Classification of plant-pathogenic mycoplasma-like organisms using restriction-site analysis of PCR-amplified 16S rDNA

Schneider, Bernd; Ahrens, U.; Kirkpatrick, Bruce C.; Seemüller, E.

doi:10.1099/00221287-139-3-519

Cited by 216 publications

(190 citation statements)

References 31 publications

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“…To date, the most reliable classifications of phytoplasmas have been based on DNA restriction analysis and phylogenetic sequence analysis, usually of the PCR-amplified 16s rRNA gene plus 16s-23s rRNA intergenic spacer region (R. E. ; R. I. Gundersen et al, 1994Gundersen et al, , 1996Lee et al, 1993;Namba et al, 1993;Schneider et al, 1993Schneider et al, , 1995aSeemuller et al, 1994). These analyses have allowed the provisional classification of phytoplasmas from Europe, North America, Asia and Australia.…”

Section: Introductionmentioning

confidence: 99%

Phylogenetic positions of phytoplasmas associated with dieback, yellow crinkle and mosaic diseases of papaya, and their proposed inclusion in ' Candidatus Phytoplasma australiense' and a new taxon, 'Candidatus Phytoplasma australasia'

White

Blackall

Scott

et al. 1998

International Journal of Systematic Bacteriology

117

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DNA extracted from three papaya (Carica papaya L.) plants, individually affected by dieback, yellow crinkle or mosaic diseases, was subjected to PCR using phytoplasma-specific primers to amplify the 165 rRNA gene plus 165-235 rRNA intergenic spacer region. Near-complete DNA sequences obtained for the three PCR amplimers were subjected to phylogenetic analyses and direct sequence comparison with other phytoplasma 165 rDNA and 165-235 spacer region DNA sequences. The papaya yellow crinkle (PpYC) and papaya mosaic (PpM) sequences were identical to each other, but distinctly different from the papaya dieback (PpDB) sequence, showing 9003% identity in the 165 rDNA and 8708% identity in the 165-235 spacer region DNA sequences. A phylogenetic tree based on 165 rDNA sequences was calculated, in which PpYC and PpM are most closely related to the tomato big bud phytoplasma (TBB; 99.7% 165 rDNA sequence identity) from Australia, within subclade iii. This subclade consists of strains only reported occurring in the Southern Asian region and Australia, which indicates an Asian/Australasian origin. PpDB is most closely related to the Phormium yellow leaf phytoplasma from New Zealand (PYL; 99.9% identity) and the Australian grapevine yellows phytoplasma (AGY; 99.7 YO identity). These three phytoplasma strains form a distinct clade within subclade xii, which also includes the European strains STOL and VK as another distinct clade. The origin of the closely related but geographically separated AGY-like strains and STOL-like strains of subclade xii is unclear. It is proposed that phytoplasma strains PpDB, PYL and AGY be included in the previously described taxon Candidatus Phytoplasma australiense ' 8 and that PpYc, PpM and TBB be assigned to a new taxon, Candidatus Phytoplasma australasia I .

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Section: Introductionmentioning

confidence: 99%

Phylogenetic positions of phytoplasmas associated with dieback, yellow crinkle and mosaic diseases of papaya, and their proposed inclusion in ' Candidatus Phytoplasma australiense' and a new taxon, 'Candidatus Phytoplasma australasia'

White

Blackall

Scott

et al. 1998

International Journal of Systematic Bacteriology

117

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“…However, serological methods weren't always sensitive enough to detect various phytoplasmas (13,47). Finally, in the early 1990's PCR coupled with RFLP analysis allowed the accurate identification of different strains and species of phytoplasma (127,91,145). Nowadays, diagnosis of phytoplasmas is routinely done by PCR and can be divided into three phases: total DNA extraction from symptomatic tissue or insects; PCR amplification of phytoplasma-specific DNA; characterization of the amplified DNA by sequencing, RFLP analysis or nested PCR with group-specific primers (117).…”

Section: Laboratory Diagnostic Of Phytoplasmasmentioning

confidence: 99%

“…More specific detection methods involve using phytoplasma-specific primers or differentiation on the basis of phylogenetic RFLP analysis of PCR amplified sequences (91,145). RFLP analysis of PCR amplified DNA sequences using a number of endonuclease restriction enzymes (93).…”

Section: Restriction Fragment Length Polymorphism (Rflp)mentioning

confidence: 99%

Polymerase Chain Reaction for Phytoplasmas Detection

Delić¹

2012

Polymerase Chain Reaction

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“…The DNA amplified using protocol II was digested with Bcll and EcoRI to determine if the amplified DNA corresponded to the 16S rDNA of prokaryotes or chloroplasts. The chloroplast 16S rDNA has one or more restriction sites for BclI, while the prokaryotic 16S rDNA has none (27). The latter also has a centrally located restriction site for EcoRI (27) absent from chloroplast 16S rDNA (pea, EMBL accession no.…”

mentioning

confidence: 99%

“…The chloroplast 16S rDNA has one or more restriction sites for BclI, while the prokaryotic 16S rDNA has none (27). The latter also has a centrally located restriction site for EcoRI (27) absent from chloroplast 16S rDNA (pea, EMBL accession no. X55033).…”

mentioning

confidence: 99%

Polymerase Chain Reaction Detection and Phylogenetic Characterization of an Agent Associated with Yellow Vine Disease of Cucurbits

Ávila¹,

Bruton²,

Fletcher³

et al. 1998

Phytopathology®

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Diagnosis of yellow vine disease (YVD) in cucurbits, an important disease in the south-central United States, relies on external symptom appearance, phloem discoloration, and the presence of bacterium-like organisms (BLOs) in phloem. Polymerase chain reaction (PCR) amplification of BLO nucleotide sequences was explored as a means to improve diagnostic techniques. PCR, using a primer pair based on sequences of the citrus-greening BLO, amplified a 0.15-kilobase (kb) fragment from the DNA of symptomatic plants, but not from that of asymptomatic plants. Its nucleotide sequence suggested that the DNA amplified was of pro-karyotic origin. A primer pair, designed to amplify nonspecific prokaryotic 16S rDNA, amplified a 1.5-kb DNA fragment in both the symptomatic and asymptomatic plants. The 1.5-kb fragment from the asymptomatic plants corresponded to chloroplast 16S rDNA, and the band from the symptomatic plants was composed of 16S rDNAs from both chloroplasts and a prokaryote. The nucleotide sequence of the prokaryotic DNA was determined and used to design three primers (YV1, YV2, and YV3). Fragments of 0.64 and 1.43 kb were amplified with primers YV1-YV2 and primers YV1-YV3, respectively, from symptomatic plants. Neither primer set yielded fragments from asymptomatic plants, unrelated bacteria, or selected soilborne fungal pathogens of cucurbits. Phylogenetic analysis indicated that the prokaryote is a gamma-3 proteobacterium. The consistent association of the 0.64- and 1.43-kb fragments with symptomatic plants suggests that the gamma-3 proteobacterium may be the causal agent of YVD of cantaloupe, squash, and watermelon.

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Classification of plant-pathogenic mycoplasma-like organisms using restriction-site analysis of PCR-amplified 16S rDNA

Cited by 216 publications

References 31 publications

Phylogenetic positions of phytoplasmas associated with dieback, yellow crinkle and mosaic diseases of papaya, and their proposed inclusion in ' Candidatus Phytoplasma australiense' and a new taxon, 'Candidatus Phytoplasma australasia'

Phylogenetic positions of phytoplasmas associated with dieback, yellow crinkle and mosaic diseases of papaya, and their proposed inclusion in ' Candidatus Phytoplasma australiense' and a new taxon, 'Candidatus Phytoplasma australasia'

Polymerase Chain Reaction for Phytoplasmas Detection

Polymerase Chain Reaction Detection and Phylogenetic Characterization of an Agent Associated with Yellow Vine Disease of Cucurbits

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