Molecular Characterization and Recombination Analysis of the Complete Genome of Apple Chlorotic Leaf Spot Virus

The complete nucleotide sequence of an Indian isolate of Apple chlorotic leaf spot virus (ACLSV) was determined and found to be 7,525 nt in length. The genome organization was similar to known isolates of ACLSV, encoding three ORFs. Comparisons indicated high sequence variability among known isolates with overall nucleotide sequence identities of 80 to 84%. A striking variable region was identified among the replicase protein upstream of the RNA‐dependent RNA polymerase (aa 1510–1590), which showed a 41–43% match with the corresponding region in other isolates. Phylogenetic analysis at the nucleotide level clustered the isolates into three groups, without any relation to geographical origin. Recombination analysis showed that the isolate is a recombinant with recombination sites spread throughout the genome, especially in the polymerase gene region (nt 4700–5400). Most recombination sites were bordered by an upstream region (5′) of GC‐rich and downstream region (3′) of AU‐rich sequences of similar length. Correlation of recombination site with host type is discussed, and it was found that there were more interlineage recombinations in the apple host compared with intralineage recombinations.     

Konjac mosaic virus Naturally Infecting Three Aroid Plant Species in Andhra Pradesh,India

The genomes of three potyvirus isolates from, respectively, naturally infected Colocasia esculenta, Caladium spp. and Dieffenbachia spp. in Andhra Pradesh, India, were amplified by RT‐PCR using degenerate potyvirus primers. Sequence analysis of RT‐PCR amplicons (1599 nucleotides) showed maximum identity of 97% with the KoMV‐Zan isolate of Konjac mosaic virus (KoMV) from Taiwan (A/C AF332872). The three isolates had a maximum identity of 99.4%. The length of coat protein (CP) gene of three isolates was 846 nucleotides encoding 282 amino acids with a deduced size of 32.25 kDa. The CP gene of the isolates had, respectively, 78.1–95.7% and 88.2–96.4% identity at nucleotide and amino acid levels with KoMV isolates. The CP gene of the three isolates had 93.1–100% (nucleotide) and 98.2–100% (amino acid) identity. The 3′‐UTR of the three isolates showed maximum identity of 91.1–100% identity between and with other KoMV isolates. In the CP amino acid–based phylogenetic analyses, the isolates branched as a distinct cluster along with known KoMV isolates. The three potyvirus isolates associated with mosaic, chlorotic feathery mottling, chlorotic spots, leaf deformation and chlorotic ring spots on three aroids were identified as isolates of KoMV for the first time from Andhra Pradesh, India.     

Complete nucleotide sequence analysis of <Emphasis Type="Italic">Cymbidium mosaic virus</Emphasis> Indian isolate: further evidence for natural recombination among potexviruses

The complete nucleotide sequence of an Indian strain of Cymbidium mosaic virus (CymMV) was determined and compared with other potexviruses. Phylogenetic analyses on the basis of RNA-dependent RNA polymerase (RdRp), triple gene block protein and coat protein (CP) amino acid sequences revealed that CymMV is closely related to the Narcissus mosaic virus (NMV), Scallion virus X (SVX), Pepino mosaic virus (PepMV) and Potato aucuba mosaic virus (PAMV). Different sets of primers were used for the amplification of different regions of the genome through RT-PCR and the amplified genes were cloned in a suitable vector. The full genome of the Indian isolate of CymMV from Phaius tankervilliae shares 96–97% similarity with isolates reported from other countries. It was found that the CP gene of CymMV shares a high similarity with each other and other potexviruses. One of the Indian isolates seems to be a recombinant formed by the intermolecular recombination of two other CymMV isolates. The phylogenetic analyses, Recombination Detection Program (RDP2) analyses and sequence alignment survey provided evidence for the occurrence of a recombination between an Indian isolate (AM055720) as the major parent, and a Korean type-2 isolate (AF016914) as the minor parent. Recombination was also observed between a Singapore isolate (U62963) as the major parent, and a Taiwan CymMV (AY571289) as the minor parent.     

Molecular diagnosis of apple virus and viroid pathogens from India

Apple is known to be susceptible to various virus and viroid pathogens. Symptomatic apple cultivars and rootstocks were collected and analyzed by ELISA and then through RT-PCR. The study reports the presence of Apple mosaic virus (ApMV), Apple stem grooving virus (ASGV), Apple stem pitting virus (ASPV), Apple chlorotic leaf spot virus (ACLSV), the major apple viruses and Prunus necrotic ringspot virus (PNRSV), a minor apple virus, at the molecular level in India. Apple scar skin viroid (ASSVd) infection was also confirmed at the molecular level. Sporadic incidences of Tomato ringspot virus and Arabis mosaic virus infections were also detected by ELISA in nursery plants.     

Occurrence and Diversity of Pome Fruit Viruses in Apple and Pear Orchards in Latvia

Apple chlorotic leaf spot virus (ACLSV), Apple stem pitting virus (ASPV), Apple stem grooving virus (ASGV) and Apple mosaic virus are economically important viruses infecting fruit tree species worldwide. To evaluate the occurrence of these pome fruit viruses in Latvia, a large‐scale survey was carried out in 2007. Collected samples were tested for infection by DAS ELISA and multiplex RT‐PCR. The accuracy of the detection of the viruses in multiplex RT‐PCR was confirmed by sequencing amplified PCR fragments. The results showed a wide occurrence of viruses in apple and pear commercial orchards established from non‐tested planting material. More than 89% of the tested apple trees and more than 60% of pear trees were infected with one or more pome fruit viruses. Analyses showed that the high occurrence of viruses in several apple cultivars is due to the propagation of infected clonal rootstocks and scions from infected mother trees. Sequence analyses targeting the 3′‐terminal region of the tested viruses showed various degrees of genetic diversity within respective virus isolates. This is the first report of the occurrence of ACLSV, ASGV and ASPV in apple and pear trees in Latvia and demonstrates their genetic diversity in different host genotypes.     

Molecular Characterization and Distribution of Apple Chlorotic Leaf Spot Virus on Apple in China

Apple chlorotic leaf spot virus (ACLSV) is one of the most economically important latent viruses infecting apple in China. This is the first report of the almost complete nucleotide sequence and the characterization of the genome of a Chinese isolate (ACLSV‐MS, GenBank Accession Number KC847061 ) from apple. Based on the genome nucleotide sequence, ACLSV‐MS showed the highest identity (99.4%) to isolate ACLSV‐B6 (GenBank Accession Number AB326224 ) from apple in Japan and the least identity (69.5%) with isolate TaTao5 (GenBank Accession Number: EU223295 ) from peach in the USA. The occurrence and distribution of ACLSV in China were also recorded. Three hundred and twenty‐seven apple samples (40 different cultivars) collected from 56 sites in 13 provinces of China were tested by RT‐PCR. The virus was detected in all regions surveyed (the provinces of Heilongjiang, Liaoning, Hebei, Beijing, Henan, Shanxi, Shaanxi, Shandong, Gansu, Ningxia, Xinjiang, Sichuan and Yunnan), with an average incidence of 69.7%. The positive samples in Heilongjiang province were highest with an incidence of 100% followed by Henan province with an incidence of 86.7%. The positive samples in Liaoning and Shanxi were the lowest with an incidence of 50%. The occurrence of virus in five common cultivars was determined. The percentage of ACLSV was highest in cv. Gala with an incidence of 33.3%, while lowest in cv. Starking with an incidence of 18.2%. It was also found in younger (≤20 years) apple orchards the occurrence of ACLSV decreased with the increase of tree age, but when trees were more than 20 years old, the occurrence of ACLSV increased. This is the first extensive survey in the last decade in China for monitoring ACLSV, which provides important information for ACLSV control in China.     

Expression of recombinant Apple chlorotic leaf spot virus coat protein in heterologous system: production and use in immunodiagnosis

Expression condition for maximum recovery of recombinant Apple chlorotic leaf spot virus (ACLSV) coat protein was standardized. The in vitro expressed fusion protein with 6xHis tag (~43 Kd) was purified from inclusion bodies and used as an antigen for raising polyclonal antiserum in rabbit. This antiserum consistently detected ACLSV in pome and stone fruits as well as herbaceous host plants by direct double antibody sandwich enzyme linked immunosorbent assay (DAS-ELISA) and direct tissue blot immunoassay (DTBIA). The conditions for immuno-capture RT-PCR (IC-RT-PCR) were also standardized.     

Occurrence and Genome Analysis of Cucurbit chlorotic yellows virus in Iran

In 2011 and 2012, several cucurbit‐growing regions of Iran were surveyed and samples with symptoms similar to those induced by Cucurbit chlorotic yellows virus (CCYV) were collected. The pathogen was transmitted to cucumber and melon under greenhouse conditions by whiteflies (Bemisia tabaci). RT‐PCR using designed CCYV‐specific primer pair (CCYV‐F/CCYV‐R) resulted in amplification of the predicted size DNA fragment (870 bp) for the coat protein (CP) gene in samples collected from Boushehr, Eyvanakay and Varamin. Nucleotide sequences of the CP of the three Iranian CCYV isolates were compared with five CCYV isolates obtained from GenBank and analysed. Phylogenetically, all CCYV isolates clustered in two groups; Group I is composed of five non‐Iranian isolates from China, Lebanon, Japan, Sudan and Taiwan, and the three Iranian isolates formed Group 2. Among Iranian isolates, the Eyvanakay isolate clustered in a distinct clade with the Boushehr and Varamin isolates. A phylogenetic tree based on amino acid identity of CP showed that CCYV was closely related to Lettuce chlorosis virus (LCV), Bean yellow disorder virus (BnYDV) and Cucurbit yellow stunting disorder virus (CYSDV). This is the first report of CCYV in Iran.     

Molecular characterization of Indian Sugarcane streak mosaic virus isolates reveals recombination and negative selection in the P1 gene

Sugarcane streak mosaic virus (SCSMV), a member of the genus Poacevirus is an important viral pathogen affecting sugarcane production in India. The P1 gene of ten Indian isolates was sequenced and compared with previously reported SCSMV isolates. Comparative sequence analysis revealed a high level of diversity in the P1 gene (83–98% nucleotide sequence identity; 87–100% amino acid sequence identity), and the Indian SCSMV isolates were found to be the most variable (up to 9% diversity at the amino acid level). Phylogenetic tree analysis showed clustering of 17 SCSMV isolates into two groups: group I included isolates from India (except SCSMV-TPT) and Pakistan, and group II consisted of isolates from Japan, Indonesia, Thailand and SCSMV-TPT. The results obtained from phylogenetic study were further supported by the different in silico analysis viz. SNPs (single nucleotide polymorphism), INDELs (insertion and deletion) and evolutionary distance analysis. A significant proportion of recombination sites were observed at the N terminal region of P1 gene. Analysis of selection pressure indicated that the P1 gene of the Indian SCSMV isolates is under strong negative or purifying selection. It is likely that recombination identified in Indian SCSMV isolates, along with strong purifying selection, enhances the speed of elimination of deleterious mutations in the P1 gene. The evolutionary processes (recombination and selection pressure) together contributed to the observed genetic diversity and population structure of Indian SCSMV isolates.     

Simultaneous Detection of Major Pome Fruit Viruses and a Viroid

A rapid and sensitive two-step RT-PCR protocol for simultaneous detection of major apple viruses, namely Apple mosaic virus (ApMV), Apple stem pitting virus (ASPV), Apple stem grooving virus (ASGV), Apple chlorotic leaf spot virus (ACLSV) and Apple scar skin viroid (ASSVd), was developed. Five specific primer pairs were tested and confirmed for these viruses and viroid together in a single tube, giving amplicons of ~198, ~330, ~370, ~547 and ~645 bp corresponding to ASGV, ASSVd, ASPV, ApMV and ACLSV, respectively. Using a guanidinium-based extraction buffer along with a commercial kit resulted in better quality RNA as compared to kit, suited for multiplex RT-PCR. A rapid CTAB method for RNA isolation from apple tissue was developed, which produce good yield and saves time. To the best of our knowledge, this is the first report on the simultaneous detection of five pathogens (four viruses and a viroid) from apple with NADH dehydrogenase subunit 5 (nad5) as an internal control.     

Molecular characterisation of papaya ringspot potyvirus isolates from India

Papaya ringspot potyvirus (PRSV) causes major diseases of papaya and cucurbits in the Indian subcontinent. Based on biological properties, PRSV isolates are classified as either papaya infecting (P), or non-papaya infecting (W) types. To characterise the P and W isolates from India at the molecular level, c. 1.7 Kb of the 3′-terminal regions comprising a part of the nuclear inclusion b (Nib) gene, the complete capsid protein (CP) gene and the untranslated region (UTR) of both the P and W isolates were cloned and sequenced. Comparative sequence analyses showed that the 3′-UTRs in isolates P and W were 209 nucleotides in length excluding the poly (A) tail, and shared 96% identity. The CP genes of the two isolates were also similar, with 87% nucleotide identity and 93% amino acid identity. The amino acid differences between the CP genes were mostly confined to the amino terminus. The DAG triplet associated with aphid transmissibility was present in the CP of isolate W, but it was replaced by DAD in the P isolate. The partially sequenced Nib genes were also 90% identical, but isolate W contained an additional amino acid (threonine) just upstream of the cleavage site (Q/S) between Nib and CP. This is the first reported comparison of the molecular characterisation of PRSV-P and W isolates from the Indian subcontinent.     

A mixture of begomoviruses in leaf curl-affected tobacco in Karnataka, South India

Tobacco leaf curl is widespread in several states in India including Andhra Pradesh, Gujarat, Karnataka, Bihar and West Bengal. Tobacco leaf curl virus (TbLCV) isolates collected from five different parts of India induced four distinct symptom phenotypes (group I, II, III & IV) on tobacco cultivars Samsun and Anand 119 (Valand & Muniyappa, 1992). PCR was performed on DNA extracted from group I and IV leaf curl‐affected tobacco from Karnataka, India using degenerate begomovirus‐specific primers. Subsequent cloning and sequencing of PCR products revealed preliminary evidence for the presence of at least three begomoviruses in the affected material following alignment of a 333 bp region of the coat protein gene (CP). The complete CP and common region (CR) of two putative begomoviruses, Tobacco leaf curl virus‐Karnataka1 (TbLCV‐Kar1) and Tobacco leaf curl virus‐Karnataka2 (TbLCV‐Kar2), were sequenced using PCR clones obtained with designed sequence‐specific primers. Phylogenetic analysis of the CP and CR of TbLCV‐Kar1 and TbLCV‐Kar2 placed them in the Asian Old World begomovirus cluster. The two viruses differed from each other significantly in both the CP gene and the CR (< 90% nucleotide sequence identity). This difference, in conjunction with distinct iterative sequences strongly suggests that these begomoviruses are distinct from one another. Group I and IV tobacco were also found to harbour a possible third begomovirus following the 333 bp CP alignment. Comparison of TbLCV‐Kar1 and TbLCV‐Kar2 with other geminiviruses, showed that both sequences shared high nucleotide sequence identity (> 90%) with other begomoviruses in either the CP or CR, thereby suggesting these viruses to be possible strains of other reported begomoviruses. Combined comparison of the CP and CR sequences however, suggests that the two viruses are not strains of other reported begomoviruses, but may be distinct begomoviruses that could have arisen through recombination events during mixed infections. Phylogenetic comparison demonstrated no significant homology between the Indian tobacco begomoviruses and a tobacco‐infecting begomovirus from Zimbabwe, again showing that as with other geminiviruses, there is a geographic basis for phylogenetic relationships rather than an affiliation with tobacco as a host.     

Prunus necrotic ringspot virus: incidence on stone and pome fruits and diversity analysis

Stone fruits and pome fruits are cultivated commercially worldwide. In India, they are grown in temperate regions, which mainly includes Jammu and Kashmir, Uttarakhand, Himachal Pradesh and some North-Eastern states. In this study, an attempt has been made to identify the Prunus necrotic ringspot virus (PNRSV) infecting stone and pome fruits in India and to characterise them on the molecular level. Surveys were conducted in the temperate fruit-growing areas and incidence of PNRSV was detected by serological and molecular means in almond, apple, cherry, nectarine, peach, plum and wild cherry. Further diversity analysis of PNRSV was performed using bioinformatics tools such as clustalW, DNA Data Bank of Japan, MultAlin and Recombination Detection Programme. PNRSV was detected in plum, peach, cherry, almond, nectarine, wild cherry and apple. In the diversity analysis study on the basis of coat protein gene, it was found that the isolates showed identity levels from 82 to 100%. In a plum isolate, a stretch of amino acids from 207 to 221 was found variable from Indian and other isolates. In one of the Indian apple isolates, “NR” repeats at 41–44 position (characteristic of PV-32 group, Group I) were identified. Phylogenetic analysis revealed that Indian isolates are falling in Group-I. Movement protein was also amplified from peach and multiple alignment studies showed that N-terminus was mostly conserved, whereas the C-terminal was highly variable.     

Low Genetic Diversity of the Coat Protein Gene among Blueberry Red Ringspot Virus Isolates

Blueberry red ringspot virus (BRRSV) isolates have been investigated for genetic diversity. Nucleotide sequences of the coat protein (CP) gene of 19 isolates from Poland, Czech Republic, Slovenia and the United States were analysed. The nucleotide and amino acid sequence identity were 92–100% and 89–100%, respectively. Estimations of the distribution of synonymous and non‐synonymous changes indicated negative selection within the analysed CP gene and confirmed the genetic stability of the virus. At a capsid protein level, our results revealed BRRSV to be distinct from other, recombination‐prone pararetroviruses.     

Analysis of the Coat Protein Gene of Indian Strain of Apple Stem Grooving Virus

A survey was undertaken in the temperate fruit growing regions of Himachal Pradesh (HP) and Jammu & Kashmir (J&K). Apple stem grooving virus (ASGV), a Capillovirus, was detected in different cultivars of apple, nectarines, plum, cherry, quince and apricot by double antibody sandwich ELISA (DAS-ELISA). The coat protein (CP) gene sequence of an amplicon produced by RT-PCR, confirmed the association of ASGV in apple cultivar Starkrimson, collected from Himachal Pradesh. The CP of Indian ASGV isolate shared 100 % sequence identity with a Brazilian isolate (AF438409). Sequence analysis by Recombination Detection Program (RDP2) indicated no recombination event for the Indian isolate. However, recombination was detected in Chinese, Korean and Citrus tatter leaf virus-Taiwan (CTLV) strains of ASGV. The study describes first report of ASGV infection in India and characterization of its CP gene.     

Genetic diversity and population structure of Sorghum mosaic virus infecting Saccharum spp. hybrids

Sugarcane mosaic disease is widespread in many countries and has been identified to be caused by Sugarcane mosaic virus (SCMV), Sorghum mosaic virus (SrMV) and Sugarcane streak mosaic virus (SCSMV). Viral surveys of SCMV, SrMV and SCSMV were performed from 104 leaf samples of Saccharum spp. hybrid growing in China and two leaf samples in Myanmar. Sorghum mosaic virus was a major causal agent for sugarcane mosaic disease in China whereby 72.1% (75/104) of samples had SrMV infection alone, 6.7% (7/104) were mixed with SCMV and 17.3% (18/104) were mixed with SCSMV. Sugarcane streak mosaic virus infection alone occurred in 3.8% (4/104) of samples, but no single infections were observed for SCMV. Two viruses (SrMV and SCSMV) were detected in sugarcane mosaic samples in Myanmar. Phylogenetic analysis revealed that all of the SrMV isolates were clustered into three major lineages encompassing six phylogroups/genotypes based on the CP sequences (825 nucleotides) of 113 Chinese and 2 Burmese isolates from this study and 73 isolates reported worldwide. Six clearly distinct SrMV phylogroups (G1–G6) were formed and shared 74.3–94.1% nucleotide identity and 84.7–98.1% amino acid identity of CP sequences. SrMV‐G5 was identified to be new distinct phylogroup that was restricted to the Fujian and Guangxi provinces. The unique SrMV‐G6 phylogroup only occurred in Yunnan province. Insertion/deletion mutations, negative selection and frequent gene flow are factors driving the genetic evolution and population structure of SrMV in China.