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本文引用的文献

1
Photorespiratory N donors, aminotransferase specificity and photosynthesis in a mutant of barley deficient in serine: glyoxylate aminotransferase activity.光呼吸氮供体、转氨酶特异性和丝氨酸缺乏型大麦突变体中的光合作用:乙醛酸转氨酶活性。
Planta. 1987 Sep;172(1):106-13. doi: 10.1007/BF00403035.
2
Glyoxylate transamination in intact leaf peroxisomes.完整叶片过氧化物酶体中的乙醛酸转氨作用。
Plant Physiol. 1984 May;75(1):7-12. doi: 10.1104/pp.75.1.7.
3
Aminotransfer from Alanine and Glutamate to Glycine and Serine during Photorespiration in Oat Leaves.在燕麦叶片的光呼吸过程中,丙氨酸和谷氨酸向甘氨酸和丝氨酸的氨基转移。
Plant Physiol. 1983 Apr;71(4):961-5. doi: 10.1104/pp.71.4.961.
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Photosynthesis and photorespiration in whole plants of wheat.小麦整株植物的光合作用与光呼吸作用
Plant Physiol. 1979 Nov;64(5):735-8. doi: 10.1104/pp.64.5.735.
5
Photorespiration mutants of Arabidopsis thaliana deficient in serine-glyoxylate aminotransferase activity.拟南芥光呼吸突变体中丝氨酸-乙醛酸氨基转移酶活性缺陷。
Proc Natl Acad Sci U S A. 1980 May;77(5):2684-7. doi: 10.1073/pnas.77.5.2684.
6
Network analysis of plasma and tissue amino acids and the generation of an amino index for potential diagnostic use.血浆和组织氨基酸的网络分析以及生成用于潜在诊断用途的氨基酸指数。
Am J Clin Nutr. 2006 Feb;83(2):513S-519S. doi: 10.1093/ajcn/83.2.513S.
7
Shuffling ammonia between mitochondria and plastids during photorespiration.在光呼吸过程中,氨在线粒体和质体之间穿梭。
Trends Plant Sci. 2005 Oct;10(10):461-5. doi: 10.1016/j.tplants.2005.08.002.
8
The map-based sequence of the rice genome.水稻基因组的基于图谱的序列。
Nature. 2005 Aug 11;436(7052):793-800. doi: 10.1038/nature03895.
9
Arabidopsis thaliana GLN2-encoded glutamine synthetase is dual targeted to leaf mitochondria and chloroplasts.拟南芥GLN2编码的谷氨酰胺合成酶双靶向定位于叶片线粒体和叶绿体。
Plant Cell. 2004 Aug;16(8):2048-58. doi: 10.1105/tpc.104.022046. Epub 2004 Jul 23.
10
Nitrate assimilation in plant shoots depends on photorespiration.植物茎中的硝酸盐同化作用依赖于光呼吸作用。
Proc Natl Acad Sci U S A. 2004 Aug 3;101(31):11506-10. doi: 10.1073/pnas.0404388101. Epub 2004 Jul 22.

谷氨酸:乙醛酸转氨酶在光呼吸过程中调节氨基酸含量。

Glutamate:glyoxylate aminotransferase modulates amino acid content during photorespiration.

作者信息

Igarashi Daisuke, Tsuchida Hiroko, Miyao Mitsue, Ohsumi Chieko

机构信息

Institute of Life Sciences, Ajinomoto Company, Inc., Kawasaki 210-8681, Japan.

出版信息

Plant Physiol. 2006 Nov;142(3):901-10. doi: 10.1104/pp.106.085514. Epub 2006 Sep 1.

DOI:10.1104/pp.106.085514
PMID:16950862
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1630728/
Abstract

In photorespiration, peroxisomal glutamate:glyoxylate aminotransferase (GGAT) catalyzes the reaction of glutamate and glyoxylate to produce 2-oxoglutarate and glycine. Previous studies demonstrated that alanine aminotransferase-like protein functions as a photorespiratory GGAT. Photorespiratory transamination to glyoxylate, which is mediated by GGAT and serine glyoxylate aminotransferase (SGAT), is believed to play an important role in the biosynthesis and metabolism of major amino acids. To better understand its role in the regulation of amino acid levels, we produced 42 GGAT1 overexpression lines that express different levels of GGAT1 mRNA. The levels of free serine, glycine, and citrulline increased markedly in GGAT1 overexpression lines compared with levels in the wild type, and levels of these amino acids were strongly correlated with levels of GGAT1 mRNA and GGAT activity in the leaves. This accumulation began soon after exposure to light and was repressed under high levels of CO(2). Light and nutrient conditions both affected the amino acid profiles; supplementation with NH(4)NO(3) increased the levels of some amino acids compared with the controls. The results suggest that the photorespiratory aminotransferase reactions catalyzed by GGAT and SGAT are both important regulators of amino acid content.

摘要

在光呼吸过程中,过氧化物酶体谷氨酸:乙醛酸转氨酶(GGAT)催化谷氨酸和乙醛酸反应生成2-氧代戊二酸和甘氨酸。先前的研究表明,丙氨酸转氨酶样蛋白具有光呼吸GGAT的功能。由GGAT和丝氨酸乙醛酸转氨酶(SGAT)介导的向乙醛酸的光呼吸转氨作用,被认为在主要氨基酸的生物合成和代谢中起重要作用。为了更好地理解其在调节氨基酸水平中的作用,我们构建了42个表达不同水平GGAT1 mRNA的GGAT1过表达株系。与野生型相比,GGAT1过表达株系中游离丝氨酸、甘氨酸和瓜氨酸的水平显著增加,并且这些氨基酸的水平与叶片中GGAT1 mRNA的水平和GGAT活性密切相关。这种积累在光照后不久就开始了,并在高浓度CO₂条件下受到抑制。光照和营养条件均影响氨基酸谱;与对照相比,添加NH₄NO₃提高了一些氨基酸的水平。结果表明,由GGAT和SGAT催化的光呼吸转氨反应都是氨基酸含量的重要调节因子。