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大豆高产、优质、高效育种材料创新的策略与动态 总被引:2,自引:0,他引:2
要实现我国大豆产量的突破和品质的改良,应注意从五个方面进行研究①高产优质增效基因的累积。②适于高效光能利用的形态基因背景构建。③消除高产限制因子的影响。④基因互作交流的利用(杂种优势)⑤基因与环境互作(高基因表达的条件)。就这五个方面的研究动态及进展作一综述。 相似文献
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小麦族内的核质互作研究进展 总被引:2,自引:0,他引:2
本文从核质基因型互作、细胞质与染色体互作、细胞质与染色体(片段)互作和细胞质基因与细胞核基因互作4个层次综述了小麦族内核质互作研究的最新进展及其小麦遗传育种学的拓展,提出了小麦族内核质互作研究的重点领域-核质杂种的遗传变异、新型核质杂种的创制和杂种优势利用,并展望了这一领域的研究前景。 相似文献
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为了解小麦抗茎腐病的遗传特性,利用数量性状主基因+多基因混合遗传模型分离分析方法,结合苏麦3号/白免3号重组自交系群体2008、2009两年的茎腐病抗性鉴定数据,对小麦茎腐病抗性进行了遗传模型分析。结果表明,此群体的小麦茎腐病抗性是由两对主基因+多基因控制的(E16), 主基因间有加性累加效应,主基因的加性效应为-7.45(2008年)和-6.58(2009年),两个主基因间的互作效应为11.83(2008年)和10.4(2009年),互作效应大于加性效应。小麦茎腐病抗性的主基因遗传率中等偏上,为70.88%(2008年)和71.24%(2009年),多基因遗传率在10%以下。以上结果表明,小麦茎腐病抗性主要是主基因遗传,且遗传率较高,可以通过杂交育种把小麦茎腐病抗性转移到农艺性状优异的品种中去,但在育种中应关注抗性基因间的互作效应,以便选育出优于抗性亲本的材料。 相似文献
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水稻条纹病毒(rice stripe virus,RSV)NS3蛋白为病毒的沉默抑制子。利用酵母双杂交技术,从水稻cDNA文库中筛选出一个与RSV NS3蛋白互作的基因片段。推测该基因的功能是编码水稻3 磷酸甘油醛脱氢酶(glyceraldehyde-3-phosphate dehydrogenase,GAPDH)。双分子荧光互补实验进一步验证了NS3与GAPDH存在互作。瞬时表达实验表明,GAPDH与GFP基因融合蛋白在本氏烟表皮细胞细胞质中大量积累。此外,讨论了GAPDH蛋白在RSV侵染水稻过程中可能的功能。 相似文献
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油菜与核盘菌相互作用的过程中,JA(茉莉酸)合成相关基因表达量升高,但是JA信号传递却受到了抑制,推测核盘菌分泌的效应蛋白可能直接或间接作用于JAR1蛋白,使其活性降低,从而抑制依赖JA途径的油菜防御系统。前期通过转录组测序获得了差异表达基因BnJar1全长序列,为进一步揭示BnJar1基因参与油菜-核盘菌相互作用过程的机理,本研究对BnJAR1蛋白进行生物信息学分析和预测,构建了核盘菌-油菜互作表达基因酵母文库,并以BnJar1作为诱饵蛋白对文库进行酵母双杂交筛选,获得了5个来自油菜的互作蛋白:丙二烯氧化物环化酶2(BnAOC2)、COP9信号复合物(BnCOP9)、4a-羟基四氢生物蝶呤脱水酶(BnDcoH)、腈水解酶2(BnNIT2)和茎特异性蛋白(BnTSJT1);2个来自核盘菌的互作蛋白:MFS结构域蛋白(SsMFS)和Rho3 GTP酶(SsRho3)。相关结果为研究油菜-核盘菌的相互作用,挖掘致病或抗病相关基因,进一步解析其机理奠定了基础。 相似文献
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炭疽菌(Colletotrichum siamense)是橡胶树等多种热带作物炭疽病的主要病原。双组分系统(two component system)在病原真菌中参与菌体对外界环境变化的适应、耐药性和毒力的调控。该系统包括感受器和应答调节蛋白,SSK1(SLF-interacting SKP1-like1)是双组分系统中的应答调节蛋白。为了了解炭疽菌中SSK1互作蛋白,本研究克隆获得橡胶树炭疽菌的一个应答调节蛋白编码基因CsSSK1,大小为2750 bp,cDNA大小为2190 bp,编码729个氨基酸,包含1个内含子,具有1个cheY同系物接收结构域和10个复杂结构。并利用酵母双杂交技术,在橡胶树炭疽菌cDNA文库中对CsSSK1互作蛋白进行筛选,共筛选到10个互作蛋白,分别为转酮醇酶、金属内酰胺酶、锌乙醇脱氢酶、泛素亚型X1、微管蛋白以及5个未知或假定蛋白。该结果为进一步研究CsSSK1的功能、互作蛋白及调节机制提供基础。 相似文献
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高粱主要农艺性状的遗传,配合力分析及高产组合选配 总被引:1,自引:1,他引:0
高粱主要农艺性状的遗传、配合力分析及高产组合选配王景雪,张福耀(山西省农科院生物工程室030031)(山西省农科院高粱研究所030600)岳桂兰(辽宁省农科院高粱研究所110161)高粱是杂种优势利用较早的作物之一。自1954年第一个胞质互作的雄性不... 相似文献
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利用近等基因系研究3个抗水稻纹枯病QTL的聚合效应 总被引:2,自引:0,他引:2
利用特青/Lemont组合的回交群体,证实了特青第7染色体上存在抗纹枯病QTL qSB7Tq。以Lemont为轮回亲本,通过分子标记辅助连续回交结合性状鉴定,构建了qSB7Tq与另外两个抗水稻纹枯病QTL qSB9Tq(位于特青第9染色体)和qSB11Le(位于Lemont第11染色体)的一套近等基因系,对各抗性QTL的单个效应及其聚合效应进行了研究。3个抗性QTL单独存在或在聚合状态下均能显著提高水稻品种对纹枯病的抗性水平。但是,不同抗性QTL之间可能普遍存在一定的负向互作关系。讨论了一致的遗传背景对QTL研究的重要性,以及不同QTL的聚合效应及互作关系对育种实践的意义。 相似文献
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Textile fibers were obtained from secondary polyethylene terephtalate (PET) and its mixtures with primary PET at initial orientation of 18000–33000 %, rate of additional orientation drawing 3.5–6.5 times and temperature of thermal fixation 363–413 K. The fibers’ tensile strength was found to decrease and elongation at break to increase with the decrease of their linear density under the conditions of fibers formation. For the fibers based on polymer mixtures, the presence of oxidized fragments in the secondary PET limited the compatibility of the two polymers which resulted in deteriorated tensile properties. The linear density (4–16 dtex), tensile strength (30–50 cN/tex) and elongation at break (20–60 %) of the PET fibers obtained were close to these for the industrially produced polymer fibers. The values of the average diameter of the fibers formed and oriented under laboratory conditions allows classifying them between the fine and the coarse textile fibers which makes them suitable for the textile industry. 相似文献
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Gas-exchange characteristics of potato (Solanum tuberosum L.) canopies were determined with crop enclosures under condition of optimal water supply, during soil water depletion, and during recovery from drought-stress. The plants were grown under a rainshelter in large containers with 2-m2 surface area. Control plants received water throughout the growth period. In Expt. 1, transient drought was imposed by interrupting water supply completely for 22 days. During the 33-day period of drought treatment in Expt. 2, the stressed plants received half the amount of water that was given to the control plants (irrigations 2–3 times per week).
During soil water depletion, stomatal conductance of the canopy was reduced earlier and more than photosynthesis. This resulted in a lower internal carbon dioxide concentration in the leaves of stressed plants and a higher ratio between photosynthesis and stomatal conductance. The value of that ratio increased as soil water potential dropped.
Water-use efficiency ( ) increased during drought stress. The cultivar Bintje showed a larger ratio between photosynthesis and stomatal conductance of the canopy and a higher than cv. Saturna, both for optimal water supply and during drought stress.
Photosynthesis and conductance of the canopy started to recover immediately upon rewatering, even when relative values had declined to 20–30% during the preceding stress period. After release from stress, the leaves in the top layer of the canopy had a higher stomatal conductance in treated plants than in control plants. 相似文献
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2017—2018年,在同安镇粮食产能区示范推广水稻病虫害绿色防控与统防统治融合技术模式,取得了显著成效。融合技术示范区比常规区减少用药2~3次,用药量减少37.6%,防治成本降低400元/hm^2;水稻产量增加12.8%,收益增加2 835元/hm^2。 相似文献
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《Journal of Crop Improvement》2013,27(1):313-324
Summary Arbuscular mycorrhizae were inoculated into phosphorus-deficient soil fertilized with either organic or chemical fertilizer with cucumber (Cucumis sativus L.) as the first crop and lettuce (Lactu-ca sativa L.) as the second crop but without additional fertilization and AM inoculation. AM increased dry matter and fruit yield of cucumber significantly in the unfertilized, organic-fertilized and P-deficient plants compared with the fully chemical-fertilized plants. AM inoculation increased the available phosphorus in plant and soil by around 30% for all treatments except for those chemically-fertilized. The rate of AM infection did not differ significantly among the fertilization treatments, but the infection intensity was higher in unfertilized, organic-fertilized and phosphorus-deficient treatments than chemical-fertilized treatment. The residual effects of AM-inoculated to cucumber were evident for lettuce in all pre-treatments that were unfertilized and un-inoculated for the second cropping. Without P-fertilization, neither crop could grow optimally even when the soil was inoculated with AM, suggesting that AM could not serve as a substitute for phosphorus fertilizer. However, the other beneficial effects of AM on crop growth and yield could not be fulfilled with phosphorus fertilizer. 相似文献
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生物质能作物——甘薯开发利用现状及趋势 总被引:13,自引:0,他引:13
甘薯是世界上重要的粮食、饲料、工业原料及新型能源用块根作物,在我国乃至世界再生能源开发中起到重大作用,其分布地域广,适应性强,沙荒地、岗坡地均可种植。生物产量高,而且种植栽培容易。甘薯含淀粉15%~30%,晒干率20%~35%,世界各国以薯干或淀粉为原料生产乙醇有着悠久的历史。随着全球能源的日趋紧张,乙醇作为一种可再生的环保燃料.将快速步入全球成品油市场,在替代汽油供应方面起到越来越大的作用。各国正在推行或制定燃料乙醇计划,并着眼于生物燃料乙醇应用方案,认为甘薯可能是摆脱将来粮食和能源危机的“最后一张王牌”。 相似文献
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为明确春季调控措施对冬小麦生长发育和籽粒产量的影响,以冬小麦品种石新828为材料进行田间试验,4个处理分别为:起身期追全部氮肥(除基肥外,下同)并叶面喷多效唑(N1);起身期追2/3氮肥并喷多效唑+拔节期追1/3氮肥(N2);起身期追1/3氮肥+拔节期追2/3氮肥(N3);拔节期追全部氮肥(N4)。生育期间测定群体和个体生育特性,成熟期调查产量性状。结果表明,N1和N2处理小麦拔节期的总茎数、叶面积指数(LAI)和干物质积累量均显著高于N4和N3处理。孕穗期N4和N3处理小麦的总茎数、LAI和干物质积累量显著高于N1和N2处理。开花到成熟期各处理的总茎数、LAI和干物质积累量差异均不显著。孕穗期前,不同处理的株高差异不显著,孕穗期后,N4处理的株高最高,且显著高于N1处理。各处理基部节间直径和中上部节间长的差异不显著,N4处理基部第一节间长度显著大于其他处理。随追氮时期前移或前期施氮量增多,不孕小穗数减少,结实小穗和穗粒数增加,N1比N4处理不孕小穗数显著减少,结实小穗和穗粒数显著增多。N1处理小麦成熟期的千粒重最高,且显著高于N4处理。N1处理的籽粒产量最高,且显著高于N3和N4处理。起身期追氮配合多效唑调控,可以获得比拔节期追氮更高的穗粒数和千粒重,从而获得更高的产量。 相似文献
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施镁量和施镁方法对烤烟生长发育和烟叶产量的影响 总被引:4,自引:0,他引:4
采用盆栽试验,研究施镁量和施镁方法对烤烟生长发育和烟叶产量的影响,结果表明:适量施用镁肥,可以促进烟草的生长发育、改善其农艺学性状,影响烟株对其它营养元素的吸收与积累,提高烟叶产量,并能使烟叶N,P,K,Ca等营养元素含量更趋协调。随着施镁量的增加,烟叶中镁含量提高10.7%~71.4%,烤烟单株吸镁量、叶片叶绿素含量、干物质产量分别提高17.6%~115.4%,1.9%~23.ooA和6.3%~25.7%,而对烟叶含钾量没有明显影响。在镁比较缺乏的土壤上,镁肥作基肥施比叶面喷施的效果好,基肥施镁结合叶面喷镁的效果最佳;叶面喷镁,肥料用量少、成本低、见效快,是一种有效的镁肥施用方法;提高镁肥用量,施镁的效果更加显著。 相似文献