RESUMO
Cathranthus roseus also known as periwinkle, an ornamental plant contains several medicinal values, was found with the symptoms of little leaf and witches' broom at Shahjahanpur location with the incidence of up to 8%. The phytoplasma etiology was confirmed through scanning electron microscopy examination in all the four-leaf samples. Molecular analysis through PCR with universal primer pairs P1/P6 followed by nested PCR with R16F2n/R16r2 primers yielded ~1.2kbp amplicons in all the four symptomatic leaf samples. One amplicon was eluted, purified, sequenced, and used in BLASTn searches, which showed maximum identity of periwinkle isolate with several isolates of 16SrIX group of phytoplasma. Further, phylogenic analysis and in silico RFLP confirmed the association of 16SrIX-C subgroup phytoplasma in little leaf and witches broom plants which is the first report from India.
Assuntos
Vinca , Doenças por FitoplasmasRESUMO
Apple plants from France introduced in Brazil for research purposes were subjected to a phytosanitary analysis at the Plant Quarantine Laboratory of Embrapa Genetic Resources and Biotechnology (Cenargen). After grafting onto healthy apple rootstock, some plants showed phytoplasma-infection symptoms. Polymerase Chain Reaction (PCR) tests yielded DNA fragments of the expected size for phytoplasmas. DNA sequencing revealed an identity of the 16S rDNA nucleotide sequence of 98-99% with 'Candidatus Phytoplasma solani'. This phytoplasma species is responsible for losses in European apple orchards and has not been reported in Brazil. According to the Federal Legislation on Plant Protection, the plants were incinerated to avoid the introduction of this exotic pest in Brazil.(AU)
Plantas de macieira originárias da França introduzidas no Brasil para fins de pesquisa foram submetidas à análise no Laboratório de Quarentena Vegetal da Embrapa Recursos Genéticos e Biotecnologia (Cenargen). Após realizar a enxertia em porta-enxertos sadios, algumas plantas apresentaram sintomas típicos de infecção por fitoplasmas. Os testes por meio da técnica de reação em cadeia da polimerase (PCR) obtiveram fragmentos de DNA do tamanho esperado para fitoplasmas. O sequenciamento de DNA revelou uma identidade de 98-99% da região 16 rDNA dos fitoplasmas encontrados com o fitoplasma 'Candidatus Phytoplasma solani'. Essa espécie de fitoplasma é responsável por perdas em pomares de maçã europeus e não foi relatada no Brasil. De acordo com a Legislação Federal de Proteção de Plantas, as plantas de macieira foram incineradas para evitar a entrada dessa praga exótica no Brasil.(AU)
Assuntos
Malus , Infecções , Brasil , Reação em Cadeia da Polimerase , Proteção de CultivosRESUMO
A habilidade de insetos picadores-sugadores em transmitir doenças para as plantas está intimamente relacionada ao modo de alimentação e ao tecido alvo. Os percevejos são considerados deimportância econômica mínima como vetores de patógenos de plantas, embora tenham comportamento alimentar semelhante aos homópteros. Os modos de alimentação em Heteroptera incluem dilaceraçãoe bombeamento, penetração intracelular no tecido vascular, e um mecanismo de bomba osmótica paraadquirir os conteúdos celulares sem penetrar a membrana celular. A relação entre a taxonomia dos heterópteros, modo de alimentação e o tipo de patógeno transmitido é explorada através de um levantamento bibliográfico. A transmissão por percevejos de fungos, bactérias, vírus, fitoplasmas e trypanossomatídeos flagelados é sumarizada. Os trypanossomatídeos flagelados de plantas parecem ser hospedados ou transmitidos exclusivamente por Pentatomomorpha (Lygaeioidea, Coreoidea, Pentatomoidea, e Pyrrhocoroidea). A transmissão de bactérias e fungos ocorre entre famílias de ambas infraordens, mas representantes de Miridae (Cimicomorpha) são mais associados com bactérias, enquanto os de Pentatomidae e Coreidae (Pentatomomorpha) predominam como transmissores de fungos. Alguns casos de transmissão de fitoplasmas e vírus são documentados, mas Cimicomorpha (tradicionalmente categorizados como alimentadores do tipo dilacerador-bombeador) estão representados maisfreqüentemente do que o esperado, considerando-se a especificidade por determinados tecidos vegetais desses patógenos. A ênfase da literatura sobre a exclusividade ou predominância do papel dos homópteros como transmissores de doenças pode arrefecer o ímpeto inicial em estudar os percevejos como transmissores; entretanto, os resultados apresentados aqui indicam a necessidade de incluir ospercevejos em levantamentos de potenciais transmissores de doenças.
The ability of piercing-sucking insects to transmit plant disease is closely linked tofeeding mode and target tissue. The true bugs (Heteroptera) are generally considered to be of minimal importance as vectors of plant pathogens, although they share similar feeding behaviors with homopterans. Modes of feeding in Heteroptera include lacerate-and-flush, intracellular penetration to vascular tissue, and an osmotic pump mechanism to acquire cell contents without penetrating the cell membrane. The relationship between heteropteran taxonomy, feeding mode, and the type ofpathogens transmitted is explored through a literature survey of feeding behavior and vectoring capability. Transmission by true bugs of fungal pathogens, bacteria, viruses, phytoplasmas, and trypanosomatid flagellatesis summarized; no records exist of bugs transmitting spiroplasmas.Trypanosomatid flagellates of plants appear to be harbored or transmitted exclusively by Pentatomomorpha (Lygaeioidea, Coreoidea, Pentatomoidea, and Pyrrhocoroidea). Bacterial and fungal transmission occurs among families representing both infraorders of phytophagous Heteroptera, but Miridae (Cimicomorpha) are most closely associated with bacteria, whereas Pentatomidae and Coreidae (Pentatomomorpha) predominate in transmission of fungi. Few cases of transmission of phytoplasmas and viruses are documented, but Cimicomorpha (traditionally categorized as destructive lacerate-andflush feeders) are represented more frequently than expected, considering the tissue specificity of these pathogens. Literature emphasis on the exclusive or predominant role of homopterans as disease vectors may discourage initial investigations of true bugs; based on the results presented here, the necessity of including heteropterans in any survey of potential plant disease vectors is clear.
RESUMO
The history and present status of phytoplasma classification are introduced briefly in this paper.The newly classification methods and rules for the description of Candidatus species are reviewed.The key problems and direction on the classification and identification of phytoplasmas in China are discussed.
RESUMO
A 1 3kb DNA fragment was amplified in DNA samples extracted from periwinkle showed yellows The amplified fragment was ligated into pGEM T easy vector and then transformed into JM109 strain of E coli Cloned DNA fragments were verified by PCR, restriction endonuclease ( Eco RI) digestion and sequence analysis The result revealed that the ribosomal protein gene of PY strain consists of 1244 base pairs, which contains the entire rp l22 gene encoding 129 amino acids and rps3 gene encoding 252 amino acids These two genes are overlap The character of ribosomal protein gene of PY strain is very resemble with that of other phytoplasmas