植物化感作用的机理及应用前景

植物的化感作用是植物进化出的一种保护自身生存的方式,通过向环境中释放化学物质促进或抑制自身和其他植物的生长,抑制作用较为常见。化感作用既可以被人类应用于农业除杂草,又业经济效益的关键所在。详细介绍了植物化感物质种类、作用机理,最后是入侵物种强有力的武器,合理地利用化感作用将是保持生态平衡,同时创造农讨论了植物化感作用的应用前景。     

植物化感抑藻的作用机理

对植物化感物质抑藻机理,即化感物质影响藻细胞的光合作用、破坏细胞膜、改变细胞酶活性、影响细胞超微结构及基因表达等几个方面进行了综合评述。研究表明,化感物质主要通过降低叶绿素a含量,破坏光合系统Ⅱ,使细胞膜结构裂解,酶活性改变,抗氧化系统破坏,细胞膜内超微结构受损,基因表达异常等几个方面来抑制藻细胞的分裂或直接杀死藻细胞,从而减少藻细胞数量,抑制藻类的生长。未来应该从更微观角度,即基因表达、分子和遗传机制等方面对化感抑藻机理进行深入研究,以期为开发安全、高效的抑藻化感物质提供理论基础。     

水稻化感作用及其分子生态学研究进展

综述了近年来国际上研究水稻化感作用的新进展,比较分析了当前常用于室内评价水稻化感作用潜力的几种生物测试法的优缺点,指出了琼脂迟播共培法是较为理想的室内生物测试法并已广泛应用于化感作用研究中。在此基础上,分析了水稻化感作用的数量遗传特性及其QTL定位的研究现状;阐明了水稻化感作用的遗传多样性及其分子生态特性;并就当前普遍关注的焦点问题：逆境条件（如低氮或高伴生杂草密度胁迫）常引起水稻化感作用潜力增大的生理过程与分子机制作了阐述。结合近年来应用差异蛋白组学和生物信息学的研究实例,阐明了逆境引起水稻化感作用增强与其酚类合成代谢相关酶蛋白表达丰度增加,萜类合成代谢相关酶蛋白表达丰度下降有关。就究竟什么是水稻的化感物质及其作用方式等问题作了分析与讨论．指出水稻的化感抑草效应是其众多化感物质综合作用的结果,应重视区分化感物质对靶标杂草的原生作用和进入土壤生态系统中经生物转化后的次生作用。根据当前植物化感作用研究的发展趋势,阐明了进一步研究水稻化感作用的焦点问题,提出了水稻化感作用的根际生物学特性与分子生态学机制,是未来国际上竞相角逐的重点研究领域,并认为以现代系统生物学理论为指导,运用基因组学、蛋白质组学和代谢组学等技术方法,是揭示这一分子生态学过程与机制的重要技术选择和优先研究领域。     

水稻化感作用研究综述

主要对水稻化感现象发现,化感生物检测,化感物质分离和鉴定,化感种质资源等方面的研究进展了系统的综合论述,在此基础上,进一步对化感作用研究中的主要问题,例如;生物检测手段,化感作用利用途径等进行了分析。并对我国的化感作用研究的存在问题及发展方向作出了论述。     

环境胁迫下植物的化感作用及其诱导机制

植物化感作用是生态学研究中一个十分活跃的领域,对植物为什么和在什么条件下释放化感物质这一重要问题有不同的认识。在对环境胁迫下植物化感作用的变化及环境胁迫因子对化感物质听诱导机制等方面进行了评述后,指出植物化感化质的产生和释放是植物在环境胁迫的选择压力下形成的,植物化感作用是植物在进化过程中产生的一种对环境的适应性机制。     

差异蛋白质组学技术在植物响应低温胁迫研究中的应用

低温是影响植物生长和地理分布最主要的非生物胁迫因子之一,研究植物响应低温胁迫的分子机制是当前植物生理与分子生态学研究领域的热点问题.利用蛋白质组学技术发现与植物低温应答相关的蛋白,为解析植物抗寒分子机制提供重要信息,对于全面揭示植物低温适应的遗传基础和抗寒机理具有重要意义.综述了近年来运用差异蛋白质组学技术和策略研究模式植物以及非模式植物响应低温胁迫的主要进展,同时指出了该研究领域目前仍存在的问题及今后的发展方向.     

水稻化感作用的机制与应用的研究进展

水稻是我国的主要粮食作物,其与周围植物的相生相克作用（化感作用）得到越来越多的重视.简要介绍了近来国内外对水稻对高等植物的化感作用的研究成果,介绍其化感作用途径、化感物质的分离、鉴定、可能的作用原理及在生产实践中的应用.     

低磷营养胁迫下水稻化感抑草潜力的变化特性及其作用机理

在低磷(0.5 mg·L^-1) 营养胁迫下,运用生理生化方法分析了化感水稻PI312777（PI）与非化感水稻Lemont (Le) 对稗草抑制作用潜力的变化特性及其内在机理.结果表明,在低磷营养胁迫下,化感水稻品种PI对受体稗草根干重的抑制能力明显提高,在处理后的5 、10和15 d,其对稗草地下部干重的抑制率分别增加了5.64%、3.89%和12.13%,增加幅度比非化感水稻品种Le显著.生理生化分析结果表明,与正常营养条件相比,用低磷营养下生长的化感水稻PI的根系分泌物处理稗草5、10和15 d,受体稗草叶片中POD活性的促进率分别提高了20.19%、15.47%和6.68%,吲哚乙酸氧化酶活性的促进率分别提高了18.08%、17.71%和12.50%,硝酸还原酶活性的抑制率分别增加了13.89%、18.60%和2.10%. 在低磷营养胁迫下,化感水稻通过抑制受体植物的硝酸还原酶活性,影响其对氮营养的吸收,同时显著提高了吲哚乙酸氧化酶活性,减缓了受体稗草的生长速度,提高了其抑草作用潜力.     

植物化感物质活性变化及其作用机理研究进展

本文综述了化感物质活性的变化、变化的原因及其功能机理。化感物质活性在自然过程中,由于温度、光周期、水和土壤等的不同而变化,在功能过程中随其初始浓度、化合物结构和混合程度不同而变化,在植物体内由于组织器官和成熟程度不同而变化,而研究技术和操作过程也影响化感物质的活性。文章还讨论了未来化感作用研究的发展方向。未来化感作用研究将集焦于如下五方面(1)更有效地在实践中,特别是在农业生产过程中鉴定和提纯化感物质;(2)化感作用在分子结构水平的功能定位;(3)应用化感作用解释植物种间相互作用;(4)化感作用在植被演替过程中的驱动力作用;(5)化感作用在进化过程中的意义。     

植物化感物质活性变化及其作用机理研究进展

本文综述了化感物质活性的变化、变化的原因及其功能机理.化感物质活性在自然过程中,由于温度、光周期、水和土壤等的不同而变化,在功能过程中随其初始浓度、化合物结构和混合程度不同而变化,在植物体内由于组织器官和成熟程度不同而变化,而研究技术和操作过程也影响化感物质的活性.文章还讨论了未来化感作用研究的发展方向.未来化感作用研究将集焦于如下五方面:(1)更有效地在实践中,特别是在农业生产过程中鉴定和提纯化感物质;(2)化感作用在分子结构水平的功能定位;(3)应用化感作用解释植物种间相互作用;(4)化感作用在植被演替过程中的驱动力作用;(5)化感作用在进化过程中的意义.     

Identification of a gibberellin-induced gene in deepwater rice using differential display of mRNA

Differential display of mRNA was employed to identify gibberellin (GA)-regulated genes in deepwater rice. One of the first differentially displayed products identified was shown to be ten-fold induced after start of GA treatment. The sequence of the clone shows complete amino acid identity with histone H3, and its increased mRNA level correlates with the onset of DNA synthesis. We also identified a gene whose expression pattern did not change over the course of treatment with GA and can be used as standard to correct for loading differences on northern blots.     

Prospect of the QTL-qSB-9^Tq utilized in molecular breeding program of japonica rice against sheath blight

The major QTL-qSB-9Tq conferring partial resistance to rice (Oryza sativa L.) sheath blight (Rhizoctonia solani Kühn) has been verified on chromosome 9 of the indica rice cultivar, Teqing. In this study, the prospect of this QTL utilized in molecular breeding program of japonica rice for sheath blight resistance was investigated. Most of the japonica rice cultivars showed lower level of sheath blight resistance than the indica rice cultivars. At the corresponding site of qSB-9Tq, nine typical japonica rice culfivars from different ecological regions or countries proved to possess the susceptible allele(s). Introgression of qSB-9Tq into these cultivars enhanced their resistance level by decreasing sheath blight score of 1.0 (0.5-1.3), which indicated that qSB-9Tq had a large potential in strengthening the resistance of japonica rice to sheath blight. The use of the three molecular markers, which were polymorphic between Teqing and many japonica rice cultivars, promotes the application of qSB-9Tq in a concrete molecular breeding program.     

水稻抗稻瘟病基因的标记辅助选择及定位克隆

水稻抗稻瘟病基因-稻瘟病菌无毒基因相互作用体系是当今植物分子病理学和抗病育种学研究领域的模式体系之一,其中抗病基因的分子定位与克隆及其标记辅助选择已成为该体系的重要内容。本文就这方面的研究进展作一简要综述,以期为水稻抗病育种提供有益的信息。     

环境因素诱导昆虫滞育发生的分子机制研究进展

滞育是生物体为了渡过恶劣环境而进行的一种停滞生长发育的生理状态,主要受遗传和环境因素的影响。研究发现光周期、温度、食物营养和体内激素水平等都能诱导昆虫滞育发生,然而滞育诱导是一个复杂的调控过程,对其分子机制的研究仍不清楚。本文对近年来在滞育诱导相关分子和分子信号通路方面取得的研究进展进行梳理,重点介绍了光周期和温度诱导昆虫滞育发生的分子级联系统,包括生物钟Per/Tim和Clk反馈回路、温度敏感型瞬时受体电位通道、γ-氨基丁酸GABA信号通路、珊瑚青素Corazonin信号通路和胰岛素信号途径等,该综述内容将为昆虫滞育研究提供帮助,同时为利用昆虫滞育进行农林害虫的防治及天敌保护提供理论参考。     

Genetic analysis and molecular mapping of a novel gene for zebra mutation in rice （Oryza sativa L.）

A novel zebra mutant, zebra-15, derived from the restorer line JinhuilO （Oryza sativa L. ssp. indica） treated by EMS, displayed a distinctive zebra leaf from seedling stage to jointing stage. Its chlorophyll content decreased （55.4%） and the ratio of Chla/Chlb increased （90.2%） significantly in the yellow part of the zebra-15, compared with the wild type. Net photosynthetic rate and fluorescence kinetic parameters showed that the decrease of chlorophyll content significantly influenced the photosynthetic efficiency of the mutant. Genetic analysis of F2 segregation populations derived from the cross of XinonglA and zebra-15 indicated that the zebra leaf trait is controlled by a single recessive nuclear gene. Ninety-eight out of four hundred and eighty pairs of SSR markers showed the diversity between the XinonglA and the zebra-15, their F2 population was then used for gene mapping. Zebra-15 （Z-15） gene was primarily restricted on the short arm of chromosome 5 by 150 F2 recessive individuals, 19.6 cM from marker RM3322 and 6.0 cM from marker RM6082. Thirty-six SSR markers were newly designed in the restricted location, and the Z-15 was finally located between markers nSSR516 and nSSR502 with the physical region 258 kb by using 1,054 F2 recessive individuals.     

Genome-wide Investigation of Intron Length Polymorphisms and Their Potential as Molecular Markers in Rice (Oryza sativa L.)

Intron length polymorphisms (ILPs) have been used as geneticmarkers in some studies. However, a systematic investigationand large-scale exploitation of ILP markers has not been reported.In this study, we performed a genome-wide search of ILPs betweentwo subspecies (indica and japonica) in rice using the draftgenomic sequences of cultivars 93-11 (indica) and Nipponbare(japonica) and 32 127 full-length cDNA sequences of Nipponbareobtained from public databases. We identified 13 308 putativeILPs. Based on these putative ILPs, we developed 5811 candidateILP markers via electronic-PCR with primers designed in flankingexons. We further conducted experiment to verify the candidateILP markers. Out of 215 candidate ILP markers tested on 93-11,Nipponbare and their hybrid, we successfully exploited 173 codominantILP markers. Further analyses on 10 rice accessions showed thatthese ILP markers were widely applicable and most (71.1%) exhibitedsubspecies specificity. This feature suggests that ILPs wouldbe useful for the studies of genome evolution and inter-subspeciesheterosis and for cross-subspecies marker-assisted selectionin rice. In addition, by testing 51 pairs of the ILP primerson five Gramineae plants and three dicot plants, we found anotherdesirable characteristic of rice ILP markers that they havehigh transferability to other plants.     

秋稻品种‘Dular’广亲和基因效应的RFLP分析

利用RFLP标记对秋稻品种Dular的三交（南京11／／Dular/2533）的F2群体与灿粳品种的测交F1进行了单株带鉴定,并对广亲和性的表达进行分析。结果表明：与第6染色体上标记RG213连锁的广亲和基因S5^n效应较大;不同位点广亲和基因具有明显的累加效应;位点内的互作导致了粳型配子的部分败育,同时还存在位点间的互作。     

Comparative proteomics analysis reveals the mechanism of fertility alternation of thermosensitive genic male sterile rice lines under low temperature inducement

Thermosensitive genic male sterile (TGMS) rice line has made great economical contributions in rice production. However, the fertility of TGMS rice line during hybrid seed production is frequently influenced by low temperature, thus leading to its fertility/sterility alteration and hybrid seed production failure. To understand the mechanism of fertility alternation under low temperature inducement, the extracted proteins from young panicles of two TGMS rice lines at the fertility alternation sensitivity stage were analyzed by 2DE. Eighty‐three protein spots were found to be significantly changed in abundance, and identified by MALDI‐TOF‐TOF MS. The identified proteins were involved in 16 metabolic pathways and cellular processes. The young panicles of TGMS rice line Zhu 1S possessed the lower ROS‐scavenging, indole‐3‐acetic acid level, soluble protein, and sugar contents as well as the faster anther wall disintegration than those of TGMS rice line Zhun S. All these major differences might result in that the former is more stable in fertility than the latter. Based on the majority of the 83 identified proteins, together with microstructural, physiological, and biochemical results, a possible fertile alteration mechanism in the young panicles of TGMS rice line under low temperature inducement was proposed. Such a result will help us in breeding TGMS rice lines and production of hybrid seed.