruses, but exposed distinct effects on RNA silencing whenRNase3 was expressed from its native virus, or constitutively from a transgene, despite a similar pathogenic outcome.
Interaction between potyvirus and crinivirus in sweet potato
- Biology
- 2020
This research aimed to study the interaction between SPFMV and SPVG with SPCSV in sweet potato, a viral disease in which seven viruses are involved, and a synergistic effect was observed with the three viruses in the indicator plant.
Development of transgenic sweet potato with multiple virus resistance in South Africa (SA)
- Biology, MedicineTransgenic Research
- 2013
Polymerase chain reaction and Southern blot analyses showed integration of the transgenes occurred in six of the 24 putative transgenic plants and that all plants seemed to correspond to the same transformation event, warranting further investigation on resistance to virus infection under field conditions.
RNA silencing-mediated resistance to a crinivirus (Closteroviridae) in cultivated sweet potato (Ipomoea batatas L.) and development of sweet potato virus disease following co-infection with a potyvirus.
- Biology, MedicineMolecular plant pathology
- 2008
High levels of resistance to accumulation of SPCSV could not prevent development of synergistic sweet potato virus disease in those transgenic plants also infected with SPFMV.
Elimination of antiviral defense by viral RNase III
- BiologyProceedings of the National Academy of Sciences
- 2009
Results implicate RNase3 in suppression of antiviral defense in sweet potato plants and revealRNase3 as a protein that mediates viral synergism with several unrelated viruses, a function previously described only for P1/HC-Pro.
Effects of sweet potato feathery mottle virus, sweet potato chlorotic stunt virus and their co-infection on sweet potato yield in Western Burkina Faso
- BiologyOpen Agriculture
- 2019
The results suggest that severe symptoms were associated with sweet potato virus disease (SPVD) and yield reduction, however, the interaction of SPCSV with other viruses, which may result in synergistic negative effects on sweet potato yield and quality, needs further research.
Distinct cavemoviruses interact synergistically with sweet potato chlorotic stunt virus (genus Crinivirus) in cultivated sweet potato.
- Biology, MedicineThe Journal of general virology
- 2011
Two serologically unrelated sweet potato viruses causing symptoms of vein clearing in the indicator plant Ipomoea setosa were isolated and their genomes have been sequenced, giving further support to the previously suggested separation of TVCV, and related viral sequences, into a new caulimovirid genus.
Effects of Sweet Potato Feathery Mottle Virus and Sweet Potato Chlorotic Stunt Virus on the Yield of SweetPotato in Uganda
- Biology
- 2016
It is confirmed that both SPFMV and SPCSV, both singly and when mixed, can reduce yield, the extent depending on the cultivar.
Molecular variability of sweet potato feathery mottle virus and other potyviruses infecting sweet potato in Peru
- Biology, MedicineArchives of Virology
- 2007
Several potyviruses are found infecting sweet potato (Ipomoea batatas) in Peru, of which sweet potato feathery mottle virus (SPFMV, genus Potyvirus) is the most common. However, sequence data for…
References
SHOWING 1-10 OF 58 REFERENCES
Molecular diversity in sweet potato infecting viruses in Africa: With emphasis on Sweet potato chlorotic fleck virus
- Biology
- 2004
It is indicated that SPCSV has a limited variability while SPFMV, SPCFV and SPMMV isolates are diverse, and analysis of caspid protein (CP) gene sequences indicated the presence of both common and russet crack strain groups of SP FMV in Africa.
Interactions between a crinivirus, an ipomovirus and a potyvirus in coinfected sweetpotato plants
- Biology
- 2006
The synergistic interactions increased titres of SPMMV and SPFMV RNA by ∼ 1000fold as quantified by real-time PCR, whereas SPCSV titres were reduced twofold, indicating an antagonistic interaction.
Synergistic interactions of a potyvirus and a phloem-limited crinivirus in sweet potato plants.
- BiologyVirology
- 2000
It is hypothesized that SPCSV is able to enhance the multiplication of SPFMV in tissues other than where it occurs itself, perhaps by interfering with systemic phloem-dependent signaling required in a resistance mechanism directed against SP FMV.
Incidence of Viruses and Virus like Diseases of Sweetpotato in Uganda.
- Biology, MedicinePlant disease
- 2003
Logistic regression analysis revealed that co-infections of SPCSV with SPFMV and/or SPMMV were associated with more severe and persistent symptoms than infections with each of the viruses alone, suggesting that more viruses or viruslike agents are infecting sweetpotatoes in Uganda.
Purification and properties of sweet potato mild mottle, a white-fly borne virus from sweet potato (Ipomoea batatas) in east Africa.
- Biology, MedicineThe Annals of applied biology
- 1976
A virus obtained from sweet potatoes in Kenya, Uganda and Tanzania was transmitted by inoculation of sap and by whiteflies (Bemisia tabaci), and preliminary digestion experiments suggested a single-stranded RNA.
Sweetpotato Virus Disease (SPVD): Distribution, Incidence, and Effect on Sweetpotato Yield in Peru.
- Biology, MedicinePlant disease
- 2003
It is demonstrated that SPFMV and SPCSV interact synergistically and that the severity of SPVD symptoms also depends on the particular isolate of each virus.
Properties of a Begomovirus isolated from sweet potato [Ipomoea batatas (L.) Lam.] infected with sweet potato leaf curl virus
- Biology
- 2003
Although the coat protein of ILVC was nearly identical to that of SPLCV and IYVV, the sequence of the common region, and the AC1, AC2, AC3, and AC4 ORFs were sufficiently different to warrant the nomination of a new begomovirus species, it is proposed as Ipomoea leaf curl virus (ILCV).
Properties of Strains of Sweet potato feathery mottle virus and Two Newly Recognized Potyviruses Infecting Sweet Potato in the United States.
- Biology, MedicinePlant disease
- 2003
Results from this study suggest not only that at least two strains of SPFMV occur in the United States, but that two other potyviruses also are present.
Uneven distribution of two potyviruses (feathery mottle virus and sweet potato latent virus) in sweet potato plants and its implication on virus indexing of meristem derived plants
- Biology
- 1988
The distribution of two sweet potato potyviruses, FMV and SPLV, was assessed in three plants infected with both viruses and in one plant infected with FMV only, indicating that the two viruses are either very unevenly distributed within sweet potato plants or that the virus concentration in some parts is below the detectable level.
Aphid Transmission and Separation of Two Strains of Sweet Potato Feathery Mottle Virus from Sweet Potato
- Biology
- 1982
Mixed infections of the common strain of sweet potato feathery mottle virus and the RC-FMV strain in sweet potato were readily detected and the component viruses were isolated by using aphid transmission from graft-inoculated Ipomoea setosa Ker.