导入双价基因的转基因杂交油菜亲本及其对菌核病抗性的研究

比较了乙酰丁香酮、pH、共培养温度及不同激素配比对根癌农杆菌转化油菜(Brassica napus)的影响, 建立了油菜高效转化体系。按该体系, 将组成型表达几丁质酶和β-1, 3-葡聚糖酶基因转化甘蓝型双低杂交油菜亲本恢复系和保持系, 获得了转基因恢复系和保持系植株。对再生植株进行PCR和Southern Blot检测, 结果表明外源基因已整合到油菜基因组中。连续3代的PCR检测及转基因植株抗病性在自交后代中得到保持, 证实外源基因已遗传到T3代。对转基因植株T1代离体叶进行菌核病菌丝体接种和T1及T2代大田自然侵染鉴定, 结果表明, 转基因恢复系棚40-12、棚40-32和保持系96B-2对菌核病的抗性比受体对照大幅度提高, 大田鉴定其发病率连续2年均比受体对照减少78%以上, 比抗病品种‘中油821’减少75%以上, 病情指数比受体对照和‘中油821’减少均达显著水平, 其抗病性能在后代稳定遗传, 获得了高抗菌核病的转基因育种材料。     

导入β—1,3—葡聚糖酶及几丁质酶基因的转基因可育油菜及其？…

利用农杆菌转化法,将组成型表达β－１,３－葡聚糖酶及必丁质酶基因的双价值植物表达载体ｐＢＬＧＣ转化优质甘蓝型油菜品种Ｈ１６５,并得到了抗卡那毒素（Ｋａｎａｍｙｃｉｎ,Ｋａｎ）的再生植株。我们对所得到的抗Ｋａｎ的再生苗进行了初步分子生物学检测,结果表明,在Ｋ１５（Ｋａｎ １５ｍｇ／Ｌ）培养基上的绿苗中有３０％为ＰＣＲ阳性植株,而在Ｋ２５（Ｋａｎ １０ｍｇ／Ｌ）培养基上的绿苗有５３％的阳性率。对部分Ｐ     

导入β-1,3-葡聚糖酶及几丁质酶基因的转基因可育油菜及其抗菌核病的研究

利用农杆菌转化法,将组成型表达β-1,3葡聚糖酶及几丁质酶基因的双价植物表达载体pBLGC转化优质甘蓝型油菜品种H165,并得到了抗卡那霉素(Kanamycin,Kan)的再生植株。我们对所得到的抗Kan的再生苗进行了初步分子生物学检测,结果表明,在K15(Kan15mg/L)培养基上的绿苗中有30%为PCR阳性植株,而在K25(Kan10mg/L)培养基上的绿苗有53%的阳性率。对部分PCR阳性的转基因植株进行了点杂交分析,结果均表现出较强的杂交信号,这初步说明外源基因已整合到油菜基因组中。转基因植株的活体接种油菜菌核病菌(Sclerotiniasclerotiorium)试验表明,部分转基因植株比对照显示较强抗病性。     

几丁质酶-葡聚糖酶双价基因导入滇型杂交稻恢复系提高稻瘟病抗性的研究

将含有菜豆(Phaseolus limensis)几丁质酶基因和烟草(Nicotiana tabacum)β-1,3-葡聚糖酶基因的pBLGC(16.5 kb)质粒用基因枪法导入滇型杂交稻(Oryza sativa L.ssp.japonica)恢复系"南29"中,总计获得93个转化再生植株,以β-1,3-葡聚糖酶基因制备探针对T1代株系进行Southern杂交分析,17个株系为杂交阳性,证实外源基因完整结构已整合到水稻基因组中;连续多代的PCR追踪检测证实外源基因已遗传至T4代;对所获得的6个PCR检测阳性T4代品系进行了稻瘟病菌(Magnaporthe grisea)生理小种接种鉴定和稻瘟病大田诱发鉴定,结果表明,转基因品系对稻瘟病的抗性较受体对照大幅度提高,获得了稻瘟病新抗源,但不同品系稻瘟病抗性并不相同.     

芥菜型油菜抗虫转基因植株及其后代株系的研究

带有１ ～２ ｍ ｍ 子叶柄的芥菜型油菜子叶经农杆菌感染后,培养在附加１０ ～２０ ｍｇ／ Ｌ卡那霉素的 Ｍ Ｓ 选择培养基上筛选转化愈伤组织及不定芽。卡那霉素抗性苗相继在含３０ ～５０ ｍ ｇ／ Ｌ 卡那霉素的选择培养基上继代培养,再转移到含２０ ｍｇ／ Ｌ 卡那霉素的生根培养基上诱导生根。以苏云金杆菌杀虫晶体蛋白基因为探针,进行 Ｓｏｕｔｈｅｒｎ ｂｌｏｔ 分子杂交,得到阳性结果。 Ｐ Ｃ Ｒ 分析也证明外源基因整合到油菜基因组并稳定传递到后代。转基因植株的抗虫性和卡那霉素抗性在自交后代中得到保持,筛选得到纯合的转基因植株后代株系     

油菜的遗传转化及抗溴苯腈转基因油菜的获得

以油菜(Brassica napus L.)的下胚轴和子叶为转化受体,建立了油菜的高效转化系统。在此基础上,将抗除草剂溴苯腈基因(bxn基因)导入油菜,获得了抗溴苯腈转基因油菜。分子检测实验证明,转基因油菜中含有bxn基因。转基因油菜可抗高达10~(-3)mol/L的溴苯腈。     

几丁质酶—葡聚糖酶双介基因导入滇型杂交稻恢复系提高稻瘟病抗性的研究

将含有菜豆（Phaseolus limensis)几丁质酶基因和烟草（Nicotiana tabacum)β-1,3-葡聚糖酶基因的pBLGC(16.5kb)质粒用基因枪法导入滇型杂交稻（Oryza sativa L.ssp.japonica)恢复系“南29”中,总计获得93个转化再生植株,以β-1,3-葡聚糖酶基因制备探讨对T1代株系进行Southern杂交分析,17个株系为杂交阳性,证实外源基因完整结构已整合到水稻基因组中;连续多代的PCR追踪检测证实外源基因已遗传至T4代;对所获得的6个PCR检测阳性T4代品系进行了稻瘟病菌（Magnaporthe grisea)生理小种接种鉴定和稻瘟病大田诱发鉴定,结果表明,转基因品系对稻瘟病的抗性较受体对照大幅度提高,获得了稻瘟病新抗源,但不同品系稻瘟病抗性并不相同。     

芥菜型油菜抗虫转基因植株及其后代株系的研究*

带有1～2mm子叶柄的芥菜型油菜子叶经农杆菌感染后,培养在附加10～20mg/L卡那霉素的MS选择培养基上筛选转化愈伤组织及不定芽。卡那霉素抗性苗相继在含30～50mg/L卡那霉素的选择培养基上继代培养,再转移到含20mg/L卡那霉素的生根培养基上诱导生根。以苏云金杆菌杀虫晶体蛋白基因为探针,进行Southern blot分子杂交,得到阳性结果。PCR分析也证明外源基因整合到油菜基因组并稳定传递到后代。转基因植株的抗虫性和卡那霉素抗性在自交后代中得到保持,筛选得到纯合的转基因植株后代株系。     

用微卫星DNA标记检测中国主要杂交水稻亲本的遗传差异

选用分布于水稻(OryzasativaL.)12条染色体上的20对SSR(Simplesequencerepeats)引物,分析了具有多种质源和较大应用面积的24个水稻胞质雄性不育系、1个光(温)敏核不育系、3个保持系和5个生产中应用较广的恢复系。在以上33份杂交水稻亲本材料间共检测出102个等位基因(alleles),平均每对SSR引物可检测到5.1个等位基因。PIC(polymorphicindexcontent)值的变动范围为0.274～0.773,平均PIC值为0.554。从56对SSR引物中筛选出5对引物,能够有效地区分所有供试的水稻雄性不育系和恢复系。杂交水稻亲本的聚类分析表明:(1)我国水稻雄性不育系遗传变异丰富,但生产中主要应用的水稻雄性不育系遗传背景比较单一。(2)生产中应用面积较大的水稻雄性不育系遗传变异较恢复系差。(3)生产中主要应用的水稻雄性不育系与恢复系分别聚类于不同的类群,且遗传关系较远。     

Cd胁迫对杂交水稻及其亲本叶片丙二醛含量的影响

以15份杂交水稻及其亲本为材料,采用水培试验研究了不同Cd2＋浓度胁迫对水稻叶片丙二醛（MDA）含量的影响。结果表明：（1）在不同Cd处理水平和生育时期,保持系叶片MDA含量存在差异,如D83B叶片MDA含量各处理显著高于对照（p〈0.05）,MDA积累水平较高,受到Cd严重胁迫,而Ⅱ-32B在两个生育时期受低Cd浓度的影响不大,与对照差异不显著,且随着Cd浓度的增大,MDA含量均表现出较低的MDA积累水平,因此保持系Ⅱ-32B是一种较好的保持系材料。（2）Cd胁迫对恢复系各材料叶片MDA的影响不同,其中以R527、R498叶片MDA积累最明显,孕穗期和灌浆期各处理均显著高于对照,其余恢复系材料受不同Cd2＋浓度的影响,MDA积累不稳定。（3）同一保持系（Ⅱ-32B）与不同恢复系（R498、R549、R892）组合配制的3个杂交稻叶片在MDA含量的增加幅度上表现不同,其中Ⅱ优498、Ⅱ优892受Cd影响较小,无论在孕穗期还是灌浆期叶片MDA含量增幅相对较小,而Ⅱ优549受Cd严重胁迫,各处理均显著高于对照,MDA积累增幅最大。（4）同一恢复系（R498）与不同保持系（Ⅱ-32B、D62B）配制的杂交稻叶片MDA含量亦不同,如D优498仅在孕穗期低浓度下MDA较对照有所降低,其余各处理MDA均积累较多,而Ⅱ优498MDA含量随着Cd浓度的增加,MDA增幅相对较小,可见水稻亲本对子代MDA的积累存在差异,可根据优良亲本,寻找优势组合,培育出抗Cd性强的杂交水稻。     

甘蓝型油菜叶表皮蜡质组分及结构与菌核病抗性关系

本试验选用6个抗病性不同的甘蓝型油莱品种,研究其叶表皮蜡质组成及结构与菌核病抗性的关系。结果表明,抗病品种在去除叶表皮蜡质后病情指数显著增加;感病品种无显著变化。不同抗性品种（系）间除酯类组分含量无显著差异外,其余蜡质组分含量差异显著。相关分析表明,蜡质组分中酯类含量与病情指数呈显著负相关关系,醇类、酮类含量与病情指数呈显著正相关,其余组分和蜡质总量与病情指数无显著相关关系。抗性品种叶表皮蜡质中烷类及酯类所占比重较高,而易感品种酮类比重较高。扫描电镜结果显示,抗病品种（系）的蜡质晶体主要为颗粒状、杆状、丝状;而感病品种（系）的蜡质晶体中不规则片状晶体所占比例较大。这些结果说明油菜叶表皮蜡质的组分及结构可能是抗病品种抵抗和延迟病原菌侵入的机制之一。     

Knockout of the lignin pathway gene BnF5H decreases the S/G lignin compositional ratio and improves Sclerotinia sclerotiorum resistance in Brassica napus

Ferulate-5-hydroxylase is a key enzyme involved in the conversion of the guaiacyl monolignol to the syringyl monolignol in angiosperms. The monolignol ratio has been proposed to affect biomass recalcitrance and the resistance to plant disease. Stem rot caused by the fungus Sclerotinia sclerotiorum in Brassica napus causes severe losses in its production. To date, there is no information about the effect of the lignin monomer ratio on the resistance to S. sclerotiorum in B. napus. Four dominantly expressed ferulate-5-hydroxylase genes were concertedly knocked out by CRISPR/Cas9 in B. napus, and three mutant lines were generated. The S/G lignin compositional ratio was decreased compared to that of the wild type based on the results of M?ule staining and 2D-NMR profiling in KO-7. The resistance to S. sclerotiorum in stems and leaves increased for the three f5h mutant lines compared with WT. Furthermore, we found that the stem strength of f5h mutant lines was significantly increased. Overall, we demonstrate for the first time that decreasing the S/G ratio by knocking out of the F5H gene improves S. sclerotiorum resistance in B. napus and increases stem strength.     

In vitro mutation and selection of doubled-haploid Brassica napus lines with improved resistance to Sclerotinia sclerotiorum

This paper describes a new protocol to develop doubled-haploid (DH) Brassica napus lines with improved resistance to Sclerotinia sclerotiorum. In this protocol, haploid seedlings derived from microspore cultures of B. napus were used to produce haploid calli for in vitro mutation-selection. For routine screening, mutation was induced by EMS (ethylmethane sulfonate) or occurred spontaneously, and screening for resistant mutants occurred on media with added oxalic acid (OA) as a selection agent. In tests with selected lines, the optimal concentration of EMS for mutation was determined to be 0.15%, and the optimal concentration of OA for in vitro screening was 3 mmol/l (half lethal dose was 3.1 mmol/l) for the first cycle of screening. There was an accumulated effect of OA toxicity on calli over two cycles of screening, but the growth and capacity of the surviving calli for regenerating seedlings were not affected by OA. Of the 54 DH lines produced from the in vitro mutation-selection, two DH lines of resistant mutants, named M083 and M004, were selected following seedling and glasshouse tests. The resistance of M083 and M004 to S. sclerotiorum following tests with both mycelial inoculum and OA was greater than that of their donor lines and the resistant control Zhongyou 821. In both glasshouse and field disease nurseries, disease indices on M083 and M004 were less than 50% of those of the control. The time required for M083 and M004 to mature was 14 days and 10 days shorter, respectively, than that of their donor lines. Furthermore, M083 had more pods per inflorescence, a greater 1,000 seed weight and higher yield than its donor line. Random amplified polymorphic DNA characterisation showed that M083 had DNA band patterns that differed from its donor line.     

Oxalic acid‐mediated stress responses in Brassica napus L.

Oxalic acid (OA) occurs extensively in nature and plays diverse roles, especially in pathogenic processes involving various plant pathogens. However, proteome changes and modifications of signaling and oxidative network of plants in response to OA are not well understood. In order to investigate the responses of Brassica napus toward OA, a proteome analysis was conducted employing 2‐DE with MS/MS. A total of 37 proteins were identified as responding to OA stress, of which 13 were up‐regulated and 24 were down‐regulated. These proteins were categorized into several functional groups including protein processing, RNA processing, photosynthesis, signal transduction, stress response, and redox homeostasis. Investigation of the effect of OA on phytohormone signaling and oxidative responses revealed that jasmonic acid‐, ethylene‐, and abscisic acid‐mediated signaling pathways appear to increase at later time points, whereas those pathways mediated by salicylic acid appear to be suppressed. Moreover, the activities of the antioxidant enzymes catalase, peroxidase, superoxide dismutase and oxalic acid oxidase, but not NADPH oxidase, were suppressed by OA stress. Our findings are discussed within the context of the proposed role(s) of OA during infection by Sclerotinia sclerotiorum and subsequent disease progression.     

抗芜菁花叶病毒转基因甘蓝型油菜的研究

以子叶柄为材料,建立了甘蓝型油菜（ＢｒａｓｓｉｃａｎａｐｕｓＬ．）双低品种的再生体系。通过子叶柄与农杆菌（ＡｇｒｏｂａｃｔｅｒｉｕｍｔｕｍｅｆａｃｉｅｎｓＬＢＡ４４０４）共培养,将表达载体ｐＢＴｕ中芜菁花叶病毒外壳蛋白（ＴｕＭＶ－ＣＰ）基因以整合方式导入甘蓝型油菜,然后用卡那霉素进行筛选,获得了油菜再生植株。经ＰＣＲ特异性扩增、点杂交和Ｓｏｕｔｈｅｒｎ印迹分析,证明再生植株基因组ＤＮＡ中整合了ＴｕＭＶ－ＣＰ基因。攻毒实验表明,有ＴｕＭＶ－ＣＰ基因插入的工程油菜对ＴｕＭＶ均有不同程度的抗性。     

油菜菌核病菌对速克灵的抗药性风险研究

在室内条件下通过菌丝生长速率法测定了分离自安徽省10个县市的油菜菌核病菌（Sclerotinia scleroti-orum）对速克灵的敏感性。结果表明,速克灵对各供试菌株的EC50值分布范围为0.0899-0.4966μg/mL,平均为0.2541μg/mL,且供试菌株在含速克灵质量浓度为10 000μg/mL的PDA平板上菌丝生长几乎完全被抑制。表明各供试菌株对速克灵十分敏感,但其敏感程度地区间存在较大差异。通过室内药剂直接诱变法,获得了抗速克灵突变株。抗性突变株抗性测定结果表明,某些地区的抗性菌株抗性消失,有些地区的抗性菌株抗性继续保持。结果显示安徽省油菜菌核病菌对速克灵具有潜在的抗药性风险。