番茄抗青枯病基因的AFLP分子标记

用番茄高抗青枯病品种“T51A”与高感青枯病品种“T9230”配制杂交组合,接种鉴定其正反交Ｆ₁代及Ｆ₂代分离群体的青枯病发生情况。结果表明,T51A对青枯病的抗性属于细胞质遗传,受1对杂合基因加性控制。用64个EcoRＩ/ＭseＩ引物组合对“T51A”、“T9230”两个亲本及其Ｆ₂代抗病和感病基因池进行AFLP分析,共扩增出约4200条可分辨的带,其中2条为稳定的差异。用“T51A”和“T9230”杂交产生的Ｆ₂代分离群体对2个特异条带与目的基因的遗传连锁性进行分析,发现特异条带AAG/CAT与暂定名为RRS-342的抗青枯病基因紧密连锁,二者之间的遗传距离为6.7 cM。将AAG/CAT片段回收、克隆和测序,成功地将其转化为SCAR标记,可以更加方便地用于对番茄青枯病基因的标记辅助选择。      

Relationship Between Ralstonia solanacearum Diversity and Severity of Bacterial Wilt Disease in Tomato Fields in China

A field survey was conducted to determine the relationship between Ralstonia solanacearum diversity and severity of bacterial wilt disease in tomato plants grown in plastic greenhouses. Both vegetative and reproductive stages of the plants were surveyed, and the symptoms were empirically categorized into five scales: 0 (asymptomatic): 1st, 2nd, 3rd and 4th. The bacterial wilt pathogen was isolated from infected plants at each disease scale; pathogenic characteristics and population densities of the bacterial strains were assessed. Two hundred and eighty‐two isolates were identified as R. solanacearum, which were divided into three pathogenic types, virulent, avirulent and interim, using the attenuation index (AI) method and a plant inoculation bioassay. Ralstonia solanacearum was detected in all asymptomatic and symptomatic tomato plants, with population numbers, ranging from 10.5 to 86.7 × 105 cfu/g. However, asymptomatic plants harboured only avirulent or interim R. solanacearum, whereas tomato plants displaying 1st or 2nd disease degree contained interim and virulent strains. Additionally, 3rd and 4th degree plants harboured only virulent strains. The disease was more severe in vegetative‐stage plants (disease severity index (DSI) 0.20) with higher total numbers of interim and virulent R. solanacearum strains than those in reproductive‐stage plants (DSI 0.12). Three pathotypes of R. solanacearum coexisted in a competitive growth system in the tomato field, and their distribution closely correlated with the severity of tomato bacterial wilt.     

辣椒种质资源抗青枯病的鉴定与评价

采用青枯菌FJC100301菌株对田间辣椒（Capsicum annuum）抗病品种76a和感病品种TW-1分别作了不同温度、不同接种量和不同接种方法的接种试验。结果表明,辣椒青枯病抗性的室内鉴定以接种温度28℃、浸根20 min和3×10^8cfu/mL接种浓度为宜;辣椒种质田间抗青枯病接种鉴定宜选择5月上旬进行,浸根20 min,接种浓度为3×10^8cfu/mL。采用田间抗性接种鉴定的方法,用青枯菌FJC100301菌株对106份辣椒材料进行了抗性鉴定。田间接种后每隔10 d统计病情指数,划分辣椒抗青枯病鉴定分级标准,获得了高抗材料14份、抗病材料8份、中抗材料23份、中感材料23份、感病材料20份、高感材料18份;采用离体叶片接种法对田间筛选得到的高抗和高感纯度较高品种进行抗性分析,结果与田间鉴定一致。     

INF1 Elicitin Activates Jasmonic Acid- and Ethylene-mediated Signalling Pathways and Induces Resistance to Bacterial Wilt Disease in Tomato

Phytophthora infestans , the cause of potato and tomato late blight disease, produces INF1 elicitin, a 10 kDa extracellular protein. INF1 induces a hypersensitive response (HR) and systemic acquired resistance in species of the Nicotiana genus and a few other genera. We analysed the response of tomato to INF1 and INF1 S3 , which has a Cys to Ser substitution at position 3 of the processed protein and therefore lacks HR induction activity in tobacco. No HR cell death was induced in either INF1- or INF1 S3 -treated tomato leaves. The expression of salicylic acid (SA)-responsive PR-1a ( P6 ) and PR-2a genes was not induced by treatment with either INF1 or INF1 S3 . However, the expression of jasmonic acid (JA)-responsive PR-6 encoding proteinase inhibitor II, LeATL6 encoding ubiquitin ligase E3, and LOX-E encoding lipoxygenase, was up-regulated in tomato leaves treated with INF1 but not in those treated with INF1 S3 . Their induction was completely compromised in INF1-treated jai1-1 mutant tomato, in which the JA signalling pathway is impaired. The accumulation of ethylene (ET) and the expression of ET-responsive genes were also induced in tomato by INF1 but not INF1 S3 treatment. The activation of JA and ET-mediated signals but not the SA-mediated signalling in INF1-treated tomato was also demonstrated by global gene expression analysis. INF1-treated tomatoes, but not those treated with INF1 S3 , exhibited resistance to bacterial wilt disease caused by Ralstonia solanacearum . Thus, INF1 seems to induce resistance to bacterial wilt disease in tomato and activate JA- and ET-mediated signalling pathways without development of HR cell death.     

水杨酸、乙酰水杨酸对番茄幼苗叶片中PPO和POD的诱导作用

以番茄品种改良美国908和合作906为试验材料,研究了水杨酸(SA)和乙酰水杨酸(ASA)喷雾处理6-7叶期幼苗后,叶片内多酚氧化酶(PPO)和过氧化物酶(POD)活性在120 h内的变化.结果显示:SA和ASA对2个番茄品种的适宜诱导浓度分别为1 mmol/L和1.39 mmol/L;SA和ASA对PPO活性的诱导效果无显著差异,但对POD活性的诱导效果SA极显著强于ASA;合作906的PPO活性增幅显著大于改良美国908,而POD活性增幅却显著小于改良美国908,且合作906对诱导处理反应更敏感.研究表明,SA和ASA能显著提高番茄幼苗叶片的PPO、POD活性,而酶活性变化在品种和诱导剂间有显著差异.     

Distribution of Phenylalanine Ammonia Lyase and Chalcone Synthase within Trunks of Robinia pseudoacacia L.

During heartwood formation, a kind of apoptosis in the inner parts of woody axes, phenolic substances are accumulated by in situ biosynthesis. In Robinia pseudoacacia L, these compounds are mainly flavonoids. In the present work, we performed a study to show if there is a correlation between measurable activities and detectable protein levels of phenylalanine ammonia lyase (PAL; EC 4.3.1.5) and chalcone synthase (CHS; EC 2.3.1.74), key enzymes of general phenylpropanoid metabolism and flavonoid biosynthesis, respectively. After separation of total protein extracts by one-dimensional micro-gel electrophoresis, newly emerging polypeptides were detectable within the sapwood-heartwood transition zone, pointing toward a transient activation of metabolism shortly before cell death occurs. Most prominent was a polypeptide around 46 kDa. By immunoblotting, this band was identified as a CHS subunit. Thus, the exclusive presence of both enzyme protein and extractable enzyme activity of CHS in the heartwood bordering tissue was shown. In contrast, levels of PAL protein were similar in all xylem tissues which contain living cells. PAL activity, however, was measurable only in the differentiating xylem and the sapwood-heartwood transition zone. From these results we conclude that during heartwood formation, CHS and PAL differ in their mode of regulation. It seems likely that CHS activity is regulated at the level of enzyme protein while PAL regulation is most probably post-translational.     

番茄青枯病拮抗菌的筛选

利用点接法从山东寿光和苍山不同种植年限的蔬菜大棚中分离得到的45株菌株以及实验室保存的19株菌株中,筛选到14株对番茄青枯病病原细菌有拮抗作用的菌株,然后通过牛津杯法复筛得到6株抑菌效果较好的细菌株。通过温室盆栽试验表明拮抗菌X10的防治效果最好,液体菌剂防治效果达到了81.8%,固体菌剂防治效果达到了65.4%,具有良好的应用前景。对菌株X10进行了培养特征、形态特征和生理生化特征测定,鉴定为侧胞短杆芽胞杆菌(Brevi Bacillus laterosporus)。     

Expression of Phenylalanine Ammonia Lyase Genes in Maize Lines Differing in Susceptibility to Meloidogyne incognita

Maize is a well-known host for Meloidogyne incognita, and there is substantial variation in host status among maize genotypes. In previous work it was observed that nematode reproduction increased in the moderately susceptible maize inbred line B73 when the ZmLOX3 gene from oxylipid metabolism was knocked out. Additionally, in this mutant line, use of a nonspecific primer for phenyl alanine ammonialyase (PAL) genes indicated that expression of these genes was reduced in the mutant maize plants whereas expression of several other defense related genes was increased. In this study, we used more specific gene primers to examine the expression of six PAL genes in three maize genotypes that were good, moderate, and poor hosts for M. incognita, respectively. Of the six PAL genes interrogated, two (ZmPAL3 and ZmPAL6) were not expressed in either M. incognita–infected or noninfected roots. Three genes (ZmPAL1, ZmPAL2, and ZmPAL5) were strongly expressed in all three maize lines, in both nematode-infected and noninfected roots, between 2 and 16 d after inoculation (DAI). In contrast, ZmPAL4 was most strongly expressed in the most-resistant maize line W438, was not detected in the most-susceptible maize line CML, and was detected only at 8 DAI in the maize line B73 that supported intermediate levels of reproduction by M. incognita. These observations are consistent with at least one PAL gene playing a role in modulating host status of maize toward M. incognita and suggest a need for additional research to further elucidate this association.     

不同青枯病抗性的番茄品种内生细菌生理群数量研究

本论文对青枯病抗性不同的番茄品种其内生细菌生理群数量变化进行了研究,结果表明,番茄内生细菌生理群数量的变化随品种抗性、生育期和季节的不同而变化.在7大类生理群细菌中,氨化细菌的数量最多,且在幼苗期以后,高抗青枯病番茄品种中数量明显高于高感品种,初步认为,氨化细菌可能是影响青枯病发生的关键性微生物.番茄抗病品种在不同生育期,其内生细菌的总体数量要比感病品种多,呈交替波动变化.氨化细菌、硝化细菌、固氮细菌和反硫化细菌平均数量均表现为在夏季高于冬季,硫化细菌的数量则冬季高于夏季,厌气性细菌数量最少.     

Expression of phenolics and defence-related enzymes in relation to red root rot disease of tea plants

Red root rot caused by Poria hypolateritia is a dreadful disease in tea plant due to sudden death of bushes. In response to fungal pathogen, variation in the defence-related enzymes was investigated. The infected tea root was undertaken to study about various defence-related and pathogen-related enzymes. The infected root, as a prime response to disease attack, was subjected to the analysis of phenolics, phenylalanine ammonia lyase, tyrosine ammonia lyase, peroxidase, polyphenol oxidase, catalase, chitinase, β-1,3-glucanase and protease were assayed. The results on assay of defence-related enzymes revealed that the activity was significantly higher in infected roots when compared with healthy roots. Phenolics were accumulated more in infected roots. The sodium dodecyl sulphate polyacrylamide gel electrophoresis (SDS-PAGE) analysis further confirmed the presence of induced pathogenesis-related proteins in the infected root tissues. The activity of all enzymes was increased up to threefold amount when compared with normal ones. The accumulation of defence enzymes in plants revealed the virulence of root pathogen in stimulating induced systemic resistance of tea plants and phytopathogenicity causing pathogenesis. This study exemplify to recognise underlying processes in causing infection and to identify the existence of host–pathogen relationship.     

Effect of temperature,cultivars, injury of root and inoculums load of Ralstonia solanacearum to cause bacterial wilt of tomato

Bacterial wilt, caused by Ralstonia solanacearum , is responsible for severe losses in tomato crops in the world. In the present study, the effect of temperature, cultivars of tomato, injury of root system and inoculums load of R. solanacearum to cause bacterial wilt disease under control conditions was undertaken. Three strains UTT-25, HPT-3 and JHT-5 of R. solanacearum were grown at 5–40?°C in vitro to study, the effect of temperature on the growth of bacteria and maximum growth was found at 30?°C after 72?h in all the strains. Twenty-one days old seedlings of two cultivars of tomato i.e. N-5 (moderately resistant) and Pusa Ruby (highly susceptible) were transplanted into the pots and inoculated with R. solanacearum strain UTT-25 (5 × 10⁸?cfu/ml), mechanically injured and uninjured roots of the plant. The plants were allowed to grow at 20, 25, 30 and 35?°C at National Phytotron Facility, IARI, New Delhi to study the effect of temperature on intensity of bacterial wilt disease. Maximum wilt disease intensity was found 98.73 and 95.9 % in injured roots of Pusa Ruby and N-5 cultivars of tomato at 35?°C on 11th days of inoculation, respectively. However, no wilt disease was observed in both the cultivars at 20?°C up to 60?days. For detection of R. solanacearum from asymptomatic tomato plants, hrpB-based sequence primers (Hrp_rs2F and Hrp_rs2R) amplified at 323?bp was used in bio-PCR to detect R. solanacearum from crown, mid part of stem and upper parts of the plant. Another experiment was conducted to find out the inoculum potential of R. solanacearum strain UTT-25 to cause bacterial wilt in susceptible cultivar Pusa Ruby. The bacteria were inoculated at concentration of bacterial suspension 10 to 10¹⁰?cfu/ml in injured and uninjured roots of the plants separately and injured root accelerated wilt incidence and able to cause wilt disease 63.3% by 100?cfu/ml of R. solanacearum, while no disease appeared at 10?cfu/ml on the 11th day of inoculation in injured and uninjured roots of the plant.     

转双价水解酶基因番茄植株对枯萎病抗性的提高

利用根癌农杆菌(Agrobacterium tumefaciens)介导,首次将莱豆几丁质酶和烟草β-1,3-葡聚糖酶双价水解酶基因导入番茄品种A53(Lycopersicon esculentum cv.A53)中,获得批量转基因再生植株。对外源基因的PCR和Southern杂交结果表明,外源基因已经整合到番茄基因组中,其拷贝数1-8个不等。Northern杂交和卡那霉素喷施表明目的基因和标记基因均已得到表达,抗病性鉴定初步表明转基因植株对枯萎病的抗性显著提高。     

马铃薯青枯病抗性的共性AFLP标记的初步定位

利用集群分类法(bulked segregant analysis,BSA)对与马铃薯青枯病(Ralstonia solanacearum)抗性连锁的分子标记进行了分析。以马铃薯青桔病高抗性的原始栽培种Solanum phureja获得的二倍体群体为作图群体进行AFLP标记的初步筛选,另选一个与作图群体有较大亲缘关系和相近遗传背景的二倍体群体对所获标记进行验证。在标记鉴定过程中使用了共性AFLP标记(common AFLP marker)的方法。通过与已构建的连锁图谱的比较分析,获得了4个与马铃薯青枯病抗性相关的4个AFLP标记ATG／CTC 307．0,ATG／CTC 246．0,ATG／CTC191．0和AAC／CAC 79．0．将其分别定位于染色体1和12上,可望应用于其它相关研究。     

Possible Mechanisms Limiting Movement of Ralstonia solanacearum in Resistant Tomato Tissues

The distribution and appearance of Ralstonia solanacearum in the upper hypocotyl tissues of root‐inoculated tomato seedlings of resistant rootstock cultivar LS‐89 (a selection from Hawaii 7998) and susceptible cultivar Ponderosa were compared to clarify the mechanism that limits the movement of the bacterial pathogen in resistant tomato tissues. In stems of wilted Ponderosa plants, bacteria colonized both the primary and the secondary xylem tissues. Bacteria were abundant in vessels, of which the pit membranes were often degenerated. All parenchyma cells adjacent to vessels with bacteria were necrotic and some of them were colonized with bacteria. In stems of LS‐89 plants showing no discernible wilting symptoms, bacteria were observed in the primary xylem tissues but not in the secondary xylem tissues. Necrosis of parenchyma cells adjacent to vessels with bacteria was observed occasionally. The pit membranes were often thicker with high electron density. The inner electron‐dense layer of cell wall of parenchyma cells and vessels was thicker and more conspicuous in xylem tissues of infected LS‐89 than in xylem of infected Ponderosa or mock‐inoculated plants. Electron‐dense materials accumulated in or around pit cavities in parenchyma cells next to vessels with bacteria, and in vessels with bacteria. Many bacterial cells appeared normal in vessels, except for those in contact with the pit membranes. These results indicate that R. solanacearum moves from vessel to vessel in infected tissues through degenerated pit membranes and that restricted movement in xylem tissues was the characteristic feature in LS‐89. The limitation in bacterial movement may be related to the thickening of the pit membranes and/or the accumulations of electron‐dense materials in vessels and parenchyma cells.     

竹笋采后木质化与多酚氧化酶，过氧化物酶和苯丙氨酸解氨酶活性的关系（简报）

竹笋采后10d内,PPO,POD和PAL活性呈迅速上升趋势,之后缓慢下降,木质素含量在采后10d内迅速增加,随后缓慢增加,1℃和10℃之间的PPO,POD和PAL活性的差异都达显著水平（P＜0．05）,木质素含量的差异达极显著水平（P＜0．01）。