Genus of viruses
Orthotospovirus
is a genus of
negative-strand RNA viruses
, in the family
Tospoviridae
of the order
Bunyavirales
,
which infects plants.
Tospoviruses
take their name from the species
Tomato spotted wilt orthotospovirus
(TSWV) which was discovered in Australia in 1919. TSWV remained the only known member of the family until the early 1990s when genetic characterisation of
plant viruses
became more common. There are now at least twenty species in the genus with more being discovered on a regular basis. Member viruses infect over eight hundred plant species from 82 different families.
[1]
Genome
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]
Tospoviruses have a
negative-sense
, single-strand
RNA
genome
. The genome resembles that of the genus
Phlebovirus
. It is linear and is 17.2 kb in size. It is divided into three segments termed S (2.9kb), M (5.4kb), and L (8.9kb). The M and S RNA segments encode for proteins in an
ambisense
direction.
Transmission
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Tospoviruses are
arboviruses
usually
vectored
by
thrips
. At least ten species of thrips belonging to family
Thripidae
have been confirmed as vectors for the transmission of thirteen or more tospoviruses.
[2]
The thrips vectors are not closely related, implying an independent origin of infection for each thrips,
[3]
possibly transmitted horizontally through shared hosts. There may be other species of thrips competent to transmit similar viruses, but they have not been documented on crops of economic significance.
Recent research concludes that thrips can only be infected by tospovirus during the larval phases of development, as pupation and metamorphosis separate the connection between the salivary glands and the infected muscle tissue of the mid-gut.
[4]
Adults transmit the virus from infected salivary glands, and uninfected adults will not transmit the virus. Obviously, controlling the infection by limiting transmission from infected plants to larval thrips or by preventing adult dispersal from infected plants are key strategies in preventing an epidemic of the disease.
[5]
[6]
Agricultural importance
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Infection with these viruses results in spotting and wilting of the plant, reduced vegetative output, and eventually death.
[7]
No antiviral cures have been developed for plants infected with a Tospovirus, and infected plants should be removed from a field and destroyed in order to prevent the spread of the disease.
A large number of plant families are known to be affected by viruses of the Tospovirus genus. These include both food crops (such as
peanuts
,
watermelons
,
capsicums
,
tomatoes
,
zucchinis
,
et al.
) as well as ornamental species which are important to flower farms (
calla lily
,
impatiens
,
chrysanthemums
,
iris
,
et al.
). For a more complete list of hosts examine the Tospovirus host list
[8]
at
Kansas State University
.
Diagnosis
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Early symptoms of infection are difficult to diagnose. In young infected plants the characteristic symptoms consist of inward cupping of leaves and leaves that develop a bronze cast followed by dark spots. As the infection progresses additional symptoms develop which include dark streaks on the main stem and wilting of the top portion of the plant.
Fruit
may be deformed, show uneven ripening and often have raised bumps on the surface. Once a plant becomes infected the disease cannot be controlled.
Serological and molecular tests are commercially available
[1]
to diagnose TSWV as well as a second common tospovirus found in ornamentals,
Impatiens necrotic spot virus
(INSV). Cytological studies of TSWV and INSV have shown that these viruses produce granular inclusions in the cytoplasm of infected plants. These inclusions can be seen in the light microscope with proper staining techniques.
[9]
These inclusions can be diagnostic.
[10]
Epidemiology
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Tospoviruses are prevalent in warm climates in regions with a high population of thrips. For instance TSWV is an agricultural pest in Asia, America, Europe and Africa. Over the past 15 years outbreaks of Tomato spotted wilt disease have become more prevalent in these regions. Therefore, TSWV is described as an emerging viral disease of plants. The increased prevalence is largely because of the successful survival of the thrips vector
Frankliniella occidentalis
. Another thrips,
Scirtothrips dorsalis
, has also been implicated in the transmission of at least three tospoviruses, but there remains some controversy over its efficiency as a vector.
[11]
Immunological testing and vector-competence studies suggest that
S. dorsalis
may represents a non-transmitting carrier for some strains of virus.
The success of this virus has also been attributed to the acquisition of a gene in the M segment of the genome which encodes a
movement protein
. This protein allows the virus to infect a wide range of hosts. The gene encoding this protein was likely acquired by recombination from either a plant host or from another plant virus.
Management
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Control of these diseases is difficult. One of the reasons for this is that the wide host range allows the viruses to successfully overseason from one crop to the next. To prevent spread of the virus infected plants should be immediately removed away from neighbouring plants. Control of insects, especially thrips, is important to reduce spread of the virus by vectors.
Taxonomy
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]
The following species are recognized:
[12]
Resources
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References
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]
- ^
a
b
"PP-212/PP134: Tospoviruses (Family Bunyaviridae, Genus Tospovirus)"
.
Edis.ifas.ufl.edu
. Retrieved
2014-06-15
.
- ^
Jones, D. R. 2005. Plant viruses transmitted by thrips. European Journal of Plant Pathology 113: 119?157.
- ^
Mound, L. A. 2002. So many thrips ? so few tospoviruses?, pp. 15 - 18. In L. A. Mound and R. Marullo [eds.], Thrips and Tospoviruses: Proceedings of the 7th International Symposium on Thysanoptera. CSIRO Entomology, Reggio Calabria, Italy.
- ^
Moritz, G., S. Kumm, and L. A. Mound. 2004. Tospovirus transmission depends on thrips ontogeny. Virus research 100: 143?149.
- ^
Groves, R. L., J. F. Walgenbach, J. W. Moyer, and G. G. Kennedy. 2003. Seasonal Dispersal Patterns of Frankliniella fusca (Thysanoptera: Thripidae) and Tomato Spotted Wilt Virus Occurrence in Central and Eastern North Carolina. Journal of Economic Entomology 96: 1 - 11.
- ^
Nault, B. A., J. Speese III, D. Jolly, and R. L. Groves. 2003. Seasonal patterns of adult thrips dispersal and implications for management in eastern Virginia tomato fields. Crop Protection 22: 505?512.
- ^
"Destructive onion virus evolving, spreading"
.
WSU Insider
.
Washington State University
. 7 January 2022
. Retrieved
13 January
2022
.
Iris yellow spot virus is continuing to pose a danger to onion crops …
- ^
"Tospovirus Host List"
. Archived from
the original
on 2007-11-22
. Retrieved
2007-11-20
.
- ^
"Materials and Methods for the Detection of Viral Inclusions"
.
Freshfromflorida.com
. Archived from
the original
on 13 October 2014
. Retrieved
20 December
2017
.
- ^
"Inclusions of Tomato spotted wilt virus and Impatiens necrotic spot"
.
Freshfromflorida.com
. Retrieved
20 December
2017
.
- ^
Whitfield AE, Ullman DE, German TL (2005). Tospovirus-thrips interactions. Annual Review of Phytopathology. 43: 459?89.
- ^
"Virus Taxonomy: 2020 Release"
. International Committee on Taxonomy of Viruses (ICTV). March 2021
. Retrieved
19 May
2021
.
Further reading
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]
External links
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]
Wikimedia Commons has media related to
Tospovirus
.