梨种质资源对黑星病抗性评价

采用人工接种黑星病菌的方法,对国家果树种质兴城梨资源圃保存的197份梨种质资源进行了抗病性鉴定,结果表明:不同梨种类发病率差异很大,其中白梨和砂梨最易感病,秋子梨和种间杂交选育品种较易感病,新疆梨较抗病,西洋梨最抗病;对病情指数在各梨种类分布进行了分析;在白梨、砂梨、秋子等各系统分别筛选出黄鸡腿、甩梨、酸梨、锦香等一批抗病资源;对田间自然感病与人工接种感病结果进行了比较。     

小麦种质对茎基腐病抗性评价及优异种质筛选

小麦茎基腐病是由镰孢菌侵染引起的一种世界性土传病害,近年来已严重威胁到我国小麦的安全生产。为筛选具有茎基腐病抗性的小麦种质资源,本研究采用孢子悬浮液浸种法,分别以国外抗病材料Sunco和中国品种陕253为抗病和感病对照,对670份我国小麦品种(系)进行了茎基腐病温室苗期抗性鉴定。结果发现,我国供试品种(系)感病材料(病情指数>30)所占比例达到84%,且包含多个近年来小麦生产中的主推品种,表明我国小麦品种总体抗性水平低是导致茎基腐病近年来发病频率与程度不断增加的重要原因之一。经多轮筛选,发掘获得15份抗病表现稳定、抗性水平与抗病对照Sunco相仿的材料。15份材料平均病情指数在10.9~19.4之间,其株高、抽穗期等农艺性状表现出较为丰富的变异,为我国小麦抗茎基腐病品种选育和抗性遗传研究提供了种质资源。     

斑节对虾(非洲群体)肠道中哈维氏弧菌拮抗菌的筛选、鉴定及生理特性分析

基于斑节对虾(非洲群体)(Penaeus monodon)肠道菌的生理生化特性, 为解决斑节对虾急性肝胰腺坏死综合征(AHPND)提供新思路, 文章分离纯化健康斑节对虾肠道中的优势菌株; 以致病性哈维氏弧菌为指示菌, 用牛津杯法从纯化菌株中筛选拮抗菌; 通过生理生化特征、Biolog系统鉴定及16S rDNA技术综合方法对菌株进行鉴定; 通过药敏实验, 评价拮抗菌株的安全性; 绘制高敏拮抗菌株的生长曲线, 得出其生长特性; 通过测定其产酶活性, 形成对其益生机制的初步推断。从斑节对虾肠道中共分离得到14株的优势土著菌, 分别标记为P.m-1、P.m-2······P.m-14, 经过拮抗实验得到了3株拮抗菌(P.m-1、P.m-9和P.m-13)。经鉴定P.m-1、P.m-9和P.m-13分别为枯草芽孢杆菌(Bacillus subtilis)、屎肠球菌(Enterococcus faecium)和溶藻弧菌(Vibrio alginolyticus)。药敏实验结果表明, 3株拮抗菌均不属于耐药菌, P.m-1对药物高度敏感。生长特征实验表明: P.m-1在2h进入对数期, 10h达到生长高峰, 菌体密度可达1.14×109 cfu/mL, 表现出了强劲的生命力。经过蛋白酶活性测定, P.m-1具有较强的产酶能力。优势菌P.m-1具有成为益生菌的潜力, 后续将作为功能性饲料添加剂或水质调节剂进行应用, 为AHPND进行生物防治提供新思路。     

Nitric oxide mediates the fungal elicitor-induced puerarin biosynthesis in Pueraria thomsonii Benth. suspension cells through a salicylic acid (SA)-dependent and a jasmonic acid (JA)-dependent signal pathway

Nitric oxide (NO) has emerged as a key signaling molecule in plant secondary metabolite biosynthesis recently. In order to investigate the molecular basis of NO signaling in elicitor-induced secondary metabolite biosynthesis of plant cells, we determined the contents of NO, salicylic acid (SA), jasmonic acid (JA), and puerarin in Pueraria thomsonii Benth. suspension cells treated with the elicitors prepared from cell walls of Penicillium citrinum. The results showed that the fungal elicitor induced NO burst, SA accumulation and puerarin production of P. thomsonii Benth. cells. The elicitor-induced SA accumulation and puerarin production was suppressed by nitric oxide specific scavenger cPITO, indicating that NO was essential for elicitor-induced SA and puerarin biosynthesis in P. thomsonii Benth. cells. In transgenic NahG P. thomsonii Benth. cells, the fungal elicitor also induced puerarin biosynthesis, NO burst, and JA accumulation, though the SA biosynthesis was impaired. The elicitor-induced JA accumulation in transgenic cells was blocked by cPITO, which suggested that JA acted downstream of NO and its biosynthesis was controlled by NO. External application of NO via its donor sodium nitroprusside (SNP) enhanced puerarin biosynthesis in transgenic NahG P. thomsonii Benth. cells, and the NO-triggered puerarin biosynthesis was suppressed by JA inhibitors IBU and NDGA, which indicated that NO induced puerarin production through a JA-dependent signal pathway in the transgenic cells. Exogenous application of SA suppressed the elicitor-induced JA biosynthesis and reversed the inhibition of IBU and NDGA on elicitor-induced puerarin accumulation in transgenic cells, which indicated that SA inhibited JA biosynthesis in the cells and that SA might be used as a substitute for JA to mediate the elicitor-and NO-induced puerarin biosynthesis. It was, therefore, concluded that NO might mediate the elicitor-induced puerarin biosynthesis through SA-and JA-dependent signal pathways in wildtype P. thomsonii Benth. cells and transgenic NahG cells respectively.     

Nitric oxide mediates the fungal elicitor-induced puerarin biosynthesis in Pueraria thomsonii Benth. suspension cells through a salicylic acid (SA)-dependent and a jasmonic acid (JA)-dependent signal pathway

Nitric oxide (NO) has emerged as a key signaling molecule in plant secondary metabolite biosynthesis recently. In order to investigate the molecular basis of NO signaling in elicitor-induced secondary metabolite biosynthesis of plant cells, we determined the contents of NO, salicylic acid (SA), jasmonic acid (JA), and puerarin in Pueraria thomsonii Benth. suspension cells treated with the elicitors prepared from cell walls of Penicillium citrinum. The results showed that the fungal elicitor induced NO burst, SA accumulation and puerarin production of P. thomsonii Benth. cells. The elicitor-induced SA accumulation and puerarin production was suppressed by nitric oxide specific scavenger cPITO, indicating that NO was essential for elicitor-induced SA and puerarin biosynthesis in P. thomsonii Benth. cells. In transgenic NahG P. thomsonii Benth. cells, the fungal elicitor also induced puerarin biosynthesis, NO burst, and JA accumulation, though the SA biosynthesis was impaired. The elicitor-induced JA accumulation in transgenic cells was blocked by cPITO, which suggested that JA acted downstream of NO and its biosynthesis was controlled by NO. External application of NO via its donor sodium nitroprusside (SNP) enhanced puerarin biosynthesis in transgenic NahG P. thomsonii Benth. cells, and the NO-triggered puerarin biosynthesis was suppressed by JA inhibitors IBU and NDGA, which indicated that NO induced puerarin production through a JA-dependent signal pathway in the transgenic cells. Exogenous application of SA suppressed the elicitor-induced JA biosynthesis and reversed the inhibition of IBU and NDGA on elicitor-induced puerarin accumulation in transgenic cells, which indicated that SA inhibited JA biosynthesis in the cells and that SA might be used as a substitute for JA to mediate the elicitor-and NO-induced puerarin biosynthesis. It was, therefore, concluded that NO might mediate the elicitor-induced puerarin biosynthesis through SA-and JA-dependent signal pathways in wildtype P. thomsonii Benth. cells and transgenic NahG cells respectively.     

Nitric oxide mediates the fungal elicitor-induced puerarin biosynthesis in Pueraria thomsonii Benth. suspension cells through a salicylic acid (SA)-dependent and a jasmonic acid (JA)-dependent signal pathway

Higher plants constitute one of our most important natural resources, which provide not only foodstuffs, fibers, and woods, but also many chemicals, such as flavorings, dyes, and pharmaceuticals. Although plants are renewable resources, some species are b…     

富士苹果MdWRKY40b基因克隆及其对白粉病的抗性分析

WRKY是植物抗病相关的一个大转录因子家族基因,为了揭示WRKY40基因在调控白粉病抗性方面的作用,以富士苹果(Malus domestica Borkh.cv.Fuji)为试材,利用特异引物进行RT-PCR基因克隆,并用实时荧光定量PCR方法分析组织中基因的表达及接种苹果白粉菌和用1 mmol·L^-1水杨酸(SA)喷施处理后对基因表达的影响。结果表明:（1）克隆到的片段长度为1 240 bp,包含一个完整的开放阅读框,长1 002 bp,编码334个氨基酸,其氨基酸序列与AtWRKY40、HvWRKY1/2/3等8个序列一致性为48.96%;该基因与拟南芥AtWRKY40同源,故命名为MdWRKY40b,GenBank登录号为JX112907。（2）基因表达分析表明,MdWRKY40b在苹果根、茎、叶、花均有表达,其中根、叶、花中表达量基本相当,茎中表达量最低。（3）该基因明显受苹果白粉菌和SA的强烈诱导表达且持续时间较长,并且两者表达趋势相同、出现最高表达量的时间相近。研究推测,富士苹果容易感白粉病的主要原因可能与MdWRKY40b的持续长时间的高表达有关。     

Green leaf volatiles and jasmonic acid enhance susceptibility to anthracnose diseases caused by Colletotrichum graminicola in maize

Colletotrichum graminicola is a hemibiotrophic fungus that causes anthracnose leaf blight (ALB) and anthracnose stalk rot (ASR) in maize. Despite substantial economic losses caused by these diseases, the defence mechanisms against this pathogen remain poorly understood. Several hormones are suggested to aid in defence against C. graminicola, such as jasmonic acid (JA) and salicylic acid (SA), but supporting genetic evidence was not reported. Green leaf volatiles (GLVs) are a group of well-characterized volatiles that induce JA biosynthesis in maize and are known to function in defence against necrotrophic pathogens. Information regarding the role of GLVs and JA in interactions with (hemi)biotrophic pathogens remains limited. To functionally elucidate GLVs and JA in defence against a hemibiotrophic pathogen, we tested GLV- and JA-deficient mutants, lox10 and opr7 opr8, respectively, for resistance to ASR and ALB and profiled jasmonates and SA in their stalks and leaves throughout infection. Both mutants were resistant and generally displayed elevated levels of SA and low amounts of jasmonates, especially at early stages of infection. Pretreatment with GLVs restored susceptibility of lox10 mutants, but not opr7 opr8 mutants, which coincided with complete rescue of JA levels. Exogenous methyl jasmonate restored susceptibility in both mutants when applied before inoculation, whereas methyl salicylate did not induce further resistance in either of the mutants, but did induce mutant-like resistance in the wild type. Collectively, this study reveals that GLVs and JA contribute to maize susceptibility to C. graminicola due to suppression of SA-related defences.     

The Receptor-like Cytoplasmic Kinase BIK1 Localizes to the Nucleus and Regulates Defense Hormone Expression during Plant Innate Immunity

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南美斑潜蝇幼虫为害对黄瓜叶片中水杨酸和茉莉酸的诱导作用

【目的】为揭示南美斑潜蝇Liriomyza huidobrensis (Blanchard)与其寄主相互作用的机理, 为利用诱导抗性控制南美斑潜蝇的发生为害奠定必要的基础。【方法】本文采用高效液相色谱法（HPLC）和超高效液相色谱法-质谱联用法（UPLC MS）, 分别测定了南美斑潜蝇幼虫为害对黄瓜叶片中茉莉酸（jasmonic acid, JA）和水杨酸（salicylic acid, SA）的诱导作用。【结果】南美斑潜蝇幼虫持续为害1 d后, 受害黄瓜叶片内JA含量即显著高于健康对照, 轻度受害处理和重度受害处理分别在第3天和第5天上升幅度最大, 分别比健康对照增加2.01倍和1.62倍; 而SA含量在3 d后才显著高于健康对照, 轻度受害处理和重度受害处理在第9天上升幅度最大, 分别比健康对照增加4.66倍和1.67倍; 轻度受害对JA和SA的系统诱导作用不明显, 而重度受害对JA和SA具有明显的系统诱导作用。【结论】南美斑潜蝇幼虫为害对黄瓜叶片内JA和SA具有诱导作用。