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1
Comparative studies of enzymes related to serine metabolism in higher plants.高等植物中与丝氨酸代谢相关的酶的比较研究。
Plant Physiol. 1968 Nov;43(11):1813-20. doi: 10.1104/pp.43.11.1813.
2
Enzymes of serine and glycine metabolism in leaves and non-photosynthetic tissues of Pisum sativum L.豌豆属植物叶片和非光合组织中丝氨酸和甘氨酸代谢的酶。
Planta. 1986 Jan;167(1):119-28. doi: 10.1007/BF00446378.
3
Conversion of serine to glycerate in intact spinach leaf peroxisomes: role of malate dehydrogenase.完整菠菜叶过氧化物酶体中丝氨酸向甘油酸的转化:苹果酸脱氢酶的作用。
Arch Biochem Biophys. 1986 Feb 15;245(1):125-33. doi: 10.1016/0003-9861(86)90196-7.
4
Effect of various concentrations of protein in chick diet upon the metabolic enzymes of glycine and serine.雏鸡日粮中不同蛋白质浓度对甘氨酸和丝氨酸代谢酶的影响。
Poult Sci. 1975 Sep;54(5):1461-7. doi: 10.3382/ps.0541461.
5
Possibility of mitochondrial-cytosolic cooperation in gluconeogenesis from serine via hydroxypyruvate.通过羟基丙酮酸从丝氨酸进行糖异生过程中线粒体-胞质合作的可能性。
Biochim Biophys Acta. 1979 Jan 18;582(2):276-82. doi: 10.1016/0304-4165(79)90390-8.
6
Distribution studies of glycine and serine enzymes in chicks.雏鸡中甘氨酸和丝氨酸酶的分布研究。
Poult Sci. 1975 Jan;54(1):116-8. doi: 10.3382/ps.0540116.
7
THE OXIDATION OF D- AND L-GLYCERATE BY RAT LIVER.大鼠肝脏对D-甘油酸和L-甘油酸的氧化作用
Biochem J. 1965 Feb;94(2):353-67. doi: 10.1042/bj0940353.
8
Conversion of glycerate to serine in intact spinach leaf peroxisomes.完整菠菜叶过氧化物酶体中甘油酸向丝氨酸的转化。
Arch Biochem Biophys. 1984 Sep;233(2):393-401. doi: 10.1016/0003-9861(84)90460-0.
9
A novel alpha-ketoglutarate reductase activity of the serA-encoded 3-phosphoglycerate dehydrogenase of Escherichia coli K-12 and its possible implications for human 2-hydroxyglutaric aciduria.大肠杆菌K-12中由serA编码的3-磷酸甘油酸脱氢酶的一种新型α-酮戊二酸还原酶活性及其对人类2-羟基戊二酸尿症的可能影响。
J Bacteriol. 1996 Jan;178(1):232-9. doi: 10.1128/jb.178.1.232-239.1996.
10
Occurrence of hydroxypyruvate-L-glutamate transaminase in Escherichia coli and its separation from hydroxypyruvate-phosphate-L-glutamate transaminase.羟基丙酮酸-L-谷氨酸转氨酶在大肠杆菌中的出现及其与羟基丙酮酸-磷酸-L-谷氨酸转氨酶的分离。
J Bacteriol. 1966 Sep;92(3):668-75. doi: 10.1128/jb.92.3.668-675.1966.

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1
Dissecting the Seed Maturation and Germination Processes in the Non-Orthodox Species Based on Protein Signatures as Revealed by 2-DE Coupled to MALDI-TOF/TOF Proteomics Strategy.基于双向电泳- MALDI-TOF/TOF 蛋白质组学策略揭示的蛋白质特征解析非传统物种的种子成熟和萌发过程。
Int J Mol Sci. 2020 Jul 9;21(14):4870. doi: 10.3390/ijms21144870.
2
D-3-Phosphoglycerate Dehydrogenase.D-3-磷酸甘油酸脱氢酶
Front Mol Biosci. 2018 Dec 13;5:110. doi: 10.3389/fmolb.2018.00110. eCollection 2018.
3
The Glycerate and Phosphorylated Pathways of Serine Synthesis in Plants: The Branches of Plant Glycolysis Linking Carbon and Nitrogen Metabolism.植物中丝氨酸合成的甘油酸途径和磷酸化途径:连接碳代谢和氮代谢的植物糖酵解分支
Front Plant Sci. 2018 Mar 14;9:318. doi: 10.3389/fpls.2018.00318. eCollection 2018.
4
Discovery of novel allosteric effectors based on the predicted allosteric sites for Escherichia coli D-3-phosphoglycerate dehydrogenase.基于对大肠杆菌D-3-磷酸甘油酸脱氢酶预测变构位点发现新型变构效应物。
PLoS One. 2014 Apr 14;9(4):e94829. doi: 10.1371/journal.pone.0094829. eCollection 2014.
5
Enzymes of serine and glycine metabolism in leaves and non-photosynthetic tissues of Pisum sativum L.豌豆属植物叶片和非光合组织中丝氨酸和甘氨酸代谢的酶。
Planta. 1986 Jan;167(1):119-28. doi: 10.1007/BF00446378.
6
Contrasting catalytic and allosteric mechanisms for phosphoglycerate dehydrogenases.磷酸甘油酸脱氢酶的催化和别构机制对比。
Arch Biochem Biophys. 2012 Mar 15;519(2):175-85. doi: 10.1016/j.abb.2011.10.005. Epub 2011 Oct 15.
7
Phosphoserine aminotransferase in soybean root nodules : demonstration and localization.大豆根瘤中的磷酸丝氨酸转氨酶:酶的表现和定位。
Plant Physiol. 1986 May;81(1):293-6. doi: 10.1104/pp.81.1.293.
8
Enzymology of l-Tyrosine Biosynthesis in Mung Bean (Vigna radiata [L.] Wilczek).绿豆(Vigna radiata [L.] Wilczek)中L-酪氨酸生物合成的酶学
Plant Physiol. 1979 Nov;64(5):727-34. doi: 10.1104/pp.64.5.727.
9
Development of Microbodies in Sunflower Cotyledons and Castor Bean Endosperm during Germination.向日葵子叶和蓖麻子胚乳在萌发过程中微体的发育。
Plant Physiol. 1971 Nov;48(5):566-74. doi: 10.1104/pp.48.5.566.
10
Molecular cloning, characterization and expression of cDNA encoding phosphoserine aminotransferase involved in phosphorylated pathway of serine biosynthesis from spinach.菠菜中参与丝氨酸生物合成磷酸化途径的磷酸丝氨酸转氨酶编码cDNA的分子克隆、特性分析及表达
Plant Mol Biol. 1997 Jan;33(2):359-66. doi: 10.1023/a:1005730725764.

本文引用的文献

1
Evidence for de novo synthesis of isocitratase and malate synthesis in germinating peanut cotyledons.发芽花生子叶中异柠檬酸裂合酶和苹果酸合成的从头合成证据。
Plant Physiol. 1968 Apr;43(4):660-4. doi: 10.1104/pp.43.4.660.
2
De Novo Synthesis of Isocitritase in Peanut (Arachis hypogaea L.) Cotyledons.花生(Arachis hypogaea L.)子叶中异柠檬酸裂合酶的从头合成
Plant Physiol. 1968 Apr;43(4):653-9. doi: 10.1104/pp.43.4.653.
3
Distribution of C in Serine and Glycine after CO(2) Photosynthesis by Isolated Chloroplasts. Modification of Serine-C Degradation.离体叶绿体进行二氧化碳光合作用后丝氨酸和甘氨酸中碳的分布。丝氨酸 - 碳降解的修饰。
Plant Physiol. 1965 Nov;40(6):1048-52. doi: 10.1104/pp.40.6.1048.
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A Developmental Study of D-Glyceric Acid Dehydrogenase.D-甘油酸脱氢酶的发育研究
Plant Physiol. 1954 Nov;29(6):504-8. doi: 10.1104/pp.29.6.504.
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Protein measurement with the Folin phenol reagent.使用福林酚试剂进行蛋白质测定。
J Biol Chem. 1951 Nov;193(1):265-75.
6
Formation of serine and glyceric acid by the glycolate pathway.通过乙醇酸途径形成丝氨酸和乙醇酸。
Arch Biochem Biophys. 1962 Jul;98:154-63. doi: 10.1016/0003-9861(62)90161-3.
7
[Phosphorylation of D-glyceric acid to 2-phospho-D-glyceric acid with glycerate kinase in the liver. I. On the biochemistry of fructose metabolism. II].肝脏中甘油酸激酶将D-甘油酸磷酸化为2-磷酸-D-甘油酸。I. 果糖代谢的生物化学。II
Hoppe Seylers Z Physiol Chem. 1959 Sep 30;316:97-112. doi: 10.1515/bchm2.1959.316.1.97.
8
Sucrose synthesis from acetate in the germinating castor bean: kinetics and pathway.蓖麻籽萌发过程中由乙酸合成蔗糖:动力学与途径
J Biol Chem. 1961 Apr;236:988-95.
9
[Isolation of glyceraldehyde dehydrogenase from rat liver; biochemistry of fructose metabolism].[大鼠肝脏甘油醛脱氢酶的分离;果糖代谢的生物化学]
Z Naturforsch B. 1958 Jul;13B(7):464-5.
10
[Isolation of D-glycerate dehydrogenase, some properties of the enzyme and its application to the enzymic-optic determination of hydroxypyruvate in presence of pyruvate].[D-甘油酸脱氢酶的分离、该酶的某些性质及其在丙酮酸存在下用于羟基丙酮酸的酶促-光学测定中的应用]
Biochem Z. 1957;329(4):292-312.

高等植物中与丝氨酸代谢相关的酶的比较研究。

Comparative studies of enzymes related to serine metabolism in higher plants.

作者信息

Cheung G P, Rosenblum I Y, Sallach H J

出版信息

Plant Physiol. 1968 Nov;43(11):1813-20. doi: 10.1104/pp.43.11.1813.

DOI:10.1104/pp.43.11.1813
PMID:5699148
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1087083/
Abstract

THE FOLLOWING ENZYMES RELATED TO SERINE METABOLISM IN HIGHER PLANTS HAVE BEEN INVESTIGATED

  1. d-3-phosphoglycerate dehydrogenase, 2) phosphohydroxypyruvate:l-glutamate transaminase, 3) d-glycerate dehydrogenase, and 4) hydroxypyruvate:l-alanine transaminase. Comparative studies on the distribution of the 2 dehydrogenases in seeds and leaves from various plants revealed that d-3-phosphoglycerate dehydrogenase is widely distributed in seeds in contrast to d-glycerate dehydrogenase, which is either absent or present at low levels, and that the reverse pattern is observed in green leaves. The levels of activity of the 4 enzymes listed above were followed in different tissues of the developing pea (Pisum sativum, var. Alaska). In the leaf, from the tenth to seventeenth day of germination, the specific activity of d-glycerate dehydrogenase increased markedly and was much higher than d-3-phosphoglycerate dehydrogenase which remained relatively constant during this time period. Etiolation resulted in a decrease in d-glycerate dehydrogenase and an increase in d-3-phosphoglycerate dehydrogenase activities. In apical meristem, on the other hand, the level of d-3-phosphoglycerate dehydrogenase exceeded that of d-glycerate dehydrogenase at all time periods studied. Low and decreasing levels of both dehydrogenases were found in epicotyl and cotyledon. The specific activities of the 2 transaminases remained relatively constant during development in both leaf and apical meristem. In general, however, the levels of phosphohydroxypyruvate:l-glutamate transaminase were comparable to those of d-3-phosphoglycerate dehydrogenase in a given tissue as were those for hydroxypyruvate: l-alanine transaminase and d-glycerate dehydrogenase.
摘要

对高等植物中与丝氨酸代谢相关的以下几种酶进行了研究

1)d-3-磷酸甘油酸脱氢酶,2)磷酸羟基丙酮酸:L-谷氨酸转氨酶,3)d-甘油酸脱氢酶,以及4)羟基丙酮酸:L-丙氨酸转氨酶。对不同植物种子和叶片中这两种脱氢酶分布的比较研究表明,与d-甘油酸脱氢酶(该酶要么不存在,要么含量很低)相比,d-3-磷酸甘油酸脱氢酶在种子中广泛分布,而在绿叶中观察到的情况则相反。在发育中的豌豆(豌豆品种阿拉斯加)的不同组织中跟踪了上述4种酶的活性水平。在叶片中,从发芽的第10天到第17天,d-甘油酸脱氢酶的比活性显著增加,且远高于在此期间相对保持恒定的d-3-磷酸甘油酸脱氢酶。黄化导致d-甘油酸脱氢酶活性降低,d-3-磷酸甘油酸脱氢酶活性增加。另一方面,在顶端分生组织中,在所研究的所有时间段内,d-3-磷酸甘油酸脱氢酶的水平都超过了d-甘油酸脱氢酶。在上胚轴和子叶中发现这两种脱氢酶的水平较低且在下降。在叶片和顶端分生组织发育过程中,这两种转氨酶的比活性相对保持恒定。然而,一般来说,在给定组织中,磷酸羟基丙酮酸:L-谷氨酸转氨酶的水平与d-3-磷酸甘油酸脱氢酶的水平相当,羟基丙酮酸:L-丙氨酸转氨酶的水平与d-甘油酸脱氢酶的水平相当。