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1.
激发素与植物互作及抗病防卫信号传导 总被引:1,自引:0,他引:1
激发素是一类由疫霉属Phytophthora等真菌分泌的,可诱导茄科、十字花科等植物过敏性反应和系统获得抗病性的蛋白类激发子.激发素与植物的互作系统为研究植物抗病防卫信号传导途径提供了一个极好的模式.最近发现:激发素具有转移甾醇的活性,而形成甾醇和激发素复合物又是激发素与受体蛋白互作和激活抗病防卫信号传导途径的前提条件,也是对最近提出的病原激发子与受体互作"保卫假说"的支持.用125I标记法,找到了激发素的受体蛋白,由分子量约为160kD和50kD的2个亚基构成,被认为是Ca2 通道.在激发素激活的烟草抗病防卫信号传导途径中,蛋白质的磷酸化起着至关重要的作用,抑制蛋白激酶的活性,可阻止离子交换、活性氧进发、植保素合成等多种防卫反应;Ca2 参与诱导活性氧进发和植保素合成,活性氧进发与细胞死亡相关连,而植保素的合成与活性氧进发无关,过敏性反应对抗病防卫反应的建立不是必需的.激发素抗病基因工程在广谱抗病育种中具有广泛的应用前景. 相似文献
2.
A transgenic cucumber line (CR32) over-expressing the rice class I chitinase gene exhibited resistance to Phytophthora rot (Phytophthora nicotianae var. parasitica) but not to Fusarium wilt (Fusarium oxysporum f. sp. cucumerinum). The infection behavior of these fungi on CR32 and nontransgenic plants was examined with an optical microscope. In zoosporangia of P. nicotianae var. parasitica, the rates of germination and penetration on leaves of both CR32 and nontransgenic plants were almost equal. After infection, however, the growth of infection hyphae was markedly suppressed in CR32 compared with their growth in the nontransgenic plants. In F. oxysporum f. sp. cucumerinum, the infection hyphae localized in petiole vessels of both CR32 and nontransgenic plants, and growth did not differ in the two plants. We investigated the antifungal activity of a high-molecular-weight fraction (HF) and a low-molecular-weight fraction (LF) of crude leaf extracts from CR32 and from the nontransgenic line. CR32 HF, which included the rice chitinase, had antifungal activity only against F. oxysporum f. sp. cucumerinum. In contrast, CR32 LF, which did not have the rice chitinase, had strong antifungal activity against the two fungi. These results suggested that a low-molecular-weight antifungal substance(s) was induced in CR32 and might function as a factor of resistance to P. nicotianae var. parasitica, which has cell walls that almost never contain chitin. Because rice chitinase has already been demonstrated not to localize in vessels of CR32, the infection localization of F. oxysporum f. sp. cucumerinum in vessels might enable the fungus to avoid antifungal substance(s), resulting in Fusarium wilt in transgenic cucumber. 相似文献
3.
Phytophthora root rot of sweet pepper 总被引:1,自引:0,他引:1
N. A. M. Van Steekelenburg 《European journal of plant pathology / European Foundation for Plant Pathology》1980,86(5):259-264
Phytophthora capsici proved to be the causal agent of a root and crown rot of sweet pepper in the Netherlands.P. capsici was pathogenic on sweet pepper, tomato and sometimes on eggplant but not on tobacco Xanthi. Of these test plants only tomato was infected byP. nicotianae.No different symptoms in plants infected with eitherP. capsici orP. nicotianae were found. Dipping the roots of tomato and sweet pepper plants in a suspension ofP. capsici resulted in a more severe attack than pouring the suspension on the stem base.Resistance in tomato toP. nicotianae did not include resistance toP. capsici. A method to distinguishP. capsici fromP. nicotianae after isolation from soil is described. Both species were able to infect green fruits of tomato and sweet pepper.p. capsici survived in moist soil in the absence of a host for at least 15 months.Samenvatting
Phytophthora capsici bleek de oorzaak te zijn van een voet-en wortelrot in paprika op twee bedrijven in 1977 in Nederland.P. capsici was pathogeen op paprika, tomaat en soms op aubergine maar niet op tabak Xanthi.P. nicotianae tastte van deze toetsplanten alleen tomaat aan. Verschillen in symptomen tussenP. nicotianae enP. capsici werden bij tomaat niet waargenomen.Het dompelen van de wortels in eenP. capsici suspensie gaf een ernstiger aantasting dan het begieten van de wortelhals met deze suspensie.Resistentie in tomaat tegenP. nicotianae bleek geen resistentie tegenP. capsici in te houden.
P. capsici kan in grond worden aangetoond door groene paprikavruchten als vangsubstraat te gebruiken.P. capsici enP. nicotianae kunnen beide zowel vruchten van tomaat als paprika aantasten.
P. capsici overleefde een periode van 15 maan den in vochtige grond waarop geen waardplant werd geteeld. 相似文献
4.
《Physiological and Molecular Plant Pathology》2011,75(5-6):330-336
The effects of riboflavin on defense responses and secondary metabolism in tobacco (Nicotiana tabacum cv. NC89) cell suspensions and the effects of protecting tobacco seedlings against Phytophthora parasitica var. nicotianae and Ralstonia solanacearum were investigated. Defense responses elicited by riboflavin in tobacco cells included an oxidative burst, alkalinization of the extracellular medium, expression of 4 defense-related genes with different kinetics and intensities, and accumulation of 2 total phenolic compounds, scopoletin and lignin. When applied to tobacco plants challenged by P. parasitica and R. solanacearum, riboflavin treatment resulted in 47.9% and 48.0% protection, respectively. These results suggest that riboflavin can both induce a series of defense responses and secondary metabolism in cell suspensions and protect tobacco against P. parasitica and R. solanacearum. 相似文献
5.
Heather M. Way Kemal Kazan Neena Mitter Kenneth C. Goulter Robert G. Birch John M. Manners 《Physiological and Molecular Plant Pathology》2002,60(6):275
Transgenic tobacco plants expressing a phenylalanine ammonia-lyase cDNA (ShPAL), isolated from Stylosanthes humilis, under the control of the 35S promoter of the cauliflower mosaic virus were produced to test the effect of high level PAL expression on disease resistance. The transgenic plants showed up to eight-fold PAL activity and were slowed in growth and flowering relative to non-transgenic controls which have segregated out the transgene. The expression of the ShPAL transgene and elevated PAL levels were correlated and stably inherited. In T1 and T2 tobacco plants with increased PAL activity, lesion expansion was significantly reduced by up to 55% on stems inoculated with the Oomycete pathogen Phytophthora parasitica pv. nicotianae. Lesion area was significantly reduced by up to 50% on leaves inoculated with the fungal pathogen Cercospora nicotianae. This study provides further evidence that PAL has a role in plant defence. 相似文献
6.
Differential production of parasiticein, an elicitor of necrosis and resistance in tobacco, by isolates of Phytophthora parasitica 总被引:3,自引:2,他引:3
P. RICCI F. TRENTIN P. BONNET P. VENARD F. MOUTON-PERRONNET M. BRUNETEAU 《Plant pathology》1992,41(3):298-307
Fifteen isolates of Phytophthora parasitica , nine from tobacco (causing black shank disease) and six from other host plants, were compared by root inoculation with regard to their pathogenicity to young tobacco plants. A progressive invasion of the aerial parts over 1 week was observed only with the black shank isolates, while the non-tobacco isolates induced leaf necrosis within 2 days. Similar necrosis occurred when the roots of tobacco plants were dipped in diluted culture filtrates from non-tobacco isolates, but not in those from tobacco isolates. The necrosis-inducing filtrates were shown to contain a c. 10-kDa protein band which was not present in the other filtrates. This protein (named parasiticein) was purified by ion-exchange chromatography to homogeneity in SDS-PAGE and reverse-phase HPLC. Parasiticein was serologically related to cryptogein, a member of the elicitin family of proteinaceous elicitors previously described from other Phytophthora species. Like the other elicitins, parasiticein induced necrosis in tobacco plants and protected them against black shank. It most closely resembled capsicein in being acidic and in inducing resistance at concentrations (10–100 μg per plant) that caused little leaf necrosis. It is suggested that the absence of parasiticein production by the black shank isolates might be a factor involved in their specific pathogenicity to tobacco. 相似文献
7.
Mohamed Béchir Allagui Philippe Lepoivre 《European journal of plant pathology / European Foundation for Plant Pathology》2000,106(9):887-894
Isolates of Phytophthora from pepper, produced in Tunisia, were characterised according to molecular and pathogenicity criteria. Polymerase chain reaction amplification of the ITS1 region in the ribosomal DNA resulted in different sized fragments. The pepper isolates and P. nicotianae yielded a fragment of 310bp that distinguished it from P. capsici with a fragment of 270bp. The ribosomal RNA gene amplicons of both internal transcribed spacers and the 5.8 S of the pepper Phytophthora and P. nicotianae were digested with 8 endonucleases. The patterns generated, with the 2 enzymes that cut, were identical for both taxa. This molecular analysis corroborated the morphological and biological characteristics and suggests strongly that the isolates of Phytophthora from pepper belong to the species P. nicotianae. Inoculation of pepper, tomato, eggplant and tobacco plants with the isolates of P. nicotianae from pepper showed they were highly pathogenic on pepper but not on tobacco, while their pathogenicity was weak on tomato and eggplant and was associated with atypical symptoms not observed in the field. These pathogenicity tests suggest that pepper isolates of P. nicotianae are particularly adapted to their host and may thus constitute a forma specialis of P. nicotianae. 相似文献
8.
E. FEICHTENBERGER 《EPPO Bulletin》1990,20(1):139-148
Phytophthora gummosis and phytophthora root rot are the most important fungal diseases of citrus in the State of São Paulo, Brazil. Phytophthora citrophthora and P. nicotianae var. parasitica are the main species that incite both diseases in all the citrus-growing areas of the State. Studies on the control of gummosis and root rot with systemic fungicides have been under way in the State since 1980. The efficacy of fosetyl-A1 and metataxyl to control gummosis incited by both fungi in lemon and sweet orange trees was confirmed. The best control was achieved when foliar sprays of fosetyl-A1 were combined with soil applications of metataxyl. The best timing was determined for application of these systemic products to control gummosis in the state. 相似文献
9.
10.
Pao-Jen Ann Wen-Hsiung Ko Hong-Ji Su 《European journal of plant pathology / European Foundation for Plant Pathology》2004,110(1):1-6
Infection with Likubin bacterium (LB) followed by Phytophthora parasitica increased the mortality of sour orange and pummelo seedlings, and enhanced the P. parasitica-induced root rot in all the four types of citrus tested. The LB-induced enhancement of root infection by P. parasitica was apparent within 1h of exposure to zoospore suspension. The enhancement of P. parasitica-induced root rot was affected by the infection sequence. Inoculation of sour orange seedlings with LB before P. parasitica was more effective in increasing P. parasitica-induced root rot than LB and P. parasitica concomitantly or LB after P. parasitica. Grafting P. parasitica susceptible scions of ponkan (Citrus reticulata) onto P. parasitica-tolerant rootstocks of sour orange greatly increased the susceptibility of rootstocks to P. parasitica. Results also demonstrate the enhancement of LB-induced symptoms by P. parasitica in citrus plants. 相似文献
11.
Chinnapun Dutsadee Churngchow Nunta 《Physiological and Molecular Plant Pathology》2008,72(4-6):179-187
Elicitin and a new protein 75 kDa elicitor were purified from the culture filtrate of Phytophthora palmivora, a pathogen of Hevea brasiliensis (rubber plant). Elicitin was obtained by using a one step of DEAE cellulose chromatography and the new elicitor was obtained by two steps of chromatography: a DEAE cellulose column followed by a hydrophobic column. Both elicitors were stable to heat and a wide range of pH values, but were sensitive to ProteaseK. Both elicitors induced scopoletin, peroxidase isozymes (with substrate o-dianisidine and scopoletin) and total phenolic compounds in cell suspension of H. brasiliensis with similar kinetics. In addition, both elicitors induced peroxidase enzyme (o-dianisidine), total phenolic compounds and enhanced local resistance against P. palmivora on young rubber tree seedlings. However, the increase of peroxidase enzyme and total phenolic compounds in rubber tree seedlings was different from those in cell suspension. Furthermore, during the expression of local resistance the zoospore of P. palmivora induced the peroxidase enzyme (o-dianisidine) more rapidly and with higher level than the control plants. H. brasiliensis is more responsive to the new elicitor than elicitin in triggering defense responses. That is the new elicitor was active at a concentration lower than those required for elicitin, about a 30-fold decrease for activation defense responses in cell suspension. For induction of peroxidase enzyme (o-dianisidine), phenolic compounds and local resistance of rubber plants against P. palmivora, the 75 kDa protein was active at about a 2-fold lower concentration when compared to elicitin. 相似文献
12.
Lherminier J Benhamou N Larrue J Milat ML Boudon-Padieu E Nicole M Blein JP 《Phytopathology》2003,93(10):1308-1319
ABSTRACT Elicitins, small proteins secreted by Phytophthora and Pythium spp., display the ability to induce plant resistance toward pathogens. Ultrastructural investigations of cryptogein-treated tobacco plants evidenced host defense responses such as (i) formation of a calcium pectate gel in intercellular spaces of parenchymas, (ii) impregnation of pectin by phenolic compounds in intercellular spaces of phloem bundles, and (iii) accumulation of phloem proteins (P proteins) in the lumen of leaf sieve elements. These cytological modifications lead to the enhancement of physical barriers that prevent pathogen ingress and restrict host tissue colonization when cryptogein-treated tobacco plants were challenged with the pathogen Phytophthora parasitica. Wall appositions also were observed at most sites of penetration of hyphae. Moreover, growing hyphae exhibited severe morphological damages, suggesting a modified toxic environment. The same induction of P proteins in mature sieve tubes of tobacco leaves was obtained with oligandrin treatment, another elicitin. Cryptogein or oligandrin treatment prevented symptom expression in phytoplasma-infected tobacco plants in contrast with nontreated tobacco plants. Moreover, P protein plugs and occlusion of pore sites by callose were evidenced in sieve elements of treated plants. Both these phloem modifications might prevent the in planta movement of phloem-restricted microorganisms. 相似文献
13.
Trabelsi Darine M.B. Allagui M. Rouaissi A. Boudabbous 《Physiological and Molecular Plant Pathology》2007,70(4-6):142-148
Nine isolates of Phtophthora nicotianae were isolated from infected pepper plants. Their pathogenicity was studied in Capsicum annuum in comparison with P. nicotianae isolates from tomato and tobacco. The pathogenicity test showed that pepper isolates of P. nicotianae are adapted to their host. Banding patterns obtained by RAPD analysis with six oligonucleotide primers revealed polymorphism that grouped the isolates independently of the plant host. The polygenic dendrogram showed that pepper isolates were more similar to tomato isolates than to tobacco isolates. The RAPD bands of 1300 and 1500 bp, detected with primers OPD-01 and OPD-10, respectively, appeared specific to the most pathogenic pepper isolates. The OPK-08-1950 seems specific to the isolates of P. nicotianae from tomato. These results suggest that host specified might occur in P. nicotianae and that may be due to interspecific hybridization events resulting in novel pathogenic behavior. 相似文献
14.
烟草疫霉是重要的病原真菌,但在人工培养条件下难以培养、产孢以及释放游动孢子.作者对烟草疫霉培养、产孢、接种方法进行了研究.芝麻培养基、黑麦培养基、燕麦培养基可用来培养烟草疫霉,烟草疫霉在三种培养基上平均每天生长量为1.10、0.78、0.86cm;芝麻培养基、黑麦培养基为烟草疫霉产孢子囊较好的培养基,产孢能力强,分别为2.52×104、2.07×104个孢子囊/cm2.而且孢子囊释放率高,分别为43.0%、32.1%.游动孢子囊悬浮液灌根接种和注射接种都能使烟草发病,但不同的接种方法和接种浓度下,病情指数不同. 相似文献
15.
J. M. Zeng J. Nifong Y. Liu C. J. Huang D. H. Fang R. S. Lewis Y. P. Li 《Plant pathology》2019,68(9):1616-1623
Black shank, caused by the soilborne pathogen Phytophthora nicotianae, is one of the most devastating diseases affecting tobacco production in China. The most effective strategy for reducing economic loss from this pathogen is development and use of resistant tobacco varieties. Multiple sources and systems of resistance have been developed in the Western Hemisphere; however, populations of P. nicotianae are variable around the world, including the predominance of different races. Different P. nicotianae isolates may react differently on tobacco plants with different systems of resistance, a possibility that could complicate the breeding of cultivars with resistance that is effective in different tobacco production regions worldwide. The objective of this research was to evaluate an array of tobacco germplasm possessing different systems of genetic resistance to black shank disease in tobacco-growing regions of Yunnan, China. Resistance types included simply inherited resistance mechanisms introgressed from wild Nicotiana relatives and polygenic partial resistance systems of N. tabacum origin. The loci of Wz exhibited high level resistance to black shank in the five diverse disease environments in Yunnan, China. K326 Php/−Wz/− genotype and Beinhart 1000 exhibited the greatest levels of resistance in both 2015 and 2016. Field observed results for 13 tobacco genotypes were highly correlated with those tested in growth chamber evaluation. These findings suggest that both Wz− and Beinhart 1000-mediated resistance have important commercial value in flue-cured tobacco breeding programmes in China. Cultivars developed for black shank resistance in China may also have utility in other tobacco-growing areas. 相似文献
16.
为探讨撕裂蜡孔菌Ceriporia lacerata菌株HG2011对烟草黑胫病的防治效果和对烤烟的促生作用,利用该菌株制备发酵液和固体菌剂,通过拮抗和盆栽试验研究其对烟草黑胫病病原菌烟草疫霉Phytophthora nicotianae生长的抑制作用、对黑胫病的防治效果及对烟苗生长和养分吸收的影响。结果表明:撕裂蜡孔菌菌株HG2011能显著抑制烟草疫霉生长;在带毒平板试验中,含20%发酵液的培养基对烟草疫霉菌丝生长的抑制率达54.50%;在平板对峙试验中,菌株HG2011能使烟草疫霉菌丝扭曲、畸形和空泡化,最终完全侵入并覆盖烟草疫霉菌落。在盆栽试验中,施用撕裂蜡孔菌固体菌剂可降低发病烟苗叶片中的丙二醛含量,并能维持正常的细胞膜透性,使烟苗黑胫病发病率比单独接种烟草疫霉处理显著降低了15.55%~37.77%,且预防效果71.16%优于治疗效果17.98%。在化肥配施高量菌剂处理中烟苗的株高、最大叶面积和生物量均最高,比单施化肥处理显著增加9.08%、36.28%和11.84%;烟苗氮、磷、钾的吸收量比单施化肥处理显著增加11.29%、38.73%和12.79%。表明撕裂蜡孔菌菌株HG2011能有效防治烟草黑胫病,刺激烟苗生长、促进养分吸收,表现出良好的防病促生效应。 相似文献
17.
J. -L. Peng H. -S. Dong H. -P. Dong T. P. Delaney J. M. Bonasera S. V. Beer 《Physiological and Molecular Plant Pathology》2003,62(6):317-326
Plants sprayed with harpin, a bacterial protein that induces hypersensitive cell death (HCD), develop systemic acquired resistance (SAR) without macroscopic necrosis. HCD sometimes accompanies the development of resistance conferred by resistance (R) genes. In Arabidopsis, some R genes require one or both of the signalling components NDR1 and EDS1 for function. This study addresses whether HCD, NDR1 and EDS1 are required for induction of SAR by harpin. When Arabidopsis and tobacco leaves were sprayed with harpin, microscopic hypersensitive response (micro-HR) lesions developed. Systemic expression of PR genes and the development of resistance were accompanied by micro-HR, except in the ndr1-1 mutant, in which harpin induced micro-HR without the development of resistance or expression of the PR-1 gene. Cell death and resistance did not occur following treatment with harpin in plants that could not accumulate salicylic acid. Harpin also failed to induce resistance in Arabidopsis eds1-1 mutants. Therefore, harpin-induced resistance seems to develop concomitantly with cell death and resistance requires NDR1 and EDS1. 相似文献
18.
Plants have developed mechanisms to resist secondary infection upon inoculation with a necrotizing pathogen, chemical treatment
as well as treatment with some non-pathogenic microorganisms such as rhizosphere bacteria. This phenomenon has been variously
described as induced systemic resistance (ISR) or systemic acquired resistance. In the present study, the chemical benzo(1,2,3)thiadiazole-7-carbothioic
acid-S-methyl ester (BTH, acibenzolar-S-methyl), and the rhizobacteriaPseudomonas aeruginosa KMPCH andP. fluorescens WCS417 were tested for their ability to induce resistance toColletotrichum lindemuthianum in susceptible and moderately resistant bean plants (Phaseolus vulgaris L.). BTH induced local and systemic resistance when bean leaves were immersed in 10−3 to 10−7 M BTH 3 days before the challenge inoculation. At a high concentration (10−3 M), BTH induced resistance of the same order as resistance induced by the pathogenC. lindemuthianum, although at this high concentration BTH appeared to be phytotoxic. Soil and seed treatment with 1 mg kg−1 BTH protected beans against anthracnose. BTH-mediated induced resistance was effective in susceptible and moderately resistant
plants.P. aeruginosa KMPCH induced resistance in bean againstC. lindemuthianum only in a moderately resistant interaction. KMPCH-567, a salicylic acid mutant of KMPCH, failed to induce resistance, indicating
that salicylic acid is important for KMPCH to induce resistance in the bean—C. lindemuthianum system.P.fluorescens WCS417 could induce resistance toC. lindemuthianum in a susceptible and in moderately resistant interactions.
http://www.phytoparasitica.org posting Jan. 16, 2002. 相似文献
19.
Alejandro Bernardo Falcón-Rodríguez Daimy Costales Juan Carlos Cabrera Miguel Ángel Martínez-Téllez 《Pesticide biochemistry and physiology》2011,100(3):221-228
Enzymatic defense responses and protection against Phytophthora nicotianae were studied in tobacco plants treated with chitosan of different molecular weights (MW) and degrees of acetylation (DA). The concentration and mode of chitosan application affected enzymatic induction in tobacco leaves. β-1,3-Glucanase (EC 3.2.1.6) activity required 10 times the polymer concentration relative to the oligochitosan mixture to induce the highest activity above control when treated by foliar spray, indicating the influence of molecular weight in this response. PAL (EC 4.3.1.5) and POD (EC 1.11.1.6) activities increased above control as a result of the influence of polymer degree of acetylation when treatments were applied by foliar spray. A higher DA favored PAL activity, whereas a lower DA induced higher POD activity. Using an in vitro bioassay, it was found that the three chitosan compounds caused a reduction of the infection index of P. nicotianae in tobacco plants that was dependent on elicitor concentrations. There was a significant relationship between the reduction of the infection index and an increase in PAL activity when chitosan was applied by foliar spray and by substrate drench to the plant rhizosphere. These results demonstrate the influence of chitosan physico–chemical properties in plant-induced resistance and the relevance of particular responses in plant protection against pathogens. 相似文献
20.
研究了一种α型elicitin-parasiticein对烟草微敏反应(microscopic hypersensitive response, micro-HR)和防卫反应分子表征基因表达的诱导作用。用150 nmol/L的parasiticein喷洒烟草叶片12 h后, 经曲利本蓝(trypan blue)染色, 光镜下可观察到有细胞坏死, 说明parasiticein引起了micro-HR, 而水和低浓度的parasiticein不能引起micro-HR。用parasiticein注射叶片可引起肉眼可见的HR, 注射用parasiticein浓度远比喷洒引起micro-HR的浓度低。Parasiticein还可诱导对TMV的抗性, 浓度在30 nmol/L时比150 nmol/L的效果好。用parasiticein注射烟草30 min, HR表征基因hsr203J和hin1开始表达, 在9 h内逐渐降低, 12~16 h肉眼可观察到HR。Parasiticein喷洒烟草后, 病程相关蛋白(pathogenesis-related, PR)基因PR-1b在诱导的第1 d到第5 d都有一定量的表达。可见, parasiticein能同步诱导过敏反 应和抗病 性及其分 子表征基 因的表达 。 相似文献