Begomovirus
Begomovirus | |
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Virus classification | |
Group: | Group II (ssDNA) |
Family: | Geminiviridae |
Genus: | Begomovirus |
Type Species | |
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The genus Begomovirus is a genus of viruses, in the family Geminiviridae.[1] They are plant viruses that as a group have a very wide host range, infecting dicotyledonous plants. Worldwide they are responsible for a considerable amount of economic damage to many important crops such as tomatoes, beans, squash, cassava and cotton.[2] There are currently 288 species in this genus including the type species Bean golden yellow mosaic virus.[1]
Taxonomy
Group: ssDNA
- Family: Geminiviridae
- Genus: Begomovirus
- Abutilon Brazil virus
- Abutilon mosaic Bolivia virus
- Abutilon mosaic Brazil virus
- Abutilon mosaic virus
- African cassava mosaic virus
- Ageratum enation virus
- Ageratum leaf curl Cameroon virus
- Ageratum leaf curl virus
- Ageratum yellow vein Hualian virus
- Ageratum yellow vein Sri Lanka virus
- Ageratum yellow vein virus
- Allamanda leaf curl virus
- Alternanthera yellow vein virus
- Bean calico mosaic virus
- Bean chlorosis virus
- Bean dwarf mosaic virus
- Bean golden mosaic virus
- Bean golden yellow mosaic virus
- Bean yellow mosaic Mexico virus
- Bhendi yellow vein Bhubhaneswar virus
- Bhendi yellow vein Haryana virus
- Bhendi yellow vein India virus
- Bhendi yellow vein mosaic virus
- Bitter gourd yellow vein virus
- Blainvillea yellow spot virus
- Blechum interveinal chlorosis virus
- Boerhavia yellow spot virus
- Cabbage leaf curl Jamaica virus
- Cabbage leaf curl virus
- Centrosema yellow spot virus
- Chayote yellow mosaic virus
- Chilli leaf curl virus
- Chino del tomate Amazonas virus
- Chino del tomate virus
- Cleome golden mosaic virus
- Cleome leaf crumple virus
- Clerodendron golden mosaic virus
- Corchorus golden mosaic virus
- Corchorus yellow spot virus
- Corchorus yellow vein virus
- Cotton leaf crumple virus
- Cotton leaf curl Alabad virus
- Cotton leaf curl Bangalore virus
- Cotton leaf curl Gezira virus
- Cotton leaf curl Kokhran virus
- Cotton leaf curl Multan virus
- Cowpea golden mosaic virus
- Croton yellow vein mosaic virus
- Cucurbit leaf crumple virus
- Dalechampia chlorotic mosaic virus
- Datura leaf distortion virus
- Desmodium leaf distortion virus
- Dicliptera yellow mottle Cuba virus
- Dicliptera yellow mottle virus
- Dolichos yellow mosaic virus
- East African cassava mosaic Cameroon virus
- East African cassava mosaic Kenya virus
- East African cassava mosaic Malawi virus
- East African cassava mosaic virus
- East African cassava mosaic Zanzibar virus
- Eclipta yellow vein virus
- Erectites yellow mosaic virus
- Eupatorium yellow vein mosaic virus
- Eupatorium yellow vein virus
- Euphorbia leaf curl Guangxi virus
- Euphorbia leaf curl virus
- Euphorbia mosaic virus
- Euphorbia yellow mosaic virus
- Hollyhock leaf crumple virus
- Hollyhock leaf curl virus
- Honeysuckle yellow vein Kagoshima virus
- Honeysuckle yellow vein mosaic virus
- Honeysuckle yellow vein virus
- Horsegram yellow mosaic virus
- Indian cassava mosaic virus
- Jacquemontia mosaic Yucatan virus
- Jatropha mosaic India virus
- Kenaf leaf curl virus
- Kudzu mosaic virus
- Leonurus mosaic virus
- Lindernia anagallis yellow vein virus
- Ludwigia yellow vein Vietnam virus
- Ludwigia yellow vein virus
- Luffa yellow mosaic virus
- Macroptilium golden mosaic virus
- Macroptilium mosaic Puerto Rico virus
- Macroptilium yellow mosaic Florida virus
- Macroptilium yellow mosaic virus
- Macroptilium yellow net virus
- Macroptilium yellow spot virus
- Macroptilium yellow vein virus
- Malvastrum leaf curl Guangdong virus
- Malvastrum leaf curl virus
- Malvastrum yellow leaf curl virus
- Malvastrum yellow mosaic Helshire virus
- Malvastrum yellow mosaic Jamaica virus
- Malvastrum yellow mosaic virus
- Malvastrum yellow vein Changa Manga virus
- Malvastrum yellow vein Honghe virus
- Malvastrum yellow vein virus
- Malvastrum yellow vein Yunnan virus
- Melon chlorotic leaf curl virus
- Melon chlorotic mosaic virus
- Merremia mosaic Puerto Rico virus
- Merremia mosaic virus
- Mesta yellow vein mosaic virus
- Mimosa yellow leaf curl virus
- Mungbean yellow mosaic India virus
- Mungbean yellow mosaic virus
- Okra enation leaf curl virus
- Okra leaf curl Cameroon virus
- Okra mottle virus
- Okra yellow crinkle virus
- Okra yellow mosaic Mexico virus
- Okra yellow mottle Iguala virus
- Okra yellow vein mosaic virus
- Papaya leaf crumple virus
- Papaya leaf curl China virus
- Papaya leaf curl Guandong virus
- Papaya leaf curl virus
- Passionfruit severe leaf distortion virus
- Pedilenthus leaf curl virus
- Pepper golden mosaic virus
- Pepper huasteco yellow vein virus
- Pepper leaf curl Bangladesh virus
- Pepper leaf curl Lahore virus
- Pepper leaf curl virus
- Pepper leaf curl Yunnan virus
- Pepper yellow leaf curl Indonesia virus
- Pepper yellow vein Mali virus
- Potato yellow mosaic Panama virus
- Potato yellow mosaic virus
- Pumpkin yellow mosaic virus
- Radish leaf curl virus
- Rhynchosia golden mosaic Havana virus
- Rhynchosia golden mosaic Sinaloa virus
- Rhynchosia golden mosaic virus
- Rhynchosia golden mosaic Yucatan virus
- Rhynchosia mild mosaic virus
- Rhynchosia rugose golden mosaic virus
- Rhynchosia yellow mosaic virus
- Rose leaf curl virus
- Senecio yellow mosaic virus
- Sida golden mosaic Braco virus
- Sida golden mosaic Buckup virus
- Sida golden mosaic Costa Rica virus
- Sida golden mosaic Florida virus
- Sida golden mosaic Honduras virus
- Sida golden mosaic Liguanea virus
- Sida golden mosaic virus
- Sida golden mottle virus
- Sida golden yellow vein virus
- Sida leaf curl virus
- Sida micrantha mosaic virus
- Sida mosaic Alagoas virus
- Sida mosaic Bolivia virus 1
- Sida mosaic Bolivia virus 2
- Sida mosaic Sinaloa virus
- Sida mottle Alagoas virus
- Sida mottle virus
- Sida yellow blotch virus
- Sida yellow mosaic Alagoas virus
- Sida yellow mosaic China virus
- Sida yellow mosaic virus
- Sida yellow mosaic Yucatan virus
- Sida yellow mottle virus
- Sida yellow net virus
- Sida yellow vein Madurai virus
- Sida yellow vein Vietnam virus
- Sida yellow vein virus
- Siegesbeckia yellow vein Guangxi virus
- Siegesbeckia yellow vein virus
- South African cassava mosaic virus
- Soybean blistering mosaic virus
- Soybean chlorotic spot virus
- Soybean crinkle leaf virus
- Soybean mild mottle virus
- Spilanthes yellow vein virus
- Squash leaf curl China virus
- Squash leaf curl Philippines virus
- Squash leaf curl virus
- Squash leaf curl Yunnan virus
- Squash mild leaf curl virus
- Sri Lankan cassava mosaic virus
- Stachytarpheta leaf curl virus
- Sweet potato leaf curl Canary virus
- Sweet potato leaf curl China virus
- Sweet potato leaf curl Georgia virus
- Sweet potato leaf curl Sao Paulo virus
- Sweet potato leaf curl South Carolina virus
- Sweet potato leaf curl Uganda virus
- Sweet potato leaf curl virus
- Sweet potato mosaic virus
- Tobacco curly shoot virus
- Tobacco leaf curl Cuba virus
- Tobacco leaf curl Japan virus
- Tobacco leaf curl Pusa virus
- Tobacco leaf curl Thailand virus
- Tobacco leaf curl Yunnan virus
- Tobacco leaf curl Zimbabwe virus
- Tobacco leaf rugose virus
- Tobacco mottle leaf curl virus
- Tobacco yellow crinkle virus
- Tomato chino La Paz virus
- Tomato chlorotic leaf distortion virus
- Tomato chlorotic mottle virus
- Tomato common mosaic virus
- Tomato curly stunt virus
- Tomato dwarf leaf virus
- Tomato golden mosaic virus
- Tomato golden mottle virus
- Tomato golden vein virus
- Tomato leaf curl Anjouan virus
- Tomato leaf curl Arusha virus
- Tomato leaf curl Bangalore virus
- Tomato leaf curl Bangladesh virus
- Tomato leaf curl Cebu virus
- Tomato leaf curl China virus
- Tomato leaf curl Comoros virus
- Tomato leaf curl Diana virus
- Tomato leaf curl Ghana virus
- Tomato leaf curl Guangdong virus
- Tomato leaf curl Guangxi virus
- Tomato leaf curl Gujarat virus
- Tomato leaf curl Hainan virus
- Tomato leaf curl Hanoi virus
- Tomato leaf curl Hsinchu virus
- Tomato leaf curl Iran virus
- Tomato leaf curl Java virus
- Tomato leaf curl Joydebpur virus
- Tomato leaf curl Karnataka virus
- Tomato leaf curl Kerala virus
- Tomato leaf curl Kumasi virus
- Tomato leaf curl Laos virus
- Tomato leaf curl Madagascar virus
- Tomato leaf curl Malaysia virus
- Tomato leaf curl Mali virus
- Tomato leaf curl Mindanao virus
- Tomato leaf curl Moheli virus
- Tomato leaf curl Namakely virus
- Tomato leaf curl New Delhi virus
- Tomato leaf curl Nigeria virus
- Tomato leaf curl Oman virus
- Tomato leaf curl Philippines virus
- Tomato leaf curl Pune virus
- Tomato leaf curl Seychelles virus
- Tomato leaf curl Sinaloa virus
- Tomato leaf curl Sri Lanka virus
- Tomato leaf curl Sudan virus
- Tomato leaf curl Taiwan virus
- Tomato leaf curl Toliara virus
- Tomato leaf curl Uganda virus
- Tomato leaf curl Vietnam virus
- Tomato leaf curl virus
- Tomato leaf deformation virus
- Tomato leaf distortion virus
- Tomato mild mosaic virus
- Tomato mild yellow leaf curl Aragua virus
- Tomato mosaic Havana virus
- Tomato mosaic leaf curl virus
- Tomato mottle leaf curl virus
- Tomato mottle Taino virus
- Tomato mottle virus
- Tomato rugose mosaic virus
- Tomato rugose yellow leaf curl virus
- Tomato severe leaf curl virus
- Tomato severe rugose virus
- Tomato yellow leaf curl Axarquia virus
- Tomato yellow leaf curl China virus
- Tomato yellow leaf curl Guangdong virus
- Tomato yellow leaf curl Indonesia virus
- Tomato yellow leaf curl Kanchanaburi virus
- Tomato yellow leaf curl Malaga virus
- Tomato yellow leaf curl Mali virus
- Tomato yellow leaf curl Sardinia virus
- Tomato yellow leaf curl Thailand virus
- Tomato yellow leaf curl Vietnam virus
- Tomato yellow leaf curl virus
- Tomato yellow leaf distortion virus
- Tomato yellow margin leaf curl virus
- Tomato yellow mottle virus
- Tomato yellow spot virus
- Tomato yellow vein streak virus
- Vernonia yellow vein virus
- Watermelon chlorotic stunt virus
- West African Asystasia virus 1
- West African Asystasia virus 2
- Wissadula golden mosaic virus
Morphology
Virus particles are non-enveloped. The nucleocapsid is 38 nanometers (nm) long and 15–22 nm in diameter. While particles have basic icosahedral symmetry, they consist of two incomplete icosahedra—missing one vertex—joined together. There are 22 capsomeres per nucleocapsid.
Genome
Single stranded closed circular DNA. Many begomoviruses have a bipartite genome: this means that the genome is segmented into two segments (referred to as DNA A and DNA B) that are packaged into separate particles. Both segments are generally required for successful symptomatic infection in a host cell but DNA B is dependent for its replication upon DNA A, which can in some begomoviruses apparently cause normal infections on its own.
The DNA A segment typically encodes five to six proteins including replication protein Rep, coat protein and transport and/or regulatory proteins. This component is homologous to the genomes of all other geminiviruses. The proteins endcoded on it are required for replication (Rep), control of gene expression, overcoming host defenses, encapsidation (coat protein) and insect transmission. The DNA B segment encodes two different movement proteins. These proteins have functions in intra- and intercellular movement in host plants.
The A and B components share little sequence identity with the exception of a ~200 nucleotide sequence with typically >85% identity known as the common region. This region includes an absolutely conserved (among geminiviruses) hairpin structure and repeated sequences (known as 'iterons') that are the recognition sequences for binding of the replication protein (Rep). Within this loop there is a nonanucleotide sequence (TAATATTAC) that acts as the origin (ori) of virion strand DNA replication.
Component exchange (pseudorecombination) occurs in this genus.[3] The usual mechanism of pseudorecombination is by a process known as 'regulon grafting': the A component donates its common region by recombination to the B component being captured. This results in a new dependent interaction between two components.
The proteins in this genus may lie either on the sense strand (positive orientation) or its complement (negative orientation).
Genes
- Segment A
- V1 (R1)—positive orientation: Coat protein—29.7 kiloDaltons (kDa)
- V2—positive orientation: Movement protein (precoat ORF)—12.8 kDa
- C1 (L1)—negative orientation: Replication initiation protein (Rep)—40.2 kDa
- C2: (L2)—negative orientation: Transcription activator protein (TrAP)—19.6 kDa
- C3: (L3)—negative orientation: Replication enhancer—15.6 kDa
- C4:—negative orientation: May determine symptom expression—12.0 kDa
- Segment B
- V1 (R1)—positive orientation: Nuclear shuttle protein—33.1 kDa
- C1 (L1)—negative orientation: Movement protein—29.6 kDa
Virology
Smaller than unit length virus components—deletion mutants—are common in infections. These are known as defective interfering (di) DNAs due to their capacity to interfere with virus infection. They reduce virus DNA levels and symptom severity.
Phylogenetics
The two components of the genome have very distinct molecular evolutionary histories and likely to be under very different evolutionary pressures. The DNA B genome originated as a satellite that was captured by the monopartite progenitor of all extant bipartite begomoviruses and has subsequently evolved to become an essential genome component.
More than 133 begomovirus species having monopartite genomes are known: all originate from the Old World. No monopartite begomoviruses native to the New World have yet been identified.
Phylogenetic analysis is based on the A component. B components may be exchanged between species and may result in new species.
Analysis of the genus reveals a number of clades.[4] The main division is between the Old and New World strains. The Old World strains can be divided into African, Indian, Japanese and other Asian clades with a small number of strains grouping outside these. The New World strains divide into Central and Southern America strains.
Along with these main groupings are a number of smaller clades. One group infecting a range of legumes originating from India and Southeast Asia (informally 'Legumovirus') and a set of viruses isolated from Ipomoea species originating from America, Asia and Europe (informally 'Sweepovirus') appear to be basal to all the other species. Two species isolated from Corchorus from Vietnam (informally 'Corchovirus') somewhat unexpectedly group with the New World species.
Transmission
The virus is obligately transmitted by an insect vector, which can be the whitefly Bemisia tabaci or can be other whiteflies.[5] This vector allows rapid and efficient propagation of the virus because it is an indiscriminate feeder.
Diseases
The type species Potato yellow mosaic virus (PYMV) is a Begomovirus, first identified in the late 1980s, that causes an infection in tomatoes. Disease is manifested in the infected plant as yellow mosaic or mottling, leaf distortion and crinkling and stunting. In Trinidad this disease in tomato is endemic and causes an estimated yield loss of 50–60%. PYMV disease is also an economical problem in the Caribbean. The type species Bean golden yellow mosaic virus (BGYMV) also belongs to the Begomovirus genus. It causes a serious disease in bean species within Central America, the Caribbean and southern Florida.
References
- 1 2 3 ICTV. "Virus Taxonomy: 2014 Release". Retrieved 15 June 2015.
- ↑ "Viral Zone". ExPASy. Retrieved 15 June 2015.
- ↑ Pita JS, Fondong VN, Sangaré A, Otim-Nape GW, Ogwal S, Fauquet CM (2001). "Recombination, pseudorecombination and synergism of geminiviruses are determinant keys to the epidemic of severe cassava mosaic disease in Uganda". J Gen Virol. 82 (3): 655–65.
- ↑ Briddon RW, Patil BL, Bagewadi B, Nawaz-ul-Rehman MS, Fauquet CM (2010) Distinct evolutionary histories of the DNA-A and DNA-B components of bipartite begomoviruses. BMC Evol Biol 10:97
- ↑ Funayama, Sachiko; Terashima, I; Yahara, T (2001). "Effects of Virus Infection and Light Environment on Population Dynamics of Eupatorium makinoi (Asteraceae)". American Journal of Botany. 88 (4): 616–622. doi:10.2307/2657060. JSTOR 2657060. PMID 11302846.
Additional reading
Mansoor S, Briddon RW, Zafar Y, Stanley J (March 2003). "Geminivirus disease complexes: an emerging threat". Trends Plant Sci. 8 (3): 128–34. doi:10.1016/S1360-1385(03)00007-4. PMID 12663223.
Briddon RW, Stanley J (January 2006). "Subviral agents associated with plant single-stranded DNA viruses". Virology. 344 (1): 198–210. doi:10.1016/j.virol.2005.09.042. PMID 16364750.
Sinisterra XH, McKenzie CL, Hunter WB, Powell CA, Shatters RG (May 2005). "Differential transcriptional activity of plant-pathogenic begomoviruses in their whitefly vector (Bemisia tabaci, Gennadius: Hemiptera Aleyrodidae)". J. Gen. Virol. 86 (Pt 5): 1525–32. doi:10.1099/vir.0.80665-0. PMID 15831966.
Hunter WB, Hiebert E, Webb SE, Tsai JH, Polston JE (1998). "Location of geminiviruses in the whitefly Bemisia tabaci (Homoptera: Aleyrodidae". Plant Disease. 82 (10): 1147–51. doi:10.1094/PDIS.1998.82.10.1147.
External links
Notes on Genus: Begomovirus
MicrobiologyBytes: Plant Viruses
- Proposed Strategies for Begomovirus Disease Management in Tomato in Trinidad
- Bean golden yellow mosaic virus
- ViralZone: Begomovirus