Identification of a distinct strain of Cotton leaf curl Gezira virus infecting tomato in Oman

Tomato (Solanum lycopersicum) plants exhibiting yellowing, curling and stunting symptoms were identified in fields of the Tawoos Agricultural Systems, in Al‐Batinah in Oman. Cloning and sequencing of restriction endonuclease digested rolling circle amplified viral DNA identified a cotton begomovirus (family Geminiviridae) associated with the symptomatic tomato plants. Detailed analysis of complete sequences showed the virus to be a previously unknown strain of Cotton leaf curl Gezira virus (CLCuGeV) in association with the betasatellite Tomato leaf curl betasatellite (ToLCB). The new CLCuGeV strain, for which the name “Al Batinah” strain is suggested, has the greatest levels of sequence identity (91.9%) to an isolate of CLCuGeV recently reported from the neighbouring United Arab Emirates. Additionally, CLCuGeV‐Al Batinah was shown to have a recombinant origin with sequences donated by an African cassava mosaic virus‐like parent. This is the first identification of this Malvaceae‐adapted begomovirus in tomato. Although ToLCB is common in Oman, being one of only two betasatellites identified there so far, this is the first identification of this betasatellite with CLCuGeV. The significance of these findings is discussed.     

Evidence of Cotton leaf curl Burewala virus Variant and its Associate Betasatellite Causing Yellow Mosaic of Eggplant (Solanum melongena) in Pakistan

Eggplant (Solanum melongena L.) plants with severe leaf mosaic and mottling were found in a kitchen garden near cotton fields in Pakistan. Rolling Circle Amplification products from six of the naturally infected eggplant plants, subjected to PCR, successfully amplified expected products of 2.8 and 1.4 kb using begomovirus and betasatellite‐specific primers, respectively. Based on 99% nucleotide sequence identity, the virus was identified as a variant of Cotton leaf curl Burewala virus (CLCuBuV) (GenBank Accession No. HG428709). Likewise, the sequenced betasatellite with a maximum of 97% nucleotide sequence identity was recognized as a new variant of Cotton leaf curl Multan betasatellite (CLCuMuB^Mul) (GenBank Accession No. HG428708). The symptomatic induction of Cotton leaf curl disease in CLCuBuV susceptible cotton genotype CIM‐496 by back‐indexing further confirmed the presence of CLCuBuV in eggplant. This is the first report of CLCuBuV and its associate betasatellite in naturally infected plants of eggplant.     

Identification of Mungbean yellow mosaic Indian virus Associated with Tomato Leaf Curl Betasatellite Infecting Phaseolus vulgaris in Oman

Kidney bean (Phaseolus vulgaris) plants exhibiting foliar yellow mosaic symptoms and some leaf crumpling were identified in the Al Batinah region of Oman. Rolling circle amplification and polymerase chain reaction identified a bipartite begomovirus (family Geminiviridae) and a betasatellite in association with the symptomatic plants. Analysis of full‐length sequences showed the virus to be Mungbean yellow mosaic Indian virus (MYMIV) and the betasatellite Tomato leaf curl betasatellite (ToLCB). This is the first identification of a legume‐adapted begomovirus in Oman and the first identification of MYMIV in association with the betasatellite ToLCB. The isolate of MYMIV from Oman shows the greatest levels of sequence identity to isolates occurring in South Asia and South‐East Asia, suggesting that the virus has only recently been introduced. The significance of these findings is discussed.     

Virus–vector Relationships,Host Range,Detection and Sequence Comparison of Chilli leaf curl virus Associated with an Epidemic of Leaf Curl Disease of Chilli in Jodhpur,India

An epidemic of chilli leaf curl disease was recorded in 2004 in Jodhpur, a major chilli‐growing area in Rajasthan, India. Several isolates were efficiently transmitted by the whitefly (Bemisia tabaci), all of which induced severe leaf curl symptoms in chilli. A single whitefly was capable of transmitting the virus, and eight or more whiteflies per plant resulted in 100% transmission. The minimum acquisition access period (AAP) and inoculation access period (IAP) were 180 and 60 min, respectively. The virus persisted in whiteflies for up to 5 days postacquisition. Of 25 species tested, the virus infected only five (Capsicum annuum, Carica papaya, Solanum lycopersicum, Nicotiana tabacum and N. benthamiana). The virus was identified as Chilli leaf curl virus (ChiLCV), which shared the closest sequence identity (96.1%) with an isolate of ChiLCV from potato in Pakistan and showed sequence diversity up to 12.3% among the ChiLCV isolates reported from India and Pakistan. A betasatellite was identified, which resembled most closely (97.3%) that of Tomato leaf curl Bangladesh betasatellite previously reported from chilli and tomato leaf curl in India. The betasatellite was very different from that reported from chilli leaf curl in Pakistan, indicating that different betasatellites are associated with chilli leaf curl in India and Pakistan. We describe here for the first time the virus–vector relationships and host range of ChiLCV.     

Genetic variability of Cotton leaf curl betasatellite in Northern India

Cotton is an important crop and its production is affected by various disease pathogens. Monopartite begomovirus associated betasatellites cause Cotton leaf curl disease (CLCuD) in Northern India. In order to access the occurrence and genetic variability of Cotton leaf curl betasatellites, an extensive field survey was conducted in states of Rajasthan, Punjab and Haryana. We selected the betasatellite sequence for analysis as they are reported as important for disease severity and sequence variability. Based on the field observations, the disease incidence ranged from 30% to 80% during the survey. Full genome and DNA β were amplified from various samples while no amplicon was obtained in some samples. The nucleotide sequence homology ranged from 90.0% to 98.7% with Cotton leaf curl virus (CLCuV), 55.2–55.5% with Bhendi yellow vein mosaic virus, 55.8% with Okra leaf curl virus and 51.70% with Tomato leaf curl virus isolates. The lowest similarity (47.8%) was found in CLCuV-Sudan isolate. Phylogenetic analysis showed that analyzed isolates formed a close cluster with various CLCuV isolates reported earlier. The analysis results show sequence variation in Cotton leaf curl betasatellite which could be the result of recombination. The results obtained by genome amplification and sequence variability indicate that some new variants are circulating and causing leaf curl disease in Rajasthan, Punjab and Haryana.Abbreviations: CLCuD, Cotton leaf curl disease; CLCuV, Cotton leaf curl virus; PCR, polymerase chain reaction; SCR, satellite conserved region     

Papaya Leaf Curl Guangdong Virus and Ageratum Yellow Vein Virus Associated with Leaf Curl Disease of Tobacco in China

Two samples (YC7, YC27) of Nicotiana tabacum showing leaf curling, vein swelling and enations on undersides of leaves were collected in the Fujian Province of China in 2007. Virus isolates YC7‐1 and YC7‐2 (associated with betasatellite, YC7‐2β) were detected in both samples. The complete DNA‐A sequence of YC7‐1 (FJ869907) comprised 2741 nucleotides (nt). The complete DNA‐A (FJ869908) and betasatellite (FJ869909) sequence of YC7‐2 consisted of 2754 and 1344 nt, respectively. YC7‐1 had the highest nucleotide sequence identity (97.3%) with Papaya leaf curl Guangdong virus (PaLCuGuV‐[CN:Gd2:02], AJ558122). YC7‐2 had the highest sequence identity (90.1%) with Ageratum yellow vein virus (AYVV‐TW[TW:Tai:99], AF307861) and its betasatellite (96.5%) with Ageratum yellow vein betasatellite (AYVB‐[TW:CHu:02], AJ542495). These indicate that YC7‐1 and YC7‐2 are isolates of PaLCuGuV and AYVV, respectively. Symptoms including leaf curling, vein swelling and enations on undersides of leaves were observed in N. tabacum and N. glutinosa when infected by whiteflies with sample YC7 as the viral source under greenhouse conditions. PCR results showed that these infected plants contained both YC7‐1 and YC7‐2/YC7‐2β. To our knowledge, this is the first report of PaLCuGuV and AYVV/AYVB co‐infecting N. tabacum in China.     

First Report of a Croton yellow vein mosaic virus (CYVMV) Associated with Tomato Leaf Curl Disease in India

Leaf curl disease symptoms were observed in tomato crop grown in a tomato field at Matera district of Bahraich, India, in March 2013 with an 85% disease incidence. The infected plants exhibited leaf curl symptoms accompanied with puckering, vein swelling and stunting of the whole plant. PCR carried out with begomovirus coat protein gene and DNA beta‐specific primer sets resulted in positive amplification of ~775 bp and 1.35 kbp, respectively, with all symptom‐bearing plant samples. BLASTn and phylogenetic analyses of CP gene sequences showed highest and close relationship with Croton yellow vein mosaic virus (CYVMV) isolates, while the phylogenetic study of betasatellite sequence showed distinct relationships with other begomovirus associated betasatellites reported from India and abroad. This is a first report of a CYVMV associated with tomato leaf curl disease in India.     

Biology and interactions of two distinct monopartite begomoviruses and betasatellites associated with radish leaf curl disease in India

Background

Emerging whitefly transmitted begomoviruses are major pathogens of vegetable and fibre crops throughout the world, particularly in tropical and sub-tropical regions. Mutation, pseudorecombination and recombination are driving forces for the emergence and evolution of new crop-infecting begomoviruses. Leaf curl disease of field grown radish plants was noticed in Varanasi and Pataudi region of northern India. We have identified and characterized two distinct monopartite begomoviruses and associated beta satellite DNA causing leaf curl disease of radish (Raphanus sativus) in India.

Results

We demonstrate that RaLCD is caused by a complex of two Old World begomoviruses and their associated betasatellites. Radish leaf curl virus-Varanasi is identified as a new recombinant species, Radish leaf curl virus (RaLCV) sharing maximum nucleotide identity of 87.7% with Tomato leaf curl Bangladesh virus-[Bangladesh:2] (Accession number AF188481) while the virus causing radish leaf curl disease-Pataudi is an isolate of Croton yellow vein mosaic virus-[India] (CYVMV-IN) (Accession number AJ507777) sharing 95.8% nucleotide identity. Further, RDP analysis revealed that the RaLCV has a hybrid genome, a putative recombinant between Euphorbia leaf curl virus and Papaya leaf curl virus. Cloned DNA of either RaLCV or CYVMV induced mild leaf curl symptoms in radish plants. However, when these clones (RaLCV or CYVMV) were individually co-inoculated with their associated cloned DNA betasatellite, symptom severity and viral DNA levels were increased in radish plants and induced typical RaLCD symptoms. To further extend these studies, we carried out an investigation of the interaction of these radish-infecting begomoviruses and their associated satellite, with two tomato infecting begomoviruses (Tomato leaf curl Gujarat virus and Tomato leaf curl New Delhi virus). Both of the tomato-infecting begomoviruses showed a contrasting and differential interaction with DNA satellites, not only in the capacity to interact with these molecules but also in the modulation of symptom phenotypes by the satellites.

Conclusion

This is the first report and experimental demonstration of Koch's postulate for begomoviruses associated with radish leaf curl disease. Further observations also provide direct evidence of lateral movement of weed infecting begomovirus in the cultivated crops and the present study also suggests that the exchange of betasatellites with other begomoviruses would create a new disease complex posing a serious threat to crop production.     

Recombination Among Begomoviruses on Malvaceous Plants Leads to the Evolution of Okra Enation Leaf Curl Virus in Pakistan

Whitefly transmitted begomoviruses (family Geminiviridae) are the major reason for significant yield losses of dicotyledonous crops in tropics and subtropics. Okra (Abelmoschus esculentus) is one of the important vegetable crops, and leaf curl disease caused by geminiviruses is the most important limiting factor for its production in Pakistan. Here, we report a new species of okra‐infecting begomovirus in south‐eastern region of Pakistan and the name Okra enation leaf curl virus (OELCuV) complex is proposed. This okra enation leaf curl disease complex (OELCuD) in Pakistan is found to be associated with Ageratum conyzoides symptomless alphasatellite (AConSLA). All efforts to clone the betasatellite were unsuccessful. Comprehensive sequence analyses suggest that intermalvaceous recombination between okra and cotton‐infecting begomoviruses resulted in the evolution of the new species. Surprisingly, Bhendi yellow vein mosaic virus (BYVMV) which has not been reported previously from Pakistan is the major parent while Cotton leaf curl Multan virus (CLCuMV) acts as a distant parent of the virus. Comparative recombination analysis also reveals that okra‐infecting begomoviruses from south and north‐western India is causing OELCuD in the Pakistan by recombining with CLCuMV at the Rep (1964–1513 nts). Recombination is common among geminiviruses and recombining of BYVMV and CLCuMV resulted in a new species: OELCuV. To the best of our knowledge, this evolution of a new species of okra‐infecting begomovirus is the first report of intermalvaceous recombination where Rep acts as the target region.     

Association of a Distinct Begomovirus and a Betasatellite with Leaf Curl Symptoms in Pedilanthus tithymaloides

Pedilanthus tithymaloides (Redbird flower) is an ornamental shrub that occasionally exhibits leaf curl and enation symptoms in Pakistan. Symptoms were shown to be associated with a monopartite begomovirus and a betasatellite. The complete nucleotide sequence of the begomovirus was found to be 2764 nucleotides in length and have the highest nucleotide sequence identity to a begomovirus previously isolated from tomato (90.3% nucleotide sequence identity), followed by Radish leaf curl virus (86.3%). The complete betasatellite sequence was determined to be 1358 nucleotides in length and has the highest sequence identity (97%) with Tobacco leaf curl betasatellite . The analysis shows the begomovirus associated with leaf curl disease of Pedilanthus to be a distinct and previously unreported begomovirus for which the name Pedilanthus leaf curl virus (PedLCV) is proposed. This virus is one of an increasing number of monopartite begomoviruses shown to be associated with a betasatellite.     

A New Alphasatellite Molecule Associated with Ageratum yellow vein China virus in the Philippines

From Synedrella nodiflora plants with leaf curling, vein swelling and enation symptoms on Samal Island, the Philippines, a begomoviral DNA‐A and its associated alphasatellite molecule were cloned and sequenced. The begomovirus was identified as an isolate of Ageratum yellow vein China virus (AYVCNV) with 91% nucleotide sequence identity to AYVCNV‐[P157] (EU487045), while the alphasatellite molecule was most closely related to tobacco curly shoot alphasatellite‐Y99 (TbCSA‐Y99, AJ579347) with 74.5% nucleotide sequence identity. The satellite molecule has the typical features of alphasatellites, with a single gene in the virion sense, an A‐rich region and a 33‐bp predicted stem‐loop structure. According to the proposed species demarcation threshold of alphasatellites (83% nucleotide sequence identity), the alphasatellite molecule represents a new species, herein named ‘Ageratum yellow vein China alphasatellite’ ( KF785752 ).     

A Leaf Curl Disease in Germplasm of Rapeseed‐Mustard in India: Molecular Evidence of a Weed‐Infecting Begomovirus–Betasatellite Complex Emerging in a New Crop

Evaluation of 130 accessions of rapeseed‐mustard germplasm grown at the National Bureau of Plant Genetic Resources, New Delhi, India during the winter season (2011–2012) revealed the occurrence of a leaf curl disease in seven accessions. The occurrence of the disease was observed in another 62 of 525 accessions evaluated during 2012–2013. The association of a monopartite begomovirus and betasatellite was established with the symptomatic plants by whitefly transmission and PCR amplification. The complete nucleotide sequences of the begomovirus (JX270684, 2745 nucleotides), obtained by rolling circle amplification, showed the highest sequence identity (98.1%) with the weed‐infecting begomovirus, Croton yellow vein mosaic virus. Analysis of recombination indicated the probable occurrence of many overlapping inter‐ and intraspecific recombination events. The sequence of betasatellite (JX270685, 1355 nucleotides) showed the highest sequence identity (95.7%) with Croton yellow vein mosaic betasatellite. Begomoviruses were not previously known to naturally infect rapeseed‐mustard. This is the first report of the emergence of a weed‐infecting begomovirus–betasatellite complex in rapeseed‐mustard germplasm in India and raises the concern on utilization of such susceptible germplasm in crop improvement programmes.     

Host range, vector relationships and sequence comparison of a begomovirus infecting hibiscus in India

Hibiscus leaf curl disease (HLCuD) occurs widely in India. Infected hibiscus plants show vein thickening, upward curling of leaves and enations on the abaxial leaf surface, reduction in leaf size and stunting. The commonly‐occurring weeds (Ageratum conyzoides, Croton bonplandianum and Euphorbia geniculata), Nicotiana benthamiana, Nicotiana glutinosa and Nicotiana tabacum (var. Samsun, Xanthi), cotton and tomato were shown to be susceptible to HLCuD. One of the four species of hibiscus (Hibiscus rosa‐sinensis) and 75 of the 101 commercial hybrids/varieties grown in the Bangalore area of southern India were also susceptible. Two virus isolates associated with HLCuD from Bangalore, South India (Ban), and Bhubaneswar, North India (Bhu), were detected serologically and by PCR‐mediated amplification of virus genomes. The isolates were characterised by sequencing a fragment of DNA‐A component (1288 nucleotides) and an associated satellite DNA molecule of 682 nucleotides. Phylogenetic analyses of these DNA‐A sequences clustered them with Old World cotton‐infecting begomoviruses and closest to Cotton leaf curl Multan virus (CLCuMV) at 95–97% DNA‐A nucleotide identities. The 682‐nucleotide satellite DNA molecules associated with the HLCuD samples Ban and Bhu shared 96.9% sequence identity with each other and maximum identity (93.1–93.9% over positions 158–682) with ～1350‐nucleotide DNA‐β satellite molecules associated with cotton leaf curl disease in Pakistan and India (accession nos AJ298903, AJ316038). HLCuD in India, therefore, appears to be associated with strains of CLCuMV, a cotton‐infecting begomovirus from Pakistan, which is transmitted in a persistent manner by Bemisia tabaci.     

Leaf curl disease of tomato in Haldwani (Uttarakhand), India region is caused by a begomovirus with satellite molecule DNA β

The leaf curl disease of tomato was observed in the Haldwani region of Uttarakhand, India during 2004–2007 with an average disease incidence of 49.8 and 73.7% during the month of October and February, respectively. The virus isolate from the infected tomato plants was transmissible to healthy tomato plants by whiteflies (Bemisia tabaci), and the inoculated plants showed typical leaf curl symptoms with a latent period of 16–18 days. The total DNA was extracted from the infected plants and subjected to polymerase chain reaction to amplify the genomic components. The coat protein (CP) gene of ～750 nt was amplified using a set of CP gene specific primer and sequenced (EU847240). Sequence analysis of 701 nt from the N′ terminal region revealed that it had a sequence identity of more than 90% with other isolates/strains of Tomato leaf curl New Delhi virus. A satellite molecule, DNA β of ～1.4 kb was also amplified using universal DNA β-specific primers, cloned and sequenced (EU847239). The isolated DNA β was 1370 nt in length and had a nucleotide sequence identity of 91–93% with DNA β associated with cowpea severe leaf curl and tomato leaf curl disease (TomLCD) reported from India and Pakistan, respectively, and followed by 79% with DNA β associated with TomLCDs reported from Rajasthan. This result showed that the satellite DNA β was associated with TomLCD in Haldwani.     

Molecular insight into cotton leaf curl geminivirus disease resistance in cultivated cotton (Gossypium hirsutum)

Cultivated cotton (Gossypium hirsutum) is the most important fibre crop in the world. Cotton leaf curl disease (CLCuD) is the major limiting factor and a threat to textile industry in India and Pakistan. All the local cotton cultivars exhibit moderate to no resistance against CLCuD. In this study, we evaluated an exotic cotton accession Mac7 as a resistance source to CLCuD by challenging it with viruliferous whiteflies and performing qPCR to evaluate the presence/absence and relative titre of CLCuD‐associated geminiviruses/betasatellites. The results indicated that replication of pathogenicity determinant betasatellite is significantly attenuated in Mac7 and probably responsible for resistance phenotype. Afterwards, to decipher the genetic basis of CLCuD resistance in Mac7, we performed RNA sequencing on CLCuD‐infested Mac7 and validated RNA‐Seq data with qPCR on 24 independent genes. We performed co‐expression network and pathway analysis for regulation of geminivirus/betasatellite‐interacting genes. We identified nine novel modules with 52 hubs of highly connected genes in network topology within the co‐expression network. Analysis of these hubs indicated the differential regulation of auxin stimulus and cellular localization pathways in response to CLCuD. We also analysed the differential regulation of geminivirus/betasatellite‐interacting genes in Mac7. We further performed the functional validation of selected candidate genes via virus‐induced gene silencing (VIGS). Finally, we evaluated the genomic context of resistance responsive genes and found that these genes are not specific to A or D sub‐genomes of G. hirsutum. These results have important implications in understanding CLCuD resistance mechanism and developing a durable resistance in cultivated cotton.     

Three variants of cotton leaf curl begomoviruses with their satellite molecules are associated with cotton leaf curl disease aggravation in New Delhi

Cotton leaf curl disease (CLCuD), caused by monopartite begomoviruses and its satellite molecules, is one of the serious constrains in cultivation of cotton in India. In the present study, five CLCuD-begomovirus and its associated satellite molecules were characterized based on rolling circle amplification and sequencing of complete genome. Sequence analysis showed 82–99 % nucleotide identity among them. The phylogenetic analysis and nt identity matrix determined that of the five CLCuD-begomovirus isolates, three IARI-34, IARI-42 and IARI-50 were members of Cotton leaf curl Multan virus (CLCuMuV)-Rajasthan isolates, designated as CLCuMuV-Rajasthan-34 and two, IARI-30 and IARI-45 of Cotton leaf curl Kokhran virus (CLCuKoV)-Burewala isolates, designated as CLCuKoV-Burewala-45. The present CLCuMuV-Rajasthan-34 is recombinant isolate showing recombination events in IR, C1 and C4 regions of its genome with high probality (P = 9.9 × 10^?10–3.2 × 10^?6). Same species of betasatellite (1371 nt) molecules obtained from both the present isolates was related with cotton leaf curl Multan betasatellite by 89–97 % nt identity. Three alphasatellites (1366–1396 nt) related to Cotton leaf curl Burewala alphasatellite and Gossypium darwinii symptomless alphasatellite by 86 % nt identity were also obtained. This is the first report of appearance of CLCuKoV-Burewala isolate and CLCuD associated alphasatellites in New Delhi. The present study demonstrated that CLCuD in New Delhi is caused by three kinds of variants, two are strains of CLCuMuV and one of CLCuKoV, either by single or mixed infection along with beta- and alpha-satellite molecues.     

Complete Genome Sequence of a Novel Wild tomato mosaic virus Isolate Infecting Nicotiana tabacum in China

Virus particles of approximately 740–760 nm in length and 13 nm in diameter were observed from a diseased Nicotiana tabacum (tobacco) plant in Sichuan Province, China. The complete genomic sequence of the virus isolate XC1 was determined to contain 9659 nucleotides without 3′ terminal poly(A) tail. XC1 has a genome typical of members of the genus Potyvirus, encoding a large polyprotein of 3075 amino acids. Putative proteolytic cleavage sites and a number of well characterized functional motifs were identified by sequence comparisons with those of known potyviruses. Sequence comparison revealed that XC1 shared the highest level of nucleotide sequence identity (76.5%) with Wild tomato mosaic virus (WTMV). Phylogenetic analysis showed that XC1 was closely related to the WTMV Guangdong isolate with an identity of 94.3% between CP gene sequence of the two viruses. We thus named XC1 WTMV‐XC‐1 as a novel isolate of WTMV. The full sequence of WTMV‐XC‐1 may serve as a basis for future investigations on the gene diversity of WTMV.     

Molecular Characterization of a Strain of Squash Leaf Curl China Virus from the Philippines

The complete nucleotide sequence of infectious cloned DNA components (A and B) of the causal agent of squash leaf curl disease in the Philippines was determined. DNA‐A and DNA‐B comprise 2739 and 2705 nucleotides, respectively; the common region is 174 bases in length. Five ORFs were found in DNA‐A and two in DNA‐B. Partial dimeric clones containing DNA‐A and DNA‐B, constructed in a binary vector and transformed into Agrobacterium tumefaciens, induced systemic infection in agro‐inoculated pumpkin plants (Cucurbita moschata). The total DNA‐A sequence was most closely related to that of Squash leaf curl China virus (SLCCNV) (88% identity), although the existence of B component of SLCCNV has not been reported. The deduced coat protein was like that of SLCCNV (98% amino acid sequence identity) and the Philippines virus has low sequence identity to Squash leaf curl virus (SLCV) and Squash mild leaf curl virus (SMLCV) (63 and 64% total nucleotide sequence identities, respectively). From these results, we propose that the Philippines virus be designated Squash leaf curl China virus‐[Philippines] (SLCCNV‐[PH]).     

Molecular Characterization of a Distinct Begomovirus Infecting Euphorbia pulcherrima in China

Virus isolate G35 was obtained from Euphorbia pulcherrima showing leaf curl and vein thickening symptoms in Tianyang, Guangxi Province, China. The virus was transmitted by whiteflies to Nicotiana tabacum, Lycopersicon esculentum, Datura stramonium and E. pulcherrima. DNA‐A contains 2746 nucleotides, with two open reading frames (ORFs) in the virion‐sense DNA and four ORFs in the complementary‐sense DNA. When compared with the DNA‐A sequence of other begomoviruses, the total DNA‐A of isolate G35 was most closely related to that of Ageratum enation virus (79.9% sequence identity). However, the deduced coat protein of G35 is most like that of Pepper leaf curl virus from Bangladesh (94.9% amino acid sequence identity), and the AC1 of G35 is most like that of Cotton leaf curl Multan virus‐Okra (87.2% amino acid sequence identity). The molecular data showed that G35 is a distinct Begomovirus species, for which the name Euphorbia leaf curl virus (ELCV) is proposed.     

A Single Species of Betasatellite is Prevalent in Chilli across North Central Pakistan and Shows Phylogeographic Segregation

Chilli leaf curl disease is an important constraint to production of chilli peppers ( Capsicum annum L.) across the Indian subcontinent and is caused by begomoviruses in association with betasatellites. Betasatellites are symptom modulating single-stranded DNA satellites associated with the majority of monopartite begomoviruses and are responsible for diseases of many crops including chilli peppers. Here, we have studied the diversity of a betasatellite of chillies in the Punjab and North Western Frontier Province of Pakistan. Sequence analysis of thirteen full-length clones showed that a single species of satellite, Chilli leaf curl betasatellite (ChLCB), is prevalent in chilli throughout the surveyed region. ChLCB has only been identified in Pakistan and infecting chilli. It thus probably represents a chilli adapted satellite. The ChLCBs fall into two groups, the first occurs in the less intensively cultivated north and shows a high level of sequence diversity (relative to the second group), while the second occurs in the southern cotton-growing areas and shows little sequence diversity. Between these two areas there is a region of overlap where both ChLCB types occur. The phylogeographic segregation of ChLCB we attribute to geographic isolation (in the north), leading to divergence and intensive cultivation (in the south), leading to homogenization. However, the lack of diversity (only a single species) bodes well for the prospects of achieving resistance to the disease by either conventional or pathogen-derived strategies.