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本文引用的文献

1
Observations on the subcellular distribution of the ammonium ion in maize root tissue using in-vivo (14)N-nuclear magnetic resonance spectroscopy.利用体内 (14)N 核磁共振光谱技术观察玉米根组织中铵离子的亚细胞分布。
Planta. 1991 Feb;183(3):359-67. doi: 10.1007/BF00197734.
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Induction of barley leaf urease.大麦叶脲酶的诱导。
Plant Physiol. 1988 Mar;86(3):941-5. doi: 10.1104/pp.86.3.941.
3
THE MOLECULAR-GENETICS OF NITROGEN ASSIMILATION INTO AMINO ACIDS IN HIGHER PLANTS.高等植物中氮同化为氨基酸的分子遗传学
Annu Rev Plant Physiol Plant Mol Biol. 1996 Jun;47:569-593. doi: 10.1146/annurev.arplant.47.1.569.
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Leaf-Atmosphere NH3 Exchange in Barley Mutants with Reduced Activities of Glutamine Synthetase.谷氨酰胺合成酶活性降低的大麦突变体中叶片与大气间的氨交换
Plant Physiol. 1997 Aug;114(4):1307-1312. doi: 10.1104/pp.114.4.1307.
5
Functional characterisation of urease accessory protein G (ureG) from potato.马铃薯脲酶辅助蛋白G(ureG)的功能表征
Plant Mol Biol. 2001 Jan;45(2):169-79. doi: 10.1023/a:1006429315851.
6
In-gel detection of urease with nitroblue tetrazolium and quantification of the enzyme from different crop plants using the indophenol reaction.用氮蓝四唑在凝胶中检测脲酶,并使用靛酚反应对不同农作物中的该酶进行定量分析。
Anal Biochem. 2001 Mar 1;290(1):102-7. doi: 10.1006/abio.2000.4933.
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Urea is a product of ureidoglycolate degradation in chickpea. Purification and characterization of the ureidoglycolate urea-lyase.尿素是鹰嘴豆中脲基乙醇酸降解的产物。脲基乙醇酸尿素裂解酶的纯化与特性分析。
Plant Physiol. 2001 Feb;125(2):828-34. doi: 10.1104/pp.125.2.828.
8
Ureide degradation pathways in intact soybean leaves.完整大豆叶片中的脲类降解途径。
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Regulation of apoplastic NH4+ concentration in leaves of oilseed rape.油菜叶片质外体NH4+浓度的调控
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10
Cell-specific expression in transgenic plants reveals nonoverlapping roles for chloroplast and cytosolic glutamine synthetase.转基因植物中的细胞特异性表达揭示了叶绿体和胞质谷氨酰胺合成酶的非重叠作用。
Proc Natl Acad Sci U S A. 1990 May;87(9):3459-63. doi: 10.1073/pnas.87.9.3459.

马铃薯叶片中的尿素代谢。野生型和脲酶反义转基因植株叶面喷施尿素后脲酶活性概况以及(15)N的回收与分布模式。

Leaf urea metabolism in potato. Urease activity profile and patterns of recovery and distribution of (15)N after foliar urea application in wild-type and urease-antisense transgenics.

作者信息

Witte Claus-Peter, Tiller Sarah A, Taylor Mark A, Davies Howard V

机构信息

Unit of Plant Biochemistry, Scottish Crop Research Institute, Invergowrie, Dundee DD2 5DA, United Kingdom.

出版信息

Plant Physiol. 2002 Mar;128(3):1129-36. doi: 10.1104/pp.010506.

DOI:10.1104/pp.010506
PMID:11891267
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC152224/
Abstract

The influence of urease activity on N distribution and losses after foliar urea application was investigated using wild-type and transgenic potato (Solanum tuberosum cv Désirée) plants in which urease activity was down-regulated. A good correlation between urease activity and (15)N urea metabolism (NH(3) accumulation) was found. The general accumulation of ammonium in leaves treated with urea indicated that urease activity is not rate limiting, at least initially, for the assimilation of urea N by the plant. It is surprising that there was no effect of urease activity on either N losses or (15)N distribution in the plants after foliar urea application. Experiments with wild-type plants in the field using foliar-applied (15)N urea demonstrated an initial rapid export of N from urea-treated leaves to the tubers within 48 h, followed by a more gradual redistribution during the subsequent days. Only 10% to 18% of urea N applied was lost (presumably because of NH(3) volatilization) in contrast to far greater losses reported in several other studies. The pattern of urease activity in the canopy was investigated during plant development. The activity per unit protein increased up to 10-fold with leaf and plant age, suggesting a correlation with increased N recycling in senescing tissues. Whereas several reports have claimed that plant urease is inducible by urea, no evidence for urease induction could be found in potato.

摘要

利用野生型和脲酶活性下调的转基因马铃薯(Solanum tuberosum cv Désirée)植株,研究了脲酶活性对叶面喷施尿素后氮素分配和损失的影响。发现脲酶活性与¹⁵N尿素代谢(NH₃积累)之间具有良好的相关性。用尿素处理的叶片中铵的普遍积累表明,脲酶活性至少在最初对植物吸收尿素态氮不是限速因素。令人惊讶的是,叶面喷施尿素后,脲酶活性对植株中的氮损失或¹⁵N分配均无影响。在田间对野生型植株进行的¹⁵N尿素叶面喷施试验表明,尿素处理叶片中的氮在48小时内迅速向块茎输出,随后几天则进行更缓慢的重新分配。与其他几项研究报道的更大损失相比,所施尿素态氮仅损失了10%至18%(可能是由于NH₃挥发)。在植株生长发育过程中研究了冠层中脲酶活性的模式。单位蛋白的活性随叶片和植株年龄增加高达10倍,表明与衰老组织中氮素再循环增加相关。虽然有几份报告称植物脲酶可被尿素诱导,但在马铃薯中未发现脲酶诱导的证据。