不同进化类型大豆种子超氧物歧化酶的比较

本文对不同进化类型大豆种子超氧物歧化酶(SOD)进行了比较分析。结果表明:(1)供试三种进化类型大豆种子的 SOD 同工酶酶谱一致,均为7条,其中一条为 Ma-SOD,其余6条为 Cu-Zn-SOD。(2)SOD 活性表现为:野生类型明显高于中间类型,中间类型明显高于栽培类型。(3)随着大豆籽粒百粒重的增大,种胚的 SOD 活性降低。(4)种皮颜色由黑到黄,种皮的 SOD 活性降低。讨论了大豆种子 SOD 活性与 Sofa 亚属内大豆进化的关系。     

PEG处理大豆种子对下胚轴脂氧合酶活性及脯氨酸含量的影响

选用三种不同浓度的PEG 6000处理抗旱性不同的两个大豆品种“庆选101”和“哈85-6439”。研究结果表明:PEG处理大豆种子可以显著地降低下胚轴中的LOX活性,pro含量也明显下降,而蛋白质的含量却迅速上升。这与水分协迫条件下植物体内大量积累pro的试验结果相反,并且pro含量的下降与LOX活性的降低、蛋白质含量的升高密切相关,同时种子的发芽率明显提高。     

1,2,4-三氯苯胁迫对萌发大豆种子中活性氧的影响

以盆栽法研究了不同浓度 1,2 ,4 三氯苯 (TCB)胁迫对萌发大豆种子中活性氧代谢的影响 .结果表明 ,10 0～ 30 0 μg·g-1TCB胁迫初期 (1～ 3天 )促使萌发大豆种子呼吸强度升高及其峰值提前出现 ,超氧阴离子自由基 (O2 - )及过氧化氢 (H2 O2 )的积累显著增加 ,同时伴随丙二醛 (MDA)含量升高 ,显示发生膜脂质过氧化作用 .TCB胁迫 1～ 6天使活性氧清除酶功能紊乱 ,其中过氧化物酶 (POD)活性升高 ,超氧化物岐化酶 (SOD)活性开始上升后转为下降 .在萌发大豆种子受TCB胁迫伤害过程中 ,活性氧代谢失衡造成的膜脂质过氧化将起着重要作用 .     

大豆出苗期和苗期对盐胁迫的响应及耐盐指标评价

比较了4个大豆品种出苗期和苗期的耐盐性,测定150 mmol/L NaCl胁迫下的株高、下胚轴长、侧根数、地上干/鲜重、根干/鲜重、MDA含量、SOD活性、游离Pro含量,并将幼苗移栽到田间生长至成熟。结果表明:出苗期和苗期盐胁迫下4个品种的株高都显著降低、地上干/鲜重和根干/鲜重降低;出苗期胁迫侧根数减少,下胚轴长降低;而苗期胁迫侧根数增加,下胚轴长升高。未胁迫条件下,出苗期和苗期耐盐性强的品种22021-1的MDA含量和SOD活性高于耐盐性弱的品种22293-1。胁迫后,22021-1的MDA含量降低、SOD活性升高,其MDA含量分别比对照低51.03%和21.45%,SOD活性比对照高5.85%和45.77%;22293-1的MDA含量出苗期比对照高58.97%,苗期基本无变化,SOD活性出苗期和苗期升高都不显著。MDA和SOD可以作为大豆耐盐性筛选指标。早期的短时胁迫对不同耐盐性大豆品种的经济产量影响不同。     

3种进化类型大豆叶片的某些生理特性比较

半野生、半栽培和栽培大豆叶片可溶性糖和可溶性蛋白含量以及过氧化物酶（POD）和超氧化物歧化酶（SOD）活性均表现为随品种的进化而增加的变化趋势。POD活性在生育期中呈上升变化,SOD活性则随着生育进程逐渐下降。栽培大豆的可溶性糖含量和POD活性以上部叶片最高,半栽培大豆与栽培大豆类似,半野生大豆的变化则不明显。     

Species and Organ Diversity in the Effects of Hydrogen Peroxide on Superoxide Dismutase Activity In Vitro

Superoxlde dlsmutase （SOD） is ubiquitous in aerobic organisms and constitutes the first link In the enzyme scavenging system of reactive oxygen species. In the present study, species and organ diversity of SOD activity In a solution and In an in-gel assay system, as well as the effects of hydrogen peroxide （H202） on SOD activity, were Investigated. In a solution assay system, SOD activity of jackfruIt root, shoot, leaves, axes, and cotyledons, of maize embryos and endosperms, of mung bean leaves and seeds, of sacred lotus axes and cotyledons, and of rice and wheat leaves was Increased by 1-15 mmol/L H2O2. However, SOD activity In rice root and seeds, maize roots and leaves, mung bean roots and shoots, and wheat seeds was decreased by 1-15 mmol/L H2O2. The SOD activity of wheat root and soybean roots, leaves, axes, and cotyledons was Increased by 1-4 mmol/L H2O2, but was decreased by concentrations of H2O2 〉4 mmol/L. The SOD activity of soybean shoots was not affected by 1-15 mmol/L H2O2. The SOD activity In crude mltochondrla of jackfruIt, maize, and upas seeds, as well as In purified mitochondria of jackfruIt, was also Increased by 1-15 mmol/L H2O2. In the In-gel assay system, the SOD In jackfruIt cotyledons was comprised of Mn-SOD, Cu/Zn-SOD, and Fe-SOD, the crude mltochondria of jackfruit seeds and maizes embryo was comprised of Mn-SOD and Cu/ Zn-SOD, and the crude mltochondria of maize seeds was comprised of Mn-SOD only. In the present study, H2O2 markedly Inhibited Cu/Zn-SOD and Fe-SOD activity.     

激素浸种对薄壳山核桃种子萌发的影响及其种子吸胀过程中SOD和POD活性变化

薄壳山核桃﹝Carya illinoinensis ( Wangenh.) K. Koch﹞为胡桃科( Juglandaceae)山核桃属( Carya Nutt.)植物,又名美国山核桃、长山核桃,是世界上著名的经济树种之一[1-2]。目前,主要采用本砧嫁接的方法培育薄壳山核桃良种嫁接苗,而培育优质实生苗作为砧木是该技术的关键环节之一,因此,了解其种子萌发特性极为重要。目前,对薄壳山核桃种子萌发特性的研究主要集中在植物激素催芽方面[3-5],而有关激素催芽过程中的适宜浸泡天数、种子吸胀过程中相关的酶活性变化等问题尚不明确。     

四棱豆不同节位各器官中SOD活性的测定

测定实验表明 :位于四棱豆植株中部节位叶片中的SOD活性高于植株下部和上部节位叶片中的SOD活性 ;而位于下部节位豆荚和种子中的SOD活性要高于位于上部节位豆荚和种子中的SOD活性 ,且随着结荚部位升高 ,SOD活性呈降低趋势。     

大豆PM34基因生物信息学预测及表达分析

以大豆叶片总RNA为模板,采用RT-PCR法从吉豆2号品种中克隆获得大豆种子成熟蛋白( PM34)基因序列,利用生物信息学方法对大豆PM34基因编码的蛋白进行预测。结果表明：该基因编码蛋白理论分子量为31.7 kDa,等电点为6.60,为亲水性蛋白;该蛋白中无跨膜结构;该蛋白中不存在信号肽。 PM34基因编码蛋白的二级结构中α螺旋占12.97％,无规则卷曲占41.30％,β折叠占45.73％。 PM34基因编码蛋白的三级结构预测表明,同源模建的模板是3ijr.1.A,是一种短链脱氢酶/还原酶,与该蛋白的同源性为54.65％。在进化关系上,与绿豆、苜蓿的亲缘关系相对较近。采用实时定量PCR方法( qRT-PCR),检测大豆PM34基因在大豆各器官中的表达方式,结果表明该基因在大豆根、茎、叶、花中的表达活性低,而在种子中,尤其是成熟种子中的相对表达活性很高。该研究结果为大豆PM34基因结构和功能的进一步研究奠定了基础。     

Enhanced levels of nicotianamine promote iron accumulation and tolerance to calcareous soil in soybean

Iron (Fe) is an essential nutrient in both plants and humans. Fe deficiency on calcareous soil with low Fe availability is a major agricultural problem. Nicotianamine (NA) is one of the Fe chelator in plants, which is involved in metal translocation into seeds, and serves as an antihypertensive substance in humans. In this study, soybean plants overexpressing the barley NA synthase 1 (HvNAS1) gene driven by the constitutive CaMV 35S promoter were produced using Agrobacterium-mediated transformation. The transgenic soybean showed no growth defect and grew normally. The NA content of transgenic soybean seeds was up to four-fold greater than that of non-transgenic (NT) soybean seeds. The level of HvNAS1 expression was positively correlated with the amount of NA, and a high concentration of NA was maintained in the seeds in succeeding generations. The Fe concentration was approximately two-fold greater in transgenic soybean seeds than in NT soybean seeds. Furthermore, the transgenic soybeans showed tolerance to low Fe availability in calcareous soil. Our results suggested that increasing the NA content in soybean seeds by the overexpression of HvNAS1 offers potential benefits for both human health and agricultural productivity.     

Phospholipid and triacylglycerol profiles modified by PLD suppression in soybean seed

Phospholipase D (PLD) is capable of hydrolyzing membrane phospholipids, producing phosphatidic acid. To alter phospholipid profiles in soybean seed, we attenuated PLD enzyme activity by an RNA interference construct using the partial sequence from a soybean PLDα gene. Two transgenic soybean lines were established by particle inflow gun (PIG) bombardment by co‐bombarding with pSPLDi and pHG1 vectors. The lines were evaluated for the presence and expression of transgenes thoroughly through the T₄ generation. PLD‐suppressed soybean lines were characterized by decreased PLDα enzyme activity and decreased PLDα protein both during seed development and in mature seeds. There was no change in total phospholipid amount; however, the PLD‐attenuated transgenic soybean seed had higher levels of di18 : 2 (dilinoleoyl)‐phosphatidylcholine (PC) and ‐phosphatidylethanolamine (PE) in seeds than the non‐transgenic lines. The increased polyunsaturation was at the expense of PC and PE species containing monounsaturated or saturated fatty acids. In addition to increased unsaturation in the phospholipids, there was a decrease in unsaturation of the triacylglycerol (TAG) fraction of the soybean seeds. Considering recent evidence for the notion that desaturation of fatty acids occurs in the PC fraction and that the PC → DAG (diacylglycerol) → TAG pathway is the major route of TAG biosynthesis in developing soybean seed, the current data suggest that PLDα suppression slows the conversion of PC to TAG. This would be consistent with PLD playing a positive role in that conversion. The data indicate that soybean PLD attenuation is a potentially useful approach to altering properties of edible and industrial soybean lecithin.     

外源α-萘乙酸对花期长期干旱大豆叶片抗氧化系统的影响

以不同耐旱型品种‘南农99-6’和‘科丰1号’大豆为材料,2012年在南京农业大学牌楼试验站进行为期110 d的盆栽试验,研究大豆花期叶面喷施α-萘乙酸(NAA)对长期干旱条件下大豆植株抗氧化系统的影响.结果表明: 干旱胁迫显著降低了大豆地上部干物质量,叶片中丙二醛(MDA)含量及活性氧(ROS)水平显著升高,同时,超氧化物歧化酶(SOD)、过氧化物酶(POD)、过氧化氢酶(CAT)、抗坏血酸过氧化物酶(APX)、单脱氢抗坏血酸还原酶（MDHAR）、谷胱甘肽还原酶(GR)和谷胱甘肽过氧化物酶(GPX)活性,还原型抗坏血酸(AsA)、还原型谷胱甘肽(GSH)含量及AsA/DHA(双脱氢抗坏血酸)和GSH/GSSG(氧化型谷胱甘肽)比值显著升高,其中‘科丰1号’大豆的抗氧化能力更高,从而维持较低的ROS水平和MDA含量.NAA可显著提高叶片中的APX、POD、CAT、MDHAR活性及AsA/DHA、GSH/GSSG比值,其中‘科丰1号’大豆叶片的脱氢抗坏血栓还原酶（DHAR）活性和AsA含量极显著增加.     

沙芥种子发育过程中的脱水耐性

以发育过程中经脱水和未脱水处理的沙芥种子为试验材料,测定了其含水量、萌发率和抗氧化酶系统,探讨了沙芥种子脱水耐性与抗氧化系统之间的关系。结果表明：在20～60DAF,沙芥种子含水量逐渐下降,干重逐渐增加;60DAF种子具有萌发能力,萌发率为24％;且脱水可促进沙芥种子的萌发,人工脱水至含水量为12％和5％时,萌发率分别为56％和44％,自然脱水至含水量为12％和5％时,萌发率分别为52％和60％;发育过程中沙芥种子SOD活性逐渐降低,而CAT、POD、LOX活性以及MDA含量均呈上升趋势;在脱水过程中,随着种子含水量的下降SOD活性逐渐降低,CAT和LOX活性逐渐升高,而POD活性呈先降低后升高的变化趋势。脱水后,种子中MDA含量均高于CK。60DAF的沙芥种子已获得脱水耐性。     

l-Sorbose Oxidase from Trametes sanguinea

A crude inhibitor for pancreatic lipase was extracted from soybean seeds. The lipase activity decreased curvilinearly with an increase in inhibitor concentration. At a low inhibitor concentration, enhanced inhibition was observed by the co-existence of protein such as bovine serum albumin in the reaction mixture. The lipase activity was inhibited immediately after the addition of inhibitor which did not cause the significant destraction of substrate emulsion. The lipase activities of Aspergillus niger, Rhizopus delemar and castor bean seeds were also inhibited. The inhibition was observed when various oil substrates such as soybean oil, linseed oil, olive oil emulsions and Ediol were used, and the extent of inhibition varied among them. Column chromatography of inhibitor on Sephadex G–100 showed that the molecular weight of a main peak of inhibitor was estimated as about 80,000.     

Changes in carbohydrates,amino acids and proteins in developing seed of chickpea

Developing seeds of chickpea cultivars G-130, L-550 and 850-3/27 grown under field conditions were sampled at different stages of maturity and analysed for soluble sugars, starch, soluble nitrogen, protein nitrogen and amino acids. Fr. wt of seeds of all three cultivars decreased after 28 days of flowering while the dry wt continued to increase. Rapid starch accumulation was observed between 14 and 28 days after flowering. Starch as per cent of seed dry wt started to decrease after 28 days, while starch per seed increased till maturity. The percentage of salt-soluble proteins decreased with maturation of seed. The electrophoretic pattern revealed that deposition of seed storage protein in cotyledons occurred 14 days after flowering. Most of the biochemical activity apparently occurred between 14 and 28 days after flowering.     

激光处理对番茄幼苗抗盐性的影响

为明确激光对番茄耐盐性的影响,用番茄（Lycoperslcon esculentum Mill）种子为实验材料,以不同剂量的He-Ne激光辐照刚萌动的种子,用0.3%的NaCI溶液模拟盐胁迫,观察出苗时间、出苗率,测定相关的生理生化指标.结果表明：激光处理后,番茄种子的发芽率（Gr）和发芽指数（Gi）有不同程度的降低;番茄幼苗游离脯氨酸积累量、根系活力、超氧化物歧化酶（SOD）活性都有不同程度的升高;丙二醛（MDA）含量降低.分析不同处理的各项指标可知,辐照量为23.04 J/cm2是较合适的处理.说明利用一定程度的激光处理可以提高番茄的抗盐性.     

氮素形态配比对菜用大豆籽粒膨大过程中氮碳同化的影响

以菜用大豆品种‘理想95-1'为试材,通过蛭石盆栽试验研究了氮素不同形态配比对菜用大豆籽粒膨大过程中碳氮代谢的影响.结果表明:营养液中增加适当的铵态氮比例(25%～50%)有利于菜用大豆的生长发育,菜用大豆植株和荚果干鲜重、干物率显著增加,尤以硝铵比为75∶25最为显著.在高比例的硝态氮(100%)或铵态氮(75%)处理下,菜用大豆籽粒的硝酸还原酶(NR)和谷氨酰胺合成酶(GS)活性分别显著升高,氮代谢显著增强,可溶性蛋白含量迅速增加,但同期的籽粒淀粉酶活性较低,可溶性糖和淀粉含量显著下降,碳代谢受到显著抑制.在硝铵比为75∶25时,菜用大豆籽粒氮代谢强度适中,同期碳代谢显著增强,籽粒可溶性糖和淀粉含量显著升高,能维持籽粒正常的生理代谢,有利于菜用大豆籽粒发育过程中营养物质的积累.可见,硝态氮和铵态氮配比能显著影响菜用大豆籽粒发育过程中的碳氮代谢,籽粒碳氮代谢与其产量密切相关,可通过调节硝铵比来获得理想菜用大豆产量.     

玉米-大豆带状套作下玉米株型对大豆干物质积累和产量形成的影响

通过田间试验, 以大豆单作为对照,设置登海605/贡选1号(RI₁)、川单418/贡选1号(RI₂)、雅玉13/贡选1号(RI₃)3种玉米 大豆带状套作种植模式,研究了玉米株型对大豆干物质积累和产量的影响.结果表明： RI₂和RI₃处理大豆的积累速率低于RI₁处理,且RI₁处理大豆叶片、茎秆和荚果的干物质积累量分别比RI₂和RI₃处理高17.6%、16.5%、13.7%和34.6%、33.1%、28.4%.带状套作大豆叶片、茎秆的分配比例均以RI₁处理最高、RI₂处理其次、RI₃处理最低,而荚果分配比例的变化趋势与其相反.与RI₂和RI₃处理相比,RI_1处理显著提高了大豆营养器官(叶+茎)干物质向荚果的转运量、转移率及其对荚果的贡献率,RI₁处理大豆的单株荚数、单株粒数、每荚粒数、单株粒质量和产量分别比RI₂和RI₃处理提高了6.8%、11.5%、4.4%、15.9%、15.6%和14.3%、22.2%、6.7%、33.4%、36.8%.带状套作大豆营养器官干物质的积累速率、转运量、转移率和贡献率与产量及产量的构成呈显著正相关,且均以RI_1处理最高,实现了紧凑型玉米对带状套作大豆干物质积累、转运和分配的有效调控,促进了产量的提高.     

铁蛋白基因表达对烟草耐低铁能力的影响

铁是植物生长发育的必需元素。由于土壤中的三价铁离子不能被植物直接利用。使一些植物经常表现出缺铁症状。为探讨利用铁蛋白基因提高植物耐低铁胁迫的作用,利用农杆菌介导法将大豆铁蛋白基因SoyFer1和内源反义铁蛋白基因NtFer2的cDNA分别导人烟草基因组,采集转基因烟草种子。对T1转基因烟草的卡那霉素抗性分析表明,整合到烟草基因组的外源基因多为单拷贝基因,也有少数为多拷贝基因。对具有卡那霉素抗性的转基因植株进行PCR检测和Northern杂交分析表明,外源基因已整合到烟草基因组中,并且得到了正确表达。将转基因株系移栽到铁离子浓度不同的培养基中生长2个月后进行比较表明,转大豆铁蛋白基因烟草株系的生长量明显高于非转基因烟草株系,而转内源反义铁蛋白基因烟草株系的生长量则明显低于非转基因烟草株系。转大豆铁蛋白基因和转内源反义铁蛋白基因烟草株系的叶绿素含量、丙二醛（MDA）含量和过氧化物酶（POD）活性等生理性状也发生了明显变化,表现为转大豆铁蛋白基因株系的叶绿素含量明显增加,POD活性明显增强,MDA含量明显降低：而转内源反义铁蛋白基因株系的叶绿素含量、POD活性和MDA含量等则表现为与转大豆铁蛋白基因株系的相反。铁蛋白过量表达提高了烟草耐低铁能力,而铁蛋白抑制表达则降低了烟草耐低铁能力。