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。     

大豆种质资源SRAP分子标记中的引物筛选

以113个大豆栽培品种和20个野生品种为材料,从288对引物组合中筛选出12对多态性丰富、条带清晰、可重复性好的SRAP引物组合。用筛选出的12对引物组合对大豆品种进行PCR扩增,获得了带型丰富和清晰可辨的DNA的PAGE指纹图谱;共扩增出251条谱带,其中多态性条带220条,多态性谱带比率为87.6%,平均每个引物扩增出18.3条谱带。结果显示,所筛选出的12对引物组合可以有效的应用于大豆种质资源的SRAP分析。     

Responses of soybean to oxygen deficiency and elevated root-zone carbon dioxide concentration

Root flooding is damaging to the growth of crop plants such as soybean (Glycine max L.). Field flooding for 3 d often results in leaf chlorosis, defoliation, cessation of growth and plant death. These effects have been widely attributed solely to a lack of oxygen in the root-zone. However, an additional damaging factor may be CO(2), which attains levels of 30 % (v/v) of total dissolved gases. Accordingly, the effects of root-zone CO(2) on oxygen-deficient soybean plants were investigated in hydroponic culture. Soybean plants are shown to be very tolerant of excess water and anaerobiosis. No oxygen (100 % N(2) gas) and low oxygen (non-aerated) treatments for 14 d had no effect on soybean survival or leaf greenness, but plants became severely chlorotic and stunted when the roots were exposed to no oxygen together with CO(2) concentrations similar to those in flooded fields (equilibrium concentrations of 30 %). When root-zone CO(2) was increased to 50 %, a quarter of soybean plants died. Those plants that survived showed severe symptoms of chlorosis, necrosis and root death. In contrast, rice (Oryza sativa L.) plants were not affected by the combination of no oxygen and elevated root-zone CO(2.) A concentration of 50 % CO(2) did not affect rice plant survival or leaf colour. These results suggest that the high susceptibility of soybean to soil flooding, compared with that of rice, is an outcome of its greater sensitivity to CO(2).     

Leaf wall yield threshold of field-grown soybean measured by vapour pressure psychrometry

Abstract. Wall-yield threshold pressures of growing leaves obtained from field-grown soybean ( Glycine max [L.] Merr.) plants were measured in vapour pressure psychrometers. The plants were grown either under well-watered or water deficit conditions. Wall-yield threshold pressures were measured at night when turgor pressure was expected to exceed the wall-yield threshold pressure both in drought-stressed and well-watered growing leaves. Wall-yield threshold pressure increased as the area of the growing leaves increased in both treatments. After an 8-d drought, wall-yield threshold pressure in leaves which had recently emerged from the meristem was 0.50 MPa, while in well-watered leaves these values ranged from 0.03 to 0.23 MPa. Upon release from drought, wall-yield threshold pressure rapidly returned to unstressed values.     

长效油菜素内酯TS303和二氢茉莉酸丙酯协同提高大豆光合能力

研究了长效油菜素内酯TS303、二氢茉莉酸丙酯(PDJ)及二者复配对大豆光合作用的影响及作用机理。试验结果表明：(1)0.01~1 mg·L^-1 TS303浸种促进大豆干物质积累, 以0.1 mg·L^-1的浓度效果最好, TS303对干物质在地上部和根之间的分配没有明显的影响, 1～10 mg·L^-1 PDJ浸种促进干物质积累, 以5 mg·L^-1增幅最大,50和100 mg·L^-1则抑制干物质积累,1～100 mg·L^-1 PDJ均促进同化物质向根系分配;(2)0.1 mg·L^-1 TS303和5 mg·L^-1 PDJ能增加大豆光合叶面积及净光合速率, 增强光合能力, 二者混合使用表现出协同效应;(3)0.1 mg·L^-1 TS303和5 mg·L^-1 PDJ及二者复配增加叶绿素含量和提高PSⅡ的实际光转化效率 (ФPSⅡ), 二者对ФPSⅡ的提高途径不同, TS303增加光合淬灭(qP)而对有效光转化效率(Fv′/Fm′)影响不大, PDJ增加Fv′/Fm而对qP影响不大;(4)0.1 mg·L^-1 TS303和5 mg·L^-1 PDJ及二者复配增加大豆气孔导度、碳酸酐酶活性、RuBPCase含量和活性, 增强CO₂转运和固定能力;(5)0.1 mg·L^-1 TS303和5 mg·L^-1 PDJ及二者复配增加叶片中蔗糖的含量, 提高蔗糖/淀粉比率, 加快同化物质的转运, 增加根中淀粉含量。总体上, TS303在光能转化和CO₂固定方面效果好于PDJ, 而PDJ促进同化物质运出效果好于TS303, 这可能是二者协同提高大豆光合能力的原因。     

应用关联分析鉴定大豆对斜纹夜蛾的抗性基因

用135个分布于全基因组的SSR（simple sequence repeat）标记分析196份大豆（Glycine max）地方品种的遗传变异、群体结构和连锁不平衡（linkage disequilibrium,LD）。在考虑群体结构的条件下,应用全基因组关联分析的方法鉴定与大豆抗斜纹夜蛾有关的数量性状位点,进而发掘各关联位点的优异等位基因及代表性载体材料。结果表明：（1）该群体不仅地理起源广,而且遗传变异丰富;（2）在整个群体内,有17.9%的标记对处于显著的连锁不平衡,而且在相同染色体上标记对间连锁不平衡延伸的平均距离约为6.61cM（D＇〉0,P〈0.05）;（3）通过关联分析发现,有7个SSR标记分别与3个大豆抗斜纹夜蛾性状关联（P〈0.01）,其中4个位点对性状的变异解释率超过了10%,6个位点所在的连锁群上存在已报道的食叶性害虫抗性位点;（4）各位点等位基因的效应分析显示,幼虫重相关位点的等位基因主要表现为减效作用,等位基因Sat_334-A208减效作用最大（43.9%）;单虫食叶量和蛹重相关位点的等位基因主要表现为增效作用;等位基因Satt199-A186对单虫食叶量增效作用最大（36.4%）;等位基因Sat_320-A286对蛹重增效作用最大（31.4%）。     

UV-B辐射对8个大豆品种种子萌发率和幼苗生长的影响

在生长房5种(暗处、可见光、低、中、高强度紫外线-B)处理下,研究了8个大豆品种的种子萌发率和萌发后幼苗的生长状况。结果表明,暗处种子萌发率高于自然光和UV-B辐射的种子。UV-B辐射增强对大豆种子的萌发率没有显著影响,仅使部分品种的最大萌发率降低和导致部分品种达到最大萌发率的时间延长。幼苗的生长对增强的UV-B辐射非常敏感。使大部分品种的胚根变短增粗,这可能是植物激素作用的结果。大豆的叶绿素a、叶绿素b和总叶绿素含量明显受到UV-B辐射的抑制。UV-B作用能促进类黄酮在幼苗中的积累,紫外吸收色素的增设有利于提高对UV-B的抵抗力。UV-B辐射的这种效应及大豆品种间的差异在自然情况下会产生深远的生物学和生态学意义     

Relative growth rates of leaves from soybean grown under drought-stressed and irrigated field conditions

Abstract. The relative growth rates and leaf area were graphed against leaf area, normalized with respect to final leaf area, to assess the applicability of the Lockhart cell wall expansion equation to soybean, Glycine max (L.) Merr., leaf development under field conditions. For leaves that had completed more than 20% of their growth, relative growth rates decreased linearly with an increase in the normalized leaf area, indicating that these leaves were undergoing strictly expansive growth. Drought stress significantly decreased the relative growth rate of these larger leaves. Small leaves which had completed less than 20% of their growth, were found to have highly variable relative growth rates. The large variability in relative growth rates indicated that the Lockhart cell wall expansion equation was inadequate to evaluate the growth of these young leaves. Drought stress had virtually no influence on the relative growth rates observed in the small leaves.     

盐磷耦合胁迫下大豆的生长和钠、磷离子长距离运输

以2个耐盐性和磷效率有差异的大豆品种为材料,采用水培方法,探讨盐分与缺磷耦合胁迫对大豆生长和钠、磷离子长距离运输影响的结果表明:(1)盐分和低磷胁迫对大豆生长有交互作用,磷浓度相对较高(2MMOL·L-1)时大豆耐盐性降低;(2)钠由木质部的向顶部运输增加,钠在韧皮部的再分配增多;(3)盐胁迫下磷在木质部的运输能力提高,韧皮部中磷的再分配受影响不大;(4)磷盐互作对大豆生长的影响在品种之间无差异。     

Mapping QTLs for tissue culture response in soybean (Glycine max (L.) Merr.)

Hempseed is rich in polyunsaturated fatty acids (PUFAs), which have potential as therapeutic compounds for the treatment of neurodegenerative and cardiovascular disease. However, the effect of hempseed meal (HSM) intake on the animal models of these diseases has yet to be elucidated. In this study, we assessed the effects of the intake of HSM and PUFAs on oxidative stress, cytotoxicity and neurological phenotypes, and cholesterol uptake, using Drosophila models. HSM intake was shown to reduce H₂O₂ toxicity markedly, indicating that HSM exerts a profound antioxidant effect. Meanwhile, intake of HSM, as well as linoleic or linolenic acids (major PUFA components of HSM) was shown to ameliorate Aβ42-induced eye degeneration, thus suggesting that these compounds exert a protective effect against Aβ42 cytotoxicity. On the contrary, locomotion and longevity in the Parkinson’s disease model and eye degeneration in the Huntington’s disease model were unaffected by HSM feeding. Additionally, intake of HSM or linoleic acid was shown to reduce cholesterol uptake significantly. Moreover, linoleic acid intake has been shown to delay pupariation, and cholesterol feeding rescued the linoleic acid-induced larval growth delay, thereby indicating that linoleic acid acts antagonistically with cholesterol during larval growth. In conclusion, our results indicate that HSM and linoleic acid exert inhibitory effects on both Aβ42 cytotoxicity and cholesterol uptake, and are potential candidates for the treatment of Alzheimer’s disease and cardiovascular disease.     

Effects of seismic stress on the vegetative growth of Glycine max (L.) Merr. cv. Wells II

Abstract. Vegetative plants of soybean [ Glycine max (L.) Merr. cv. Wells II] grown in a greenhouse and agitated periodically on a gyratory shaker had shorter stems, less leaf area, and lower leaf and plant dry weight than did undisturbed greenhouse-grown (GG) plants after 16 d of treatment. Outdoor-grown (OG) plants, which were subjected to additional environmental stresses including ultraviolet radiation, wind loading, and uncontrolled temperature and humidity fluctuations, were smaller and had less dry weight than GG controls, but growth was not inhibited further by gyratory shaking. Periodic shaking of GG soybeans resulted in the same plant and leaf dry weight as for OG soybeans. Response of GG plants to mechanical stress depended on light intensity, with minimum growth reduction occurring under full light (FL) level, and maximum growth reduction occurring under lower light levels (24–45% FL). Reduction in dry weight gain due to mechanical stress corresponded to a decrease in relative growth rate (RGR). Decreases in net assimilation rate and leaf area ratio contributed equally to the lower RGR of shaken plants, indicating that seismic stress inhibits dry weight accumulation by decreasing both the photosynthetic efficiency and the assimilatory surface of soybean.     

缺硼对大豆根瘤结构和功能的影响

在营养液培养条件下以普通结结瘤大豆Ｂｒａｇｇｃｖ．「Ｇｌｙｃｉｎｅｍａｘ（Ｌ．）Ｍｅｒｒ」及其超结瘤突变体ｎｔｓ３８２为实验材料,运用光学显微方法研究了硼对大豆根瘤结构的影响,并测定了根瘤固氮酶活性结果表明,缺硼使根瘤结构受到严重破坏,并使固氮酶活性显著下降,缺硼使根瘤结构受到破坏是导致固氮酶活性下降的可能原因。     

Sensitivity of soybean leaf development to water deficits

Abstract. Drought effects on the final leaf area of individual leaves were hypothesized to depend on the leaf developmental stage at which drought occurred. To evaluate this hypothesis, final leaf area and cell number were measured for soybean ( Glycine max (L.) Merr.) leaves that were at different stages of development when single or cyclical drought treatment was imposed. Leaf emergence rate from the meristem, as depicted by changes in the plastochron index, was not as sensitive as leaf expansion to cyclical droughts. For leaf expansion, small leaves, once they emerged from the meristem, suffered larger decreases in growth than leaves undergoing rapid leaf area expansion. Decreases in final leaf area as a result of a cyclical drought were correlated with decreases in final cell number. Decreases resulting from a single 8-d drought were dependent on the age of the leaf at the time of drought, because small leaves were found to have proportionately larger decreases in final cell number and area than larger leaves. These results indicated that age-dependent leaf responses to drought are based on the relative activity of cell division and expansion at the time stress was imposed.     

植物激素在大豆生殖器官脱落过程中的变化(英)

研究了大田生长条件下,大豆品种──早12花及幼荚脱落过程中植物激素变化。结果表明,自盛花期始,位于大豆第8～12节位的花序,其上、中、下三个部分花荚的脱落率逐渐升高,至最后一次取样时,三部分花荚的脱落率分别为77．4％、54．7％和18．3％,说明同一花序的基部花荚不易脱落。由内源细胞分裂素（iPA,ZRs,DHZRs）的分析发现,基部幼荚在生长前期,其内源iPA、ZRs、DHZRs均出现一个含量高峰,总CTK含量明显高于中、下部,而在后期脱落酸含量则明显较低;后期基部幼荚的生长速率及干物质积累量均高于中、上部。可见,植物激素参与调控了大豆生殖器官的脱落过程。