Tungrovirus
Virus classification Edit this classification
(unranked): Virus
Realm: Riboviria
Kingdom: Pararnavirae
Phylum: Artverviricota
Class: Revtraviricetes
Order: Ortervirales
Family: Caulimoviridae
Genus: Tungrovirus

Tungrovirus is a genus of viruses, in the family Caulimoviridae, order Ortervirales. Monocots and family Poaceae serve as natural hosts. There is only one species in this genus: Rice tungro bacilliform virus. Diseases associated with this genus include: stunting, yellow to orange leaf discoloration with fewer tillers.[1][2] Tungro means 'degenerated growth' in a Filipino dialect[2] and the virus was first observed in the Philippines 1975.

Structure

Viruses in Tungrovirus are non-enveloped, with icosahedral and bacilliform geometries, and T=3 symmetry. Genomes are circular.[1] The virus withstands temperatures below 63-degree Celsius for 10 minutes. The tungro virus is known to have at least two strains - S and M. The 'S' strain in these varieties produces conspicuous interveinal chlorosis, giving an appearance of yellow stripe and sometimes irregular chlorotic specks on younger leaves. On the other hand, the 'M' strain produces only mottling.

GenusStructureSymmetryCapsidGenomic arrangementGenomic segmentation
TungrovirusBacilliformT=3Non-envelopedCircularMonopartite

Life cycle

Viral replication is nuclear/cytoplasmic. Replication follows the dsDNA(RT) replication model. The method of transcription is dsDNA(RT) transcription. Translation takes place by leaky scanning, and ribosomal shunting. The virus exits the host cell by nuclear pore export, and tubule-guided viral movement. Monocots and family poaceae serve as the natural host.[1] The virus is transmitted via vectors such as aphids and leafhoppers (e.g. Nephotettix spp.).[1]

GenusHost detailsTissue tropismEntry detailsRelease detailsReplication siteAssembly siteTransmission
TungrovirusPlantsNoneViral movement; mechanical inoculationViral movementNucleusCytoplasmMechanical inoculation: aphids

Clinical

Tungro affected rice plants are stunted and have reduced numbers of tillers. The young emerging leaves develop interveinal chlorosis leading to discoloration of the leaves, starting from the tips downwards. Often the whole leaf is discolored. Plants infected at an early stage generally die prematurely. Infected plants take more time to mature because of delayed flowering. The panicles are often poorly developed and the grains are also often covered with dark brown blotches and are lighter weight than those of healthy plants.

After twelve days Tungro infection causes little damage, however there is extensive damage after one month.[3] The severe syndrome known as Tungro disease is not caused by RTBV alone - this requires coinfection with Rice tungro spherical virus (RTSV).[4]

Resistance

Oryza officinalis in Sukhothai Province, Thailand was reported in 1990 to be highly resistant to tungro and already in use in several cultivars.[IRRI 1][Bon 1]

References

  1. 1 2 3 4 "Viral Zone". ExPASy. Retrieved 15 June 2015.
  2. 1 2 "Genus: Tungrovirus - Caulimoviridae - Reverse Transcribing DNA and RNA Viruses - International Committee on Taxonomy of Viruses (ICTV)". Archived from the original on 7 December 2020.
  3. Favali, M.Augusta; Pellegrini, Stefania; Bassi, Maria (1975). "Ultrastructural alterations induced by rice tungro virus in rice leaves". Virology. Elsevier BV. 66 (2): 502–507. doi:10.1016/0042-6822(75)90222-6. ISSN 0042-6822. PMID 1154651.
  4. "Genus: Waikavirus - Secoviridae - Positive-sense RNA Viruses". International Committee on Taxonomy of Viruses. Archived from the original on 4 February 2021. Retrieved 13 December 2020.
  1. p. 53, "Oryza officinalis from Sukothai, Thailand, is a good source of resistance to several pests and diseases; it has been used in a number of crosses to derive high-yielding lines with multiple pest resistance."
  1. p. 520, "An accession of O. officinalis from Thailand showed high resistance to RTD (62), although it is not yet known whether this resistance is due to resistance to the vector, to the viruses themselves, or to some combination of these resistances. Results from recent research indicate that resistance to RTD is present in many wild rice species (R. Ikeda, personal communication), and perhaps some will show resistance to RTBV."
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