Papaya lethal yellowing virus

Last updated
Papaya lethal yellowing virus
Virus classification Red Pencil Icon.png
(unranked): Virus
Realm: Riboviria
Kingdom: Orthornavirae
Phylum: Pisuviricota
Class: Pisoniviricetes
Order: Sobelivirales
Family: Solemoviridae
Genus: Sobemovirus
Species:
Papaya lethal yellowing virus
Carica papaya MS4113 (non-diseased) Carica papaya MS4113.JPG
Carica papaya MS4113 (non-diseased)

Papaya Lethal Yellowing Virus (PLYV) is an isometric viral plant pathogen, tentatively assigned to the genus Sobemovirus, [1] that causes lethal yellowing disease of the papaya plant. [2]

Contents

The virus infects only Carica papaya, Jacaratia heterophylla, J. spinosa, Vasconcellea cauliflora, V. monoica and V. quercifolia , all from the papaya family Caricaceae. [3] It is only found in Northeastern Brazil and has no confirmed biological vectors. [4] PLYV consists of a 36 kDa capsid protein [3] and a single-stranded RNA genome 4145 nt in length, [1] and causes progressive leaf yellowing and greenish circular spots on the fruits. [4] Control of this virus is of economic importance in Northeast Brazil, as 60% of Brazil’s papaya production occurs there. [5]

Hosts and symptoms

As the name implies, PLYV is very host-specific. In an inoculation study, the virus only infected members of the papaya family Caricaceae, whereas other species ( Chenopodium amaranticolor , C. murale , C. quinoa and Nicotiana benthamiana ) were not infected. [3]

The signs of the virus begin to become visible when the leaves at the top of the plant begin turning yellow and eventually fall off. [6] This usually occurs in the upper third of the canopy and death of the plant usually occurs soon after the leaves wilt and die. [3] The fruit in some studies was found to be delayed in the ripening process and the pulp turns hard. [3]

Disease cycle

PLYV was first recognized in the 1980s, [7] and has always been restricted to a relatively small geographical area. Therefore, it is not likely that the virus has been introduced to other regions. It is more likely that the virus was present in wild hosts and jumped to papaya plants once this crop became widely cultivated in that area (i.e. northeastern Brazil). [5]

While no biological vector is known for PLYV is known, it is known to be spread by human actions, including contaminated hands, agricultural tools, soil, and contaminated water. [8] The virus can be detected on the surface of seeds of infected fruits, but it is not detected in the embryo or in seeds harvested from infected roots. [3] As a result, the virus is likely spread by infected plantlets or growers using contaminated tools. [3]

PLYV is very stable and in one experiment was detected in dried roots and leaves maintained at room temperature up to 120 days. [8] This shows that the virus has high stability in non living plant tissues, which further explains how it can be spread by human actions. [8] PLYV has a thermal inactivation point of 80 °C. [8]

Management

PLYV can be controlled in various ways. These include use of virus-free plantlets, eradication of virus-infected plants, disinfecting agricultural tools that have been exposed to PLYV, and adopting growing techniques that reduce human-assisted transmission of the virus. [3]

Importance

Control of the virus is economically important in Brazil, which contributes about 25% of world papaya production, [6] and where the papaya crop ranks above strawberries and below grapefruit in total production. [9] The risk of mechanical transmission is high because trees are grown at a high density of 1,500 to 2,500 per hectare in commercial production. [6]

See also

Related Research Articles

Papaya Species of plant

The papaya, papaw, or pawpaw is the plant Carica papaya, one of the 22 accepted species in the genus Carica of the family Caricaceae. It was first domesticated in Mesoamerica, within modern-day southern Mexico and Central America.

<i>Passiflora edulis</i> Species of flowering plant in the passion flower family Passifloraceae

Passiflora edulis, commonly known as passion fruit, is a vine species of passion flower native to southern Brazil through Paraguay and northern Argentina. It is cultivated commercially in tropical and subtropical areas for its sweet, seedy fruit. The fruit is a pepo, a type of berry, round to oval, either yellow or dark purple at maturity, with a soft to firm, juicy interior filled with numerous seeds. The fruit is both eaten and juiced, the juice often added to other fruit juices to enhance aroma.

Mountain papaya Species of plant

The mountain papaya also known as mountain pawpaw, papayuelo, chamburo, or simply "papaya" is a species of the genus Vasconcellea, native to the Andes of northwestern South America from Colombia south to central Chile, typically growing at altitudes of 1,500–3,000 metres (4,900–9,800 ft).

Citrus canker Species of bacterium

Citrus canker is a disease affecting Citrus species caused by the bacterium Xanthomonas axonopodis. Infection causes lesions on the leaves, stems, and fruit of citrus trees, including lime, oranges, and grapefruit. While not harmful to humans, canker significantly affects the vitality of citrus trees, causing leaves and fruit to drop prematurely; a fruit infected with canker is safe to eat, but too unsightly to be sold.

Zucchini yellow mosaic virus (ZYMV) is an aphid-borne potyvirus, regarded as a major pathogen of cucurbits in most regions of the world where these crops are cultivated.

<i>Lettuce mosaic virus</i> Species of virus

Lettuce mosaic virus (LMV) is a typical potyvirus, which causes one of the major virus diseases of lettuce crops worldwide.

<i>Phytophthora palmivora</i> Species of single-celled organism

Phytophthora palmivora is an oomycete that causes bud-rot of palms, fruit-rot or kole-roga of coconut and areca nut. These are among the most serious diseases caused by fungi and moulds in South India. It occurs almost every year in Malnad, Mysore, North & South Kanara, Malabar and other areas. Similar diseases of palms are also known to occur in Sri Lanka, Mauritius, and Sumatra. The causative organism was first identified as Phytophthora palmivora by Edwin John Butler in 1917.

<i>Papaya ringspot virus</i> Species of virus

Papaya ringspot virus (PRSV) is a pathogenic plant virus in the genus Potyvirus and the virus family Potyviridae which primarily infects the papaya tree.

<i>Apple mosaic virus</i> Species of virus

Apple mosaic virus (ApMV) is a plant pathogenic virus of the family Bromoviridae. It is named after its symptoms that were first present on apples. ApMV is a positive sense RNA based virus. The disease itself has several synonyms including Mild Apple Mosaic Virus, Hop Virus, Rose Mosaic Virus, and European Plum Line Patten Virus. It causes a severe yield reduction and decreased life-expectancy of fruit trees.

<i>Prunus necrotic ringspot virus</i> Species of virus

Prunus necrotic ringspot virus (PNRSV) is a plant pathogenic virus causing ring spot diseases affecting species of the genus Prunus, as well as other species such as rose and hops. PNRSV is found worldwide due to easy transmission through plant propagation methods and infected seed. The virus is in the family Bromoviridae and genus Ilarvirus. Synonyms of PNRSV include European plum line pattern virus, hop B virus, hop C virus, plum line pattern virus, sour cherry necrotic ringspot virus, and peach ringspot virus.

<i>Soybean mosaic virus</i> Worldwide disease, among the worst

Soybean mosaic virus (SMV) is a member of the plant virus genus Potyvirus. It infects mainly plants belonging to the family Fabaceae but has also been found infecting other economically important crops. SMV is the cause of soybean mosaic disease that occurs in all the soybean productions areas of the world. Soybean is one of the most important sources of edible oil and proteins and pathogenic infections are responsible for annual yield losses of about $4 billion in the United States. Among these pathogens, SMV is the most important and prevalent viral pathogen in soybean production worldwide. It causes yield reductions of about 8% to 35% but losses as high as 94% have been reported.

Rice yellow mottle virus (RYMV) is a plant pathogenic virus, belonging to the genus Sobemovirus. The genome is a positive-sense single strand RNA of 4450 nucleotides in length and is not polyadenylated. It was first reported in Kenya in 1966 in one of Africa's first cultivation intensification schemes, due to RYMV's association with intensification, but DNA analysis of its evolutionary history shows it to have evolved in East Africa in the 19th century. Since its identification in Kenya it has been detected in many countries in sub-Saharan Africa. It has also been detected in Central Africa, but has yet to be seen outside the continent. The genomic organization of RYMV is most similar to that of Cocksfoot mottle sobemovirus. RYMV is one of the better-studied plant-virus pathosystems.

<i>Sobemovirus</i> Genus of viruses

Sobemovirus is a genus of viruses. Plants serve as natural hosts. There are 20 species in this genus. Diseases associated with this genus include: mosaics and mottles.

Alternanthera mosaic virus (AltMV) is a plant pathogenic virus. AltMV belongs to the virus genus Potexvirus and the virus family Alphaflexiviridae.

Banana Xanthomonas Wilt (BXW), or banana bacterial wilt (BBW) or enset wilt is a bacterial disease caused by Xanthomonas campestris pv. musacearum. After being originally identified on a close relative of banana, Ensete ventricosum, in Ethiopia in the 1960s, BXW emanated in Uganda in 2001 affecting all types of banana cultivars. Since then BXW has been diagnosed in Central and East Africa including banana growing regions of: Rwanda, Democratic Republic of the Congo, Tanzania, Kenya, Burundi, and Uganda.

High plains disease is a viral disease afflicting wheat and maize. It is caused by the negative-sense ssRNA virus High Plains wheat mosaic emaravirus. Symptoms are similar to Wheat streak mosaic virus, with leaf veins showing yellow flecks and streaks, followed by leaf margin purpling in maize. Depending on the timing of infection, stunting and death occur. Plants can be doubly infected with high plains virus and wheat streak mosaic virus.

Citrus leprosis(CL) is an economically important viral disease affecting citrus crops. This emerging disease is widely distributed in South and Central America, from Argentina to Mexico. The disease is associated with up to three different non-systemic viruses, which cause similar symptoms in the citrus hosts and are transmitted by the same vector, mites of the genus Brevipalpus; although they have vastly different genomes. Citrus leprosis virus nuclear type (CiLV-N) is found in the nuclei and cytoplasm of infected cells, while Citrus leprosis virus cytoplasmic type (CiLV-C) is found in the endoplasmic reticulum. In 2012, a new virus causing similar symptoms was found in Colombia and it was named Citrus leprosis virus cytoplasmic type 2 (CiLV-C2) due to its close similarity to CiLV-C. The cytoplasmic type viruses are the most prevalent and widely distributed of the three species.

Grapevine red blotch disease (GRBD), also known simply as red blotch, is a viral disease of grapevine. The disease is caused by a single-stranded circular DNA virus, the species grapevine red blotch virus, also known as grapevine red blotch-associated virus, GRBaV. First identified in California, the disease affects grapevines of all varieties and is internationally present. Symptoms typically include red blotches on the leaves of red varieties and in pale green or pale yellow blotches on white varieties. It significantly reduces the value of juice collected from the berries of affected vines, costing vineyard owners as much as $65,000 per acre.

Papaya leaf curl virus(PaLCuV) is a DNA virus from the genus Begomovirus and the family Geminiviridae. PaLCuV causes severe disease in papaya, but can sometimes infect other crops such as tobacco or tomato. It can be found in tropical and subtropical regions primarily in India, but closely related species have also been detected in countries such as China, Malaysia, Nigeria and South Korea. This virus is transmitted by an insect vector from the family Aleyrodidae and order Hemiptera, the whitefly Bemisia tabaci. PaLCuV has been responsible for several epidemics and causes severe economic losses. Because of the broad diversity of these viruses, their characterization and control remains difficult.

<i>Tomato brown rugose fruit virus</i>

Tomato brown rugose fruit virus (ToBRFV) is a plant virus in the genus Tobamovirus that was first described in 2015. It has spread rapidly since it was first noted in Jordan and Israel. The main hosts are tomato and peppers. The virus causes symptoms including mosaic and distortion of leaves and brown, wrinkly spots (rugose) on fruits. Outbreaks can be severe and leave fruit unmarketable.

References

  1. 1 2 Pereira, AJ; Alfenas-Zerbini, P; Cascardo, RS; Andrade, EC; Murilo Zerbini, F (2012). "Analysis of the full-length genome sequence of papaya lethal yellowing virus (PLYV), determined by deep sequencing, confirms its classification in the genus Sobemovirus". Archives of Virology. 157 (10): 2009–2011. doi:10.1007/s00705-012-1384-x. PMID   22743825. S2CID   16080956.
  2. Silva, A.M.R.; Kitajima, E.W.; Souza, M.V.; Resende, R. (1997). "Papaya lethal yellowing virus: a possible member of the Tombusvirus genus". Fitopatologia Brasileira (22): 529–534.
  3. 1 2 3 4 5 6 7 8 Lima, J.A.A.; Nascimento, A. K. Q.; Lima, R. C. A.; Purcifull, D. E. (2012). "Papaya lethal yellowing virus". The Plant Health Instructor. doi:10.1094/PHI-I-2013-0123-01.
  4. 1 2 Nascimento, A.K.Q.; Lima, J.A.A.; Nascimento, A.L.L.; Beserra, E.A. Jr; Purcifull, D.E. (22 June 2010). "Biological, physical, and molecular properties of a Papaya lethal yellowing virus isolate". Plant Disease. 94 (10): 1206–1210. doi: 10.1094/PDIS-11-09-0733 . PMID   30743613.
  5. 1 2 Daltro, Cleidiane B. Daltro; Álvaro J. Pereira; Renan S. Cascardo; Poliane Alfenas-Zerbini; José Evando A. Bezerra-Junior; José Albérsio A. Lima; Francisco Murilo Zerbini; Eduardo C. Andrade (2012). "Genetic variability of papaya lethal yellowing virus isolates from Ceará and Rio Grande do Norte states, Brazil" (PDF). Tropical Plant Pathology. 37 (1): 37–43. doi: 10.1590/s1982-56762012000100004 .
  6. 1 2 3 Loebenstein, Gad (2003). Virus and Virus-like Diseases of Major Crops in Developing Countries (Developments in Cardiovascular Medicine). Dordrecht, The Netherlands: Kluwer Academic Publishers. pp. 498–501. ISBN   1402012306.
  7. Ventura, S.A.M.H. Naqvi. Vol., ed. (2004). Diseases of Fruits and Vegetables: Diagnosis and Management. Springer. pp. 246–248. ISBN   1402018231.
  8. 1 2 3 4 do Nascimento, Ana Lúcia Lopes; José Albersio de Araujo Lima; Aline Kelly Queiroz do Nascimento; Maria de Fátima Barros Gonçalves (2010). "Serology and surviving characteristics of Papaya lethal yellowing viru" (PDF). Revista Ciência Agronômica. 41 (3): 448–455. Retrieved 25 October 2013.
  9. Gonsalves, Dennis (1998). "Control of Papata Ringspot Virus in Papaya: A Case Study". Annual Review of Phytopathology. 36: 415–437. doi:10.1146/annurev.phyto.36.1.415. PMID   15012507.
This page is based on this Wikipedia article
Text is available under the CC BY-SA 4.0 license; additional terms may apply.
Images, videos and audio are available under their respective licenses.