胚乳和外源赤霉素对五味子[Schisandra chinensis(Turcz.)Baill]种子发芽的影响

以组织培养和土壤播种的未经层积处理的五味子种子为材料,检测胚乳和外源赤霉素(GA3)对发芽影响的结果表明,在不加生长调节物质的MS培养基上,去掉外种皮带全胚乳的种子发芽率只有2.7%,而带1/2和1/3胚乳的种子发芽率则分别为46%和70.6%;培养基中添加GA3,可提高去掉外种皮带全胚乳和带1/2胚乳种子的发芽率,而对带1/3胚乳的种子则无效果.土壤播种时,用10～1000mg·L-1GA3对去掉外种皮种子进行1～10d前处理,其中100mg·L-1GA3前处理10d的发芽率最高,达到38.7%.     

脱落酸调控种子休眠和萌发的分子机制

脱落酸(ABA)是调控种子休眠和萌发过程的主要植物激素。种子内源ABA含量和种胚对ABA敏感性共同调控种子休眠和萌发过程, 确保植物种子以休眠状态在逆境中保持其自身繁衍能力, 并在适宜的环境下启动萌发程序。种子ABA合成代谢和ABA信号转导途径涉及许多重要基因家族, 它们通过复杂的调控网络精确地控制着种胚发生、种子成熟、休眠及萌发进程。该文对ABA调控种子休眠和萌发的分子机制最新研究进展进行综述, 并展望了今后的研究方向。     

Dormancy Mechanism and the Effect of Scarification in the Germination of Halimium halimifolium Seeds

Germination of Halimium halimifolium seeds was very low during the experimental period. The scarification treatment enhanced the germination significantly at all the three temperatures tested, indicating that H. halimifolium seeds are endowed with complex dormancy mechanisms. The highest temperature (30°C) showed an adverse effect which can be correlated with a secondary dormancy at embryo level.The lipidic nature of H. halimifolium exotesta is probably the first factor causing dormancy in this species, acting both as a water and oxygen barrier. We can conclude that H halimifolium shows a tegumentary dormancy, which is presumably located at exotesta level.     

盐生植物种子的休眠、休眠解除及萌发的特点

本文讨论了盐生植物种子的休眠、休眠解除及萌发的特点,主要内容有：(1) 盐生植物种子的休眠类型;(2) 打破盐生植物种子休眠的必要条件;(3) 盐生种子萌发与土壤盐度的关系。并讨论了盐度抑制盐生植物种子的机理。最后,作者提出了将来研究盐生植物种子萌发需要解决的几个重点问题以及研究盐生植物种子休眠和萌发问题的意义。     

Seed Dormancy and Germination in Cimicifuga nanchuanensis

Seed anatomy, dormancy breakage, the temperature effect to seed germination and seed life-span of Cimicifuga nanchuanensis Hsiao were studied and the endangerment of this plant in association to these biological characteristics was explored. The embryos were at the globular stage at the time of seed shedding in late November. Low temperature and humid conditions or treatment with exogenous GA3 stimulated the development of embryos and sped up the process of seed germination. The optimum temperature of germination was 20 ℃, but the seeds almost lost their viability after 9 months of storage. Nevertheless, in its natural habitation, the seeds could not acquire enough environmental humidity to accomplish their after-ripening during the dry and cold winter from late November to the following March; after then the temperature in the spring (averaged 10.1 ℃ in April and May) was much lower than 20 ℃ or so which is favorable for seed germination. Moreover, the testa could not provide adequate protection for the embryos and the short life-span of the seeds prevents their survival until the next germination. Therefore it seems reasonable to infer that the unfavorable environmental condition during the process of after-ripening until seed maturation is involved in the cause of endangerment of this plant species.     

盐生植物种子的休眠、休眠解除及萌发的特点

本文讨论了盐生植物种子的休眠、休眠解除及萌发的特点 ,主要内容有 :( 1 )盐生植物种子的休眠类型 ;( 2 )打破盐生植物种子休眠的必要条件 ;( 3)盐生种子萌发与土壤盐度的关系。并讨论了盐度抑制盐生植物种子的机理。最后 ,作者提出了将来研究盐生植物种子萌发需要解决的几个重点问题以及研究盐生植物种子休眠和萌发问题的意义     

The Effects of Ascorbic Acid on Breaking the Seed Dormancy of Malus sieversii

Journal of Plant Growth Regulation - The effects of ascorbic acid (ASA) on the seed dormancy of Malus sieversii were investigated in this study. Firstly, the dormant seeds during different periods...     

脱落酸与种子休眠

从植物生理学、信号转导和基因表达三个方面综述了种子休眠与脱落酸之间关系的研究进展.     

Sulfuric Acid and Gibberellic Acid (GA3) Treatment Combined with Exposure to Cold Temperature Modulates Seed Proteins during Breaking of Dormancy to Germination in Tilia miqueliana

The Protein Journal - Tilia miqueliana produces woody seeds that exhibit deep dormancy. In this study, we used cell biology methods, including Paraffin section determination and Coomassie brilliant...     

拟南芥突变体种子休眠与萌发的研究进展

种子的休眠和萌发是一个复杂的过程, 至今尚未能清楚阐明其调控机制。目前已从拟南芥突变体中鉴定了一些与种子萌发和休眠相关的基因, 有助于阐明种子休眠和萌发的分子机制。本文综述了拟南芥突变体种子休眠与萌发方面的研究进展。赤霉素是促进种子萌发的主要因素之一, RGL、SPY、GCR、SLY和GAR等基因的表达参与赤霉素对种子萌发的调控。脱落酸与种子休眠有关, ABI1、ABI2、ABI3、ABI4、ABI5、FUS3、LEC、MARD和CIPK等基因参与了脱落酸的调控过程。对3类乙烯反应的突变体 (ein、etr和ctr) 以及油菜素内酯突变体 (det和bri) 的研究表明乙烯和油菜素内酯是通过拮抗脱落酸而促进种子萌发的。光对种子萌发的调节, 是通过具有Ser/Thr蛋白激酶活性的光敏色素PhyA、PhyB、 PhyC、PhyD和PhyE, 以磷酸化/去磷酸化方式调节其它与萌发相关基因的表达。含氮化合物对种子萌发的促进, 可能是以一种依赖一氧化氮的方式解除种子休眠。     

拟南芥突变体种子休眠与萌发的研究进展

种子的休眠和萌发是一个复杂的过程,至今尚未能清楚阐明其调控机制。目前已从拟南芥突变体中鉴定了一些与种子萌发和休眠相关的基因,有助于阐明种子休眠和萌发的分子机制。本文综述了拟南芥突变体种子休眠与萌发方面的研究进展。赤霉素是促进种子萌发的主要因素之一,RGL、SPY、GCR、SLY和GAR等基因的表达参与赤霉素对种子萌发的调控。脱落酸与种子休眠有关,ABI1、ABI2、ABI3、ABI4、ABI5、FUS3、LEC、MARD和CIPK等基因参与了脱落酸的调控过程。对3类乙烯反应的突变体（ein、etr和ctr）以及油菜素内酯突变体（det和bri）的研究表明乙烯和油菜素内酯是通过拮抗脱落酸而促进种子萌发的。光对种子萌发的调节,是通过具有Ser／Thr蛋白激酶活性的光敏色素PhyA、PhyB、PhyC、PhyD和PhyE,以磷酸化／去磷酸化方式调节其它与萌发相关基因的表达。含氮化合物对种子萌发的促进,可能是以一种依赖一氧化氮的方式解除种子休眠。     

Effects of Gibberellic Acid on the Activation, Synthesis, and Release of Acid Phosphatase in Barley Seed

Acid phosphatase activity was present in unimbibed barley seed,but rose during incubation of embryoless half-seeds and isolatedaleurone layers, and was further increased by 10^–6 M gibberellicacid (GA₃). Release of total acid phosphatase activity fromhalf-seeds and aleurone layers was markedly enhanced by GA₃.Inhibitor studies with cycloheximide and actinomycin D suggestedthat de novo synthesis of acid phosphatase occurred followingimbibition. Gel nitration, electrophoresis, and [¹⁴C]leucineincorporation studies revealed that a single molecular formof acid phosphatase was present in dry seed, whereas on incubationtwo further forms arose. A proportion of the three molecularforms of the enzyme was synthesized de novo. Gibberellic acidstimulated activation, but not de novo synthesis, of all threemolecular forms of acid phosphatase. Although a small amountof one of the molecular forms was secreted in the absence ofGA₃, the presence of gibberellin greatly increased secretionof the same form of acid phosphatase.     

苦槠传播体的萌发特性与种子休眠类型

种子的萌发特性是植物在长期进化过程中形成的一种适应环境变化的固有属性。对种子萌发特性的研究有助于我们理解物种的种群更新和种子育苗。本文旨在阐明我国重要资源植物苦槠（Castanopsis sclerophylla）的种子休眠类型和萌发特性。研究结果发现：①苦槠种子在其果实中占比非常高;②苦槠的果皮限制了种子对水分的吸收;③苦槠果皮阻碍了种子的萌发,除去果皮以后种子能够在较大温度范围内萌发;④除去果皮以后,苦槠种子在低温（15/5 ℃、20/10 ℃）下萌发困难,在25/15 ℃、30/20 ℃和35/25 ℃这3个温度梯度下均能迅速萌发。结果表明,苦槠的传播体（果实）具有物理休眠的特性。因此,壳斗科（Fagaceae）是具有物理休眠和脱水敏感性的一个新纪录科。结合壳斗科的系统发育位置,本研究支持物理休眠是一种较为进化的性状这一假说。     

赤霉素对紫斑牡丹种子下胚轴萌发及其种皮和胚乳结构的影响

以紫斑牡丹种子为试验材料,考察不同浓度赤霉素(GA_3)处理下种子生根情况,同时对其种皮纹饰进行了扫描电镜(SEM)观察,并对胚乳结构进行了荧光倒置显微镜、透射电镜(TEM)观察,以揭示GA_3对紫斑牡丹种子下胚轴解除休眠过程中种子种皮、胚乳结构变化和生根的影响。结果表明:(1)GA_3处理能够促进紫斑牡丹种子生根,以300 mg/L GA_3处理的种子生根效果最好,与对照相比可提前14.66 d生根,生根率可达62.33%。(2)扫描电镜观察发现,紫斑牡丹种皮表面含有蜡质,种子萌发进程中蜡质明显不断增加,种皮表面网眼逐渐消失,种皮皱缩明显。(3)光学显微镜观察发现,GA_3处理的紫斑牡丹种子胚乳细胞中含有较多淀粉体和蛋白体,并随着种子萌发进程逐渐积累,可为种子萌发提供足够的养分。(4)透射电镜观察发现,GA_3处理的紫斑牡丹种子胚乳细胞内大分子营养物质不断降解,线粒体、内质网、高尔基体等细胞器相继出现,种子下胚轴休眠解除,细胞壁较薄后期消融,利于营养物质传送。研究认为,适宜浓度GA_3处理可有效加快紫斑牡丹种皮结构的改变和胚乳细胞内物质代谢进程,促进种子萌发,且300 mg/L GA_3处理紫斑牡丹种子24 h可以获得最好的生根效果。     

种子休眠与萌发的分子生物学的研究进展

休眠与萌发是植物种子对环境变化的适应特征,受许多基因调控和环境因子的影响.利用数量遗传学方法(如QTL分析)和突变等手段已对休眠和萌发特性进行了深入的遗传学研究.近些年来,随着分子生物学的快速发展,种子休眠和萌发研究已经深入到分子水平.分子生物学技术的运用,特别是基因表达、基因组测序和以双向凝胶电泳及质谱分析为技术基础的蛋白质组学分析,已成为研究种子休眠和萌发的新工具和新方向.本文主要就利用分子生物学方法研究种子休眠与萌发的进展给予简要综述.