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本文引用的文献

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Partial Purification and Characterization of Ribulose-1,5-bisphosphate Carboxylase/Oxygenase Large Subunit epsilonN-Methyltransferase.1,5-二磷酸核酮糖羧化酶/加氧酶大亚基εN-甲基转移酶的部分纯化及特性分析
Plant Physiol. 1991 Nov;97(3):913-20. doi: 10.1104/pp.97.3.913.
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Comparative Physiological Evidence that beta-Alanine Betaine and Choline-O-Sulfate Act as Compatible Osmolytes in Halophytic Limonium Species.β-丙氨酸甜菜碱和胆碱-O-硫酸盐在盐生补血草属植物中作为相容性渗透剂的比较生理学证据。
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Effects of heat shock on amino Acid metabolism of cowpea cells.热休克对豇豆细胞氨基酸代谢的影响。
Plant Physiol. 1990 Oct;94(2):796-810. doi: 10.1104/pp.94.2.796.
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Enzymes of Choline Synthesis in Spinach (Response of Phospho-Base N-Methyltransferase Activities to Light and Salinity).菠菜中胆碱合成的酶(磷酸碱基 N-甲基转移酶活性对光和盐度的响应)
Plant Physiol. 1995 Nov;109(3):1085-1091. doi: 10.1104/pp.109.3.1085.
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Genetic engineering of glycinebetaine synthesis in plants: current status and implications for enhancement of stress tolerance.植物中甘氨酸甜菜碱合成的基因工程:现状及对增强胁迫耐受性的意义。
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cDNA cloning of phosphoethanolamine N-methyltransferase from spinach by complementation in Schizosaccharomyces pombe and characterization of the recombinant enzyme.通过在粟酒裂殖酵母中互补克隆菠菜磷酸乙醇胺N-甲基转移酶的cDNA并对重组酶进行表征。
J Biol Chem. 2000 May 12;275(19):14095-101. doi: 10.1074/jbc.275.19.14095.
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Genetic engineering of glycinebetaine production toward enhancing stress tolerance in plants: metabolic limitations.通过甘氨酸甜菜碱生产的基因工程提高植物的胁迫耐受性:代谢限制
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8
Rubisco small and large subunit N-methyltransferases. Bi- and mono-functional methyltransferases that methylate the small and large subunits of Rubisco.核酮糖-1,5-二磷酸羧化酶小亚基和大亚基N-甲基转移酶。双功能和单功能甲基转移酶,可使核酮糖-1,5-二磷酸羧化酶的小亚基和大亚基甲基化。
J Biol Chem. 1999 Dec 17;274(51):36750-6. doi: 10.1074/jbc.274.51.36750.
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Betaines and related osmoprotectants. Targets for metabolic engineering of stress resistance.甜菜碱及相关渗透保护剂。抗逆性代谢工程的靶点。
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10
Purification and characterization of caffeine synthase from tea leaves.茶叶中咖啡因合酶的纯化与特性分析
Plant Physiol. 1999 Jun;120(2):579-86. doi: 10.1104/pp.120.2.579.

蓝雪科中β-丙氨酸甜菜碱的合成。从宽叶补血草叶片中纯化及鉴定一种三功能、依赖S-腺苷-L-甲硫氨酸的N-甲基转移酶。

beta-Alanine betaine synthesis in the Plumbaginaceae. Purification and characterization of a trifunctional, S-adenosyl-L-methionine-dependent N-methyltransferase from Limonium latifolium leaves.

作者信息

Rathinasabapathi B, Fouad W M, Sigua C A

机构信息

Horticultural Sciences Department, Plant Molecular and Cellular Biology Program, University of Florida, Gainesville, Florida 32611-0690, USA.

出版信息

Plant Physiol. 2001 Jul;126(3):1241-9. doi: 10.1104/pp.126.3.1241.

DOI:10.1104/pp.126.3.1241
PMID:11457974
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC116480/
Abstract

beta-Alanine (beta-Ala) betaine is an osmoprotective compound accumulated by most members of the highly stress-tolerant family Plumbaginaceae. Its potential role in plant tolerance to salinity and hypoxia makes its synthetic pathway an interesting target for metabolic engineering. In the Plumbaginaceae, beta-Ala betaine is synthesized by S-adenosyl-L-methionine-dependent N-methylation of beta-Ala via N-methyl beta-Ala and N,N-dimethyl beta-Ala. It was not known how many N-methyltransferases (NMTases) participate in the three N-methylations of beta-Ala. An NMTase was purified about 1,890-fold, from Limonium latifolium leaves, using a protocol consisting of polyethylene glycol precipitation, heat treatment, anion-exchange chromatography, gel filtration, native polyacrylamide gel electrophoresis, and two substrate affinity chromatography steps. The purified NMTase was trifunctional, methylating beta-Ala, N-methyl beta-Ala, and N,N-dimethyl beta-Ala. Gel filtration and sodium dodecyl sulfate-polyacrylamide gel electrophoresis analyses indicated that the native NMTase is a dimer of 43-kD subunits. The NMTase had an apparent K(m) of 45 microM S-adenosyl-l-methionine and substrate inhibition was observed above 200 microM. The apparent K(m) values for the methyl acceptor substrates were 5.3, 5.7, and 5.9 mM for beta-Ala, N-methyl beta-Ala, and N,N-dimethyl beta-Ala, respectively. The NMTase had an isoelectric point of 5.15 and was reversibly inhibited by the thiol reagent p-hydroxymercuribenzoic acid.

摘要

β-丙氨酸甜菜碱是一种渗透保护化合物,为高度耐胁迫的蓝雪科大多数成员所积累。其在植物耐盐性和耐缺氧性方面的潜在作用,使其合成途径成为代谢工程中一个有趣的目标。在蓝雪科中,β-丙氨酸甜菜碱是通过β-丙氨酸经N-甲基-β-丙氨酸和N,N-二甲基-β-丙氨酸的S-腺苷-L-甲硫氨酸依赖性N-甲基化作用合成的。此前尚不清楚有多少N-甲基转移酶(NMTases)参与β-丙氨酸的三步N-甲基化反应。采用由聚乙二醇沉淀、热处理、阴离子交换色谱、凝胶过滤、非变性聚丙烯酰胺凝胶电泳以及两个底物亲和色谱步骤组成的方案,从宽叶补血草叶片中纯化出一种NMTase,纯化倍数约为1890倍。纯化的NMTase具有三功能,可甲基化β-丙氨酸、N-甲基-β-丙氨酸和N,N-二甲基-β-丙氨酸。凝胶过滤和十二烷基硫酸钠-聚丙烯酰胺凝胶电泳分析表明,天然NMTase是由43-kD亚基组成的二聚体。该NMTase对S-腺苷-L-甲硫氨酸的表观K(m)为45 μM,在200 μM以上观察到底物抑制现象。对于甲基受体底物β-丙氨酸、N-甲基-β-丙氨酸和N,N-二甲基-β-丙氨酸,表观K(m)值分别为5.3、5.7和5.9 mM。该NMTase的等电点为5.15,可被巯基试剂对羟基汞苯甲酸可逆抑制。