盐生野大豆的异黄酮积累及其生态学意义

以自然生长在盐碱地上的野大豆(Glycine soja)和不耐盐的栽培大豆(G. max)为材料,测定了它们在不同盐度条件下叶片、根部和种子的异黄酮含量,并测定了它们叶片的L-苯丙氨酸含量和苯丙氨酸裂解酶(PAL)活性,还测定了它们根部的结瘤量和固氮酶活性。通过两者比较,分析了它们的大豆异黄酮代谢和盐渍环境的关系。结果表明:盐渍处理不抑制盐生野大豆PAL酶的活性,其大豆异黄酮大量积累;相反,盐渍处理明显抑制栽培大豆PAL酶活性,其大豆异黄酮含量减少,而大豆异黄酮合成前体L-苯丙氨酸积累。结果还显示:在盐渍条件下,盐生野大豆根部异黄酮积累的同时,其根瘤结瘤量较多,且固氮酶活性也较高;而栽培大豆随着其根部异黄酮的减少,其根瘤结瘤量大大减少,且固氮活性大大下降。野大豆和栽培大豆的这些差别说明:盐生野大豆积累大豆异黄酮有其生态学意义,这很可能是野大豆通过异黄酮次生代谢途径适应盐渍环境的一种重要机制。     

荫蔽信号对大豆幼苗异黄酮合成的影响

荫蔽导致植物所受红光/远红光(R/FR)比值下降,为探究荫蔽对大豆幼苗异黄酮合成的影响,本试验以耐荫性差异显著的大豆品种"ND12"和"C103"幼苗为研究材料,分别施以不同比例红光/远红光(R/FR)处理,对其叶片、下胚轴、根系中异黄酮积累量及关键酶基因表达情况进行比较研究。结果表明,低R/FR条件下,强耐荫品种"ND12"叶片中总异黄酮及染料木素GE的含量极显著上升,下胚轴中极显著下降,弱耐荫品种"C103"则相反。同时,低R/FR使强耐荫品种"ND12"叶片中异黄酮合成关键基因IFS2、4CL、C4H和CHI的表达量极显著上调,其变化趋势与异黄酮积累变化规律一致,而弱耐荫性品种"C103"则存在较大差异。荫蔽信号诱导耐荫型大豆品种异黄酮合成,并在受胁迫部位叶片中大量积累。本研究初步揭示了荫蔽信号(低R/FR)对苗期大豆异黄酮的调控规律,为研究大豆异黄酮响应荫蔽信号的调控机理奠定了基础。     

干旱胁迫对菜苔叶片保护酶活性和膜脂过氧化的影响

以3个不同耐旱性的菜苔（Brassica parachinensis L.H.Bailey）品种为试材,研究了干旱胁迫对叶片保护酶活性和膜脂过氧化的影响及其与抗旱性的关系。干旱胁迫条件下,菜苔叶片的电解质外渗率和MDA含量呈上升趋势,叶绿素含量、抗坏血酸含量和SOD活性呈下降趋势,CAT活性表现为先上升后下降。耐旱品种比不耐旱品种具有较高的叶绿素含量和抗坏血酸含量,具有较低的电解质外渗率和MDA含量;耐旱品种的SOD活性比不耐旱品种下降幅度小。轻度干旱胁迫下,耐旱品种的CAT活性上升幅度比不耐旱品种高;重度干旱胁迫下耐旱品种的CAT活性下降程度比不耐旱品种低。耐旱品种的POD活性在干旱条件下先上升而后降低,不耐品种的POD活性处于下降趋势。干旱6d后,耐旱品种的SOD、CAT和POD活性显著高于不耐旱品种。     

大豆籽粒发育过程中异黄酮合成相关酶基因的表达模式与异黄酮积累的相关分析

利用高效液相色谱法和实时定量PCR方法,分别测定了2个异黄酮含量显著差异的大豆品种鲁黑豆2号(LHD2)和南汇早黑豆(NHZ)在子粒发育过程中的异黄酮含量变化以及异黄酮合成相关酶基因的表达模式变化,试图分析异黄酮积累与各基因表达量变化的相关关系。结果表明在大豆子粒发育过程中,异黄酮含量逐渐升高,而不同异黄酮合成相关酶基因的表达趋势不同,CHS7、CHS8、CHR、CHI1A和IFS2的表达趋势与异黄酮积累模式基本一致,而IFS1和CHI1B1的表达趋势与异黄酮积累模式相反。IFR的表达模式在2个大豆品种中存在相反的趋势,在LHD2中与异黄酮组分积累趋势相反,而在NHZ中与异黄酮组分积累趋势相同。结果还表明,同一基因家族中不同基因在子粒发育过程中的表达量也存在差异。查尔酮合酶基因家族中CHS7和CHS8以及查尔酮异构酶基因家族的CHI1A的表达水平相对其他成员较高,异黄酮合酶基因家族中IFS2的表达量显著高于IFS1的表达量,预示这些基因家族在大豆子粒异黄酮积累过程中存在功能分化。此外,各基因表达模式与异黄酮积累的相关分析结果表明,不同基因表达模式与异黄酮积累的相关性在2个品种中也不尽相同。LHD2中CHS7、CHS8和IFS2在子粒发育过程中的表达量变化与不同异黄酮组分呈显著正相关,CHI1B1基因的表达量变化与不同异黄酮组分呈显著负相关。而在NHZ中,IFR在子粒发育过程中的表达量变化与多个异黄酮组分呈显著正相关。这预示了不同大豆品种异黄酮含量差异的潜在遗传基础。各异黄酮合成相关酶基因表达量变化的相关分析表明,在2个品种中,苯丙氨酸水解酶PAL1与4CL,4CL与CHS2以及CHS1与IFS2基因的表达量均呈现显著正相关。表明这些基因可能通过协同作用共同调控异黄酮的合成与积累。这些结果为今后利用基因工程提高大豆异黄酮含量奠定了基础。     

大豆异黄酮合成途径相关基因差异表达分析

大豆异黄酮是一种应用广泛、具有医用和保健功能的活性物质。为揭示异黄酮合成途径相关基因表达差异,本研究采用实时定量PCR技术分析相关基因在不同大豆品种、发育时期及组织部位的表达。结果发现,苯丙氨酸解氨酶基因PAL、肉桂酸羟化酶基因C4H、香豆酸辅酶A连接酶基因4CL在高异黄酮品种中豆27 R2期叶片中的表达量显著高于低异黄酮品种楚秀;查尔酮合成酶基因CHS、异黄酮合成酶基因IFS在中豆27 R8期子粒中的表达量显著高于楚秀;细胞色素还原酶基因CPR在中豆27 R7期叶片与子粒的表达量与楚秀相比显著降低。这些差异表达的基因可能是形成大豆品种异黄酮含量高低的重要原因。     

外源α-萘乙酸对花期干旱大豆碳代谢的影响

以耐旱性大豆品种晋豆21和干旱敏感性大豆品种徐豆22为试验材料,通过盆栽试验,研究α-萘乙酸(NAA)对花期干旱大豆碳代谢的影响.结果表明:干旱胁迫下,与徐豆22相比,晋豆21净光合速率(P_n)下降幅度较小,光呼吸速率(Pr)和叶片可溶性糖含量增加幅度较小,而叶片蔗糖磷酸合成酶(SPS)、蔗糖合成酶(SS)(合成方向)活性、根系蔗糖含量增加幅度较大.NAA处理提高了干旱胁迫下Pn,并降低了Pr,进而明显缓解了干旱胁迫对大豆植株的生长抑制;降低了叶片淀粉分解酶、酸性转化酶(AI)和SS(分解方向)活性,从而抑制了干旱胁迫诱导的可溶性糖积累;NAA处理也能增加干旱胁迫下叶片SPS、SS(合成方向)活性、根系蔗糖含量、根冠比,表明NAA处理促进了叶片中蔗糖向根系的转运.总之,在干旱胁迫下,外源NAA能够通过调控碳代谢增强大豆植株对干旱胁迫的耐受性.     

外源α-萘乙酸对花期干旱大豆碳代谢的影响

以耐旱性大豆品种晋豆21和干旱敏感性大豆品种徐豆22为试验材料,通过盆栽试验,研究α-萘乙酸(NAA)对花期干旱大豆碳代谢的影响.结果表明: 干旱胁迫下,与徐豆22相比,晋豆21净光合速率(P_n)下降幅度较小,光呼吸速率(P_r)和叶片可溶性糖含量增加幅度较小,而叶片蔗糖磷酸合成酶(SPS)、蔗糖合成酶(SS)(合成方向)活性、根系蔗糖含量增加幅度较大.NAA处理提高了干旱胁迫下P_n,并降低了P_r,进而明显缓解了干旱胁迫对大豆植株的生长抑制;降低了叶片淀粉分解酶、酸性转化酶(AI)和SS(分解方向)活性,从而抑制了干旱胁迫诱导的可溶性糖积累;NAA处理也能增加干旱胁迫下叶片SPS、SS(合成方向)活性、根系蔗糖含量、根冠比,表明NAA处理促进了叶片中蔗糖向根系的转运.总之,在干旱胁迫下,外源NAA能够通过调控碳代谢增强大豆植株对干旱胁迫的耐受性.     

沙冬青脱水素基因提高转基因紫花苜蓿的耐旱性

为鉴定转基因紫花苜蓿的耐旱能力,本研究以转基因紫花苜蓿T0代植株为材料,通过干旱胁迫,从转基因植株的表型、生理指标和分子水平等层面检测转基因植株的抗旱特性,试验表明,干旱胁迫后转基因苜蓿和对照的茎、叶片全部干枯,而复水后转基因苜蓿大部分恢复生长,对照几乎全部死亡。干旱胁迫后苜蓿叶片的Pro和MDA含量均随处理时间延长而逐渐增加,转基因植株叶片的Pro含量高于对照,而其MDA含量低于对照植株,且二者均达到了显著差异;转基因苜蓿的离体叶片失水率也明显低于对照。在20%PEG胁迫下,植株体内ProDH和P5CS基因的相对表达量都是先升后降,转基因植株和对照中ProDH和P5CS基因的表达量显著增加,且二者在转基因植株与对照间存在显著差异。这表明,在干旱胁迫条件下,由于AmDHN基因在紫花苜蓿中的过量表达,可能引起植株体内脯氨酸的大量积累,并进一步诱导脯氨酸合成相关基因的表达,最终引起植株抗旱性的提高,因此,推测转基因苜蓿的耐旱性比对照强。     

不同马铃薯品种(系)耐旱性综合评价及其指标筛选

以4个马铃薯品种(系)为供试材料,采用盆栽人工控水和组培条件下PEG-6000胁迫两种不同的模拟干旱形式进行处理,通过形态与生理指标综合评价其耐旱性差异,为马铃薯抗逆栽培及耐旱品种的选育提供依据。盆栽苗设置正常灌水(CK)和2个干旱胁迫处理：中度干旱(T1,土壤相对湿度指数45%±5%)、轻度干旱(T2,土壤相对湿度55%±5%),组培试管苗设置4个PEG-6000浓度(5%、10%、15%和20%),对干旱胁迫下盆栽马铃薯的单株平均产量、9个形态指标、6个生理指标进行测定,使用3种方法对实验数据进行分析,评价了供试材料的耐旱性强弱并以组培苗进行验证。结果表明：经两种不同的模拟干旱处理后,筛选出的耐旱种质较为一致,耐旱性较好的品种(系)均为高代品系D1520和“滇薯97”,对干旱敏感的品种均为“青薯9号”和“滇薯1418”;从15个指标中简化出脱落酸含量、过氧化物酶活性、叶片数、株高、节数、分支数和叶片夹角7个对干旱胁迫敏感指标;各品种(系)的叶片数指标经组培试验验证后,可作为耐旱评价的重要指标。     

干旱和低温胁迫影响烟草幼苗海藻糖代谢的差异比较

为了明确海藻糖代谢在干旱和低温胁迫下的响应及其差异,以及海藻糖在烟草耐旱和耐冷性中的作用,选用烟草品种云烟203幼苗为实验材料,通过对烟草幼苗进行干旱和4℃低温胁迫处理,研究叶片中海藻糖含量及代谢相关酶(海藻糖-6-磷酸合成酶TPS、海藻糖-6-磷酸磷酸酶TPP、海藻糖酶THase)活性及基因表达变化情况。结果表明,在干旱和低温胁迫下,海藻糖含量表现出先升高后降低趋势,均在处理2 d时海藻糖积累达到最大,且干旱胁迫下海藻糖含量高于低温胁迫。TPS、TPP活性在干旱和低温胁迫下先升高后降低,且干旱高于低温;THase活性在干旱和低温胁迫下均不断升高,低温下的THase活性高于干旱。TPS、TPP、THase基因在干旱下的表达量均高于0 d对照,低温下低于0 d对照。以上结果表明,干旱和低温胁迫均能促使烟草体内海藻糖的积累,干旱更能诱导相关基因的表达、相关酶活性及海藻糖含量的升高,表明海藻糖对干旱响应更敏感。     

Identification and Expression Analysis of Cytokinin Metabolic Genes in Soybean under Normal and Drought Conditions in Relation to Cytokinin Levels

Cytokinins (CKs) mediate cellular responses to drought stress and targeted control of CK metabolism can be used to develop drought-tolerant plants. Aiming to manipulate CK levels to improve drought tolerance of soybean cultivars through genetic engineering of CK metabolic genes, we surveyed the soybean genome and identified 14 CK biosynthetic (isopentenyltransferase, GmIPT) and 17 CK degradative (CK dehydrogenase, GmCKX) genes. Comparative analyses of GmIPTs and GmCKXs with Arabidopsis counterparts revealed their similar architecture. The average numbers of abiotic stress-inducible cis-elements per promoter were 0.4 and 1.2 for GmIPT and GmCKX genes, respectively, suggesting that upregulation of GmCKXs, thereby reduction of CK levels, maybe the major events under abiotic stresses. Indeed, the expression of 12 GmCKX genes was upregulated by dehydration in R2 roots. Overall, the expressions of soybean CK metabolic genes in various tissues at various stages were highly responsive to drought. CK contents in various organs at the reproductive (R2) stage were also determined under well-watered and drought stress conditions. Although tRNA-type GmIPT genes were highly expressed in soybean, cis-zeatin and its derivatives were found at low concentrations. Moreover, reduction of total CK content in R2 leaves under drought was attributable to the decrease in dihydrozeatin levels, suggesting a role of this molecule in regulating soybean's responses to drought stress. Our systematic analysis of the GmIPT and GmCKX families has provided an insight into CK metabolism in soybean under drought stress and a solid foundation for in-depth characterization and future development of improved drought-tolerant soybean cultivars by manipulation of CK levels via biotechnological approach.     

Light Effect on the Tissue Contents and Distribution of Isoflavones in the Developing Seedling of Soybean

The contents of isoflavones in the developing soybean seedling tissues under different light conditions were examined by high-performance liquid chromatography (HPLC). The results indicated that the total contents of isoflavones in soybean seedling tissues were remarkably different, being the highest in the cotyledons and lower in the leaves and roots. In the cotyledons, the isoflavones like daidzin, genistin and their malonyl conjugates were the major metabolites and were increased markedly with the time of light exposure. In contrast, there was a decrease in the content of isoflavones in the dark. When the dark grown seedlings were tranferred to the light, an increase of the isoflavone content was observed. In the leaves and roots, there was also a marked difference in the contents and types of isoflavones due to various light conditions. Leaves contained mainly the isoflavones such as genistin, malonyl gensistin and flavones rutin, which were increased gradually under light condition, but in the dark, daidzin and malonyl daidzin were the major metabolites and did not change markedly with time. In the roots, no isoflavone was detected in the dark, while five isoflavones were found in the light-grown seedlings, and all root sections were predominated by daidzein and its conjugates. These results provided the evidence that light strongly stimulates the accumulation of isoflavones in soybean seedling tissues.     

光照对大豆幼苗组织中异黄酮含量和分布的影响

利用高效液相色谱（ＨＰＬＣ）测定了不同光照处理的大豆（Ｇｌｙｃｉｎｅｍａｘ（Ｌ．）Ｍｅｒｒｉ．）幼苗不同组织的异黄酮类含量。子叶中最高,叶片和根部相对较少。子叶的异黄酮以大豆甙和染料木甙及其丙二酰基结合体为主,且在光照条件下,异黄酮含量随光照时间的增加而显著升高;相反,黑暗中的异黄酮含量随苗龄的增加呈下降趋势;当子叶由黑暗转为光照处理以后,异黄酮含量同样随光照时间的增加而升高。在叶片和根部异黄酮含量和种类也因光照条件的不同而有很大差异。光照条件下,叶片中以染料木甙及其丙二酰结合体和黄酮芦丁为主,且随时间增加呈上升趋势;黑暗中的黄化叶片,则以大豆甙和丙二酰结合体为主,但随时间的变化不明显。在幼苗根部,黑暗条件下几乎检测不出异黄酮的存在;光照条件下,则可检测到５种异黄酮,其中以大豆甙元及其衍生物占主要部分。实验证实了光照对大豆异黄酮的积累有明显的促进作用     

干旱胁迫对小麦幼苗抗氰呼吸和活性氧代谢的影响

研究了干旱胁迫对抗旱性强弱不同的两种小麦幼苗的抗氰呼吸和活性氧代谢的影响。干旱胁迫导致了两种小麦抗氰呼吸活性及基因转录水平的下降,但抗旱品种在轻度干旱胁迫下表现出一定的适应能力,其抗氰呼吸活性及基因转录水平均高于不抗旱品种。干旱胁迫下,对干旱敏感的小麦幼苗叶片中活性氧含量高于抗旱小麦;3种抗氧化酶的活性低于抗旱小麦的3种抗氧化酶的活性。据此认为,严重的干旱胁迫引起活性氧含量的增加扰动了活性氧与抗氰呼吸之间的应答平衡,但抗氰呼吸可能通过清除活性氧等机制而起了抗旱的作用。     

Salt stress induced soybean <Emphasis Type="Italic">GmIFS1</Emphasis> expression and isoflavone accumulation and salt tolerance in transgenic soybean cotyledon hairy roots and tobacco

Effects of isoflavones on plant salt tolerance were investigated in soybean (Glycine max L. Merr. cultivar N23674) and tobacco (Nicotiana tabacum L.). Leaf area, fresh weight, net photosynthetic rate (Pn), and transpiration rate (Tr) of soybean N23674 plants treated with 80 mM NaCl were significantly reduced, while a gene (GmIFS1) encoding for 2-hydroxyisoflavone synthase was highly induced, and isoflavone contents significantly increased in leaves and seeds. To test the impact of isoflavones to salt tolerance, transgenic soybean cotyledon hairy roots expressing GmIFS1 (hrGmIFS1) were produced. Salt stress slightly increased isoflavone content in hairy roots of the transgenic control harboring the empty vector but substantially reduced the maximum root length, root fresh weight, and relative water content (RWC). The isoflavone content in hrGmIFS1 roots, however, was significantly higher, and the above-mentioned root growth parameters decreased much less. The GmIFS1 gene was also transformed into tobacco plants; plant height and leaf fresh weight of transgenic GmIFS1 tobacco plants were much greater than control plants after being treated with 85 mM NaCl. Leaf antioxidant capacity of transgenic tobacco was significantly higher than the control plants. Our results suggest that salt stress-induced GmIFS1 expression increased isoflavone accumulation in soybean and improved salt tolerance in transgenic soybean hairy roots and tobacco plants.     

Isoflavone glucoside stress metabolites of soybean leaves

The isoflavone glucosides daidzin, genistin and ononin, the isoflavones daidzein and formononetin, and glyceollins I-III accumulated in soybean leaves inoculated with phytopathogenic bacteria. Treatment of leaves with sodium iodoacetate or yeast extract also led to isoflavonoid accumulation. Various other stress-inducing treatments were not effective. Bacterially-induced accumulation of isoflavone glucosides and the occurrence of ononin and formononetin in soybean are reported for the first time.     

干旱胁迫下小麦幼苗根、叶多胺含量和多胺氧化酶活性的变化

 以抗旱性不同的两个小麦品种（‘晋麦33’和‘温麦8’）（Triticum aestivum cv. Jinmai 33 and Wenmai 8）为材料,研究了干旱胁迫下多胺含量和多胺氧化酶活性的变化。结果表明：旱过程中,幼苗根、叶中腐胺（Put）、亚精胺（Spd）、精胺（Spm）3种多胺含量和多胺氧化酶（PAO）活性先迅速升高,而后下降。与抗旱性弱的‘晋麦33’相比,抗旱性强的品种‘温麦8’幼苗根、叶中Spd、Spm 含量初期升高幅度大,之后下降速率减慢;PAO活性的变化与之相反,‘晋麦33’的PAO活性提高的幅度大于‘温麦8号’。多胺含量和PAO活性在小麦幼苗的根与叶之间呈极显著正相关。干旱初期,小麦根、叶中多胺迅速积累可能是干旱胁迫反应的一个信号,随后较高的Spd、Spm 水平有利于增强小麦幼苗的抗旱性。