A TaqMan-PCR protocol for quantification and differentiation of the phytopathogenic Clavibacter michiganensis subspecies

Real-time TaqMan-PCR assays were developed for detection, differentiation and absolute quantification of the pathogenic subspecies of Clavibacter michiganensis (Cm) in one single PCR run. The designed primer pair, targeting intergenic sequences of the rRNA operon (ITS) common in all subspecies, was suitable for the amplification of the expected 223-nt DNA fragments of all subspecies. Closely related bacteria were completely discriminated, except of Rathayibacter iranicus, from which weak PCR product bands appeared on agarose gel after 35 PCR cycles. Sufficient specificity of PCR detection was reached by introduction of the additional subspecies specific probes used in TaqMan-PCR. Only Cm species were detected and there was clear differentiation among the subspecies C. michiganensis sepedonicus (Cms), C. michiganensis michiganensis (Cmm), C. michiganensis nebraskensis (Cmn), C. michiganensis insidiosus (Cmi) and C. michiganensis tessellarius (Cmt). The TaqMan assays were optimized to enable a simultaneous quantification of each subspecies. Validity is shown by comparison with cell counts.     

A quantitative and direct PCR assay for the subspecies-specific detection of Clavibacter michiganensis subsp. michiganensis based on a ferredoxin reductase gene

The Gram-positive bacterium Clavibacter michiganensis subsp. michiganensis is the causal agent of canker disease in tomato. Because it is very important to control newly introduced inoculum sources from commercial materials, the specific detection of this pathogen in seeds and seedlings is essential for effective disease control. In this study, a novel and efficient assay for the detection and quantitation of C. michiganensis subsp. michiganensis in symptomless tomato and red pepper seeds was developed. A pair of polymerase chain reaction (PCR) primers (Cmm141F/R) was designed to amplify a specific 141 bp fragment on the basis of a ferredoxin reductase gene of C. michiganensis subsp. michiganensis NCPPB 382. The specificity of the primer set was evaluated using purified DNA from 16 isolates of five C. michiganensis subspecies, one other Clavibacter species, and 17 other reference bacteria. The primer set amplified a single band of expected size from the genomic DNA obtained from the C. michiganensis subsp. michiganensis strains but not from the other C. michiganensis subspecies or from other Clavibacter species. The detection limit was a single cloned copy of the ferredoxin reductase gene of C. michiganensis subsp. michiganensis. In conclusion, this quantitative direct PCR assay can be applied as a practical diagnostic method for epidemiological research and the sanitary management of seeds and seedlings with a low level or latent infection of C. michiganensis subsp. michiganensis.     

Biological suppression of potato ring rot by fluorescent pseudomonads.

Three strains of fluorescent pseudomonads (IS-1, IS-2, and IS-3) isolated from potato underground stems with roots showed in vitro antibiosis against 30 strains of the ring rot bacterium Clavibacter michiganensis subsp. sepedonicus. On the basis of morphological and biochemical tests and fatty acid analysis, IS-1 and IS-2 were identified as Pseudomonas aureofaciens and IS-3 was identified as P. fluorescens biovar III. IS-1 was the most inhibitory to C. michiganensis subsp. sepedonicus strains in vitro, followed by IS-3 and IS-2. Suppression of ring rot by these antagonists was demonstrated in greenhouse trials with stem-cultured potato (cv. Russet Burbank) seedlings. Although each antagonist significantly reduced C. michiganensis subsp. sepedonicus populations, only IS-1 reduced infection by C. michiganensis subsp. sepedonicus. In a second experiment, treatment with IS-1 (10(9) CFU/ml) significantly reduced ring rot infection by 23.4 to 26.7% after 5 to 8 weeks. The average C. michiganensis subsp. sepedonicus population was also significantly reduced by 50 to 52%. Application of different combinations of antagonist strains was not more effective than single-strain treatment.     

Biological suppression of potato ring rot by fluorescent pseudomonads.

Three strains of fluorescent pseudomonads (IS-1, IS-2, and IS-3) isolated from potato underground stems with roots showed in vitro antibiosis against 30 strains of the ring rot bacterium Clavibacter michiganensis subsp. sepedonicus. On the basis of morphological and biochemical tests and fatty acid analysis, IS-1 and IS-2 were identified as Pseudomonas aureofaciens and IS-3 was identified as P. fluorescens biovar III. IS-1 was the most inhibitory to C. michiganensis subsp. sepedonicus strains in vitro, followed by IS-3 and IS-2. Suppression of ring rot by these antagonists was demonstrated in greenhouse trials with stem-cultured potato (cv. Russet Burbank) seedlings. Although each antagonist significantly reduced C. michiganensis subsp. sepedonicus populations, only IS-1 reduced infection by C. michiganensis subsp. sepedonicus. In a second experiment, treatment with IS-1 (10(9) CFU/ml) significantly reduced ring rot infection by 23.4 to 26.7% after 5 to 8 weeks. The average C. michiganensis subsp. sepedonicus population was also significantly reduced by 50 to 52%. Application of different combinations of antagonist strains was not more effective than single-strain treatment.     

Identification of aster yellows phytoplasma in garlic and green onion by PCR-based methods

In the summer of 1999, typical yellows-type symptoms were observed on garlic and green onion plants in a number of gardens and plots around Edmonton, Alberta, Canada. DNA was extracted from leaf tissues of evidently healthy and infected plants. DNA amplifications were conducted on these samples, using two primer pairs, R16F2n/R2 and R16(1)F1/R1, derived from phytoplasma rDNA sequences. DNA samples of aster yellows (AY), lime witches'-broom (LWB) and potato witches'-broom (PWB) phytoplasmas served as controls and were used to determine group relatedness. In a direct polymerase chain reaction (PCR) assay, DNA amplification with universal primer pair R16F2n/R2 gave the expected amplified products of 1.2 kb. Dilution (1/40) of each of the latter products were used as template and nested with specific primer pair R16(1)F1/R1. An expected PCR product of 1.1 kb was obtained from each phytoplasma-infected garlic and green onion samples, LWB and AY phytoplasmas but not from PWB phytoplasma. An aliquot from each amplification product (1.2 kb) with universal primers was subjected to PCR-based restriction fragment length polymorphism (RFLP) to identify phytoplasma isolates, using four restriction endonucleases (AluI, KpnI, MseI and RsaI). DNA amplification with specific primer pair R16(1)F1/R1 and RFLP analysis indicated the presence of AY phytoplasma in the infected garlic and green onion samples. These results suggest that AY phytoplasma in garlic and green onion samples belong to the subgroup 16Sr1-A.     

Stable transformation of the gram-positive phytopathogenic bacterium Clavibacter michiganensis subsp. sepedonicus with several cloning vectors.

In this paper we describe transformation of Clavibacter michiganensis subsp. sepedonicus, the potato ring rot bacterium, with plasmid vectors. Three of the plasmids used, pDM100, pDM302, and pDM306, contain the origin of replication from pCM1, a native plasmid of C. michiganensis subsp. michiganensis. We constructed two new cloning vectors, pHN205 and pHN216, by using the origin of replication of pCM2, another native plasmid of C. michiganensis subsp. michiganensis. Plasmids pDM302, pHN205, and pHN216 were stably maintained without antibiotic selection in various strains of C. michiganensis subsp. sepedonicus. We observed that for a single plasmid, different strains of C. michiganensis subsp. sepedonicus showed significantly different transformation efficiencies. We also found unexplained strain-to-strain differences in stability with various plasmid constructions containing different arrangements of antibiotic resistance genes and origins of replication. We examined the effect of a number of factors on transformation efficiency. The best transformation efficiencies were obtained when C. michiganensis subsp. sepedonicus cells were grown on DM agar plates, harvested during the early exponential growth phase, and used fresh (without freezing) for electroporation. The maximal transformation efficiency obtained was 4.6 x 10(4) CFU/microgram of pHN216 plasmid DNA. To demonstrate the utility of this transformation system, we cloned a beta-1,4-endoglucanase-encoding gene from C. michiganensis subsp. sepedonicus into pHN216. When this construction, pHN216:C8, was electroporated into competent cells of a cellulase-deficient mutant, it restored cellulase production to almost wild-type levels.     

Detection and Molecular Characterization of a Phytoplasma Associated with Big Bud Disease of Tomatoes in Jordan

Tomato big bud was detected for the first time in tomato plants (Lycopersicon esculentum Mill.) in the eastern region (Al‐Mafraq) of Jordan. Infected plants showed proliferation of lateral shoots, hypertrophic calyxes and greening of flower petals. The presence of phytoplasmas in diseased tomato plants was demonstrated using polymerase chain reaction (PCR) assays. The amplified DNAs yielded products of 1.8 kb (primer pair P1/P7) and 1.2 kb (primer pair R16F2/R2) by direct and nested‐PCR, respectively. DNA from tomato isolates T1 and T2 could not be amplified in the nested‐PCR assays when the aster yellow‐specific primer pair R16(1)F1/R1 was used, suggesting that the phytoplasma in these isolates is not genetically related to the 16SrI (aster yellows) group. After restriction fragment length polymorphism (RFLP) analyses, using four endonuclease enzymes (HhaI, RsaI, AluI and Bsp143I) similar patterns were formed among the digested 1.2 kb PCR products of two tomato isolates suggesting that both isolates belonged to the same phytoplasma. Compared with the RFLP profile of the reference strains, no difference in the digestion pattern was found between the tomato isolates and that of the catharanthus phyllody agent from Sudan, indicating that the phytoplasma belongs to 16SrDNA VI (clover proliferation) group.     

Niger Seed (Guizotia abyssinica), a New Host of ‘Candidatus Phytoplasma asteris’ in Iran

Shrubs of niger seed with phyllody and internode elongation symptoms suggestive of phytoplasma infections occurred in the central regions of Iran. Phytoplasma was detected by polymerase chain reaction (PCR) and nested PCR amplifications using phytoplasma universal primer pairs P1/P7 and R16F2n/R16R2. Using aster yellows group–specific primer pair rp(I)F1A/rp(I)R1A, a fragment of 1212 bp of the rp genes was amplified from DNA samples of infected plants. Random fragment length polymorphism (RFLP) analyses of R16F2n/R16R2‐amplified products using the CfoI restriction enzyme confirmed that Iranian niger seed phyllody phytoplasma is associated with aster yellows group phytoplasmas. Sequence analyses of the partial rp genes fragment indicated that the Iranian niger seed phyllody phytoplasma, which was collected from central regions of Iran, is related to ‘Candidatus Phytoplasma asteris’. This is the first report of a phytoplasma infecting the niger seed plant.     

Molecular Characterization of a Phytoplasma Associated with Potato Witches’‐broom Disease in Iran

Potato plants showing symptoms suggestive of potato witches’‐broom disease including witches’‐broom, little leaf, stunting, yellowing and swollen shoots formation in tubers were observed in the central Iran. For phytoplasma detection, Polymerase Chain Reaction (PCR) and nested PCR assays were performed using phytoplasma universal primer pair P1/P7, followed by primer pair R16F2n/R16R2. Random fragment length polymorphism analysis of potato phytoplasma isolates collected from different production areas using the CfoI restriction enzyme indicated that potato witches’‐broom phytoplasma isolate (PoWB) is genetically different from phytoplasmas associated with potato purple top disease in Iran. Sequence analysis of the partial 16S rRNA gene amplified by nested PCR indicated that ‘Candidatus Phytoplasma trifolii’ is associated with potato witches’‐broom disease in Iran. This is the first report of potato witches’‐broom disease in Iran.     

Aster Yellows Phytoplasma Identified in Scentless Chamomile by Microscopical Examinations and Molecular Characterization

Scentless chamomile (Matricaria perforata Mérat) plants were commonly found infected with a yellows-type disease caused by phytoplasma in several fields in Alberta, Canada. Typical phytoplasmas were detected in the phloem cells in ultrathin sections from leaf, stem, root and flower petiole tissues examined by electron microscopy. Application of 4′6-diamidino-2-phenylindole- 2HCl (DAPI) staining techniques confirmed the presence of the phytoplasma in these tissues. These observations were supported by polymerase chain reaction (PCR) assays, using two primer pairs, P1/P6 and R16(1)F1/R1, derived from phytoplasma rDNA sequences. Aster yellows and potato witches′-broom (PWB) DNA phytoplasma samples served as positive controls and were used to study group relatedness. In a direct PCR assay, DNA amplification with universal primer pair P1/P6 gave the expected PCR products of 1.5 kb. Based on a nested-PCR assay using the latter PCR products, as templates, and a specific primer pair R16(1)F1/R1 designed on the basis of AY phytoplasma rDNA sequences, a PCR product of 1.1 kb was obtained from each phytoplasma-infected chamomile and AY samples but not from PWB phytoplasma and healthy chamomile controls. DNA amplification with specific primer pair R16(1)F1/R1 and restriction fragment length polymorphism indicated the presence of AY phytoplasma in the infected scentless chamomile sample.     

Molecular Characterization of Phytoplasmas Associated with Potato Purple Top Disease in Iran

Potato plants with symptoms suggestive of potato purple top disease (PPTD) occurred in the central, western and north‐western regions of Iran. Polymerase chain reaction (PCR) and nested PCR assays were performed using phytoplasma universal primer pair P1/P7 followed by primer pairs R16F2n/R16R2 and fU5/rU3 for phytoplasma detection. Using primer pairs R16F2n/R16R2 and fU5/rU3 in nested PCR, the expected fragments were amplified from 53% of symptomatic potatoes. Restriction fragment length polymorphism (RFLP) analysis using AluI, CfoI, EcoRI, KpnI, HindIII, MseI, RsaI and TaqI restriction enzymes confirmed that different phytoplasma isolates caused PPTD in several Iranian potato‐growing areas. Sequences analysis of partial 16S rRNA gene amplified by nested PCR indicated that ‘Candidatus Phytoplasma solani’, ‘Ca. Phytoplasma astris’ and ‘Ca. Phytoplasma trifolii’ are prevalent in potato plants showing PPTD symptoms in the production areas of central, western and north‐western regions of Iran, although ‘Ca. Phytoplasma solani’ is more prevalent than other phytoplasmas. This is the first report of phytoplasmas related to ‘Ca. Phytoplasma astris’, ‘Ca. Phytoplasma solani’ and ‘Ca. Phytoplasma trifolii’ causing PPTD in Iran.     

Molecular Characterization of Phytoplasmas Associated with Peach Diseases in Iran

Recently, peach trees showing leaf rolling, little leaf, rosetting, yellowing, bronzing of foliage and tattered and shot‐holed leaves symptoms were observed in peach growing areas in the central and north‐western regions of Iran. Polymerase chain reaction (PCR) and nested PCR using phytoplasma universal primer pairs P1/Tint, R16F2/R2, PA2F/R and NPA2F/R were employed to detect phytoplasmas. The nested PCR assays detected phytoplasma infections in 51% of symptomatic peach trees in the major peach production areas in East Azerbaijan, Isfahan, ChaharMahal‐O‐Bakhtiari and Tehran provinces. Restriction fragment length polymorphism (RFLP) analyses of 485 bp fragments amplified using primer pair NPA2F/R in nested PCR revealed that the phytoplasmas associated with infected peaches were genetically different and they were distinct from phytoplasmas that have been associated with peach and almond witches’‐broom diseases in the south of Iran. Sequence analyses of partial 16S rDNA and 16S–23S rDNA intergenic spacer regions demonstrated that ‘Candidatus Phytoplasma aurantifolia’, ‘Ca. Phytoplasma solani’ and ‘Ca. Phytoplasma trifolii’ are prevalent in peach growing areas in the central and north‐western regions of Iran.     

Differentiation and Classification of Phytoplasmas Associated with Almond and GF‐677 Witches'‐Broom Diseases using rRNA and rp Genes

Stone fruits are affected by several diseases associated with plant pathogenic phytoplasmas. Previous studies have been shown that phytoplasma agents of almond and GF‐677 witches'‐broom (AlmWB and GWB, respectively) diseases belong to pigeon pea witches'‐broom (16SrIX) phytoplasma group. In this study, partial biological and molecular characterization was used to compare and classify phytoplasma agents of Khafr AlmWB (KAlmWB) and Estahban GWB (EGWB) diseases. Production of different symptoms in periwinkle indicated that agents of KAlmWB and EGWB are differentiable. Expected fragments were amplified from diseased almond and GF‐677 trees in direct PCR using phytoplasma universal primer pairs P1/P7 and rpF1/rpR1 and nested PCR using P1/P7 followed by R16F2n/ R16R2 primer pair. 16S‐rDNA Restriction fragment length polymorphism (RFLP) as well as phylogenetic analysis of rplV‐rpsC and 16S–23S rRNA spacer region sequences classified KAlmWB and EGWB phytoplasmas within 16SrIX‐C (rpIX‐C) and 16SrIX‐B (rpIX‐B) subgroups, respectively.     

First report on molecular detection of a stolbur phytoplasma (Group16SrXII-A) associated with kenaf (Hibiscus cannabinus L.) in India

Infection of stolbur phytoplasma was detected in kenaf (Hibiscus cannabinus) plants at CRIJAF research farm, Barrackpore, India. The infected plants formed profuse short branches at the top with bushy and bunchy top appearance. PCR with universal 16S rDNA phytoplasma primers P1/P7 yielded amplicons of 1.5 kb from all symptomatic leaf samples. Nested PCR with 16S-rDNA-specific nested primer pair R16F2n/R2 generated an amplicon of 1241 bp confirming the presence of a phytoplasma. The nested PCR products were sequenced and BALSTn analysis revealed 100% identity with 16S rRNA gene of phytoplasma. Phylogenetic analysis showed kenaf phytoplasma having 99% identity with both “Bois noir” stolbur phytoplasma 16SrXII group (Accession no: JQ181540). The RFLP data also supported the phylogenetic analysis. Multi-locus sequence characterisation assay was conducted by using different locus-specific primers viz. tuf, rpsC-rplV, rplF-rplR, map-SecY and uvrB-degV. The infected phytoplasma samples amplified only SecY gene and generated 1224 bp product which was deposited at NCBI (accession no: KC508636).     

Detection of aster yellows phytoplasma in false flax based on PCR and RFLP

False flax (Camelina sativa L.) plants were found to be infected with a yellows-type disease caused by a phytoplasma in experimental plots at the Edmonton Research station. Alberta, Canada. Typical phytoplasmas were detected in the phloem cells in ultrathin sections from leaf midrib tissues examined by electron microscopy. These observations were supported by polymerase chain reaction (PCR) using two primer pairs, R16 F2n/R2 and R16(1)F1/R1, derived from phytoplasma rDNA sequences. Aster yellows (AY) and potato witches'-broom (PWB) phytoplasma DNA samples served as controls and were used to study group relatedness. In a direct PCR assay, DNA amplification with universal primer pair R16F2n/R2 gave the expected PCR products of 1.2 kb. Based on a nested-PCR assay using the latter PCR products as templates, and a specific primer pair, R16(1)F1/R1, designed on the basis of AY phytoplasma rDNA sequences, a PCR product of 1.1 kb was obtained from each phytoplasma-infected false flax and AY sample, but not from PWB phytoplasma and healthy controls. DNA amplification with specific primer pair R16(1)F1/R1 and restriction fragment length polymorphism indicated the presence of AY phytoplasma in the infected false flax sample. This is the first reported characterization of AY phytoplasma in false flax.     

First Report of Phytoplasma (16SrI) Associated with Yellow Decline Disease of Royal Palms [Roystonea regia (Kunth) O. F. Cook] in Malaysia

Royal Palms (Roystonea regia) with symptoms such as severe chlorosis, stunting, collapse of older fronds and general decline were observed in the state of Selangor, Malaysia. Using polymerase chain reaction (PCR) amplification with phytoplasma universal primer pair P1/P7 followed by R16F2N/R16R2 and fU5/rU3 as nested PCR primer pairs, all symptomatic plants tested positively for phytoplasma. Results of phylogenetic and virtual RFLP analysis of the 16S rRNA gene sequences revealed that the phytoplasma associated with Royal Palm yellow decline (RYD) was an isolate of ‘Candidatus Phytoplasma asteris’ belonging to a new 16SrI‐subgroup. These results show that Roystonea regia is a new host for the aster yellows phytoplasma (16SrI). This is the first report on the presence of 16SrI phytoplasma on Royal Palm trees in Malaysia.     

Clavibacter michiganensis subsp. michiganensis: first steps in the understanding of virulence of a Gram-positive phytopathogenic bacterium

Clavibacter michiganensis subsp. michiganensis is a plant-pathogenic actinomycete. It infects tomato, spreads through the xylem and causes bacterial wilt and canker. The wild-type strain NCPPB382 carries two plasmids, pCM1 and pCM2. The cured plasmid-free derivative CMM100 is still able to colonize tomato, but no disease symptoms develop indicating that all genes required for successful infection, establishment and growth in the plant reside on the chromosome. Both plasmids carry one virulence factor, a gene encoding a cellulase, CelA in case of pCM1 and a putative serine protease Pat-1 on pCM2. These genes can independently convert the non-virulent strain CMM100 into a pathogen causing wilt on tomatoes. Currently, genome projects for Cmm and the closely related potato-pathogen C. michiganensis subsp. sepedonicus have been initiated. The data from the genome project shall give clues on further genes involved in plant-microbe interaction that can be tested experimentally. Especially, identification of genes related to host-specificity through genome comparison of the two subspecies might be possible.     

Molecular Characterization of Aster Yellows Phytoplasma Associated with Valerian and Sowthistle Plants by PCR–RFLP Analyses

In Alberta, Canada, valerian grown for medicinal purposes and sowthistle, a common weed, showed typical aster yellows symptoms. Molecular diagnosis was made using a universal primer pair (P1 / P7) designed to amplify the entire 16S rRNA gene and the 16 / 23S intergenic spacer region in a direct polymerase chain reaction (PCR) assay. This primer pair amplified the DNA samples from valerian and sowthistle and reference controls (AY‐27, CP, PWB, AY of canola, LWB). They produced the expected PCR products of 1.8 kb, which were diluted and used as templates in a nested PCR. Two primer pairs R16F2n / R2 and P3 / P7 amplified the DNA templates giving PCR products of 1.2 and 0.32 kb, respectively. No PCR product was obtained with either set of primers and DNA isolated from healthy plants. Restriction fragment length polymorphism (RFLP) was used to analyse the partial 16S rDNA sequences (1.2 kb) of all phytoplasma DNA samples after restriction with four endonucleases (AluI, HhaI, MseI and RsaI). The restriction patterns of these strains were found to be identical with the RFLP pattern of the AY phytoplasma reference control (AY‐27 strain). Based on the RFLP data, the two strains are members of subgroup A of the AY 16Sr1 group. We report here the first molecular study on the association of AY phytoplasmas with valerian and sowthistle plants.     

Detection and Identification of Group 16SrVI Phytoplasma in Willows in China

In 2010 and 2011, willow proliferation disease was observed in Erdos, Inner Mongolia, China. The phytoplasma‐specific 16S rRNA gene fragment of 1.2 kb was amplified by a nested PCR with universal primer pair P1/P7 followed by R16F2n/R2. Phylogenetic and virtual RFLP analyses revealed that the phytoplasma associated with willow proliferation was a member of subgroup 16SrVI‐A. The field survey indicated that the incidence of willow proliferation in Erdos was approximately 36.84%. To our knowledge, this is the first record of group 16SrVI phytoplasma infecting willow in China.     

A multiplex nested PCR assay for simultaneous detection of Corchorus golden mosaic virus and a phytoplasma in white jute (Corchorus capsularis L.)

A multiplex nested PCR assay was developed by optimizing reaction components and reaction cycling parameters for simultaneous detection of Corchorus golden mosaic virus (CoGMV) and a phytoplasma (Group 16Sr V‐C) causing little leaf and bunchy top in white jute (Corchorus capsularis). Three sets of specific primers viz. a CoGMV specific (DNA‐A region) primer, a 16S rDNA universal primer pair P1/P7 and nested primer pair R16F2n/R2 for phytoplasmas were used. The concentrations of the PCR components such as primers, MgCl₂, Taq DNA polymerase, dNTPs and PCR conditions including annealing temperature and amplification cycles were examined and optimized. Expected fragments of 1 kb (CoGMV), 674 bp (phytoplasma) and 370 bp (nested R16F2n/R2) were successfully amplified by this multiplex nested PCR system ensuring simultaneous, sensitive and specific detection of the phytoplasma and the virus. The multiplex nested PCR provides a sensitive, rapid and low‐cost method for simultaneous detection of jute little leaf phytoplasma and CoGMV. Based on BLASTn analyses, the phytoplasma was found to belong to the Group 16Sr V‐C.

Significance and Impact of the Study

Incidence of phytoplasma diseases is increasing worldwide and particularly in the tropical and subtropical world. Co‐infection of phytoplasma and virus(s) is also common. Therefore, use of single primer PCR in detecting these pathogens would require more time and effort, whereas multiplex PCR involving several pairs of primers saves time and reduces cost. In this study, we have developed a multiplex nested PCR assay that provides more sensitive and specific detection of Corchorus golden mosaic virus (CoGMV) and a phytoplasma in white jute simultaneously. It is the first report of simultaneous detection of CoGMV and a phytoplasma in Corchorus capsularis by multiplex nested PCR.