《植物逆境信息传递研究进展[行业特制].ppt》由会员分享,可在线阅读,更多相关《植物逆境信息传递研究进展[行业特制].ppt(91页珍藏版)》请在三一文库上搜索。
1、Stress Signaling in Plants 贾文锁 中国农业大学,1,研究课题,2,研究课题,3,研究课题,4,研究课题,一 “感知”和“反应” 生物生存和发展的基础,5,研究课题,6,研究课题,7,研究课题,敏感植物,8,研究课题,9,研究课题,10,研究课题,11,研究课题,一般植物,12,研究课题,13,研究课题,14,研究课题,Rain,Wind, and Touch-Induced Expression of Calmodulin and Calmodulin-Related Genes in ArabidopsisCell 60,357-364,1990,15,研究课题,
2、16,研究课题,二,“刺激/逆境”“反应/应答”,17,研究课题,1.形态、解剖,18,研究课题,Cluster Roots,19,研究课题,2.整体生理,20,研究课题,21,研究课题,生命周期短命菊,22,研究课题,3.细胞生理及生化,(1) 解毒机制(2)自由基清除(3)区隔化机制(4)代谢调控(5)渗透调节(6)保水机制(7)结构避损机制(8)修复机制,23,研究课题,渗透调节,脯氨酸甜菜碱山梨醇海藻糖,24,研究课题,保护酶系统与自由基清楚剂游离的带有不成对电子的分子、原子或离子,25,研究课题,26,研究课题,27,研究课题,区隔化机制,28,研究课题,结构避损机制,29,研究课题
3、,功能蛋白 代谢调控蛋白 (渗透调控系统,保护酶)Lea 蛋白(Late-Embryogenesis-Abundant Protein)通道蛋白:离子通道,水通道热击蛋白:亲水,保护酶活损伤修复蛋白调节蛋白信号蛋白转录因子,30,研究课题,31,研究课题,基因,功能蛋白基因调节蛋白基因,32,研究课题,33,研究课题,应答反应与伤害反应,34,研究课题,三,信号系统与信号组分,35,研究课题,Cellular Singling System ?,36,研究课题,37,研究课题,细胞信号系统,38,研究课题,1 Receptor /Sensor2. Second Messenger3. Prot
4、ein Kinase 4. Protein Phosphatase5. G-protein6. Transcription Factor 7. Ubiquitination 8. Methylation,Signal Components,39,研究课题,(1) Receptor /Sensor?,40,研究课题,41,研究课题,42,研究课题,43,研究课题,Receptor tyrosine kinase,44,研究课题,细胞内受体,45,研究课题,Examples of Phytohormone Recepor and Signal Transduction,46,研究课题,47,研究课
5、题,ABA Receptor,48,研究课题,49,研究课题,BRI1 is a membrane-associated receptor that cycles between the plasma membrane and endosomal compartments. The extracellular leucine-rich repeat domain binds brassinosteroids and transduces the signal through an intracellular kinase domain. GTG1 and GTG2 are GPCR-type
6、G proteins that bind abscisic acid. They have inherent GTPase activity but also interact with the only canonical G subunit in Arabidopsis. PYR1/RCAR1 is a soluble ABA receptor that represses PP2C phosphatases in the presence of ABA. The cytokinin receptors CRE1, AHK2 and AHK3 are plasma-membrane-ass
7、ociated and perceive cytokinin through their extracellular domains. Cytokinin binding triggers a phosphorylation cascade that is ultimately transmitted to response regulators in the nucleus. Like the cytokinin receptors, the known ethylene receptors are two-component regulators. All five receptors a
8、re active in the endoplasmic reticulum and transmit their signal through a common downstream component called CTR1. TIR1 and COI1 are F-box proteins that are integral components of SCF-type E3 ligases and recognize the plant hormones auxin and jasmonic acid respectively. GID1 is a nuclear-localized
9、receptor for gibberellins. Gibberellin binding toGID1 results in the enhanced degradation DELLA proteins,50,研究课题,51,研究课题,自由基信号转导,52,研究课题,53,研究课题,(3) Reversible Protein Phosphorylaton,54,研究课题,55,研究课题,56,研究课题,57,研究课题,(4) Transcription Factors,58,研究课题,泛素(ubiquitin)是一种存在于大多数真核细胞中的小蛋白。它的主要功能是标记需要分解掉的蛋白质,
10、使其被水解。当附有泛素的蛋白质移动到桶状的蛋白酶的时候,蛋白酶就会将该蛋白质水解。也可能被转移到细胞或细胞外的特定部位,也有可能导致靶蛋白的功能发生变化。泛素76个氨基酸组成,分子量大约8.5 KD,Ubiquitination,59,研究课题,60,研究课题,61,研究课题,四,细胞逆境信息传递 举例介绍,62,研究课题,盐胁迫和营养胁迫离子通道的调节,63,研究课题,64,研究课题,65,研究课题,Figure 12. Freezing and Drought Tolerance of the 35S:DREB1Ab and 35S:DREB1Ac Transgenic Plants.Co
11、ntrol, 3-week-old plants growing under normal conditions; freezing stress, plants exposed to a temperature of -6C for 2 days and returned to 22C for 5 days; drought stress, water withheld from plants for 2 weeks. Percentages of surviving plants and numbers of surviving plants per total number of tes
12、ted plants are indicated under the photographs. wt, wild type.,66,研究课题,History of Abscisic Acid (ABA) In 1963, abscisic acid was first identified and characterized by Frederick Addicott and his associates. They were studying compounds responsible for the abscission of fruits (cotton). Two compounds
13、were isolated and called abscisin I and abscisin II. Abscisin II is presently called abscisic acid (ABA)(Addicot, 1963). Two other groups at about the same time discovered the same compound. One group headed by Philip Wareing was studying bud dormancy in woody plants. The other group led by Van Stev
14、eninck was studying abscission of flowers and fruits from lupine. Plant physiologists agreed to call the compound abscisic acid (Salisbury and Ross, 1992).,67,研究课题,68,研究课题,Signaling From Water Stress Sensing to ABA Accumulation,69,研究课题,五 系统逆境信息传递,Systematic Signaling in Plantsor long-distance signal
15、ing, or intercellular signaling,70,研究课题,71,研究课题,72,研究课题,Root To Shoot Signaling Under Water Deficit Condition,73,研究课题,74,研究课题,75,研究课题,76,研究课题,77,研究课题,pH Signaling,78,研究课题,79,研究课题,Image 2. Psedu Color Ratio-images of pH indicator BCECF in sunflower stem and leaf vascular system pH indicator BCECF was
16、 loaded into the vascular system of an individual sunflower plant and images were acquired as described in Material and Method. A, vascular system at stem base; B, vascular system at midrib of leaf blade.,Image 3. Psedu Color Ratio-images Showing the Effect of transpiration rate on leaf apoplastic p
17、H of Commelina communis L. pH indicator NERF was first loaded into intact plant through root system, then the plants were allowed to transpire for 1 h under either 35% or 85% humidity, following which fluorescence images were acquired as described in Material and Method . A and B, transpiration at 3
18、5% humidity; C and D, transpiration at 85 % humidity.,80,研究课题,Image 3. Psedu Color Ratio-images Showing the Effect of transpiration rate on leaf apoplastic pH of Commelina communis L. pH indicator NERF was first loaded into intact plant through root system, then the plants were allowed to transpire
19、for 1 h under either 35% or 85% humidity, following which fluorescence images were acquired as described in Material and Method . A and B, transpiration at 35% humidity; C and D, transpiration at 85 % humidity.,81,研究课题,干旱条件下ABA可以作为长距离传递信号使植物产生系统抗逆性,82,研究课题,83,研究课题,Systematic Signaling of Large Molec
20、ular Signals,84,研究课题,85,研究课题,Fig. 3. New model for the photoperiod response in plants. (A) The picture on the left represents the currently accepted model forArabidopsis, in which light-activated CO overcomes the temperature-dependent inhibition from FLC and induces the expression of FT in the phloe
21、m companion cells. FT is moved to the phloem and channelled to the apical meristem where it binds to FD and the complex is recruited into the nucleus. FTFD binds to the promoter of SOC1 and other meristematic floral integrators, changing the vegetative developmental programme to the ABC programme, e
22、ventually producing flowers. (B) The model proposed here includes that depicted in A, but also recruits similar photoperiodic mechanisms to regulate other developmental programmes and basic physiological processes. Yellow arrows represent external signals: day/night transition; circadian clock; ligh
23、t quality; and a metabolic signal represented by a fertilizer bottle. Black arrows indicate some of the outputs of the photoperiodic response.,86,研究课题,一些值得深入思考的问题,“逆境应答反应” = “抗逆反应”吗?“逆境应答基因” = “抗逆基因”吗? “应答基因”中真的存在关键的基因吗? “关键的抗逆基因”一定是”逆境应答基因”吗? “逆境应答反应”的本质是什么? 是为抗逆而独立存在的吗?,87,研究课题,88,研究课题,89,研究课题,90,研究课题,功能解析3,91,研究课题,