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.     

植酸在水稻(Oryza sativa L.)细胞培养中的促进作用

植酸(C_6H_(18)O_(24)P_6)添加到固体和液体培养基中,能显著降低多酚氧化酶活性,稳定培养基中pH值和mV值,并能促进水稻细胞生长,增强细胞抗褐化和水渍化能力,从而改善细胞状态。在培养基中植酸的最佳添加量为0.1%,配合使用MES可以增强其稳定pH值的效果。     

水稻化感品种对土壤微生物的影响

通过盆栽实验研究三叶期水稻化感品种对土壤微生物种群数量的影响。结果显示,土壤细菌、放线菌、真菌、氨化细菌和好气性自生固氮菌数量在水稻化感品种P1312777和水稻非化感品种“辽粳九”、“秋光”的土壤中存在显著差异,土壤中大多数微生物被水稻化感品种所抑制,但化感品种土壤中的放线菌和好气性纤维素分解菌数量则介于两种非化感品种之间。这一研究表明,水稻化感品种能显著地影响土壤微生物种群数量。     

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。     

低钾胁迫对不同基因型水稻苗期根系生长和内源激素含量的影响

以2个耐低钾基因型水稻N18、N19和2个低钾敏感基因型水稻N27、N28为材料,采用溶液培养试验,研究低钾胁迫对其苗期根系生长和内源激素含量的影响。结果表明,低钾胁迫下,水稻根长、地上部干重和根干重均降低,但N18和N19显著高于N27和N28。低钾胁迫使4个基因型水稻的根冠比增大,而各基因型之间差异不显著。低钾胁迫下,水稻根中IAA、GA₁和ZR含量均减少,ABA含量增加;N18、N19根中IAA、GA₁和ZR含量都高于N27、N28。此外,低钾胁迫使水稻根中IAA/ABA、ZR/ABA、GA₁/ABA值降低,但N18、N19的上述比值高于N27、N28。     

耐低钾水稻的钾营养特性

在低钾培养液中生长的耐低钾水稻,其植株相对干重大,植株体内钾的临界浓度低,钾的利用率提高,且随着钾浓度的提高,耐和不耐低钾水稻品种之间的此种差异逐步消失,在低于１００μｍｏｌ／Ｌ钾浓度下耐低钾水稻品种的根干重大于不耐低钾的品种。     

低钾胁迫对番茄叶片活性氧及抗氧化酶系的影响

以2种不同低钾耐性大果番茄(钾敏感型番茄081018和耐低钾型番茄081034)为材料,比较低钾处理下2种番茄叶片中活性氧产生及抗氧化酶系活性和相关基因表达差异,明确植物叶片对低钾胁迫的响应机制.结果显示:(1)钾敏感型番茄在低钾胁迫时,叶片中各种保护酶(SOD及其同工酶、POD、CAT、APX)活性随处理时间延长呈下降趋势,同时活性氧(O2-、H2O2)和MDA含量急剧增加;耐低钾型番茄在低钾胁迫条件下,其各类保护酶活性均比对照水平有所升高,而且O2-、H2O2和MDA的含量增加也较少.(2)钾敏感型番茄在低钾胁迫时叶片内Cu/Zn-SOD、CAT和APX基因的相对表达量均有下降趋势,而同期耐低钾型番茄在低钾胁迫时Cu/Zn-SOD、CAT和APX的表达却明显增加,这与其对应的酶活性变化趋势同步.研究表明,低钾胁迫使耐低钾型番茄具有较高保护酶基因表达量,产生较高的保护酶活性,可降低活性氧的破坏作用,防止膜渗透性增加,使之对低钾的适应性较强,而钾敏感番茄品系则相反.     

水稻(Oryza sativa L.)苹果酸酶(OsNADP-ME3)基因在逆境下的表达特性研究

水稻苹果酸酶（NADP-ME）是多基因家族,由3个胞质型NADP-ME和1个质体型NADP-ME构成。本研究针对水稻胞质型成员（命名为NADP-ME3）（NM₀01061367）进行初步的功能解析。克隆获得的NADP-ME3基因的cDNA序列全长为2240bp,其中5’非翻译区为151bp,3’非翻译区为376bp,开放读码框（ORF）长1713bp,编码570个氨基酸。为研究NADP-ME3在逆境胁迫下的表达量变化,Northern blot检测结果显示,在NaCl、NaHCO3和PEG胁迫条件下,NADP-ME3随胁迫处理时间的不同表达量呈现不同程度的变化,推断NADP-ME3可能与非生物胁迫有应答关系,将NADP-ME3转入拟南芥中并通过观察转基因拟南芥在非生物胁迫下表型变化,发现NADP-ME3能够在一定程度上提高植物对非生物胁迫的耐受性。     

水稻(Oryza sativa L.)的受精作用

本文对四个水稻品种的双受精过程作了细胞形态学的观察。作者看到,水稻在受精过程中常常有多条花粉管相继伸向珠孔,并把花粉管内含物注入胚囊。注入胚囊的内含物进入两助细胞之一,在卵细胞的一侧形成钩状构造。当合子发育成原胚时,钩状构造就逐渐消失。卵细胞与极核,除了通常的单精受精以外,有少数可能是属于多精受精的现象。卵细胞多精受精时,超数精子不但进入细胞质,而且进入细胞核。精子还可能进入原胚的胚胎细胞。     

不同胁迫条件下化感与非化感水稻PAL多基因家族的差异表达

水稻苯丙氨酸解氨酶(PAL)调控酚酸类化感物质的合成代谢。编码PAL的基因是一个基因家族,包含至少11个基因成员,并受不同环境条件的调控。为了明确PAL基因家族中调控水稻化感作用的特定基因成员,本研究运用实时荧光定量PCR技术分析了低氮及稗草胁迫条件下强化感水稻PI312777与非化感水稻Lemont中根系的11个PAL成员基因的表达差异。结果表明,低氮和稗草胁迫条件下,PI312777和Lemont中的 PAL4和PAL10均不表达,其余9个PAL基因成员发生了不同程度的表达变化。其中,PAL11均上调表达,其分别在低氮处理和稗草胁迫的PI312777中上调3.29倍和1.07倍,而在相同处理下的Lemont中上调3.92倍和1.08倍;PAL3和PAL9则仅在低氮和稗草胁迫条件下的PI312777中上调表达,低氮胁迫分别为1.83倍和2.66倍,稗草胁迫为1.46倍和2.65倍;而这两个基因在相同处理下的Lemont中表达下调,低氮胁迫下调1.05和1.24倍,稗草胁迫下调1.14和1.16倍,推测PAL3和PAL9可能与胁迫初期调控水稻化感作用有关。     

Molecular cloning and structural analysis of a novel Rac gene osRACB in rice (Oryza sativa L.)

Rac is a subfamily of small GTP-binding protein family. Its molecular weight is between 20 and 30 kilodaltons. As a signal protein, Rac directly or indirectly participates in many physiological processes, such as the regulation of cytoskeleton and the transduction of stress-induced signal. So Rac is also named ?molecular switch? The switch is based on the cycle from a GTP-bound 憃n?to a GDP-bound 憃ff?state[1]. In the superfamily of GTP-binding protein, only heterotrimeric G protein, Ra…     

Spectral response of rice (Oryza sativa L.) leaves to Fe2+ stress

In the management of lake eutrophication, the regulation effect of Fe is considered, in addition to the controlling nitrogen- and phosphorus input. Based on the “Fe hypothesis”, this paper tentatively ap-plied plant spectral response to the remote sensing early-warning mechanism of lake eutrophication. A laboratory water culture experiment with rice (Oryza sativa L.) was conducted to study Fe uptake by plants and the chlorophyll concentration and visible-near infrared spectrum of vegetable leaves as well as their interrelations under Fe²⁺ stress. Three spectral indices, i.e., A₁ (integral value of the changes of spectral reflectivity in the range 460―670 nm under Fe²⁺ stress), A₂ (integral value of the changes of spectral reflectivity in the range of 760―1000 nm under Fe²⁺ stress) and S (blue-shift range of red edge curve under Fe²⁺ stress), were used to establish quantitative models about the relationships between the rice leaf spectrum and Fe²⁺ stress. With the increase of Fe²⁺ in a culture solution, the Fe content in rice plants increased, while the chlorophyll concentration in vegetative leaves decreased. The spectral reflectivity of vegetable leaves increased in the visible light band but decreased in the near infrared band, and the blue-shift range of the red edge curve increased. The indices _A1, A₂ and S all had sig-nificant correlations with the Fe content in rice leaves, the correlation coefficient being respectively 0.951 (P < 0.01), −0.988 (P < 0.01) and 0.851 (P < 0.01), and simulated (multiple correlation coefficients R² > 0.96) and predict the Fe level in rice leaves.     

Genetic analysis and gene mapping of a new rolled-leaf mutant in rice (Oryza sativa L.)

To understand the development of rice leaf blades,we identified a new rolled-leaf mutant,w32,from indica cultivar IR64 through EMS mutagenesis. The mutant showed a stable rolled-leaf phenotype throughout the life cycle. Two F2 populations were developed by crossing w32 to cultivar IR24 and PA64. Genetic analysis showed that the rolled-leaf phenotype was controlled by a single recessive gene. To determine the location of the gene,bulked segregant analysis was carried out using mutant and wild-type DNA pools ...     

水稻雄性不育恢复系明恢63的感光基因分析

水稻恢复系明恢63是中国应用面积最大、利用最广泛的恢复系。利用抽穗期感光性近等基因系EG0～EG7及ER～LR对明恢63进行的分析表明,明恢63在E1、E2、E3位点分别带有E1、e3、E3基因,在Se-1位点带无感光功能的Se-1^e基因。进一步用抽穗期QTL近等基因系NIL(Hd1)和NIL（Hd4)进行的研究表明,明恢63带有显性感光基因E1和无感光功能的Se-1^e基因,并推测明恢63带有能抑制E,基因表达的隐性抑制基因。认为籼型杂交稻抽穗期受不育系和恢复系感光基因及感光性抑制基因的共同作用。初步讨论了明恢63广适性的遗传基础。     

Effect of iron plaque outside roots on nutrient uptake by rice (Oryza sativa L.): Phosphorus uptake

Under anaerobic conditions, ferric hydroxide deposits on the surface of rice roots have been shown to affect the uptake of some nutrients. In the present experiment, different amount of this iron plaque were induced on the roots of rice (Oryza sativa L. cv. TZ88-145) by supplying different Fe(OH)₃ concentrations in nutrient solutions, and the effect of the iron plaque on phosphorus uptake was investigated. Results showed that 1) iron plaque adsorbed phosphorus from the growth medium, and that the amount of phosphorus adsorbed by the plaque was correlated with the amount of plaque; 2) the phosphorus concentration in the shoot increased by up to 72% after 72 h at concentration of Fe(OH)₃ in the nutrient solution from 0 to 30 mg Fe/L, corresponding with amounts of iron plaque from 0.2 to 24.5 mg g^-1 (root d. wt); 3) the phosphorus concentration in the shoots of rice with iron plaque was higher than that without iron plaque though the concentration in the shoot decreased when Fe(OH)₃ was added at 50 mg Fe/L producing 28.3 mg g^-1 (root d. wt) of plaque; and 4) the phosphorus concentrations in Fe-deficient and Fe-sufficient rice plants with iron plaque were the same, although phytosiderophores were released from the Fe-deficient roots. The phytosiderophores evidently did not mobilise phosphorus adsorbed on plaque. The results suggest that iron plaque on rice plant roots might be considered a phosphorus reservoir. This revised version was published online in June 2006 with corrections to the Cover Date.     

水稻新种质资源的耐盐性鉴定评价

用0.5%的NaCl溶液作灌溉水,对2000-2002年江苏省水稻区域试验参试品系和近年引进的部分水稻种质资源进行苗期耐盐性鉴定.结果表明:株高矮化是苗期盐胁迫的一种形态特征;耐盐性鉴定易受环境影响;就整体而言,籼稻种质资源的苗期耐盐性好于粳稻;综合2年结果,籼156和64608两种质资源的苗期耐盐性较强.     

Effect of iron plaque outside roots on nutrient uptake by rice (Oryza sativa L.). Zinc uptake by Fe-deficient rice

This solution culture study examined the effect of the deposition of iron plaque on zinc uptake by Fe-deficient rice plants. Different amounts of iron plaque were induced by adding Fe(OH)₃ at 0, 10, 20, 30, and 50 mg Fe/L in the nutrient solution. After 24 h of growth, the amount of iron plaque was correlated positively with the Fe(OH)₃ addition to the nutrient solution. Increasing iron plaque up to 12.1 g/kg root dry weight increased zinc concentration in shoots by 42% compared to that at 0.16 g/kg root dry weight. Increasing the amount of iron plaque further decreased zinc concentration. When the amounts of iron plaque reached 24.9 g/kg root dry weight, zinc concentration in shoots was lower than that in shoots without iron plaque, implying that the plaque became a barrier for zinc uptake. While rice plants were pre-cultured in –Fe and +Fe nutrient solution in order to produce the Fe-deficient and Fe-sufficient plants and then Fe(OH)₃ was added at 20, 30, and 50 mg Fe/L in nutrient solution, zinc concentrations in shoots of Fe-deficient plants were 54, 48, and 43 mg/kg, respectively, in contrast to 32, 35, and 40 mg/kg zinc in shoots of Fe-sufficient rice plants. Furthermore, Fe(OH)₃ addition at 20 mg Fe/L and increasing zinc concentration from 0.065 to 0.65 mg Zn/L in nutrient solution increased zinc uptake more in Fe-deficient plants than in Fe-sufficient plant. The results suggested that root exudates of Fe-deficient plants, especially phytosiderophores, could enhance zinc uptake by rice plants with iron plaque up to a particular amount of Fe.