ZmFBL41 Chang7-2: 玉米抗纹枯病的关键利器

由真菌Rhizoctonia solani引起的纹枯病严重危害玉米(Zea mays)和水稻(Oryza sativa)等作物的安全生产。R. solani的宿主范围广且抗源少, 加之相关的抗性机制研究有限, 导致纹枯病的危害长期得不到有效控制。近期, 中国科学家通过对318份玉米自交系进行全基因组关联分析, 筛选到1个与纹枯病抗性相关的、编码F-box结构域蛋白的候选基因ZmFBL41 (GRMZM2G109140)。ZmFBL41蛋白是SCF (SKP1-Cullin-F-box) E3泛素连接酶复合体的一员, 能介导复合体对肉桂醇脱氢酶ZmCAD的降解, 从而降低木质素的积累, 使玉米易感纹枯病。玉米抗病自交系Chang7-2中, 蛋白ZmFBL41 ^Chang7-2因2个关键氨基酸的变异, 不能结合并降解底物ZmCAD, 使木质素含量增加, 从而提高玉米对纹枯病的抗性。该研究率先揭示了SCF复合体可通过降解肉桂醇脱氢酶来调控植物免疫反应的新型分子机制, 为提高玉米及其它作物对纹枯病的抗性提供了重要理论依据和基因资源。     

拔节期与抽穗期玉米抗纹枯病相关QTL的初步定位

以玉米自交系R15(抗)×478(感)的F_2分离群体为作图群体,构建了包含146个SSR标记位点的遗传连锁图谱,覆盖玉米基因组1666 cM,平均图距11．4 cM。通过麦粒嵌入法对229个F_(2：4)家系进行人工接种纹枯病菌,于玉米拔节期和抽穗期进行纹枯病的抗性鉴定。应用复合区间作图法分析两个时期的抗病QTL及遗传效应。结果共检测到17个抗性QTL,其中以拔节期病情指数为指标共检测到9个QTL,分别位于第1、2、3、4、5、6、和10染色体上,可解释的表型变异为3．72%-9．26%;以抽穗期的病情指数为指标共在7条染色体上检测到10个抗玉米纹枯病的QTL,分布于第2、3、4、5、6、8和9染色体上。单个QTL可解释的表型变异为4．27%-9．27%。两个时期共检测出2个共同QTL,它们分别位于第2染色体的bnlgl662-bnlg1940区间和第6染色体的umc1006-umc1723区间。定位结果表明两个时期检测出的抗性QTL的差异表达与玉米不同发育时期基因的时空表达有密切关系,从而反映在纹枯病的抗性位点差异性上．这为玉米抗病选育提供新的信息。     

广西玉米种质资源对纹枯病的抗性鉴定

在人工接种条件下,对860份玉米材料进行了纹枯病抗性鉴定和评价,旨在为进一步开展玉米纹枯病抗性育种和分子生物学研究奠定基础。结果显示,在鉴定的860份玉米材料中,没有发现免疫的材料,高抗、抗、中抗、感和高感的比例分别为3.49%、28.60%、26.16%、10.35%和31.40%;在农家种、群体种和杂交种（组合）等杂合体中,抗病材料所占比例较大,而自交系等纯合体中,感病材料所占比例较大,表明玉米杂合体种质资源材料中可能蕴藏着不同的抗纹枯病基因,特别是广西农家种中可能存在对纹枯病具有稳定抗性的材料,值得进一步研究和利用。     

一株抗玉米纹枯病内生细菌的分离鉴定及其抗病促生作用

玉米纹枯病是玉米主要的真菌病害,从优良玉米品种川单13号中分离到一株对玉米纹枯病菌具有明显抑制作用并能够促进玉米生长的内生细菌.通过形态、生理生化特性分析以及16SrDNA序列同源性比较,鉴定该菌株为枯草芽孢杆菌.盆栽试验表明,菌株能够抑制玉米纹枯病的发生,抑菌率为 43.01%,促生试验表明,该菌能够显著促进玉米苗的生长,促生作用与植物生长刺激素(IAA)和效果相似,显示出良好的开发前景.     

转化双价防卫基因获得抗纹枯病水稻

将水稻几丁质酶基因(RCHIO)和苜蓿β-1,3-葡聚糖酶基因(AGLU)串联构建于一个表达质粒pZ100,经农杆茵介导法转化粳稻台北309,获得15个阳性独立转化子。T1代植株经Southern检测,表明外源基因已整合到了水稻基因组;经Northern检测,表明外源基因在RNA水平表达,在株系间有差异,2个酶基因的表达水平类似。T1代植株经纹枯病病茵接种鉴定,表明各株系对纹枯病具有不同的抗性,且抗病能力与2个外源基因的RNA表达水平有剂量关系,并获得了2个酶基因高表达且对纹枯病具有较高抗性的T1株系,可作为进一步进行分子育种的材料。     

广西玉米种质资源对纹枯病的抗性鉴定

在人工接种条件下,对860份玉米材料进行了纹枯病抗性鉴定和评价,旨在为进一步开展玉米纹枯病抗性育种和分子生物学研究奠定基础。结果显示,在鉴定的860份玉米材料中,没有发现免疫的材料,高抗、抗、中抗、感和高感的比例分别为3．49％、28．60％、26．16％、10．35％和31．40％;在农家种、群体种和杂交种（组合）等杂合体中,抗病材料所占比例较大,而自交系等纯合体中,感病材料所占比例较大,表明玉米杂合体种质资源材料中可能蕴藏着不同的抗纹枯病基因,特别是广西农家种中可能存在对纹枯病具有稳定抗性的材料,值得进一步研究和利用。     

喜树内生真菌抗水稻纹枯病菌活性的研究

从喜树健康组织叶、茎以及果实中经过分离、纯化共得到26株内生菌株。利用生长速率法测定这26株菌株对植物病原菌——水稻纹枯病病原菌的抑制作用。抑菌试验结果显示：26株菌株中有22株喜树内生真菌的发酵液对植物病原菌菌丝生长均有不同程度的抑制作用;其中,菌株XSY10的发酵液抑菌效果最强,达到了74.97%。水稻盆栽试验结果表明：喷施菌株XSY10次生代谢产物7d后,对水稻纹枯病的防治效果为34.77%。以上试验结果说明喜树内生真菌XSY10对植物病害的防治具有一定的功效。     

玉米种质资源对纹枯病的抗性鉴定与评价

在人工接种条件下,对国内常用的285份玉米种质资源进行抗纹枯病大田鉴定与评价,未发现免疫材料,抗病材料很少.高抗、抗和中抗材料的比例分别为1.0%、3.2%、13.7%;绝大多数材料属于感病或高感,分别占29.8%、52.3%.株高、主穗位高、主穗位高/株高之比值与病情指数呈负相关,病斑高、病斑高/株高、病斑高/主穗位高之比值与病情指数呈正相关,可以将病斑高度与主穗位高度的比值作为抗性鉴定与评价指标之一.采用带菌麦粒在拔节中后期定位接种,以病斑到达的叶鞘位作为病情和抗性评价体系是较为准确和规范的方法.     

湿地稻-鸭复合系统中水稻纹枯病的变化规律

为了探明稻田养鸭对水稻纹枯病的发生、发展的影响 ,为稻 -鸭复合系统中水稻纹枯病的防治提供依据 ,笔者在中稻、晚稻田进行了稻田养鸭试验。试验结果表明 ,在中稻田每 6 6 6 .7m2 放养体重 15 0 g左右鸭子 15～ 2 0只 ,能使纹枯病病蔸率减少5 6 .0 % ,病株率减少 5 7.74 % ,同时比用井岗霉素防治的小区病蔸率下降 9.0 % ,病株率下降 15 .2 5 % ,病情指数比空白对照下降2 6 .4 6 ,比施用井岗霉素的施药区减少 0 .95 ;防治效果显著 ,基本可控制纹枯病的危害     

两个抗水稻纹枯病主效数量基因的鉴定

纹枯病是水稻的重要病害之一。水稻对纹枯病的抗性被认为是一种数量性状 ,迄今没有发现较高水平的抗源。由于该病原菌 (ＲｈｉｚｏｃｔｏｎｉａｓｏｌａｎｉＫｕｈｎ)腐生性强 ,寄主范围宽 ,且病害发生发展受田间小气候影响大 ,因而抗性遗传研究的难度较大。我们构建了特青 Ｌｅｍｏｎｔ的 1 1 5个Ｆ2 代无性系 ,用改进的抗性鉴定方法 ,进行了抗纹枯病基因的初步定位 ,在第 9和第 1 1染色体上各发现了 1个抗纹枯病主效ＱＴＬ :...     

240份玉米自交系纹枯病抗性鉴定与评价

在人工接种条件下,连续3年对240份玉米自交系纹枯病抗性进行鉴定和评价,分析了玉米纹枯病抗性与主要农艺性状的相关性。结果表明,玉米纹枯病抗性资源较为缺乏,240份自交系中无免疫或高抗的材料,有中抗自交系4份、感病自交系18份、高感自交系218份。旅大红骨、Reid、PA和塘四平头类群自交系中未发现玉米纹枯病抗源,PB类群和Lancaster类群自交系纹枯病抗性相对较好,今后应主要从这两类种质中寻找玉米纹枯病抗源。玉米纹枯病病情指数与株高、穗位高、穗位高/株高、穗下节间数和穗下平均节间长均呈极显著负相关,这些表型可以作为非接种条件下筛选抗玉米纹枯病种质的参考指标。     

Identification and Fine Mapping of rhm1 Locus for Resistance to Southern Corn Leaf Blight in Maize

rhm1 is a major recessive disease resistance locus for Southern corn leaf blight (SCLB).To further narrow down its genetic position,F 2 population and BC 1 F 1 population derived from the cross between resistant (H95 rhm) and susceptible parents (H95) of maize (Zea mays) were constructed.Using newly developed markers,rhm1 was initially delimited within an interval of 2.5 Mb,and then finally mapped to a 8.56 kb interval between InDel marker IDP961-503 and simple sequence repeat (SSR) marker A194149-1.Three polymorphic markers IDP961-504,IDP B2-3 and A194149-2 were shown to be co-segregated with the rhm1 locus.Sequence analysis of the 8.56 kb DNA fragment revealed that it contained only one putative gene with a predicted amino acid sequence identical to lysine histidine transporter 1 (LHT1).Comparative sequence analysis indicated that the LHT1 in H95 rhm harbors a 354 bp insertion in its third exon as compared with that of susceptible alleles in B73,H95 and Mo17.The 354 bp insertion resulted in a truncation of the predicted protein of candidate resistance allele (LHT1-H95 rhm).Our results strongly suggest LHT1 as the candidate gene for rhm1 against SCLB.The tightly linked molecular markers developed in this study can be directly used for molecular breeding of resistance to Southern corn leaf blight in maize.     

水稻回交世代中两个抗纹枯病主效数量基因的鉴定与标记辅助选择

对水稻品种特青与Lemont杂交组合的F2 单株无性系群体,进行 2年有重复的抗水稻纹枯病QTLs定位,在特青的第 9号染色体和Lemont的第 11号染色体上分别定位到了 1个主效抗纹枯病QTL,各自命名为qSB 9和qSB 11。从该F2 定位群体中,根据位点双侧标记带型,选取 2个位点均为感病等位基因纯合的 2个单株作为双感亲本,均为抗病等位基因纯合的 1个单株作为双抗亲本,分别与轮回亲本特青和Lemont进行回交。标记辅助选择始于BC2F1 及以后的各回交世代,并于BC2F1 和BC4F1 世代进行了病原菌人工接种鉴定。鉴定结果表明,qSB 9和qSB 11确实存在于原定位区间,各等位基因也在回交过程中被成功选择。BC3F2 采用秧田期大群体标记检测,从中选取符合要求的单株,分别混合得到特青背景下的双感纯合系, Lemont背景下的双感、双抗纯合系,将这些纯合系连同轮回亲本同时种植于扬州大学农学院试验田和江苏里下河农科所试验田, 2次重复,随机区组设计,进行接种实验。结果表明: 1 )相同背景下的不同纯合系间在发病程度上存在极显著的差异,不同纯合系的病情严重程度依次为:Lemont双感系>特青双感系>Lemont>特青 >Lemont双抗系; 2 )2个位点上的抗性等位基因qSB 9和qSB 11单独存在时,分别可减轻病级 1 2级左右,同时存在时可减轻病级 2级左右;     

水稻纹枯病抗性QTL分析

对灿稻窄叶青8号（ZYQ8）和粳稻京系17（JX17）以及由它们构建的加倍单倍体（DH）群体,分别在杭州和海南岛,采用注射器接种法进行纹枯病抗性鉴定,并使用该群体的分子链锁图谱进行数量性状座位（QTL）分析。共检测到4个抗纹枯病的QTL（qSBR-2、qSBR-3、qSBR-7和qSBR-11）,分别位于第2、第3、第7和第11染色体。其中qSBR-2、qSBR-3、qSBR-7的抗性基因由抗病亲本ZYQ8贡献,而qSBR-11的抗性基因来自感病亲本JX17。qSBR-2、qSBR-3、qSBR-7在杭州和海南岛都能检测到,而qSBR-11只在杭州检测到。在杭州的实验中,纹枯病病级与秆长和抽穗期呈显著负相关;在控制秆长和抽穗期的QTL中,控制秆长的qCL-3与qSBR-3位于同一染色体区域,其余QTL与抗纹枯病的QTL之间无连锁关系。     

New Sources of Resistance and Identification of DNA Marker Loci for Sheath Blight Disease Caused by Rhizoctonia solani Kuhn,in Rice

Sheath blight disease caused by the necrotrophic, soil-borne pathogen Rhizoctonia solani Kuhn, is the global threat to rice production. Lack of reliable stable resistance sources in rice germplasm pool for sheath blight has made resistance breeding a very difficult task. In the current study, 101 rice landraces were screened against R. solani under artificial epiphytotics and identified six moderately resistant landraces, Jigguvaratiga, Honasu, Jeer Sali, Jeeraga-2, BiliKagga, and Medini Sannabatta with relative lesion height (RLH) range of 21–30%. Landrace Jigguvaratiga with consistent and better level of resistance (21% RLH) than resistant check Tetep (RLH 28%) was used to develop mapping population. DNA markers associated with ShB resistance were identified in F₂ mapping population developed from Jigguvaratiga × BPT5204 (susceptible variety) using bulk segregant analysis. Among 56 parental polymorphic markers, RM5556, RM6208, and RM7 were polymorphic between the bulks. Single marker analysis indicated the significant association of ShB with RM5556 and RM6208 with phenotypic variance (R²) of 28.29 and 20.06%, respectively. Co-segregation analysis confirmed the strong association of RM5556 and RM6208 located on chromosome 8 for ShB trait. This is the first report on association of RM6208 marker for ShB resistance. In silico analysis revealed that RM6208 loci resides the stearoyl ACP desaturases protein, which is involved in defense mechanism against plant pathogens. RM5556 loci resides a protein, with unknown function. The putative candidate genes or quantitative trait locus harbouring at the marker interval of RM5556 and RM6208 can be further used to develop ShB resistant varieties using molecular breeding approaches.     

A Functional Antigen in a Practical Crop: LT-B Producing Maize Protects Mice against Escherichia coli Heat Labile Enterotoxin (LT) and Cholera Toxin (CT)

We have produced a functional heat labile enterotoxin (LT-) B subunit of Escherichia coli in maize. LT-B is a multimeric protein that presents an ideal model for an edible vaccine, displaying stability in the gut and inducing mucosal and systemic immune responses. Transgenic maize was engineered to synthesize the LT-B polypeptides, which assembled into oligomeric structures with affinity for G_M1 gangliosides. We orally immunized BALB/c mice by feeding transgenic maize meal expressing LT-B or non-transgenic maize meal spiked with bacterial LT-B. Both treatments stimulated elevated IgA and IgG antibodies against LT-B and the closely related cholera toxin B subunit (CT-B) in serum, and elevated IgA in fecal pellets. The transgenic maize induced a higher anti-LT-B and anti-CT-B mucosal and serum IgA response compared to the equivalent amount of bacterial LT-B spiked into maize. Following challenge by oral administration of the diarrhea inducing toxins LT and CT, transgenic maize-fed mice displayed reduced fluid accumulation in the gut compared to non-immunized mice. Moreover, the gut to carcass ratio of immunized mice was not significantly different from the PBS (non-toxin) challenged control group. We concluded that maize-synthesized LT-B had features of the native bacterial LT-B such as molecular weight, G_M1 binding ability, and induction of serum and mucosal immunity. We have demonstrated that maize, a major food and feed ingredient, can be efficiently transformed to produce, accumulate, and store a fully assembled and functional candidate vaccine antigen.     

A candidate inactivated chimeric vaccine PCV1-2 constructed based on PCV1 and PCV2 isolates originating in China and its evaluation in conventional pigs in regard to protective efficacy against PCV2 infection

A chimeric PCV1-2 clone containing the PCV2 capsid gene cloned into the backbone of the nonpathogenic PCV1 genome was recently generated based on PCV2 and PCV1 strains isolated in China. The efficacy of this available candidate inactivated vaccine was evaluated by subjecting conventional pigs to intramuscular immunization with the inactivated chimeric PCV1-2 virus, followed by challenge with wild-type PCV2 strain. By 35 days post-vaccination (DPV), all vaccinated pigs had developed seroconversion, having high indirect immunofluorescence assay (IFA) titers of antibody and neutralizing antibody against PCV2. By 21 days post-challenge, gross and microscopic lesions of lymph nodes and lungs in non-vaccinated but challenged pigs were significantly more severe than those found in the vaccinated group. PCV2 viral copy loads detected in the tracheobronchial lymph nodes or serum samples of vaccinated pigs were significantly smaller than those in non-vaccinated but challenged pigs (P ≤ 0.05). The results suggest that inactivated PCV1-2 is effective in inducing protective immunity against PCV2 infection.     

Synthesis,Biological Evaluation and in Silico Study of N-(2- and 3-Pyridinyl)benzamide Derivatives as Quorum Sensing Inhibitors against Pseudomonas aeruginosa

The effectiveness of treating bacterial infections is seriously threatened by the emergence of bacterial resistance to chemical treatment. Growth of microbes in biofilm is one of the main causes of resistance to antimicrobial drugs. Quorum sensing (QS) inhibition, which targets the QS signalling system by obstructing cell-cell communication, was developed as an alternative treatment by creating innovative anti-biofilm drugs. Therefore, the goal of this study is to develop novel antimicrobial drugs that are effective against Pseudomonas aeruginosa by inhibiting QS and acting as anti-biofilm agents. In this study, N-(2- and 3-pyridinyl)benzamide derivatives were selected to design and syntheses. Antibiofilm activity was revealed by all the synthesized compounds and the biofilm was visibly impaired, and the OD_595nm readings of solubilized biofilm cells presented a momentous difference between the treated and untreated biofilms. The best anti-QS zone was observed for compound 5d and found to be 4.96 mm. Through in silico research, the physicochemical characteristics and binding manner of these produced compounds were examined. For the purpose of understanding the stability of the protein and ligand complex, molecular dynamic simulation was also carried out. The overall findings showed that N-(2- and 3-pyridinyl)benzamide derivatives could be the key to creating effective newer anti-quorum sensing drugs that are effective against different bacteria.