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激光解吸质谱法(LAMMA 1000)对喹诺里西啶生物碱的细胞定位。

Cellular localization of quinolizidine alkaloids by laser desorption mass spectrometry (LAMMA 1000).

机构信息

Institut für Pharmazeutische Biologie der Technischen Universität Braunschweig, D-3300, Braunschweig, Germany.

出版信息

Plant Cell Rep. 1984 Dec;3(6):230-3. doi: 10.1007/BF00269299.

DOI:10.1007/BF00269299
PMID:24253573
Abstract

Stem sections of Lupinus polyphyllus and Cytisus scoparius have been analyzed for the distribution of quinolizidine alkaloids by laser desorption mass spectrometry, employing a LAMMA 1000 instrument. Sparteine and lupanine could be recorded and were found to be restricted to the epidermis and probably also to the neighbouring 1 or 2 subepidermal cell layers.

摘要

采用 LAMMA1000 仪器,通过激光解吸质谱法分析了羽扇豆和金雀花茎段中喹诺里西啶生物碱的分布。可记录到斯帕丁和羽扇豆碱,并发现它们局限于表皮,可能也局限于相邻的 1 到 2 层表皮细胞层。

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1
Cellular localization of quinolizidine alkaloids by laser desorption mass spectrometry (LAMMA 1000).激光解吸质谱法(LAMMA 1000)对喹诺里西啶生物碱的细胞定位。
Plant Cell Rep. 1984 Dec;3(6):230-3. doi: 10.1007/BF00269299.
2
Quinolizidine alkaloid composition of plants and of photomixotrophic cell suspension cultures of Sarothamnus scoparius and Orobanche rapum-genistae.植物和互生细胞悬浮培养的黄花补血草和列当中千里光碱的生物碱组成。
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本文引用的文献

1
Turnover and transport of quinolizidine alkaloids. Diurnal fluctuations of lupanine in the phloem sap, leaves and fruits of Lupinus albus L.羽扇豆醇生物碱的转移和运输。羽扇豆醇在白羽扇豆韧皮部汁液、叶片和果实中的日变化。
Planta. 1984 Nov;161(6):519-24. doi: 10.1007/BF00407083.
2
Accumulation of quinolizidine alkaloids in plants and cell suspension cultures: genera lupinus, cytisus, baptisia, genista, laburnum, and sophora.喹诺里西啶生物碱在植物和细胞悬浮培养物中的积累:羽扇豆属、金雀花属、野靛属、染料木属、毒豆属和槐属植物
Planta Med. 1983 Aug;48(8):253-7. doi: 10.1055/s-2007-969928.
3
Localization of the Enzymes of Quinolizidine Alkaloid Biosynthesis in Leaf Chloroplasts of Lupinus polyphyllus.
联合γ-凝集素和金雀花碱治疗通过调节肝脏基因表达谱在体内表现出增强的抗糖尿病作用。
Pharmaceuticals (Basel). 2023 Jan 13;16(1):117. doi: 10.3390/ph16010117.
4
Fate of quinolizidine alkaloids through three trophic levels:Laburnum anagyroides (Leguminosae) and associated organisms.喹诺里西啶生物碱在三个营养级中的命运:马栗树(豆科)及其相关生物。
J Chem Ecol. 1991 Aug;17(8):1557-73. doi: 10.1007/BF00984688.
5
Sites of synthesis, translocation and accumulation of pyrrolizidine alkaloid N-oxides in Senecio vulgaris L.千里光属植物千里光中的吡咯里西啶生物碱 N-氧化物的合成、易位和积累部位
Planta. 1989 Jan;177(1):98-107. doi: 10.1007/BF00392159.
6
Seed chemistry of Sophora chrysophylla (mamane) in relation to diet of specialist avian seed predator Loxioides bailleui (palila) in Hawaii.夏威夷金叶槐(mamane)的种子化学与专食性鸟类种子捕食者贝利氏管舌雀(palila)的饮食关系
J Chem Ecol. 2002 Jul;28(7):1393-410. doi: 10.1023/a:1016248502927.
羽扇豆叶片叶绿体中喹诺里西啶生物碱生物合成酶的定位。
Plant Physiol. 1982 Jul;70(1):74-7. doi: 10.1104/pp.70.1.74.
4
The raison d'ĕtre of secondary plant substances; these odd chemicals arose as a means of protecting plants from insects and now guide insects to food.次生植物物质的存在理由;这些奇特的化学物质最初是作为保护植物免受昆虫侵害的一种手段而产生的,现在却引导昆虫找到食物。
Science. 1959 May 29;129(3361):1466-70. doi: 10.1126/science.129.3361.1466.
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Allelochemics: chemical interactions between species.异种克生物质:物种间的化学相互作用。
Science. 1971 Feb 26;171(3973):757-70. doi: 10.1126/science.171.3973.757.
6
[Chemical defenses of higher plants].[高等植物的化学防御]
Pharm Unserer Zeit. 1979 Sep;8(5):129-38.