小麦根系生长对缺磷胁迫的反应

研究了缺磷诱导小麦（Ｔｒｉｔｉｃｕｍ ａｅｓｔｉｖｕｍＬ．）根系生长的反应,小麦根轴的生长与植株内外的磷浓度均呈显著的负线性关系。分根实验证明,随着低磷营养液中根比例的增加,在供磷水平不同的分根盒侧的根轴长度的均增加,这说明根轴生长是受体内磷浓度调控的。植株体内磷浓度的处理后１ｄ开始变化,而在不同供磷水平营养液中小麦根轴长度的差异达到显著水平的时间是处理后的第８天,说明植株体内磷浓度的变化可能是小     

缺磷条件下的小麦根系酸性磷酸酶活性研究

1　引　　言植物根可向根际分泌许多有机化合物 ,其中有许多物质都能促进植物对矿质养分的吸收 .作为必需大量营养元素的Ｐ ,在土壤中以无机磷酸盐阴离子的形式被吸收 ,而有机磷酸酯必须被水解成无机Ｐ后才能进入植物根 ,在这一过程中有一非常重要的步骤 ,就是由微生物、菌根外真菌和植物根分泌酸性磷酸酶 .土壤中的有机Ｐ一般占全Ｐ的 30 %～ 5 0 % ,有的可达95 % .因此 ,如何发挥植物自身利用土壤有机Ｐ的潜力已成为目前植物营养学研究的热点之一 .Ｇｏｌｄｓｔｅｉｎ等[3 ] 研究Ｐ胁迫条件下悬浮培养细胞时发现 ,抑制植物生长和诱导酸性…     

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%.     

缺磷胁迫对小麦根细胞周期蛋白基因cyc1At表达的影响

用液培方法研究了缺磷胁迫对小麦（Ｔｒｉｔｉｃｕｍ ａｅｓｔｉｖｕｍ Ｌ．）根系生长的影响。结果表明,随着介质磷水平的提高,小麦根轴长度和植株生长素深度均降低。在低磷条件下用生长素极性运输抑制剂三碘苯甲酸（ＴＩＢＡ）处理后,小麦的根轴长度明显降低,表明生长素参与了缺磷小麦根轴生长的调控。缺磷小麦根部生长素浓度的提高诱导了细胞周期蛋白基因ｃｙｃ１Ａｔ的素达,促进了根分生组织细胞的分裂并驱动了根的生长。     

黑麦基因组中不同染色体在缺磷胁迫下对普通小麦根系分泌酸性磷酸 …

以一整套中国春－帝国黑麦二体附加系为材料，通过在低磷胁迫下对其根系分泌Ａｃｐｈ能力测定及同工酶等电聚焦分析证明：缺磷胁迫是Ａｃｐｈ基因表达的诱导因子，帝国黑麦不同染色体的中国春小麦背景中对其根系在低磷胁迫下Ａｃｐｈ的分泌具不同的正效应，其中以１Ｒ染色体的效应最为强烈，Ａｃｐｈ等电聚焦（ＩＥＦ）的酶谱清楚地表明黑麦的１Ｒ染色体上携有在缺磷胁迫下诱导表达的Ａｃｐｈ基因。     

小麦根系接受缺磷信号的部位（简报）

用局部供磷法研究小麦根系接受外界缺磷信号位点的结果表明,体内不缺磷的植株可以接受缺磷磷信号的刺激,根系局部缺磷有利于小麦的生长发育,小麦根的任何部位均可接受环境缺磷信号。     

渗透胁迫和缺磷对小麦幼苗生长的影响

水培条件下缺磷小麦幼苗的叶片含水量和叶绿素含量显著降低,丙二醛含量增加,小麦幼苗生长受抑,地上部分生长受到的影响大于根系,上述指标的变化幅度还与缺磷程度呈正相关,且不耐低磷品种中国春大于耐低磷品种烟中144。在相同条件下,渗透胁迫和缺磷两者表现出胁迫加剧的现象。     

缺磷胁迫下烟草中草酸含量的变化（简报）

用1／2Hoagland营养液培养6个不同烟草品种,于缺磷后不同时期,测定根、叶中草酸含量的结果显示,在处理后10d时的根和叶中草酸含量均开始上升,并随胁迫时间的延长而增大,其中以中烟90和牛津26提高最为显著。根中未测出乙醇酸氧化酶活化,叶中此酶的活性较高,但不受缺磷胁迫的影响;缺磷处理的根和叶中异柠檬酸裂解酶活性变化也不明显。     

缺磷胁迫对小麦根细胞周期蛋白基因cyc1At表达的影响

用液培方法研究了缺磷胁迫对小麦(TriticumaestivumL.)根系生长的影响。结果表明,随着介质磷水平的提高,小麦根轴长度和植株生长素浓度均降低。在低磷条件下用生长素极性运输抑制剂三碘苯甲酸(TIBA)处理后,小麦的根轴长度明显降低,表明生长素参与了缺磷小麦根轴生长的调控。缺磷小麦根部生长素浓度的提高诱导了细胞周期蛋白基因cyclAt的表达,促进了根分生组织细胞的分裂并驱动了根的生长。     

NO对镉胁迫下小麦根系生长发育的生理影响

为了探究外源物一氧化氮（NO）供体硝普钠（sodium nitroprusside,SNP）对Cd²⁺胁迫下小麦根系生长发育和活性氧代谢的影响,以小麦（Triticum aestivum L.）为材料,研究10 mmol/L CdCl₂胁迫下,30 μmol/L硝普钠（含一氧化氮NO）对小麦根系生长发育和活性氧代谢的影响。结果显示,外施SNP后,Cd²⁺胁迫下的小麦根长度、鲜重与干重较单独镉胁迫处理分别上升了48.0%、107.7%和87.3%,根系超氧化物歧化酶（SOD）、过氧化物酶（POD）、过氧化氢酶（CAT）、抗坏血酸过氧化物酶（APX）的活性分别上升了28.5%、7.4%、19.2%和9.8%,根中超氧自由基（O₂^.-）和过氧化氢（H₂O₂）的含量分别降低了80.5％和47.0％;同时外施SNP,使镉胁迫下小麦根中的可溶性糖含量和脯氨酸含量分别上升了24.7％和22.1%;使根中丙二醛（MDA）含量降低了30.2％;使根系活力上升了15.3%。因此,外源NO在一定程度上可以显著提高小麦根的抗氧化能力,增强小麦的抗逆性,缓解镉对小麦根系的毒害,进而促进小麦幼苗根系的生长发育。     

Metabolic responses of wheat roots to alkaline stress

Aims The aim of this study was to investigate the effects of alkaline stress on primary, secondary metabolites and metabolic pathways in the roots of wheat (Triticum aestivum). The results were used to evaluate the physiological adaptive mechanisms by which wheat tolerated alkali stress.Methods A pot experiment was carried out in the greenhouse. For each plastic pot, five wheat seeds were planted. After germination, seedlings were allowed to grow under controlled water and nutrient conditions for two months, then seedlings were exposed to alkaline stress (NaHCO₃-Na₂CO₃) for 12 days. The relative growth rate (RGR), absolute water content (AWC), metal elements, free cations and metabolites were measured.Important findings The alkaline stress caused the reduction of RGR and AWC. Alkaline stress caused a rapid increase of Na content with the concurrent decrease in K and Cl content, resulting in inhibited metal element accumulation and an ionic imbalance. In the present study, alkaline stress strongly enhanced Ca accumulation in wheat roots, suggesting that an increased Ca concentration can immediately trigger the salt overly sensitive (SOS)-Na exclusion system and reduce Na-associated injuries. Also, 70 metabolites, including organic acids, amino acids, sugars/polyols and others, behaved differently in the alkaline stress treatments according to a GC-MS analysis. The metabolic profiles of wheat were closely associated with alkaline-stress conditions. Alkaline stress caused the accumulation of organic acids, accompanied by the depletion of sugars/polyols and amino acids. Organic acids could play a central role in the regulation of intracellular pH by accumulating vacuoles to neutralize excess cations. Glycolysis and amino acid synthesis in roots were inhibited under salt stress while prolonged alkaline stress led to a progressive tricarboxylic acid (TCA) cycle. The severe negative effects of alkaline stress on sugar synthesis and storage may reflect the toxic levels of Na⁺ accumulating in plant cells in a high-pH environment, implying that the reactive oxygen species detoxification capacity was diminished by the high pH. A lack of NO₃^- in wheat roots can decrease synthase enzyme activities, limiting the synthesis of amino acids. Under salt stress, the TCA cycle and organic acid accumulation increased, but glycolysis and amino acid synthesis were inhibited in roots. Thus, energy levels and high concentrations of organic acids may be the key adaptive mechanisms by which wheat seedlings maintain their intracellular ion balance under alkaline stress.     

缺铁水稻根转录本微点阵分析

水稻不仅是非常重要的粮食作物 ,也是用于研究的模式植物之一 .由于水稻基因组测序的完成 ,用功能基因组学的现代方法来研究缺铁相关基因的表达调控是最高效的方法之一。在前期工作的基础上 ,精心设计了缺铁和EDTA鳌合二价铁诱导5天的水稻根实验 ,并进行了转录水平的微点阵 (microarray)分析。但只获得了第 5天的结果。在 10 5 31个水稻cDNA芯片图谱中 ,缺铁和加铁比较发现了 4 5 1个差异点。对缺铁诱导的 4 5 1个差异cDNA逐一地进行NCBI (美国国家生物技术信息中心 )的BLAST(局部定位排列搜索工具 )数据库检索、分析和归类。发现其中缺铁与加铁 ( -Fe/Fe -EDTAratio)之间的相对表达水平(REL)在 2 - 9.175之间的缺铁诱导上调基因为 2 0 3个 ,缺铁诱导的下调基因为 2 4 8个。对每一类上调基因都逐一地进行了NCBI-PubMed的文献检索。利用国际网络数据库进行了功能鉴定。     

Wheat germ agglutinin regulates cell division in wheat seedling roots

The mitogenic activity of wheat germ agglutinin (WGA) has been studied in roots of 4-day-old wheat seedlings. WGA had a more pronounced stimulating effect on cell division than the known mitogens concanavalin A and phytohemagglutinin whereas gliadin had no effect. Treatment of wheat seedling roots with exogenous WGA led to the accumulation of indoleacetic acid and cytokinins, hormones that play an important role in the activation of plant cell growth. The data on the combined effect of 24-epibrassinolide and WGA on cell division and accumulation of phytohormones in seedling roots support a possible link between the endogenous WGA level and hormonal regulation of cell division in the root meristem of wheat plants.     

Development of wheat roots under zinc deficiency

Summary Wheat seedlings were cultured in nutrient solutions with and without zinc supply. Shoot: root ratio was reduced in plants without zinc and the greater biomass of –Zn roots was a result of enhanced 1st order lateral root numbers and length. The implications of morphological changes under zinc stress are discussed in relation to knowledge of ion absorption pathways across roots.     

A study of the tensile force required to pull wheat roots from soil

Experiments were carried out to determine the tensile properties of mature wheat roots and the force necessary to pull roots from undisturbed soils at a range of moisture contents using an Instron materials testing rig. Roots decreased in cross sectional area from 1.5 to 0.1 mm²and in tensile strength from 7.0 to 2.3 Newtons (N) along the first 12 cm of their length. Breaking strain was constant along the root but the breaking stress increased. Increased seeding rate decreased root diameter and tensile strength but plant growth regulators and fertiliser nitrogen level did not affect the tensile properties. Roots were pulled from mesh tubes of soil (25 mm ± 75 mm) into which they had grown. The peak loads for sandy clay loam and sandy loam soils were 4.8 and 3.9 N respectively and increasing the soil moisture from 17% to 26% reduced the peak load from 5.2 N to 3.5 N. With the drier soil the inner stele pulled free leaving the outer periderm in the soil in a higher proportion of the roots indicating a stronger root/soil bond than in the wetter soil. The load us displacement relationship when pulling roots from soil resembled that for a fibre reinforced composite material. The presence of branch roots resulted in an uneven trace in which there were a number of sub-peaks as branch roots gave way. It is suggested that soil wetting could contribute to lodging of wheat by reducing the resistance of roots to slippage and breaking.     

细胞相容性溶质对水分胁迫下玉米根系SOD活性的促进作用

分别用脯氨酸,甜菜碱,蔗糖,甘露醇饲喂玉米根系,PEG－6000模拟水分胁迫,测定外源相容性溶质对根系SOD活性的影响。结果表明,4种溶质对水分胁迫下玉米SOD活性有不同程度的促进作用,其大小顺序为：甘露醇＞蔗糖＞甜菜碱＞脯氨酸。饲喂植株的MDA含量明显降低,降低程度的大小顺序同SOD活性一致。胁迫过程中SOD活性与MDA含量呈极显著负相关,有力地说明了SOD在干旱胁迫下对活性氧的清除和细胞膜结构的保护作用。细胞相容性物质可促进保护酶活性升高,提高植物的干旱适应性。