Relationship between changes of endogenous ABA level and resistance in hybrid rice under temperature stress

We studied the relationship between endogenous ABA and resistance to temperature stress in seedlings of hybrid rice. The hybrid rice Combinations Shanyou 63, Shanyou 287, Weiyou 63, and Weiyou 287 were treated under 2℃ and 42℃ respectively for 48 h. Endogenous ABA concentrations were obtained by gas chromatography with electron capture detector (GC-ECD) and a nickel labelled external standard. Leakage of electrolytes were determined. At optimal temperature (27℃), there was difference between the level of endogenous ABA and the leakage of electrolytes in hybrid rice combinations, which attributed to genetic difference. ABA level in Weiyou system was higher than that in Shanyou, and there were distinctions between Shanyou system itself (see table). At 2℃, the ABA content of rice seedling was increased. ABA level of Weiyou system maintained higher than Shanyou system at 27℃. The leakage quantities of

塔里木河下游柽柳ABA累积对地下水位和土壤盐分的响应

近年来发现在逆境下(干旱、低温、高温、盐渍等)的植物体内大量积累ABA,从而引导人们去研究ABA与植物抗逆性之间的关系。在塔里木河下游地区影响植被正常生长发育的各种胁迫因子中,地下水位和土壤盐分是导致"绿色走廊"衰败的主要因素。柽柳是塔里木河下游荒漠植被的主体,对于改善生态环境、遏制沙漠化、保护生物多样性等诸多方面具有重要作用。因此,研究柽柳和地下水位以及土壤盐分的关系,对于维护塔里木河流域天然植被赖以生存的环境,保护柽柳这一重要的生物资源,维持生态平衡的良性循环具有重要意义。运用国际通用软件SAS6.12对塔里木河下游柽柳ABA和地下水位以及土壤盐分进行相关分析表明,柽柳ABA含量与地下水位呈极显著正相关,相关系数R=0.80305(显著性程度P=0.0003);与土壤盐分呈显著负相关,相关系数R=-0.59036(显著性程度P=0.0205)。由各断面柽柳ABA含量变化与地下水位和土壤盐分关系分析结果可以初步推断:3.12m的地下水位和0.96g/L的土壤盐分已经威胁到柽柳的正常生长发育,地下水位超过5.59m、土壤盐分大于1.61g/L则会对柽柳造成严重胁迫。在恢复和保育塔里木河流域天然植被的过程中,应该把对植被造成胁迫的外界条件的成因和植被自身的抗旱、抗盐等抗逆特性结合起来进行考虑:根据耐旱耐盐植被的合理生态水(盐)位,在主河道两岸维持一定范围的地下水位,使乔木、灌木、草本植被能良好地生长,发挥多种生态功能,这样既可以避免水资源的浪费又能充分发挥生态输水的功效,有利于从根本上解决"绿色走廊"的问题。

内源ABA信号水平动态调控的分子机制

从逆境信号感知、ABA合成的触发到ABA水平的动态调控,是细胞内重要的逆境信号传导途径,相对于应答ABA的下游信号事件,该领域研究滞后。研究显示,根系中ZEP、限速酶NCED、AtRGS1等合成酶基因及ABA2基因响应胁迫反应上调ABA信号水平。而7′-,8′-,9′-hydroxylase和糖基转移酶基因受逆境诱导激活,负调节ABA的积累。同时,提高的内源ABA信号水平能激活合成酶基因和代谢酶基因的表达。此外,基因表达和源库动力学分析显示,叶片ABA动态库的维持依赖根源ABA的持续供应。值得一提的是,miRNA与ABA信号起源及动态水平维持有关。进一步的代谢动力学分析揭示,ABA信号水平受合成酶基因和代谢酶基因表达的协同控制,多因素共同参与内源ABA信号水平的动态调控。

RNAi-mediated suppression of the abscisic acid catabolism gene Os ABA8ox1 increases abscisic acid content and tolerance to saline–alkaline stress in rice(Oryza sativa L.)

Saline–alkaline(SA) stress is characterized by high salinity and high alkalinity(high p H), which severely inhibit plant growth and cause huge losses in crop yields worldwide. Here we show that a moderate elevation of endogenous abscisic acid(ABA) levels by RNAi-mediated suppression of Os ABA8 ox1(Os ABA8 ox1-kd), a key ABA catabolic gene, significantly increased tolerance to SA stress in rice plants. We produced Os ABA8 ox1-kd lines in two different japonica cultivars, Dongdao 4 and Nipponbare. Compared with nontransgenic control plants(WT), the Os ABA8 ox1-kd seedlings accumulated 25.9%–55.7% higher levels of endogenous ABA and exhibited reduced plasmalemma injury, ROS accumulation and Na;/K;ratio, and higher survival rates, under hydroponic alkaline conditions simulated by 10, 15, and 20 mmol L-1 of Na;CO;. In pot trials using SA field soils of different alkali levels(p H 7.59, 8.86, and 9.29), Os ABA8 ox1–kd plants showed markedly higher seedling survival rates and more vigorous plant growth, resulting in significantly higher yield components including panicle number(85.7%–128.6%), spikelets per panicle(36.9%–61.9%), branches(153.9%–236.7%), 1000–kernel weight(20.0%–28.6%), and percentage of filled spikelets(96.6%–1340.8%) at harvest time. Under severe SA soil conditions(p H = 9.29, EC = 834.4 μS cm-1),Os ABA8 ox1-kd lines showed an 194.5%–1090.8% increase in grain yield per plant relative to WT plants.These results suggest that suppression of Os ABA8 ox1 to increase endogenous ABA levels provides a new molecular approach for improving rice yield in SA paddies.

蓝光抑制har1中胚轴伸长中ABA含量和相关基因的表达变化

分析了蓝光介导的高粱航空诱变突变体har1中胚轴伸长抑制过程中,蓝光信号途径关键组分基因SbCRY1 b、SbCOP1和SbHY5的表达水平变化,研究表明,har1对蓝光的超敏感可能与其中SbCRY1 b表达水平升高有关.外源ABA增加了蓝光对R111中胚轴的伸长抑制程度,抑制剂NAP(Naproxen)在一定程度上可以缓解蓝光对har1中胚轴的抑制.同时,蓝光处理后har1中胚轴中内源ABA含量增加程度较R111更为显著,初步表明ABA参与蓝光介导的高粱幼苗中胚轴伸长抑制反应.

6-苄氨基嘌呤(BA)和脱落酸(ABA)对湖南稷子Na^+、K^+选择性和游离脯氨酸分配的调节

以盆栽的C4植物-湖南稷子 Echinochloafrumentacea 为材料,用6-苄氨基嘌呤 BA 和脱落酸 ABA 定位涂抹湖南稷子的穗、上位和下位叶片,分析了植物体激素平衡的局部改变对整株水平上Na+、K+和游离脯氨酸分配的调节.实验结果表明,ABA和具有细胞分裂素活性的BA是调控Na+、K+及游离脯氨酸在不同层位叶中分配的重要因素.ABA涂抹湖南稷子的上位叶片,上位叶片中的Na+比其下位叶片高35.0%;用ABA涂抹湖南稷子的下位叶片,下位叶片中的K+比其上位叶片高31.4%,下位叶鞘中的K+比其上位叶鞘高53.7%.用BA涂抹湖南稷子的下位叶片,下位叶片中的K+和脯氨酸分别比其上位叶片高16.5%和31.7%;用BA或ABA定位涂抹植物地上不同部位,引起植物整株水平上Na+、K+向光合作用强的部位,特别是向活跃期的穗中选择性运输的能力增强,游离脯氨酸也多集中于代谢旺盛的光合器官和生殖器官.

不同施氮量和分施比例对棉花幼苗生长和水分利用效率的影响及其根源ABA调控效应

研究了分根交替供水(APRI)条件下不同施氮量(高氮HN 200kg/hm^2、中氮MN 120kg/hm^2和低氮LN 80kg/hm^2)和分区氮肥施用比例(1:3,2:2和0:4)处理下,经历干旱胁迫后棉花幼苗(品种:汴棉5号)株高、茎粗、根冠生物量、气体交换参数、水分利用效率(WUE)、总根长和根系表面积以及根源脱落酸(ABA)含量的变化。以期进一步明确根源ABA对棉花幼苗生长和WUE调控的生理生态效应。结果表明:施氮量和氮肥分施显著增强了干旱条件下根源ABA对棉花幼苗生长和WUE的调控作用,但根源ABA对氮利用效率无显著影响。高氮处理下棉花幼苗生长受到干旱的影响最小,具有最好的生长状态和最大的根源ABA含量,但其WUE最低;而低氮处理下的棉花幼苗生长最弱但具有最大的WUE。无论施氮量为何,0:4施氮比例棉花幼苗在干旱条件下生长最弱,1:3施氮比例幼苗则生长最好,且具有最大的WUE和根源ABA含量、根系总长度和表面积;2:2和1:3施氮比例的棉花幼苗在根冠生长和叶面积上未表现出明显的差异;0:4和1:3施肥比例的棉花幼苗在气孔导度、蒸腾速率、WUE和根源ABA含量上差异不明显。因此,施用氮肥以及适当施肥比例能够诱导根源ABA产生更强的信号作用,调控棉花幼苗减少水分消耗、维持更好的根系形态(根长和表面积以及细根比例的维持和增长)和光合能力来维系干旱条件下植株更好的生长和更高的WUE,尤其1:3施肥比例下。虽然干旱条件下低氮耦合1:3施氮比例具有最大的WUE,但中氮耦合1:3施氮处理可以在得到最高生物量的同时得到较高的WUE,同时做到高产、省水和节约氮肥。

医院与家庭结合ABA疗法对自闭症谱系障碍患儿的语言发育水平分析

目的:探讨采用医院同家庭结合应用行为分析法(Applied behavior analysis,ABA)对自闭症谱系障碍患儿进行治疗后获得的临床效果。方法:将我院2017年06月收治的18例患儿作为研究对象,根据接受的治疗不同进行分组。观察组(A1组,n=9)患儿采用语言训练、感觉统合训练联合医院与家庭结合的ABA疗法进行干预,并对家长进行每周一次的自闭症谱系障碍的宣传教育和将ABA疗法用于家庭的方法指导。对照组(A2组,n=9)患儿采用语言训练、感觉统合训练。治疗一年半后,采用S-S语言发育迟缓评估法对两组患儿语言发育水平进行评价。结果:观察组(A1组)语言发育水平的改善明显优于A2组患儿(P<0.05)。结论:对于自闭症谱系障碍患儿,临床选择医院与家庭结合ABA疗法进行干预,能明显改善患儿的语言发育水平,显著提高患儿的生活质量。

汉语言文学专业学生语文教学能力提升“1-1-4-4-4”教学模式探究——以阿坝师范学院为例

阿坝师范学院汉语言文学专业语文课程教学团队在学校“两评估、两转型”发展战略的背景下,全面提高汉语言文学专业学生的语文教学基本技能:培养适应基础教育发展新形势、新要求,能创造性地开展中学语文教育教学工作的语文教师,构建有效提升学生语文教学能力的教学模式,打通理论学习与实践训练相结合的通道,形成“基础理论-基本方法-基本技能”的课程体系,构建“基础能力-应用能力-发展能力”分阶递进的实践育人新路径。

塔里木河中下游地区不同地下水位对植被的影响

根据近几年塔里木河中下游地区的大量监测结果 ,分析了不同地下水位对植被的影响。结果显示 :1)在塔里木河中下游 ,地下水位与植被盖度和植物种类的回归模型分别可以表示为 :Y =15 9.32e-0 .3 14 8X,R2 =0 .8193,p <0 .0 1;Y =9.113e-0 .162 3X,R2 =0 .6 0 6 7,p <0 .0 1。 2 )地下水位对植被的影响在很大程度上是通过改变土壤含水率来实现的 ,当地下水位在 1～ 4m时 ,其回归模型为 :Y =6 4 .898e-0 .515X,R2 =0 .72 7,p <0 .0 1;当地下水位在4～ 12m时 ,Y =2 1.14 7e-0 .178X,R2 =0 .6 5 8,p<0 .0 1。当地下水位在 3.5～ 4 .0m时 ,土壤含水率出现明显变化 ,因此认为 3.5m是塔里木河中下游地区草本植被生态恢复的最低水位。 3)通过胡杨叶脯氨酸 (Pro)和脱落酸 (ABA)在不同水位条件下的含量变化 ,可以认为引起胡杨水分胁迫的地下水位出现在 5 .0m。其后随着水位的降低 ,胡杨脱落酸的积累更加明显 ,地下水位与胡杨叶脱落酸含量可以表示为 :Y =0 .70 35e0 .40 8X,R2 =0 .830 4 ,p <0 .0 1。 4 )通过塔里木河下游输水后的植被调查 ,当地下水位出现明显升高后 ,植被的地表生态响应非常明显 ,乔灌草植被在水位升高至不同水位后均出现相应的变化 ,说明以上的分析是符合实际的。

An efficient corrosion inhibitor of cassava starch graft copolymer for aluminum in phosphoric acid

Starch is one of the richest natural polymers with low-cost,non-toxic and biodegradable,but is seldom directly used as corrosion inhibitor due to its poor inhibitive ability and low water solubility.To solve this problem,cassava starch-acryl amide graft copolymer(CS-AAGC)was prepared through grafting acryl amide(AA)with cassava starch(CS),and it was firstly examined as an efficient inhibitor for 1060 aluminum in 1.0 mol·L^(-1)H_(3)PO_(4) media.The adsorption behavior of CS-AAGC and its electrochemical mechanism were investigated by weight loss and electrochemical methods.Additionally,the inhibited aluminum surface was fully characterized by a series of SEM,AFM,contact angle measurements and XPS.Results confirm that CS-AAGC performs better inhibitive ability than CS,AA or CS/AA mixture,and the maximum inhibition efficiency of 1.0 g·L^(-1)CS-AAGC is 90.6%at 20℃.CS-AAGC acts as a mixed-type inhibitor while mainly retards the anodic reaction.EIS has three time constants,and the polarization resistance is significantly increased in the presence of CS-AAGC.The micrograph of inhibited aluminum surface is of hydrophobic nature with low surface roughness and little corrosion degree.

High efficient removal of HCN over porous CuO/CeO2 micro-nano spheres at lower temperature range

The porous CeO2 flowerlike micro-nano spheres based materials were prepared to remove HCN effectively at lower temperature range.The CeO2 and a serious of porous flowerlike ceria based materials loaded with metal species including Cu,Ag,Ni,Co and Fe were synthesized by hydrothermal method and precipitation method respectively.The physicochemical properties were probed by means of XRD,H2-TPR,BET,SEM and XPS.The removal ability for 130 mg·m﹣3 HCN over CuO/CeO2 showed the highest activity,the breakthrough time of which was more than 70 min at the condition of 30℃,120,000 h-1 and b 5%(volume)H2O,owe to a higher relative atomic ratio of oxygen vacancies and Oβ,the stronger interaction between metal particle and support,the optimum redox properties.The reaction mechanism was speculated by detecting the reaction products selectivity at different reaction temperature.It was shown that the reaction system for removal of HCN over CuO/CeO2 catalytic material involved chemisorption,catalytic hydrolysis,catalytic oxidation as well as NH3-SCR reactions.