阿月浑子与黄连木的杂种果实发育及幼胚培养研究

 以阿月浑子与黄连木的杂种果实和杂种幼胚为试材,对果实生长发育规律及幼胚培养进行了研究,探讨了胚龄、培养基类型和6-BA浓度等对杂种胚培苗再生的影响。结果表明：（1）杂种果实的纵、横径生长呈“S”型曲线变化,果实鲜质量生长呈双“S”型曲线变化。（2）杂种胚的发育始于授粉后80 d,80 ~ 100 d是杂种胚败育的关键时期。（3）授粉后80 d的杂种幼胚难以成苗,授粉后100和120 d的杂种幼胚成苗率分别为37.04%和83.33%。（4）适宜杂种胚培苗增殖的培养基为：DKW + 2.0 mg · L^-1 6-BA + 0.05 g · L^-1 IBA + 0.3 g · L^-1 LH + 1.5 g · L^-1 PVP,增殖系数为3.47,苗高为3.32 cm。（5）适宜杂种胚培苗生根的培养基为：1/2WPM + 2.0 mg · L^-1 IBA + 0.05 mg · L^-1 NAA,生根率为80%。     

樱桃番茄新品种钱江红珠的选育

钱江红珠是以X1R为母本、KY-10-1为父本配制而成的杂交1代樱桃番茄新品种.该品种属无限生长型,中熟,生长势强.果实长圆,大红色,大小均匀,单果质量16～18 g,硬度好,耐贮运,春季667 m2平均产量5000 kg左右,抗TMV(Tobacco mosaic virus),中抗CMV(Cucumber mosa...     

野生稻与栽培稻的杂种后代对褐稻虱的抗性机制初探

为了开拓抗虫基因源,培育抗性稳定的水稻抗虫品种,采用感虫的栽培稻雄性不育株为母本,以高抗褐稻虱的野生稻为父本进行有性杂交。通过用改良的苗期群体筛选法,对其后代进行抗性鉴定,证实其抗性可以遗传,已成功地获得了抗褐稻虱的杂种后代。并根据飞虱在抗虫植株上的生存率、群体建立、蜜露量和稻株的受害级别等指标与感虫对照种TN1上的差异显著性作比较,综合评定杂种后代对褐稻虱的抗性机制。结果表明,测试的N482(A)/101392组合的F_5、F_6、F_7和H_4等几个后代对褐稻虱的抗性机制均为抗生性。     

转hrf1基因水稻对稻曲病抗性分析

用注射接种法测定9个转hrf1基因水稻品系对稻曲病的抗性,结果表明B12-2m、B12、HTRP2和NJH12转基因系对稻曲病的抗性有显著提高,其中NJH12对稻曲病的抗性表现最突出。在江苏南京和安徽潜山两地的田间测定结果显示NJH12对稻曲病的抗性表现明显,与对照相比防效提高65%以上。用RT-PCR测定抗病转基因系中防卫基因的表达,在抗病转基因系中,Ospr1a、Ospr1b和PAL等防卫反应基因的表达明显增强。转hrf1基因水稻可能通过诱导防卫反应基因的表达提高水稻对稻曲病的抗性。     

中国水稻害虫治理对策的演变及其展望

本文简要回顾了中国水稻害虫的变迁、相应的对策演变,从中了解、总结害虫发生与人类治虫对策之间的因果渊源,指出只有师法自然、通过生态工程实施生态治理技术才能持续双赢。     

8个WRKY转录因子在水稻叶片生长和抗病过程中的表达分析

 WRKY是植物体内最大的转录因子家族之一, 其成员在植物生长发育和抗逆过程中发挥重要作用。为了解水稻WRKY的功能, 本研究利用蛋白质免疫印迹(western blotting, WB)技术, 检测了8个WRKY转录因子在水稻叶片生长和Xa21介导的抗白叶枯病过程中的表达丰度变化。结果表明:OsWRKY12、43、55和86在苗期表达量较低, 随叶片的生长表达逐步增加;OsWRKY50和84在苗期叶片中的表达量相对较高, 成熟期下降;未检测到OsWRKY40/64和52在叶片中的表达。在Xa21介导的白叶枯病抗性反应中, OsWRKY40/64、50和52受白叶枯病菌诱导表达, OsWRKY84受侵染后表达量上调, OsWRKY12、43、55和86在抗病过程中没有检测到表达丰度的变化。进一步比较这些转录因子在抗、感和对照(Mock)反应中的表达, 发现抗、感反应间蛋白质的表达变化是相似的。研究结果提示:OsWRKY12、43、55和86可能在叶片正常生长中发挥作用;OsWRKY40/64和52可能在水稻-白叶枯病菌互作过程中发挥作用;OsWRKY50和84则在叶片生长和抗白叶枯病过程中都有一定的功能。     

Allelopathy in crop/weed interactions--an update

Since varietal differences in allelopathy of crops against weeds were discovered in the 1970s, much research has documented the potential that allelopathic crops offer for integrated weed management with substantially reduced herbicide rates. Research groups worldwide have identified several crop species possessing potent allelopathic interference mediated by root exudation of allelochemicals. Rice, wheat, barley and sorghum have attracted most attention. Past research focused on germplasm screening for elite allelopathic cultivars and the identification of the allelochemicals involved. Based on this, traditional breeding efforts were initiated in rice and wheat to breed agronomically acceptable, weed-suppressive cultivars with improved allelopathic interference. Promising suppressive crosses are under investigation. Molecular approaches have elucidated the genetics of allelopathy by QTL mapping which associated the trait in rice and wheat with several chromosomes and suggested the involvement of several allelochemicals. Potentially important compounds that are constitutively secreted from roots have been identified in all crop species under investigation. Biosynthesis and exudation of these metabolites follow a distinct temporal pattern and can be induced by biotic and abiotic factors. The current state of knowledge suggests that allelopathy involves fluctuating mixtures of allelochemicals and their metabolites as regulated by genotype and developmental stage of the producing plant, environment, cultivation and signalling effects, as well as the chemical or microbial turnover of compounds in the rhizosphere. Functional genomics is being applied to identify genes involved in biosynthesis of several identified allelochemicals, providing the potential to improve allelopathy by molecular breeding. The dynamics of crop allelopathy, inducible processes and plant signalling is gaining growing attention; however, future research should also consider allelochemical release mechanisms, persistence, selectivity and modes of action, as well as consequences of improved crop allelopathy on plant physiology, the environment and management strategies. Creation of weed-suppressive cultivars with improved allelopathic interference is still a challenge, but traditional breeding or biotechnology should pave the way.     

Multifunctionalised benzoxazinones in the systems Oryza sativa–Echinochloa crus‐galli and Triticum aestivum–Avena fatua as natural‐product‐based herbicide leads

BACKGROUND: Fifteen novel derivatives of D‐DIBOA, including aromatic ring modifications and the addition of side chains in positions C‐2 and N‐4, had previously been synthesised and their phytotoxicity on standard target species (STS) evaluated. This strategy combined steric, electronic, solubility and lipophilicity requirements to achieve the maximum phytotoxic activity. An evaluation of the bioactivity of these compounds on the systems Oryza sativa–Echinochloa crus‐galli and Triticum aestivum–Avena fatua is reported here. RESULTS: All compounds showed inhibition profiles on the two species Echinochloa crus‐galli (L.) Beauv. and Avena fatua L. The most marked effects were caused by 6F‐4Pr‐D‐DIBOA, 6F‐4Val‐D‐DIBOA, 6Cl‐4Pr‐D‐DIBOA and 6Cl‐4Val‐D‐DIBOA. The IC₅₀ values for the systems Echinochloa crus‐galli–Oryza sativa and Avena fatua–Triticum aestivum for all compounds were compared. The compound that showed the greatest selectivity for the system Echinochloa crus‐galli–Oryza sativa was 8Cl‐4Pr‐D‐DIBOA, which was 15 times more selective than the commercial herbicide propanil (Cotanil‐35). With regard to the system Avena fatua–Triticum aestivum, the compounds that showed the highest selectivities were 8Cl‐4Val‐D‐DIBOA and 6F‐4Pr‐D‐DIBOA. The results obtained for 6F‐4Pr‐D‐DIBOA are of great interest because of the high phytotoxicity to Avena fatua (IC₅₀ = 6 µM , r² = 0.9616). CONCLUSION: The in vitro phytotoxicity profiles and selectivities shown by the compounds described here make them candidates for higher‐level studies. 8Cl‐4Pr‐D‐DIBOA for the system Echinochloa crus‐galli‐Oryza sativa and 6F‐4Pr‐D‐DIBOA for Avena fatua‐Triticum aestivum were the most interesting compounds. Copyright © 2010 Society of Chemical Industry     

空间诱变育成水稻品种对硒的生物富集能力研究初报

以粤航1号、航香糯和航小占3个空间诱变育成水稻品种(系)及其亲本长丝占、南丰糯、籼小占为试验材料,采用喷施硒肥富硒康的方法,进行空间诱变育成水稻品种对硒的生物富集能力研究.结果显示:在施硒肥(或不施硒肥)条件下,空间诱变育成品种(系)稻米(包括精米和糙米)的硒含量与其亲本之间差异不显著,各品种稻米的硒含量均极显著增加,与不施硒肥处理相比,精米的硒含量增加3.435倍、糙米的硒含量增加4.204倍.     

5种微生物杀虫剂对3种水稻主要害虫的室内毒力比较及致死表型观察

为发展水稻害虫的绿色防控技术,本研究采用浸渍法比较了5种微生物杀虫剂(苏云金芽胞杆菌Bacillus thuringiensis、短稳杆菌Empedobacter brevis、球孢白僵菌Beauveria bassiana、金龟子绿僵菌Metarhizium anisopliae CQMa421和甘蓝夜蛾Mamestra brassicae核型多角体病毒)对3种水稻主要害虫(二化螟Chilo suppressalis、稻纵卷叶螟Cnaphalocrocis medinalis和褐飞虱Nilaparvata lugens)的室内毒力及致死表型。结果表明,在田间推荐中剂量处理条件下,5种药剂对稻纵卷叶螟幼虫均具有较好的速效性,处理后第2天幼虫的校正死亡率(46.7%～86.7%)就显著高于对照组(0%),第5天稻纵卷叶螟幼虫校正死亡率可达到85.7%～100%,均极显著高于二化螟的校正死亡率(4.76%～23.81%),二化螟第6天时的校正死亡率为25.0%～55.0%。对褐飞虱若虫,金龟子绿僵菌CQMa421的速效性和毒力均优于球孢白僵菌,经金龟子绿僵菌CQMa421处理后2 d的存活...