茉莉酸信号转导突变体ber15 的分离和基因克隆表明油菜素内酯的合成影响茉莉酸信号转导

bestatin是一种氨肽酶抑制剂, 能够激活茉莉酸信号转导途径而诱导抗性相关基因的表达, 从而为用化学遗传学手段解析茉莉酸途径提供了一个有效的工具。ber15是我们鉴定到的一个对bestatin不敏感的拟南芥突变体, 随后的研究表明该突变体对外源茉莉酸的敏感性也明显降低, 表明相应的野生型基因BER15在茉莉酸信号转导中起重要作用。图位克隆结果表明BER15编码一个细胞色素P450单加氧酶, 是植物激素油菜素内酯合成途径中的一个关键酶。对BER15基因功能的深入研究将会为了解油菜素内酯的合成与茉莉酸信号途径间的互作关系提供证据。     

长效油菜素内酯TS303和二氢茉莉酸丙酯增强花生抗寒能力

长效油菜素内酯TS303和二氢茉莉酸丙酯(PDJ)浸种能增强花生对低温的忍耐能力,二者显著降低低温诱导的丙二醛含量和电解质渗漏率。低温降低超氧化物歧化酶(SOD)和过氧化氢酶(CAT)活性以及相对含水量,但增加过氧化物酶(POD)活性以及可溶性糖和脯氨酸含量。TS303和PDJ以及它们的混合物TNZ都能延缓低温伤害引起的SOD和CAT活性下降,并能通过增加可溶性糖和脯氨酸含量来提高相对含水量。TS303在延缓SOD和CAT活性降低方面效果比PDJ好,但PDJ在增加可溶性糖和脯氨酸含量方面效果比TS303强,由于TS303和PDJ作用机理不同,二者混合使用表现出加成或协同效应。     

长效油菜素内酯TS303和二氢茉莉酸丙酯协同提高大豆光合能力

研究了长效油菜素内酯TS303、二氢茉莉酸丙酯(PDJ)及二者复配对大豆光合作用的影响及作用机理。试验结果表明：(1)0.01~1 mg·L^-1 TS303浸种促进大豆干物质积累, 以0.1 mg·L^-1的浓度效果最好, TS303对干物质在地上部和根之间的分配没有明显的影响, 1～10 mg·L^-1 PDJ浸种促进干物质积累, 以5 mg·L^-1增幅最大,50和100 mg·L^-1则抑制干物质积累,1～100 mg·L^-1 PDJ均促进同化物质向根系分配;(2)0.1 mg·L^-1 TS303和5 mg·L^-1 PDJ能增加大豆光合叶面积及净光合速率, 增强光合能力, 二者混合使用表现出协同效应;(3)0.1 mg·L^-1 TS303和5 mg·L^-1 PDJ及二者复配增加叶绿素含量和提高PSⅡ的实际光转化效率 (ФPSⅡ), 二者对ФPSⅡ的提高途径不同, TS303增加光合淬灭(qP)而对有效光转化效率(Fv′/Fm′)影响不大, PDJ增加Fv′/Fm而对qP影响不大;(4)0.1 mg·L^-1 TS303和5 mg·L^-1 PDJ及二者复配增加大豆气孔导度、碳酸酐酶活性、RuBPCase含量和活性, 增强CO₂转运和固定能力;(5)0.1 mg·L^-1 TS303和5 mg·L^-1 PDJ及二者复配增加叶片中蔗糖的含量, 提高蔗糖/淀粉比率, 加快同化物质的转运, 增加根中淀粉含量。总体上, TS303在光能转化和CO₂固定方面效果好于PDJ, 而PDJ促进同化物质运出效果好于TS303, 这可能是二者协同提高大豆光合能力的原因。     

拟南芥油菜素内酯信号转导研究进展

油菜素内酯(brassinosteroid)信号首先被膜上的受体BRI1/BAK1复合体感知, 然后在一系列蛋白参与下传递到核内, 进一步调控下游基因的表达。本文综述了拟南芥中油菜素内酯信号转导研究的进展,并对今后的研究方向进行了探讨。     

拟南芥油菜素内酯信号转导研究进展

油菜素内酯（brassinosteroid）信号首先被膜上的受体BRI1／BAK1复合体感知,然后在一系列蛋白参与下传递到核内,进一步调控下游基因的表达。本文综述了拟南芥中油菜素内酯信号转导研究的进展,并对今后的研究方向进行了探讨。     

植物体中油菜素内酯的信号转导

介绍了油菜素甾醇类突变体的代谢分析和相应突变基因及其产物的分子生物学 ,油菜素内酯的合成及其调节 ,相继发现的一些假设的油菜素内酯的受体和受油菜素甾醇类调节的基因等方面的研究进展 ,并提出一些油菜素内酯信号转导和调节相应基因表达的模式     

高等植物油菜素内酯的生物合成及信号转导研究进展

综述了近年来发现的植物油菜素内酯生物合成缺陷型及反应不敏感型突变体,BR生物合成的早期C 6氧化和晚期C 6氧化途径,参与合成的酶以及BR信号转导等方面的研究进展,并提出了这一问题今后研究的前景.     

受体激酶介导的油菜素内酯信号转导途径

油菜素内酯（brassinosteroids,BRs）是一类重要的类固醇激素,参与调控植物生长发育的许多过程。结合应用遗传学、生物化学以及蛋白质组学等研究手段现已基本阐明了BR信号转导的主要过程。BRI1作为受体在细胞表面感知BR,BRI1抑制子BKI1从质膜上解离下来,使BRI1与其共受体BAK1结合。BRI1和BAK1通过顺序磷酸化将BR信号完全激活。活化的BRI1将BSK磷酸化激活,BSK活化BSU1,BSU1将BIN2去磷酸化使其失活,解除BIN2对BES1/BZR1的抑制功能。PP2A可以将BES1/BZR1去磷酸化激活,又可以将受体BRI1去磷酸化促使其降解。BR信号的传递最终使去磷酸化状态的BES1/BZR1在细胞内累积,激活BR信号通路下游的转录调控。     

油菜素内酯对青萍6746开花的影响

10~(-5)～1ppm表油菜素内酯(epi-BR),在短日照条件下抑制和推迟青萍6746开花;在长日照条件下则对青萍开花没有作用;在10~(-5)～10~(-1)ppmBR影响下,盛花期的鲜重和叶绿素含量增加,蛋白质含量下降。     

茉莉酸生物合成的调控及其信号通路

茉莉酸类化合物作为一种细胞信号分子,在植物的生长发育、机械损伤、代谢调节及诱导防御相关基因表达等方面起着重要的作用。本文概述了茉莉酸的生物合成调控以及人们目前对茉莉酸信号通路的认识,并对该研究领域存在的问题及今后可能的研究方向进行展望。     

Rigidity-Dependent Cross Talk between Integrin and Cadherin Signaling

Integrin-cadherin cross talk is an important aspect of cell function. We explored this signaling using substrates micropatterned with islands of fibronectin surrounded by E-cadherin, capturing the segregation of these signals in normal tissue. While MDCK cells were able to concurrently form adhesive structures with these two proteins, engagement of fibronectin by MCF-7 cells, an adenocarcinoma cell line, inhibited response of these cells to E-cadherin. We further demonstrated that this inhibition is rigidity dependent; on soft elastomer substrates with Young's modulus in the range of tens of kiloPascals, MCF-7 cells were able to engage both integrin and cadherin ligands.     

Cross Talk Between Substance P and Melittin-Activated Cellular Signaling Pathways in Rat Lactotroph-Enriched Cell Cultures

Abstract: We have investigated the possible interaction (cross talk) between the phospholipase A₂ (PLA₂) and inositol 1,4,5-trisphosphate/protein kinase C (PKC) signaling pathways in rat lactotroph-enriched cell cultures. Melittin, a bee venom peptide, stimulated release of [³H]-arachidonic acid ([³H]AA) from [³H]AA-labeled enriched lactotrophs in a dose-dependent manner. Moreover, melittin and exogenous AA induced a redistribution of PKC catalytic activity and PKCα and β immunoreactivity from the soluble to the particulate fraction in resting and substance P (SP)-stimulated cells. Mellitin had no effect on phospholipase C (PLC) activity. Pretreatment of cell cultures with the PLA₂ inhibitors quinacrine and aristolochic acid resulted in a dose-dependent inhibition of melittin-stimulated PKC isozyme translocation as did the inhibitor of lipoxygenase, nordihydroguaiaretic acid, whereas the cyclooxygenase inhibitor indomethacin had no effect. SP and the phorbol ester 12-O-tetradecanoylphorbol 13-acetate (TPA) dose-dependently increased levels of [³H]AA released from cells. Pretreatment of cell cultures with quinacrine reduced the effect of SP on [³H]AA formation. After long-term treatment (24 h) of cells with TPA, the effect of TPA on [³H]AA production was not different from control, whereas SP still displayed [³H]AA-releasing abilities although not at full scale. Pretreatment of cells with thapsigargin, U 73122, methoxyverapamil, and RHC 80267, an inhibitor of diacylglycerol lipase, all resulted in reduced SP-stimulated [³H]AA liberation. Treatment of cell cultures with pertussis toxin (PTX) reduced the release of [³H]AA induced by SP, whereas PTX had no effect on SP-stimulated generation of ³H-inositol phosphates. On the basis of these results, it is concluded that (1) the PLA₂ pathways interfere with the phosphoinositide-PLC signaling system at the level of PKC isozymes α and β, the product responsible for this interaction being either AA or a metabolite produced by the action of lipoxygenase; (2) SP and TPA are able to activate the PLA₂ pathway at a level at or beyond PLA₂, and this effect is mediated, in part, through PKCα and β species and (for SP) intracellular Ca²⁺ recruited from internal stores as well as from external sources; and (3) SP also activates PLA₂ through a PTX-sensitive pathway distinct from the one coupled to phosphoinositide-PLC, which is PTX insensitive.