Water Stress Induced Proline Accumulation in Contrasting Wheat Genotypes as Affected by Calcium and Abscisic Acid

Proline accumulation and mobilization in roots of 7-d-old seedlings of wheat genotypes varying in sensitivity towards water stress were compared. Water stress was induced by polyethylene glycol (PEG-6000; osmotic potential −1.5 MPa) in the presence of 0.1 mM abscisic acid (ABA), 1 mM calcium chloride, 0.5 mM verapamil (Ca²⁺ channel blocker), 0.5 mM fluridone (inhibitor of ABA biosynthesis). While both the genotypes did not differ in total proline accumulation, rate of proline accumulation and utilization was higher in tolerant genotype C 306 as compared to susceptible genotype HD 2380. The treatment with ABA and CaCl₂ caused further increase in proline accumulation during stress and reduced its mobilization during recovery. The membrane stability and elongation rate of roots was observed to be higher at ABA and calcium treatment in both the genotypes under stress. As was evident from inhibitor studies, the tolerant genotype was more responsive to ABA and the susceptible one to calcium. This revised version was published online in July 2006 with corrections to the Cover Date.     

干旱胁迫下耐旱性小麦在不同生育期脱水素的表达分析

以2种耐旱性不同的盆栽小麦陕合6号(干旱耐受型)和郑引1号(干旱敏感型)为材料,分别在其苗期、分蘖期、拔节期、开花期对土壤实施不同程度的自然干旱胁迫和复水处理,采用SDS-PAGE和Western blotting技术研究其叶片脱水素的表达规律,探究小麦整个生长期脱水素的表达与干旱胁迫的关系.结果表明:2种小麦的脱水素均仅在干旱胁迫时表达,其中45 kD和37 kD的脱水素在2种小麦的4个发育期的叶片中均有表达,28 kD的脱水素仅在特定发育时期表达.在干旱耐受型小麦(陕合6号)中,脱水素在胁迫初期少量表达,随着胁迫程度加剧表达量急剧增加,在重度干旱胁迫下达到峰值,复水后小麦叶片中脱水素含量迅速下降;在干旱敏感型小麦(郑引1号)中,脱水素在胁迫初期大量表达,中度胁迫表达量小幅度回落,到复水1 d达到峰值,此后随着复水时间增加小麦叶片中脱水素的量逐渐下降.研究表明,小麦叶片脱水素表达与干旱胁迫程度和生育期迫密切相关,不同耐旱型小麦材料中叶片脱水素表达的差异与品种之间的干旱耐受能力密切相关.     

Effect of Water Stress on Grain Growth and Assimilate Partitioning in two Cultivars of Wheat Contrasting in their Yield Stability in a Drought-Environment

Grain growth pattern and grain weight in relation to its positionbetween and within spikelets showed assimilate limitation tobe a factor reducing grain yield in wheat plants grown on storedmoisture in the field. Estimation of the relative contributionof pre- and post-anthesis assimilates to grain yield by a ¹⁴Clabelling technique indicated that cultivar C 306, known forits stability in yield and drought-tolerance, was characterizedby substantial mobilization of pre-anthesis assimilate (P),both in irrigated (24 per cent) and unirrigated (33 per cent)plants. As against this, in Kalyansona, a high yielding cultivarwith moderate stress tolerance, the contribution of P to grainyield was only 13 and 22 per cent in irrigated and unirrigatedplants, respectively. The mobilization of amino acids, estimatedfrom nitrogen contents at anthesis and maturity, was decreasedby water stress and was accompanied by a corresponding increasedtransport of carbohydrates. Assimilate partitioning, drought tolerance, grain growth, stability, water stress, wheat     

Changes in Free Amino Compounds during the Development of Two Wheat Cultivars Subjected to Different Degrees of Water Stress

The changes of total nitrogen and free amino compounds, exceptproline, in leaves, stems, roots and ears of the wheat cultivarsYecora and Generoso were followed during the development inthe field with and without irrigation. The time course of thesum of the amino compounds was similar in stems and roots, butwas different in the leaves and ears. The levels of particularcompounds for a given cultivar varied with plant development,organ and water stress. Glutamate, alanine, aspartate, and serinewere found at high concentrations in all organs, although theirproportion was substantially lower in the stems and roots whereglutamine and asparagine were also detected in considerableamounts. Large amounts of glutamine were also found in the ears.The concentrations of some compounds increased in the periodsof more severe water stress, although the concentration of totalnitrogen did not show a similar response. From correlationsbetween      

Changes in Ethanol Soluble Carbohydrates During the Development of Two Wheat Cultivars Subjected to Different Degrees of Water Stress

The changes of ethanol soluble carbohydrates in leaves, stems,roots and ears of the wheat cultivars Yecora (semi-dwarf andearly) and Generoso (taller and late) were followed during developmentin the field with and without irrigation. Sucrose concentrationremained at low levels during the vegetative phase in all vegetativeorgans except in the roots of Yecora, but increased consistentlyafter ear emergence. Reducing sugars were at low concentrationsthroughout leaf development, but increased towards maturationin the roots and, more dramatically, in the stems of the non-irrigatedtreatment. Sucrose levels remained relatively stable in theears, whereas glucose and fructose fell during grain filling.Raffinose was detected at low levels only in the ears. Yecoraaccumulated more sucrose in the leaves and roots before headingas a response to temporary water stress. From correlations betweenthe leaf water potential and the corresponding values of theexamined sugars, as well as from the examination of the timecourses in the two treatments, it was found that only sucroseaccumulation was related on several occasions with increasingwater stress. No systematic differences between the cultivarswere found in the association of sugars with plant water status. Wheat, Titicum aestivum, cultivars, soluble sugars, water stress     

Changes in Thiol Content in Roots of Wheat Cultivars Exposed to Copper Stress

Wheat (Triticum aestivum L.) cultivars GK Tiszatáj, Yubileinaya, GK Öthalom and a landrace Kobomugi were grown for 18 d in hydroponic cultures containing 0 (control), 0.1, 1.0 or 10.0 µM Cu²⁺. On a dry mass basis, cvs. Tiszatáj and Kobomugi accumulated slightly more Cu²⁺ in the root tissues than did cvs. Yubileinaya and Öthalom, but their controls also contained higher amounts of Cu²⁺. As a result of perturbation in the plasma membrane functions the K⁺ content of roots was reduced at 10 µM Cu²⁺ in all cultivars, whereas the K⁺/Na⁺ ratio decreased significantly only in the roots of cv. Öthalom. In the sensitive cultivar, Öthalom, the dry mass of the roots decreased while the cysteine content, which is a limiting factor for glutathione synthesis, did not satisfactorily increase with increasing tissue Cu²⁺ content. This suggests that in cv. Öthalom the membrane damage of the root cells at 10 µM Cu²⁺ concentration may affect the sulphur availability or metabolism. Concentrations of glutathione and hydroxymethyl-glutathione, a tripeptide which may play a similar biochemical role to glutathione, were also lower in the sensitive cultivar. In the absence of glutathione the root tissues failed to cope with the oxidative stress caused by the excessive amount of Cu²⁺. A significant accumulation of iron in the roots of the sensitive cultivar at 10 µM Cu²⁺ supply enhanced the oxidative damage.     

水分胁迫对冬小麦CO_2同化作用的影响

比较了两个小麦品种陕合6号和郑引1号经受不同程度的水分胁迫处理后,叶片多种光合参数:净光合速率(P_n)、气孔导度(G_s)、细胞间隙CO_2浓度(G_i)、表观量子需要量和羧化效率以及Rubis CO蛋白量与活性等的变化。在轻度水分胁迫下,叶片光合速率降低的根本原因在于气孔导度的下降;而在严重胁迫下,非气孔因素起主要作用。     

不同品种菜心对镉抗性的研究

以对镉（Cd)抗性不同的两个菜心品种特青60天和迟心2号为试验材料,用盆栽土培试验的方法研究了在不同浓度Cd处理下（0mg/kg,1.0mg/kg,3.0mg/kg,10.0mg/kg)Cd在菜心体内及迁移的差异,并探讨了造成差异的机理。研究结果表明：Cd处理下,特有60天茎叶中积累的Cd比迟心2号的少,在高Cd浓度（10.0mg/kg)下,与对照相比,特青60天的干重明显增加,而迟心2号的干重则显著降低。进一步分析研究发现,在相同的Cd上,特青60天中Cd的迁移率较小,特别是在30mg/kg Cd处理下比迟心2号的低5．62％;根系细胞壁中的Cd所占的比例比迟心2号的高;特青60天根系中全硫（S）的含量比迟心2号的高,而且随着Cd处理浓度的增加,全S含量提高,但迟心2号中S含量的变化趋势与之不同;持青60天根系汁液的pH值比迟心2号的高,且汁液中Cd的含量比迟心2号的低;相关分析的结果显示;根系汁液中的Cd含量与茎叶汁液中Cd的含量呈显著的正相关关系。以上的结果可能造成了特青60天中Cd在根系内的活性和迁移能力较低,减少了Cd由根系向茎叶的迁移,从而使特青60天对Cd的抗性高于迟心2号。     

Comparison of Hexaploid and Tetraploid Wheat Cultivars in their Responses to Water Stress

We studied the effect of water stress imposed at anthesis and pre-anthesis stages on oxidative stress and antioxidant activity in four wheat cultivars, two hexaploid Triticum aestivum cultivars, drought resistant cv. C 306 and drought susceptible cv. Hira, and two tetraploid cultivars, T. durum cv. A 9-30-1 and T. dicoccum cv. HW 24. Water stress decreased relative water content (RWC), membrane stability index (MSI), and increased H₂O₂ and malondialdehyde (MDA) contents as well as activity of superoxide dismutase (SOD), catalase (Cat) and peroxidase (POX) in all the genotypes at all the stages. Both the tetraploid cultivars showed higher RWC, MSI and SOD activity, and lower H₂O₂ and MDA contents under water stress than hexaploid ones. Cat and POX activities were highest in C 306.     

不同磷效率小麦品种对缺磷胁迫反应的比较

在营养液培养条件下,以根据相对产量为指标筛选出的6个不同磷效率的小麦(Triticum aestivum L.)品种为材料,对其苗期在缺磷条件下生长、根冠磷含量及其分配,以及叶片韧皮部汁液中磷浓度等进行了比较研究。结果表明,缺磷抑制植株地上部生长,但刺激根系生长,导致植株根／冠比增加。无论在供磷或缺磷条件下,磷高效品种的根冠生长速率都低于磷低效品种。缺磷导致植株体内的磷含量下降与根系相比,地上部磷含量的下降速率更快。但在缺磷条件下,不同磷效率的小麦品种根冠间的磷分配变化没有差异。研究发现,在正常供磷条件下,磷高效小麦品种的叶片韧皮部汁液中磷浓度较低,而磷低效品种的叶片韧皮部汁液中磷浓度较高。但开始缺磷后,磷高效品种的叶片韧皮部汁液中的磷浓度下降较慢,使其相对磷浓度较高。缺磷后10天,磷低效品种叶片韧皮部汁液中的磷浓度为供磷对照的35．9％,而磷高效品种叶片韧皮部汁液中的磷浓度为供磷对照的59％。     

不同磷效率小麦品种对缺磷胁迫反应的比较

在营养液培养条件下,以根据相对产量为指标筛选出的6个不同磷效率的小麦(Triticum aestivum L.)品种为材料,对其苗期在缺磷条件下生长、根冠磷含量及其分配,以及叶片韧皮部汁液中磷浓度等进行了比较研究.结果表明,缺磷抑制植株地上部生长,但刺激根系生长,导致植株根/冠比增加.无论在供磷或缺磷条件下,磷高效品种的根冠生长速率都低于磷低效品种.缺磷导致植株体内的磷含量下降与根系相比,地上部磷含量的下降速率更快.但在缺磷条件下,不同磷效率的小麦品种根冠间的磷分配变化没有差异.研究发现,在正常供磷条件下,磷高效小麦品种的叶片韧皮部汁液中磷浓度较低,而磷低效品种的叶片韧皮部汁液中磷浓度较高.但开始缺磷后,磷高效品种的叶片韧皮部汁液中的磷浓度下降较慢,使其相对磷浓度较高.缺磷后1 0天,磷低效品种叶片韧皮部汁液中的磷浓度为供磷对照的35.9%,而磷高效品种叶片韧皮部汁液中的磷浓度为供磷对照的59%.     

PEG胁迫及复水对不同抗旱性小麦幼苗脯氨酸代谢关键酶活性的影响

以两种不同抗旱性小麦品种幼苗为试验材料,采用PEG模拟干旱胁迫处理,探究干旱胁迫及复水对小麦幼苗叶片与根系脯氨酸累积及关键酶活性的影响。结果显示:(1)PEG胁迫下抗旱品种‘普冰143’根长和根干重下降不大,而水敏感品种‘郑引1号’根长和根干重下降显著;且于胁迫处理36h时‘普冰143’根系脯氨酸含量增加(75.0%)显著大于‘郑引1号’(37.7%),复水24h后均恢复至对照水平。(2)PEG胁迫下‘普冰143’叶片中谷氨酸合成途径关键酶P5CS和鸟氨酸合成途径关键酶δ-OAT活性均显著增加,且‘普冰143’叶片脯氨酸两条合成途径关键酶活性均得以加强;PEG胁迫处理36h时,‘郑引1号’叶片中P5CS活性增加显著,δ-OAT活性变化较小,且‘郑引1号’叶片脯氨酸合成可能以谷氨酸途径为主;但在PEG胁迫下两个不同抗旱性品种的根中P5CS、δ-OAT活性均变化较小。(3)PEG胁迫处理36h时‘普冰143’叶片脯氨酸降解酶PDH活性显著下降,而‘郑引1号’叶片PDH活性显著增加,复水后抗旱品种叶片该酶活性显著增加,水敏感品种恢复至对照水平;但PEG胁迫处理下两个不同抗旱性品种的根中PDH活性均显著下降。研究表明,PEG胁迫下小麦叶片是合成脯氨酸的主要部位,抗旱品种‘普冰143’根系脯氨酸持续积累与叶片中高的脯氨酸合成关键酶活性及脯氨酸转运有关。     

水分胁迫下不同抗旱性小麦品种叶片转录因子表达差异研究

通过研究不同抗旱性小麦品种中转录因子表达水平的差异,为阐明小麦抗旱机制奠定基础。依据候选基因序列设计PCR引物,以干旱胁迫后0、3、6、9、12和24 h的小麦叶片为实验材料,以26S rRNA为内参,运用荧光定量PCR技术,检测Wdreb2、Wlip19基因在干旱敏感性和干旱耐受性小麦叶片中的相对表达量。定量PCR结果显示：干旱胁迫后,Wdreb2、Wlip19基因在干旱敏感性小麦叶片中的表达明显低于干旱耐受性小麦,在不同品种叶片中的响应时间和表达趋势存在差异。研究认为,Wdreb2、Wlip19基因在不同品种小麦受到干旱胁迫后的表达差异,与该品种小麦的抗旱能力具有一定的相关性。     

不同组织培养途径对小麦再生能力的研究

从现在推广的小麦优良品种和有苗头的新品系中选用10个小麦基因型品种进行组织培养,从愈伤组织诱导率、绿苗分化率等方面比较了幼穗培养、花药培养、幼胚培养三种培养方式的培养效果。结果表明,幼胚培养效果最好,基因型间差异小,都能获得足够数量的再生植株。幼穗的培养效果最差,愈伤组织分化生根和绿芽十分容易,但分化成完整植株则较为困难。花药培养在基因型间差异非常明显而且有较多白化苗。此外,本研究还分析了影响小麦再生能力的因素,建立了一套高效、可靠的小麦组培再生系统,为小麦的转基因技术提供优良的受体材料。     

Differential Inhibition of Shootvs.Root Growth at Low Temperature and its Relationship with Carbohydrate Accumulation in Different Wheat Cultivars

Shoot and root growth rate, carbohydrate accumulation (includingfructan), reducing sugar content and dry matter percentage weremeasured in six wheat cultivars, ranging from winter to springtypes, grown at either 5 or 25 °C. At 5 °C (comparedwith 25 °C), the relative growth rate (RGR) of shoots wassimilarly reduced in all cultivars, but the RGR of shoots wasmore affected in winter wheats. This difference resulted insmaller root:shoot ratios than in spring wheats, which alsodeveloped more first-order lateral roots. A direct relationshipbetween carbohydrate accumulation at low temperatures and reductionin root growth was established. These results suggest that differentialshootvs.root growth inhibition at low temperature may play akey role in carbohydrate accumulation at chilling temperatures.This differential response might lead to improvements in survivalat temperatures below 0 °C, regrowth during spring, andwater and nutrient absorption at low temperatures.Copyright1997 Annals of Botany Company Wheat; Triticum aestivum; low temperatures; root growth; root: shoot ratio; sugar accumulation     

小麦根系特征对干旱胁迫的响应

干旱胁迫时, 小麦(Triticum aestivum)根系率先产生应激响应, 同时向地上部发出信号, 诱导地上部发生生理反应, 从而提高植株抗旱能力。根系构型包括平面几何性状和立体几何结构(即拓扑构型), 具有遗传稳定性和可塑性。干旱胁迫影响根系理化特性, 如根源化学信号、根系细胞酶类和根系渗透作用的响应。根系通过调整其解剖学结构和水分吸收动力等来适应干旱胁迫。该文从根系构型、理化特性和解剖学结构3个方面, 系统阐述了小麦根系特征对干旱胁迫的响应, 并探讨了其与干旱胁迫的关系和当前研究中存在的问题, 以期为相关研究提供参考。     

Cultivars of Hexaploid Wheat of Contrasting Stature and Chlorophyll Retention Differ in Cytokinin Content and Responsiveness

The work reported here compared cytokinin content and sensitivityin a selection of hexaploid wheat (Triticum aestivum L.) cultivarsusing the following measurements: leaf cytokinins at three timepoints during light-growth and at four 24 h intervals afterlight-grown plants were transferred to darkness; sensitivityof root growth to direct applications of isopentenyl adenosine([9R]iP); and, sensitivity of germination and subsequent rootand shoot growth to 18 h imbibition of seeds in benzyladenine(BA). Accumulation of zeatin riboside-type cultivars was greatestduring light-growth in Tibet Dwarf, a wheat with an extremedwarf phenotype, intermediate in Omar standard and dwarf cultivars,and lowest in the standard and dwarf versions of Itana. Cytokininlevels were otherwise not directly correlated to plant staturein these wheats. There were no cultivar-associated qualitativedifferences in the types of cytokinins detected in this study.During the 16 h light period, the content of zeatin riboside-typecytokinins increased up to tenfold and then declined to basallevels during dark growth. Chlorophyll retention during dark-growthwas correlated with leaf cytokinin content. Data collected ata restricted number of sampling points during dark-growth suggesteda cyclic accumulation of [9R]iP-type cytokinins and the apparentcycle in Tibet Dwarf was offset by 24 h. Tibet Dwarf showedthe greatest root growth inhibition after exposure of seedlingroots to [9R]iP or imbibition of seeds in BA. Neither of thesetreatments affected shoot growth in any of the cultivars. Wheat; Triticum aestivum ; cytokinin; zeatin riboside; benzyladenine; root inhibition     

小麦根系特征对干旱胁迫的响应

干旱胁迫时, 小麦(Triticum aestivum)根系率先产生应激响应, 同时向地上部发出信号, 诱导地上部发生生理反应, 从而提高植株抗旱能力。根系构型包括平面几何性状和立体几何结构(即拓扑构型), 具有遗传稳定性和可塑性。干旱胁迫影响根系理化特性, 如根源化学信号、根系细胞酶类和根系渗透作用的响应。根系通过调整其解剖学结构和水分吸收动力等来适应干旱胁迫。该文从根系构型、理化特性和解剖学结构3个方面, 系统阐述了小麦根系特征对干旱胁迫的响应, 并探讨了其与干旱胁迫的关系和当前研究中存在的问题, 以期为相关研究提供参考。     

Alleviation of Negative Effects of Water Stress in Two Contrasting Wheat Genotypes by Calcium and Abscisic Acid

The individual and interactive role of calcium and abscisic acid (ABA) in amelioration of water stress simulated by polyethylene glycol (PEG) 6000 was investigated in two contrasting wheat genotypes. PEG solution (osmotic potential –1.5 MPa) was applied to 10-d-old seedlings growing under controlled conditions and changes in photosynthetic rate, activities of ribulose-1,5-bisphosphate carboxylase and phosphoenolpyruvate carboxylase, water potential and stomatal conductance were observed in the presence of 0.1 mM ABA, 5 mM calcium chloride, 1 mM verapamil (Ca²⁺ channel blocker), and 1 mM fluridone (inhibitor of ABA biosynthesis). ABA and calcium chloride ameliorated the effects of water stress and the combination of the two was more effective. The two genotypes varied for their sensitivity to ABA and Ca²⁺ under stress. As was evident from application of their inhibitors, ABA caused more alleviation in C 306 (drought tolerant) while HD 2380 (drought susceptible) was more sensitive to Ca²⁺.