外源H2O2对水稻幼苗抗寒性的调节作用

在常温下用不同浓度的外源H2O2(0～20 mmol·L-1)预处理水稻幼苗,再进行12 h 6℃低温胁迫,根据幼苗相对含水量和质膜相对透性筛选最佳外源H2O2处理浓度,并分析最佳外源H2O2浓度下幼苗的渗透调节物质和活性氧相关指标的变化.结果表明:(1)0～8 mmol·L-1 H2O2预处理可以增加水稻幼苗的相对含水量,降低其质膜相对透性,并以4 mmol·L-1 H2O2的效果最佳.(2)低温胁迫后,与对照组相比,4 mmol·L-1外源H2O2预处理降低了水稻幼苗萎蔫程度,并使其总呼吸速率、交替途径容量都有增加,同时还抑制了丙二醛的含量,增加了可溶性糖、可溶性蛋白质和脯氨酸的含量.(3)外源H2O2预处理对水稻幼苗的内源H2O2含量以及O(-)/(·)2产生速率没有显著影响.研究发现,外源H2O2可以通过提高呼吸速率、降低脂质过氧化程度、增加碳氮代谢来有效增强水稻幼苗的抗寒性,它可能以一种独立于内源活性氧系统之外的方式发挥作用.     

过氧化氢预处理增强敏感型黑豆抗铝能力的生理机制

以铝敏感型黑豆(简称SB)幼苗为实验材料,在水培条件下进行不同浓度过氧化氢(H2O2)和AlCl3处理,考察其生长和相关生理指标变化,探讨H2 O2预处理缓解黑豆铝毒害的生理以及分子机理.结果显示:(1)黑豆幼苗根的相对生长量在0.1和1.0 μmol·L-1 H2O2处理下始终得到显著促进,并以后者效果更好,而在10.0和100.0 μmol·L1 H2O2处理下先表现促进后受到显著抑制.(2)经过1.0 μmol·L-1 H2O2预处理的SB幼苗在不同程度Al3+胁迫(50～400 μmol·L 1)3周后,其叶片和根中总蛋白含量分别显著增加了16.7％～41.2％和10.0％～25.0％,MDA含量减少了近50％;而其同期的SOD和POD活性显著增加.(3) H2 O2预处理可诱导SB根和叶中的SOD基因(Mg/Fe-SOD和Mn-SOD)的表达水平明显提高.研究表明,低浓度H2O2能显著促进铝胁迫下铝敏感型黑豆幼苗生长,且主要是通过增加植株抗氧化酶活性和相关基因表达水平来提高其对铝胁迫的抗性.     

两种外源化学物影响PEG胁迫对水稻根系的伤害

研究过氧化氢内源消除剂和交替氧化酶专一性抑制剂影响渗透胁迫对水稻根系的伤害。结果表明:PEG 6000胁迫抑制了水稻幼根的生长,降低了相对含水量、增加了H₂O₂含量,并导致细胞死亡。用5 mmol·L^-1二甲基硫脲(过氧化氢内源消除剂,dimethylthiourea,DMTU)预处理水稻幼根能明显降低PEG胁迫下水稻幼根过氧化氢的含量,缓解细胞死亡和相对含水量的降低,但对水稻根的生长影响较小。在PEG胁迫下,用1 mmol·L^-1水杨基氧肟酸(交替氧化酶专一性抑制剂,salicylhydroxamic acid,SHAM)预处理水稻幼根能显著降低水稻幼根的生长和相对含水量,并增加水稻幼根的过氧化氢含量和细胞的死亡程度。这说明DMTU能缓解PEG胁迫对水稻根系伤害,而SHAM加剧了PEG胁迫对水稻根系伤害。     

外源NO对铝毒下水稻根系生长和抗氧化系统的影响

以水稻品种‘浙辐802’为材料,采用水培法研究铝毒下外源NO对幼苗根系生长、活性氧产生和抗氧化酶活性的影响,探讨外源NO提高水稻耐铝性的生理生化机制。结果显示:(1)0.05mmol/L Al显著抑制水稻根系生长,促使根尖Al、胼胝质、过氧化氢(H2O2)和超氧阴离子自由基(O-·2)含量显著增加;而外源0.1mmol/L的NO供体亚硝基铁氰化钠(sodium nitroprusside,SNP)预处理能使铝毒下水稻幼苗根相对伸长率及根尖NO含量分别增加34.96%和12.86%,根尖Al和相对胼胝质含量分别下降83.04%和31.93%,表明NO可部分缓解铝毒害,且这种作用与内源NO含量变化有关。(2)外源NO同时使铝毒下水稻幼苗根尖H2O2和O-·2含量分别下降15.43%和12.93%,使超氧化物歧化酶(SOD)、过氧化物酶(POD)和过氧化氢酶(CAT)活性显著上升,且外源NO的该种作用可以被0.075mmol/L NO清除剂(carboxy-PTIO,cPTIO)所逆转。研究表明,外源NO在调节活性氧代谢以维持细胞膜结构稳定,进而有效减轻Al对水稻根系的损伤上起着重要作用。     

尾巨桉DH3229幼苗对硝普钠-酸铝互作的响应

该研究以广西林业科学研究院提供的尾巨桉DH3229幼苗为材料,以分析纯AlCl3·6H2O为铝(Al)的供体,以硝普钠(SNP)为一氧化氮(NO)的供体,设置3个SNP浓度(0、10、500μmol·L~(-1))和2个Al水平(0、5 mmol·L~(-1)),每5 d浇一次含不同浓度Al和SNP的营养液,持续20周,分析Al胁迫对幼苗生长生理特性的影响,并探讨不同浓度外源SNP施加对植物Al毒害有无缓解作用及其缓解机理。结果表明:Al施加能显著降低尾巨桉DH3229幼苗的生物量、叶片叶绿素a、总叶绿素含量、叶绿素a/b值和可溶性糖含量;Al胁迫显著增加幼苗相对电导率、MDA、SOD、游离脯氨酸含量。外源施加适量(10μmol·L~(-1))的SNP能使Al胁迫下桉树幼苗根和叶等生物量、叶片叶绿素含量以及Chl a/b显著提高,同时降低其相对电导率、MDA含量和游离脯氨酸含量。可见,SNP具有双重性,适量SNP施加可有效缓解Al对桉树生长的胁迫,高浓度(500μmol·L~(-1)) SNP则产生硝化胁迫从而抑制桉树的生长。     

CO_2激光预处理对PEG6000胁迫下小麦幼苗根中抗氧化酶活性的影响

用CO2激光对小麦种子分别辐照0、1、3、5min,待其生长至12d时,用10%(W/V)PEG6000胁迫其幼苗,研究激光预处理对PEG6000水分胁迫下小麦幼苗根部脂质过氧化伤害的防护作用。结果表明,CO2激光预处理3min可使水分胁迫的小麦幼苗根部MDA、H2O2含量和O2.-产生速率显著降低(P0.05),可显著提高(P0.05)小麦幼苗根部SOD、POD、CAT、APX活性和根长、根干重。激光预处理3min可抑制由水分胁迫引起的小麦幼苗根部脂质过氧化作用。     

Cd胁迫下SA和NO互作对小麦幼苗根生长和叶绿素含量的影响

以"陇春27"号水培小麦幼苗为研究材料,外源添加水杨酸（SA）、一氧化氮（NO）清除剂（carboxy-PTIO,c-PTIO）、NO供体硝普钠（SNP）、硝酸还原酶（NR）抑制剂钨酸盐（Tungstate）及NO合成酶（NOS）抑制剂（L-NAME）进行不同预处理,分析其在镉（Cd）胁迫下根的生长和叶片叶绿素含量的变化,探讨SA和NO互作对小麦幼苗Cd胁迫的缓解机制。结果表明：随着Cd处理时间的延长,小麦幼苗根中SA含量显著降低,NO含量则呈现先增加（6 h和12 h）后减少（24 h和48 h）的趋势;Cd胁迫抑制了小麦幼苗根的生长,减少了叶片叶绿素的含量,而一定浓度的SA或SNP预处理可以缓解Cd胁迫对小麦幼苗根长的抑制作用,增加叶绿素的含量。c-PTIO、L-NAME和Tungstate单独预处理显著抑制了小麦幼苗根的生长,减少了NO的含量,但不影响叶绿素含量。SA400+L-NAME预处理可以缓解Cd胁迫对小麦幼苗根长的抑制作用以及叶绿素和NO含量的减少作用;SA400+c-PTIO或SA400+Tungstate预处理可增加Cd胁迫下叶绿素的含量,但对根的伸长无影响。进一步研究发现,Cd胁迫抑制了NR的活性,而SA400预处理可以使Cd胁迫下NR的活性增强,不同处理对NOS的活性均无影响。综上所述,Cd胁迫导致小麦幼苗根内源SA含量降低和NO含量先升高再降低;外源添加SA或SNP预处理缓解了Cd胁迫对根生长的抑制和叶绿素含量降低的作用;外源SA通过影响NO的产生从而提高小麦幼苗对Cd胁迫的耐受性,最终缓解了Cd对小麦幼苗的毒害作用。     

Ca2+和钙调素对H2O2诱导的玉米幼苗耐热性的调控

外源H2O2预处理提高了玉米幼苗内源H2O2的含量和钙调素(CaM)活性,缓解了高温处理过程中CaM活性的下降,增加了玉米幼苗在高温胁迫下的存活率.H2O2诱导的玉米幼苗耐热性的形成可被外源Ca2 处理所加强,被Ca2 螯合剂EGTA、质膜Ca2 通道阻塞剂La3 、胞内Ca2 通道阻断剂RR(钌红),以及CaM抑制剂CPZ(氯丙嗪)和TFP(三氟拉嗪)所抑制,表明Ca2 和CaM参与了H2O2诱导的玉米幼苗耐热性形成的调控.     

山黧豆根系对H2O2诱导氧化胁迫的生理应答

以水培7d苗龄的山黧豆幼苗为材料,向水培溶液中施加不同浓度H2O2处理山黧豆幼苗24h,分析山黧豆根系受氧化胁迫的程度与抗氧化系统的应答特征,以揭示山黧豆对氧化胁迫的耐受机制。结果显示:(1)随外源H2O2处理浓度的不断增加,山黧豆幼苗侧根的数目无显著变化,而其根的鲜重则显著降低。(2)同时,根系组织的内源H2O2染色范围和程度显著增高,但根尖区域始终保持较低水平的H2O2;相反,O-·2染色范围和程度明显减少,根尖区域却始终保持较高水平的O-·2。(3)同期根系抗坏血酸(ASC)含量及过氧化氢酶(CAT)、过氧化物酶(POD)与抗坏血酸过氧化物酶(APX)的活性均表现出了先升高后降低的趋势,而超氧化物歧化酶(SOD)一直表现为持续上升的趋势。研究表明,在外源H2O2胁迫条件下,山黧豆根系O-·2的积累可能与其生长和活力呈正相关,而根系H2O2的积累则与其受氧化胁迫程度呈正相关;低浓度的H2O2处理可以提高山黧豆抗氧化系统对体内活性氧的清除能力。     

外源多胺对低氧胁迫下黄瓜幼苗根系生长及H+-ATP酶和H+-焦磷酸酶活性的影响

采用营养液水培方式,研究了根际低氧胁迫下外源多胺对黄瓜幼苗植株根系生长,内源多胺含量与质膜H -ATP酶、液泡膜H -ATP酶和焦磷酸酶活性的影响.结果表明,根际低氧胁迫显著抑制黄瓜幼苗根系的生长,外源Put(腐胺)和Spd(亚精胺)可缓解低氧胁迫对根系的生长抑制,多胺主要以Spd的形式发挥促进性的生理作用,Put通过转化为Spd发挥作用;低氧胁迫下黄瓜根系内源多胺含量略有提高,外源多胺处理可增加内源多胺的含量;低氧胁迫下外源Put和Spd处理后质膜H -ATP酶活性显著提高,外源多胺对黄瓜根系液胞膜H -ATP酶和H -焦磷酸酶活性没有明显影响,说明低氧胁迫下外源多胺主要通过提高质膜H -ATP酶活性而发挥生理作用.     

新型四倍体水稻创制及其杂种优势利用研究进展

新型四倍体水稻是本研究团队创制的一类高育性多倍体水稻新种质,携带有多种优异基因。该类材料与同源四倍体水稻杂交获得的杂种F₁产量优势明显,具有应用前景。本文首先概述了同源四倍体水稻的研究进展,并重点阐述了新型四倍体水稻创制过程、主要特点、杂种优势表现及其涉及的分子遗传机理,最后提出未来研究的思路及需要解决的问题,为加快新型四倍体水稻在多倍体水稻育种中的利用提供依据。     

籼稻品种浙辐802抗瘟性遗传研究

通过与８个日本鉴别品种杂交和利用日本代表菌系研５４－０４及我国南方稻区菌系９５-ｈ接种鉴定,研究了籼稻品种浙辐８０２的抗性遗传。研究结果表明,该品种对菌系研５４-０４的抗性由 ２对显性基因控制,对菌系 ９５-ｔ２的抗性由 １对显性基因控制。基因等位性分析确认,浙辐８０２中抵抗９５－ｔ２的抗病基因与Ｐｉ－ｉ基因等位,与Ｐｉ－ａ、Ｐｉ－ｓｈ、Ｐｉ－ｋ、Ｐｉ－ｚ、Ｐｉ－ｂ、Ｐｉ－ｔ、Ｐｉ－ｔａ等已知基因位点为非等位关系;抵抗菌系研５４－０４,感染菌系９５-ｔ２的基因与Ｐｉ－ｉ、Ｐｉ－ｋ、Ｐｉ－ｂ、 Ｐｉ－ｔ ４个已知基因位点为非等位关系。对这个基因与其他已知基因的等位性进行了分析,认为它可能是１个未被命名的新基因。     

不同水稻品系幼苗对砷（As）的耐性、吸收及转运

利用琼脂培养基模拟水稻生长的厌氧环境,研究了As对不同水稻品系幼苗生长的影响以及As在其体内的积累及转运特性.结果表明,不同浓度(0～4.0mg/L)的As对供试水稻品系根部干物质积累无显著影响(P>0.05).杂交稻与糯稻的地上部干物质积累随基质中As浓度的增加呈减小趋势,但低剂量的As(0.5mg/L)促进常规稻的生长.水稻地上部的As积累量随基质中As浓度的升高总体均呈增加趋势.水稻根系对As具有较强的吸收与累积能力.水稻根部As的积累量为156.31～504 03mg/kg,占总As含量的63.40～81.90%,远远高于其地上部As的积累量.相比于其它两个品系,糯稻的生物量积累高,耐性指数较大,根部及地上部对As的积累量较低,因此更适合种植在As污染土壤.     

Arsenic tolerance, uptake and translocation by seedlings of three rice cultivars

By simulating the anaerobic conditions with agar nutrient solutions, effect of arsenic (As) on the growth and As uptake by hybrid, conventional and glutinous rice cultivars were studied. It showed insignificant effect of As on the root dry weights of three rice cultivars when treated by As of different concentrations. The shoot dry weights of hybrid and glutinous decreased with As concentrations increasing, while low concentrations of As (0.5 mg L^?1) could enhance the growth of conventional rice. Generally, As concentrations in roots and shoots increased as As concentrations of treatment solutions increasing. The root system had strong ability to uptake and accumulate As. The root As concentrations ranged from 156 to 504 mg kg^?1, representing 63.40%–81.90% of the total As concentrations in rice, which were much higher than shoot As concentrations. The fact that the glutinous rice had higher biomass, higher tolerance, and lower As concentrations in its roots and shoots than the other two rice cultivars proved that the glutinous rice was more applicable to As-polluted soils.     

Origin,dispersal, cultivation and variation of rice

There are two cultivated and twenty-one wild species of genus Oryza. O. sativa, the Asian cultivated rice is grown all over the world. The African cultivated rice, O. glaberrima is grown on a small scale in West Africa. The genus Oryza probably originated about 130 million years ago in Gondwanaland and different species got distributed into different continents with the breakup of Gondwanaland. The cultivated species originated from a common ancestor with AA genome. Perennial and annual ancestors of O. sativa are O. rufipogon and O. nivara and those of O. glaberrima are O. longistaminata/, O. breviligulata and O. glaberrima probably domesticated in Niger river delta. Varieties of O. sativa are classified into six groups on the basis of genetic affinity. Widely known indica rices correspond to group I and japonicas to group VI. The so called javanica rices also belong to group VI and are designated as tropical japonicas in contrast to temperate japonicas grown in temperate climate. Indica and japonica rices had a polyphyletic origin. Indicas were probably domesticated in the foothills of Himalayas in Eastern India and japonicas somewhere in South China. The indica rices dispersed throughout the tropics and subtropics from India. The japonica rices moved northward from South China and became the temperate ecotype. They also moved southward to Southeast Asia and from there to West Africa and Brazil and became tropical ecotype. Rice is now grown between 55°N and 36°S latitudes. It is grown under diverse growing conditions such as irrigated, rainfed lowland, rainfed upland and floodprone ecosystems. Human selection and adaptation to diverse environments has resulted in numerous cultivars. It is estimated that about 120000 varieties of rice exist in the world. After the establishment of International Rice Research Institute in 1960, rice varietal improvement was intensified and high yielding varieties were developed. These varieties are now planted to 70% of world's riceland. Rice production doubled between 1966 and 1990 due to large scale adoption of these improved varieties. Rice production must increase by 60% by 2025 to feed the additional rice consumers. New tools of molecular and cellular biology such as anther culture, molecular marker aided selection and genetic engineering will play increasing role in rice improvement.     

Reaction of incompatible isolate of Pyricularia grisea on rice leaves stripped of epicuticular wax reflects blast conduciveness of soils

Upland rice cultivars were evaluated in the greenhouse for susceptibility to the rice blast disease caused by Pyricularia grisea Sacc., on two upland soils from the Philippines previously considered to be “blast conducive” and “blast non-conducive”. Under monocyclic inoculation tests plants grown in conducive soil showed significantly greater lesion development than plants of the same cultivar grown in non-conducive soil: cultivars considered to be susceptible to the isolates used showed increased number of susceptible-type lesions; resistant cultivars showed increased number of hypersensitive resistant-type lesions. A similar effect was observed under polycyclic tests where several generations of the pathogen were allowed to develop on the test plants. Dilution of conducive soil with non-conducive soil resulted in a corresponding reduction of disease severity, although this was most pronounced on resistant cultivars. Removal of leaf epicuticular waxes (LEW) using organic solvents increased the number of resistant-type lesions on resistant cultivars grown in both soils following inoculation. Susceptible plants were not suitable for quantifying the relative blast conduciveness of a soil because of the extreme environmental sensitivity of the bioassay and the tendency of lesions to coalesce. Comparing numbers of resistant-type lesions on leaves of plants stripped of LEW and inoculated with an incompatible P. grisea isolate among plants grown in different soils proved to be a satisfactory means of distinguishing the relative blast conduciveness of soils under controlled conditions. This method was field tested in eastern India and results corroborated farmer assessment of which soils were blast conducive. Using incompatible isolate-cultivar combinations and LEW-free leaves is proposed as a simple bioassay for assessing blast conduciveness of soils and should prove useful in regional characterization of rice blast risk.     

从中国水稻育种经验看遗传资源的意义

新中国成立以来水稻单位面积产量提高为三倍以上,本文对于１９４９～１９６０、１９６１～１９７５、１９７６～１９９０三个阶段水稻育种工作中新的遗传资源所起的关键作用作了分析,强调指出在种质资源的收集、整理、研究利用方面开展国际合作的必要性。     

Nutritional enhancement of rice for human health: The contribution of biotechnology

Micronutrient malnutrition is widespread, especially in poor populations across the globe where daily caloric intake is confined mainly to staple cereals. Rice, which is a staple food for over half of the world's population, is low in bioavailable micronutrients required for the daily diet. Improvements of the plant-based diets are therefore critical and of high economic value in order to achieve a healthy nutrition of a large segment of the human population. Rice grain biofortification has emerged as a strategic priority for alleviation of micronutrient malnutrition. Nutritional enhancement of crops through conventional breeding is often limited by the low genetic variability for required dietary micronutrient levels. In this case, biotechnology strategies offer effective and efficient perspectives. In this review, we discuss genetic engineering approaches that have been successful in the nutritional enhancement of rice endosperm. These advancements will make substantial contributions to crop improvement and human nutrition. Their practical application, however, also demands visionary changes in regulatory policies and a broader consumer acceptance.     

Cadmium,copper, and zinc levels in the rice and rice field soil of Houston,Texas

Fifty-one pairs of hulled rice samples and the soil from which each rice sample was grown were analyzed for heavy metals in August, 1979, in order to estimate the background contamination of cadmium (Cd), copper (Cu), and zinc (Zn) in rice grown in the Houston, Texas area. Both samples were divided into three groups by soil types and colors. The cadmium concentration in Texas rice was only one-half to one-quarter lower than that of Asian rice. However, the levels of Cu and Zn in rice in Texas were similar to those reported. Soil heavy metals were lower than ever reported, but these values were consistent with the geochemical characteristics of the Texas Houston area. No particular relationship was found between the three metals in rice and the metals in soil where the sampled rice was grown.     

陕西三种特种稻米氨基酸及品质分析

以陕西洋县产茉莉香米、红香米和绿香粳米等 3种特种稻米为材料 ,分析了氨基酸及其它品质指标。结果表明 ,茉莉香米、红香米和绿香粳米均含有 1 7种氨基酸 ,氨基酸总含量 (mg/ 1 0 0 g)分别为 730 0、72 70、74 90 ;除Trp外 ,7种必需氨基酸占氨基酸总量分别为 34 .6 %、34 .5 %、34 .8% ;Lys含量 (mg/ 1 0 0g)分别为 5 5 0、5 2 0、5 30 ;粗蛋白质含量分别是 9.94 %、9.2 3%、8.5 2 % ;Cu含量 (mg/ 1 0 0g)分别是 0 .6 2、0 .94、0 .79;Zn含量 (mg/ 1 0 0 g)分别是 1 .99、1 .75、2 .0 2 ;Fe含量 (mg/ 1 0 0 g)分别是 1 .5 5、3.70、4 .5 0 ;直链淀粉含量分别是 1 5 .6 %、3.7%、1 5 .1 % ;胶稠度分别是 33mm、4 0 .6mm、78mm ;糊化温度分别是 6 .1级、6 .8级、7级 ;水分含量分别是 1 1 .2 7%、1 1 .5 5 %、1 2 .5 2 %。这 3种特种稻品质较优 ,具有推广价值