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排序方式: 共有124条查询结果,搜索用时 31 毫秒
1.
柑橘类果实汁胞的红色现象及其呈色色素 总被引:10,自引:0,他引:10
柑橘类果实中不乏汁胞为红色类型者,如红肉葡萄柚(Citrus paradisii Macf.)的粉红色是番茄红素所致,血橙(C.sinensis L.)的血红色来源于花青素,此外,还有红色的红江橙(C.sinensis L.)、橙红色的元红(C.reticulata Blan-co)和紫红色的五布红心柚(C.grandis L.)等,它们因色泽鲜艳而具备特殊的市场潜力,但呈色色素尚未见报道。在符合审美观的同时,红色汁胞品种还具有特殊的营养价值,如类黄酮、类胡萝卜素等色素富集可软化血管、抗癌、抗氧化及消除体内自由基等。综合有关文献,首次将国内外主要红色汁胞柑橘品种依宽皮柑橘、甜橙、柚、葡萄柚及杂柑等分类进行综述,分析可能的呈色色素,阐明导致红色性状产生的两类色素—花青素、类胡萝卜素生物合成途径 相似文献
2.
Eiji Tanaka Chihiro Tanaka Atsushi Ishihara Yasumasa Kuwahara Mitsuya Tsuda 《Journal of General Plant Pathology》2003,69(1):1-6
Aciculosporium take (Ascomycota; Clavicipitaceae) is a causal agent of witches' broom of
bamboo plants. The symptoms of this disease are believed to be induced by plant
hormones, particularly auxins. Indole-3-acetic acid (IAA) was identified in
cultures of this fungus in an l-tryptophan-supplemented liquid medium.
IAA production was confirmed on 30 isolates of A. take from various
hosts and locations at levels up to 1 mg/l. The biosynthetic pathway of
IAA in A. take culture was examined by analyzing intermediate products
and by feeding experiments. The results showed that the indole-3-pyruvic acid
pathway (l-tryptophan → indole-3-pyruvic acid → indole
acetaldehyde → IAA) was the dominant pathway in A. take.
Received: June 3, 2002 / Accepted: July 25, 2002 相似文献
3.
木质素生物合成及其基因调控研究进展 总被引:3,自引:0,他引:3
介绍了木质素的组成、生物合成途径、涉及的酶类,综述了近年来基因工程技术调控木质素生物合成的研究进展,并对今后的研究进行了展望。 相似文献
4.
青蒿素生物合成研究进展 总被引:1,自引:0,他引:1
综述了青蒿素生物合成途径及其关键酶3-羟基-3-甲基戊二酰CoA还原酶、法呢基焦磷酸合酶、紫穗槐-4,11-二烯合酶、紫穗槐-4,11-二烯P450单加氧酶。 相似文献
5.
6.
Nattaya Lourith Takeshi Katayama Kimiko Ishikawa Toshisada Suzuki 《Journal of Wood Science》2005,51(4):379-386
To investigate the biosynthesis and stereochemistry of syringylglycerol-8-O-4′-(sinapyl alcohol) ether (SGSE), a syringyl 8-O-4′ neolignan, feeding experiments and enzyme assays using Eucommia ulmoides were carried out. Diastereoselective formation of erythro-SGSE was found. When [8-14C]sinapyl alcohol was administered to excised shoots of E. ulmoides, 14C was incorporated into free SGSE and SGSE glucosides. In stems, incorporation into (+)-erythro-[14C]SGSE (0.037%) with 9.1% enantiomeric excess (% e.e.) was found; incorporation into the threo isomer was not detectable. Erythro-[14C]SGSE glucosides (0.047%) dominated over threo forms (0.007%) with 74.0% diastereomeric excess (% d.e.); both diastereomers were levorotatory with 32.0% e.e. and 18.3% e.e., respectively. In leaves, higher incorporation into (−)-erythro-[14C]SGSE (0.500%, 15.9% e.e.) than into the threo isomer (0.206%, 7.4% e.e.) was observed (41.6% d.e.). (−)-Erythro-[14C]SGSE glucosides (1.692%, 25.0% e.e.) were produced at higher rates than threo isomers (0.177%, 16.4% e.e.) with 81.0% d.e. In incubations of a mixture of [8-14C]sinapyl and [8-14C]coniferyl alcohols with an insoluble enzyme preparation from stems of E. ulmoides, erythro-SGSE was preferentially produced. The highest % d.e. (82.8) was observed at 60 min with the (+)-erythro isomer (21.4% e.e.) and the (−)-threo form (4.3% e.e.).Part of this report was presented at the 52nd Annual Meeting of the Japan Wood Research Society, Gifu, April 2002, and the 47th Lignin Symposium, Fukuoka, October 2002 相似文献
7.
8.
Stereochemistry and biosynthesis of guaiacylglycerol-8-O-4′-(sinapyl alcohol) ether (GGSE), an 8-O-4′ neolignan, which consists of coniferyl and sinapyl alcohol moieties, in Eucommia ulmoides were investigated. Four 8-O-4′ neolignans, GGSE, syringylglycerol-8-O-4′-(coniferyl alcohol) ether (SGCE), guaiacylglycerol-8-O-4′-(coniferyl alcohol) ether (GGCE), and syringylglycerol-8-O-4′-(sinapyl alcohol) ether (SGSE), were synthesized. Their erythro and threo diastereomers were separated through acetonide derivatives, intermediates of the synthesis, and identified by means of nuclear magnetic resonance (NMR) spectroscopy. All of the erythro-acetonide derivatives have larger coupling constants (ca 9 Hz) for the C7-H resonances than those of the threo ones (1.5–2 Hz). In the case of the four 8-O-4′ neolignans, the C7-H coupling constants of the threo-isomers are not smaller than those of the erythro ones. GGSE isolated previously from this plant was identified as the erythro isomer by comparison of the 13C-NMR data with synthetic erythro-GGSE and threo-GGSE and the other 8-O-4′ neolignans mentioned as above. Administration of a mixture of [8-14C]coniferyl alcohol and [8-14C]sinapyl alcohol to excised shoots of E. ulmoides was carried out and the incorporation of 14C into erythro-[14C]GGSE was found to be higher than that in threo-[14C]GGSE. The occurrence of diastereoselective formation of erythro-GGSE by cross coupling of coniferyl and sinapyl alcohols is suggested.Part of this paper was presented at the 47th Lignin Symposium, Fukuoka, October 2002 and the 53rd Annual Meeting of the Japan Wood Research Society, Fukuoka, April 2003 相似文献
9.
水稻颖花自然开放过程中茉莉酸(JA)生物合成的变化 总被引:1,自引:0,他引:1
外源茉莉酸(JA)及其甲酯(MeJA)对水稻、小麦、黑麦和高粱等禾本科植物颖花开放具有强烈的诱导效应,然而内源JA是否参与颖花开放的调控目前还缺乏充分的证据。本研究应用高效液相色谱-串联质谱(HPLC-MS/MS)系统检测了粳稻武运粳7号和籼稻明恢63颖花自然开放过程中JA水平变化,并以实时定量反转录PCR (real-time RT-PCR)技术分析了武运粳7号颖花开放过程中JA生物合成途径关键基因表达变化。结果发现,水稻颖花JA水平的变化与开颖进程相一致。JA水平在上午颖花开颖前较平稳,开颖时急剧上升至峰值,闭颖后又下降。开颖时JA水平的峰值比开颖前1 h提高4~5倍。与JA水平变化相对应,催化JA生物合成途径关键步骤同工酶的编码基因OsDAD1-3、OsLOX-RCI1、OsAOS1、OsAOC和OsOPR7的表达在开颖时会有不同程度的上调,闭颖后又下调。同一稻穗上正在开放的颖花JA含量及上述JA生物合成途径基因的表达水平也比已开放和未开放的颖花高。颖花开放时JA水平及其生物合成基因表达的上升和闭颖后的下降有力地表明内源JA参与水稻颖花开放的调控。 相似文献
10.