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Molecular characteristics and functional analysis of the β‐1,4‐endoglucanase Bm‐eng‐1 gene of Bursaphelenchus mucronatus (Nematoda: Aphelenchoididae) 
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下载免费PDF全文 The pine nematode Bursaphelenchus mucronatus has been associated with pine wilt in China. This work was intended to investigate the role of the pathogenicity‐related β‐1,4‐endoglucanase gene of B. mucronatus in the infection of pines. In this study, the full‐length cDNA of the Bm‐eng‐1 gene was cloned and characterized from a B. mucronatus isolate. Phylogenetic analysis suggested that the Bm‐eng‐1 gene of B. mucronatus may be acquired from fungi through horizontal gene transfer. The function of the gene was demonstrated using RNA interference. RNA interference indicated that Bm‐eng‐1 was involved in the dispersal, reproductive ability and pathogenicity of B. mucronatus. In situ hybridization showed that Bm‐eng‐1 was specifically expressed in the oesophageal gland of B. mucronatus. Furthermore, to investigate the relation between β‐1,4‐endoglucanase activities and virulence of different isolates, the β‐1,4‐endoglucanase activities and the expression levels of Bm‐eng‐1 were detected in six B. mucronatus isolates with different virulence. β‐1,4‐Endoglucanase activity was generally higher in pathogenic isolates than in non‐pathogenic isolates, and the Bm‐eng‐1 expression levels in different isolates were positively correlated with the β‐1,4‐endoglucanase activity. These findings suggested that β‐1,4‐endoglucanase plays important roles in the pathogenic process of B. mucronatus, and the differential expression of the gene may underlie the different activity levels of β‐1,4‐endoglucanase, subsequently influencing variations in virulence of B. mucronatus isolates. 相似文献
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Initial characterization of an unidentified Armillaria isolate from Serbia using LSU‐IGS1 and TEF‐1‐α genes 下载免费PDF全文
下载免费PDF全文 Armillaria species have a global distribution and play variable ecological roles, including causing root disease of diverse forest, ornamental and horticultural trees. Accurate identification of Armillaria species is critical to understand their distribution and ecological roles. This work focused on characterizing an unidentified Armillaria isolate from a Serbian forest using pairing, sequencing of the partial large subunit and intergenic spacer‐1 regions of rDNA (LSU‐IGS1) and the translation elongation factor‐1 alpha gene (tef‐1α) genes, and phylogenetic analyses. Despite previously obtained LSU‐IGS1 RFLP patterns that matched the newly described North American Armillaria altimontana, pairing tests and phylogenetic analyses of LSU‐IGS1 and tef‐1α sequences clearly demonstrate that the unidentified isolate is not A. altimontana. Based on LSU‐IGS1, Armillaria gallica isolates were polyphyletic, and the Serbian isolate clustered with a subset of European A. gallica isolates within a well‐supported clade (99%). Based on tef‐1α, the Serbian isolate appeared as a separate, well‐supported clade (97%) that was basal to other poorly resolved, polyphyletic clades containing European A. gallica isolates. It is speculated that the unidentified Armillaria isolate from Serbia could represent an evolutionary ancestral state because of its separate, basal position compared with other clades comprising polyphyletic European A. gallica isolates. Alternatively, this unidentified Serbian isolate could represent an unusual hybrid because of its high‐level sequence heterogeneity, represented by multiple two‐nucleotide codes, within tef‐1α. Further characterization is needed to confirm the taxonomic status and ecological/evolutionary significance of this unique, unknown Armillaria isolate from Serbia. 相似文献
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In recent years, a considerable number of studies have harnessed the power of genomics to decipher the role of pathogenesis‐related (PR) proteins in plant defence against various biotic and abiotic stresses. Chitinases are PR antifungal proteins expressed constitutively at low levels in plants and induced during biotic pressures and are demonstrated to be involved in the plant defence responses. Remarkable induction of chitinase enzymes by various abiotic agents (salicylic acid, jasmonic acid, ethylene and ozone) and biotic components (pathogens, insect pest, fungal cell wall components and oligosaccharides) is well demonstrated in plants. Several reviews on plant chitinase expression during host–pathogen interaction are available for annual species, whilst reports of their expression in tree species are limited to a few woody perennials: Populus, Pinus, Picea, Eucalyptus, Castanea and Pseudotsuga. The aim of this paper is to review the induction of chitinase during various stresses and developmental processes in forest tree species. 相似文献
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To examine the effects of salicylic acid (SA), the ethylene precursor 1‐aminocyclopropan‐1‐carboxylic acid (ACC) and methyl jasmonate (MJ), which induce defence responses against pathogen in plants, on foliar endophytic fungi, we performed exogenous treatments of Quercus serrata leaves with these chemicals and subsequently isolated endophytic fungi. SA and ACC significantly reduced the isolation frequency of the most dominant fungus, a Xylaria species as identified by sequence analysis of the internal transcribed spacer (ITS) region of the ribosomal DNA. In contrast, the frequency of the second most frequent fungus increased by SA and ACC. A few other fungi were also affected positively or negatively. Shannon diversity indices decreased by all treatments because of the uneven isolation frequencies of the endophytes. Our results imply that host defence responses induced by the chemical treatments reduced the number of infections of some endophytes while the frequency of some other endophytes increased benefiting from the reduction of competitors. 相似文献
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H.‐Q. Mou X. Xu R.‐R. Wang Q. Tian Y. Wei S.‐F. Zhu X.‐L. Liao W.‐J. Zhao 《Forest Pathology》2014,44(1):56-61
This article reports Salix tetradenia Hand.‐Mazz as a new host of Candidatus phytoplasma and demonstrates its association with witches' broom disease on S. tetradenia plants. Plants exhibited typical visual symptoms of phytoplasma with virescence, abnormality of flowers and witches' broom, and phytoplasma bodies were observed by transmission electron microscopy. Products of 1.2 kb were amplified by nested PCR using phytoplasma universal primer pairs R16F2n/R16R2, but no amplification products were obtained from symptomless plants. The sequence analysis of three 16S rDNA isolates showed 99.84%, 99.68% and 99.76% identify, respectively, with the homologous gene (nc_005303) of member of ‘Candidatus phytoplasma asteris’ (16SrI) group. Phylogenetic and virtual computer‐simulated restriction fragment length polymorphism analysis of the 16S rRNA, tuf and rp gene sequences confirmed that this phytoplasma clustered in the 16SrI‐B subgroup. These results indicated that the diseased S. tetradenia plants were infected by a phytoplasma of the 16SrI group. This is the first report on the occurrence of phytoplasma disease on S. tetradenia worldwide. 相似文献
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二乔木兰、乐昌含笑、含笑、火力楠 总被引:1,自引:0,他引:1
落叶灌木或小乔木,高3~10cm。分枝低。芽被灰色绢毛;树皮灰色,嫩枝棕色,疏生圆形、白色皮孔。树冠卵形,疏散。叶互生,纸质,倒卵形或倒卵状椭圆形。长6~17(-22)cm,宽4~10(~14)cm,先端圆而具短急尖。基部宽楔形。全缘,边缘呈线状透明,网脉明显,腹面中、侧脉微凹而在背面明显凸起。花于枝顶单生,先叶开放;花被片6~9片,长10~15cm,外面紫红色,内面白色。 相似文献
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Immunodepletion of α‐plurivorin effector leads to loss of virulence of Phytophthora plurivora towards Fagus sylvatica 下载免费PDF全文
下载免费PDF全文 R. J. D. Dalio F. Fleischmann A. Chambery R. Eichmann N. S. Massola Jr S. F. Pascholati W. Osswald 《Forest Pathology》2017,47(5)
Phytophthora species secrete several proteins during their interaction with plants. Some of these proteins manipulate host metabolism favouring infection, while others can be recognized by plants thus triggering defence. Elicitins are known to elicit plant defences, leading to resistance. Here, we characterized the elicitin α‐plurivorin and proved that it was essential for the virulence of Phytophthora plurivora towards Fagus sylvatica. The immunodepletion of this peptide impaired its penetration into host tissue and in parallel P. plurivora lost its ability to colonize beech roots. Furthermore, the lack of α‐plurivorin inside the host led to an up‐regulation of several defence‐related genes of both salicylic acid and jasmonate/ethylene pathways, suggesting that α‐plurivorin might act as an effector‐triggered susceptibility during infection. Consequently, plants survived infection with P. plurivora after α‐plurivorin immunodepletion, whereas the majority of the infected control plants had died at the end of the experiment. Because canonical elicitins are ubiquitously secreted by many Phytophthora species, it is possible that these molecules may play a similar role in other susceptible interactions, being a potential target for controlling Phytophthora diseases. 相似文献