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51.
Anthocyanin Accumulation Mediated by Blue Light and Cytokinin in Arabidopsis Seedlings 总被引:1,自引:0,他引:1
Da-Qing Chen Zhi-Yang Li Rui-Chi Pan Xiao-Jing Wang 《植物学报(英文版)》2006,48(4):420-425
It has been reported that pigmentation In plants Is stimulated by light and cytoklnln (CTK); however, the signaling pathways and the relationship between light and CTK Involved In the regulation of anthocyanln accumulation remain to be elucidated. We Investigated (i) the role of blue light (BL) and CTK In anthocyanln accumulation ; and (ii) the relationship between BL and CTK In wild type (WT) and by4 mutants of Arabidopsis thaiiana. Two-d-old seedlings grown on medium with or without klnetln (KT) or zeatln (ZT) In darkness were Irradiated using BL at different fluence rates for 3 d before the anthocyanln content was determined using a spectrophotometrlc method. Anthocyanln accumulation was strongly Induced by BL In WT seedlings but not In hy4 seedlings, which demonstrated that CRY1 Is the main photoreceptor for BL. Both KT and ZT enhanced the response of the WT seedlings to BL In a dose-dependent manner, whereas they were not sufficient to promote anthocyanln eccumulatlon In darkness. In addition, data from experiments using the hy4 mutant showed that the CTK effect of BL was also CRYl-dependent. The results from experiments with three different treatment programs showed that the relationship between BL and KT In anthocyanln accumulation of Arabidopsis seedlings seems neither muItlpllcatlve nor additive coactlon, but rather Interaction. BL Is necessary for anthocyanln accumulation, and KT might be Involved In the BL signaling pathway. 相似文献
52.
环境因子调控植物花青素苷合成及呈色的机理 总被引:1,自引:0,他引:1
花青素苷(anthocyanin)是决定被子植物花、果实和种皮等颜色的重要色素之一。花青素苷的合成与积累过程往往与植物发育过程密切相关,由内外因子共同控制。环境因子通过诱导植物体内花青素苷合成途径相关基因的表达来调控花青素苷的呈色反应。该文追踪了国内外相关研究,认为光是影响花青素苷呈色的主要环境因子之一,光质和光强均能在一定程度上影响花青素苷的合成,其中光质起着更为关键的作用;低温能诱导花青素苷的积累,高温则会加速花青素苷的降解;不同的糖类物质均能影响花青素苷的合成,大部分结构基因和调节基因的表达均受糖调控。关于花发育与花青素苷呈色的关系、观赏植物花色对环境因子的响应以及花青素苷抵御逆境的机理尚待深入研究。因此,综合考察花发育与植物花青素苷合成及其呈色之间的关系,特别是光周期对花发育的影响导致花青素苷合成及呈色的机理是花色研究的一个重要课题。利用环境因子调控花色将会极大地提高花卉的观赏价值。 相似文献
53.
54.
Structure of anthocyanin from the blue petals of Phacelia campanularia and its blue flower color development 总被引:1,自引:0,他引:1
The dicaffeoyl anthocyanin, phacelianin, was isolated from blue petals of Phacelia campanularia. Its structure was determined to be 3-O-(6-O-(4'-O-(6-O-(4'-O-beta-d-glucopyranosyl-(E)-caffeoyl)-beta-d-glucopyranosyl)-(E)-caffeoyl)-beta-d-glucopyranosyl)-5-O-(6-O-malonyl-beta-d-glucopyranosyl)delphinidin. The CD of the blue petals of the phacelia showed a strong negative Cotton effect and that of the suspension of the colored protoplasts was the same, indicating that the chromophores of phacelianin may stack intermolecularly in an anti-clockwise stacking manner in the blue-colored vacuoles. In a weakly acidic aqueous solution, phacelianin displayed the same blue color and negative Cotton effect in CD as those of the petals. However, blue-black colored precipitates gradually formed without metal ions. A very small amount of Al(3+) or Fe(3+) may be required to stabilize the blue solution. Phacelianin may take both an inter- and intramolecular stacking form and shows the blue petal color by molecular association and the co-existence of a small amount of metal ions. We also isolated a major anthocyanin from the blue petals of Evolvulus pilosus and revised the structure identical to phacelianin. 相似文献
55.
Ferric ions involved in the flower color development of the Himalayan blue poppy, Meconopsis grandis 总被引:1,自引:0,他引:1
The Himalayan blue poppy, Meconopsis grandis, has sky blue-colored petals, although the anthocyanidin nucleus of the petal pigment is cyanidin. The blue color development in this blue poppy involving ferric ions was therefore studied. We analyzed the vacuolar pH, and the organic and inorganic components of the colored cells. A direct measurement by a proton-selective microelectrode revealed that the vacuolar pH value was 4.8. The concentrations of the total anthocyanins in the colored cells were around 5mM, and ca. three times more concentrated flavonols were detected. Fe was detected by atomic analysis of the colored cells, and the ratio of Fe to anthocyanins was ca. 0.8 eq. By mixing the anthocyanin, flavonol and metal ion components in a buffered aq. solution at pH 5.0, we were able to reproduce the same blue color; the visible absorption spectrum and CD were identical to those in the petals, with Fe(3+), Mg(2+) and flavonol being essential for the blue color. The blue pigment in Meconopsis should be a new type of metal complex pigment that is different from a stoichiometric supramolecular pigment such as commelinin or protocyanin. 相似文献
56.
The bHLH transcription factor MdbHLH3 promotes anthocyanin accumulation and fruit colouration in response to low temperature in apples 总被引:1,自引:0,他引:1
57.
58.
外源咖啡酸和阿魏酸对黑莓汁中花色苷的辅色研究 总被引:2,自引:0,他引:2
为增强黑莓汁中花色苷的稳定,添加适量咖啡酸和阿魏酸到黑莓清汁中,采用可见吸收光谱和高效液相色谱-质谱研究其对黑莓花色苷的辅色作用。研究结果表明:黑莓汁中添加咖啡酸和阿魏酸显著增加了花色苷的最大吸收值(Aλmax),最大吸收波长(λmax)红移,说明咖啡酸和阿魏酸对黑莓汁中花色苷产生了辅色作用,辅色效应随时间的延长和咖啡酸、阿魏酸浓度的增加显著增强。HPLC-DAD-MS分析发现,咖啡酸辅色产生了两种新的花色苷衍生物(矢车菊素-3-O-葡萄糖苷-4-乙烯基儿茶酚和矢车菊-3-O-草酸酐酰葡萄糖苷-4-乙烯基儿茶酚),阿魏酸辅色产生了三种新的花色苷衍生物(矢车菊素-3-O-葡萄糖苷-4-乙烯基愈创木酚、矢车菊-3-O-草酸酐酰葡萄糖苷-4-乙烯基愈创木酚和矢车菊-3-O-阿拉伯糖苷-4-乙烯基愈创木酚),这些衍生物均为羟苯基-吡喃花色苷。 相似文献
59.
以拟南芥野生型(WT)、突变体col7、以及COL7过量表达转基因株系COL7-OX-10和COL7-OX-11为实验材料,观察比较了白光、红光以及蓝光下,生长在MS培养基上的幼苗表型,以及蓝光下生长在0、100 mmol/LNaCl MS培养基上的幼苗表型。结果发现,过量表达株系幼苗在白光和蓝光下出现黄化现象,并且NaCl处理导致蓝光下幼苗黄化现象更加严重。检测幼苗的花青素及叶绿素的含量,发现白光和蓝光下,过量表达株系幼苗中花青素和叶绿素的含量明显降低,其中蓝光下生长在含100 mmol/L NaCl的MS培养基上幼苗的花青素和叶绿素含量下降尤为明显,表明COL7可能参与调控花青素和叶绿素的合成,并依赖于蓝光。 相似文献
60.
乙烯利处理对葡萄花色苷合成相关基因表达的影响 总被引:1,自引:0,他引:1
利用荧光定量PCR技术分析‘京优’葡萄果实成熟过程中,花色苷生物合成途径相关酶基因mRNA转录水平的变化以及乙烯利处理对果皮中花色苷含量和关键酶基因转录水平的影响。结果显示,葡萄果实发育进入着色期,花色苷合成过程中主要相关基因(CHSs、CHIs、F3Hs、F3′H、F3′5′H、DFR、LDOX、UFGT、OMT和GST)和转录因子(MybA1和MybA1-2)转录水平都显著提高,其中UFGT、GST、MybA1和CHSs、CHIs、F3Hs基因家族中的CHS3、CHI2、F3H2随着花色苷合成而大量转录;乙烯利处理能够增强花色苷合成相关基因的转录,使其转录时期前移和转录水平提高,其中对GST、UFGT和MybA1转录的促进作用最明显。相关性分析表明,花色苷合成与一些花色苷合成相关基因(CHS3、CHI2、F3H2、F3′5′H、UFGT、GST)和转录因子(MybA1)的转录水平呈显著或极显著正相关;与CHS1、CHS2、CHI1、F3H1、DFR、F3′H、LDOX和OMT转录水平的相关性均不显著。本研究结果为进一步阐明花色苷生物合成机理和花色苷类色素的生产应用提供一定的理论依据。 相似文献