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神经体液乙酰胆碱对菜豆根中光敏色素介导过程的调节作用的证据。

Evidence for the regulation of phytochrome-mediated processes in bean roots by the neurohumor, acetylcholine.

作者信息

Jaffe M J

出版信息

Plant Physiol. 1970 Dec;46(6):768-77. doi: 10.1104/pp.46.6.768.

DOI:10.1104/pp.46.6.768
PMID:5500205
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC396679/
Abstract

Using pharmacological and chromatographic techniques, it was shown that acetylcholine was present in all organs of both light- and dark-grown mung bean seedings (Phaseolus aureus). The highest concentrations were found in tissues containing active growing points: buds and secondary roots. Within 4 minutes, red light caused an increase in the efflux of acetylcholine from secondary root tips as well as a significant increase in the endogenous titer. Four minutes of subsequent far red light reduced the latter to a level comparable to that in the dark.Acetylcholine, given for 4 minutes in the dark, was able to substitute for red light in reducing the formation of secondary roots, inducing increased H(+) efflux, and causing the root tips to adhere to a negatively charged glass surface. Acetylcholine-esterase and atropine inhibited the latter phenomenon, whereas eserine inhibited the far red-induced release from glass. THESE AND OTHER DATA SUPPORT THE CONCLUSION THAT ACETYLCHOLINE FUNCTIONS IN MUNG BEAN ROOTS AS IT DOES IN ANIMAL SYSTEMS: by mediating changes in ion flux across cell membranes. It also seems probable that acetylcholine acts as a local hormone which regulates these phytochrome-mediated phenomena.

摘要

运用药理学和色谱技术表明,在绿豆幼苗(Phaseolus aureus)的所有器官中,无论光照生长还是黑暗生长条件下均存在乙酰胆碱。其最高浓度出现在含有活跃生长点的组织中:芽和次生根。在4分钟内,红光导致乙酰胆碱从次生根尖端的流出增加,同时内源性滴度也显著增加。随后4分钟的远红光将后者降低到与黑暗中相当的水平。在黑暗中给予4分钟的乙酰胆碱能够替代红光,减少次生根的形成,诱导氢离子流出增加,并使根尖附着在带负电荷的玻璃表面。乙酰胆碱酯酶和阿托品抑制了后一种现象,而毒扁豆碱抑制了远红光诱导的从玻璃表面的释放。这些以及其他数据支持这样的结论:乙酰胆碱在绿豆根中的作用方式与在动物系统中相同,即通过介导跨细胞膜离子通量的变化。乙酰胆碱似乎也有可能作为一种局部激素来调节这些由光敏色素介导的现象。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/5d61/396679/6d0ca734b879/plntphys00204-0010-a.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/5d61/396679/8644661fd231/plntphys00204-0008-a.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/5d61/396679/6d0ca734b879/plntphys00204-0010-a.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/5d61/396679/8644661fd231/plntphys00204-0008-a.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/5d61/396679/6d0ca734b879/plntphys00204-0010-a.jpg

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2
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Plant Physiol. 1969 Aug;44(8):1089-94. doi: 10.1104/pp.44.8.1089.
3
The Reversible Inhibition by Red and Far-Red Light of Auxin-Induced Lateral Root Initiation in Isolated Pea Roots.
乙酰胆碱抑制番茄(Lycopersicon esculentum Miller var. Pusa Ruby)离体培养幼苗叶片外植体的芽形成和愈伤组织形成。
Plant Signal Behav. 2016 Jun 2;11(6):e1187355. doi: 10.1080/15592324.2016.1187355.
4
Spatiotemporal Phytochrome Signaling during Photomorphogenesis: From Physiology to Molecular Mechanisms and Back.光形态建成过程中的时空光敏色素信号传导:从生理学到分子机制再回归
Front Plant Sci. 2016 Apr 11;7:480. doi: 10.3389/fpls.2016.00480. eCollection 2016.
5
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Plant Signal Behav. 2014;9(4):e28645. doi: 10.4161/psb.28645. Epub 2014 Mar 31.
6
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Int J Mol Sci. 2014 Mar 17;15(3):4565-82. doi: 10.3390/ijms15034565.
7
[Evidence of a neurohormone in moss callus and its regulation by the phytochrome].[苔藓愈伤组织中一种神经激素的证据及其受光敏色素的调控]
Planta. 1971 Jun;101(2):159-65. doi: 10.1007/BF00387626.
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Arch Pharm Ber Dtsch Pharm Ges. 1961 Jan;294/66:11-7. doi: 10.1002/ardp.19612940104.