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1
The reductive pentose phosphate cycle. III. Enzyme activities in cell-free extracts of photosynthetic organisms.还原戊糖磷酸循环。III. 光合生物无细胞提取物中的酶活性。
Plant Physiol. 1961 Jul;36(4):409-14. doi: 10.1104/pp.36.4.409.
2
Reductive pentose phosphate cycle and oxidative carbohydrate metabolic activities in pea chloroplast stroma extracts.豌豆叶绿体基质提取物中的还原性戊糖磷酸循环和氧化性碳水化合物代谢活性
Plant Physiol. 1981 May;67(5):1036-41. doi: 10.1104/pp.67.5.1036.
3
Evidence for the presence of the reductive pentose phosphate cycle in a filamentous anoxygenic photosynthetic bacterium, Oscillochloris trichoides strain DG-6.丝状无氧光合细菌颤绿菌属毛颤绿菌菌株DG-6中存在还原性戊糖磷酸循环的证据。
Microbiology (Reading). 1999 Jul;145 ( Pt 7):1743-1748. doi: 10.1099/13500872-145-7-1743.
4
A reverse KREBS cycle in photosynthesis: consensus at last.光合作用中的逆向克雷布斯循环:终于达成共识。
Photosynth Res. 1990;24:47-53.
5
Reductive pentose phosphate cycle in Nitrosocystis oceanus.海洋亚硝化囊菌中的还原性戊糖磷酸循环。
J Bacteriol. 1966 Mar;91(3):1178-85. doi: 10.1128/jb.91.3.1178-1185.1966.
6
P(700) activity and chlorophyll content of plants with different photosynthetic carbon dioxide fixation cycles.不同光合二氧化碳固定循环植物的 P(700)活性和叶绿素含量。
Plant Physiol. 1970 Jun;45(6):738-41. doi: 10.1104/pp.45.6.738.
7
Coordination of Chloroplastic Metabolism in N-Limited Chlamydomonas reinhardtii by Redox Modulation (II. Redox Modulation Activates the Oxidative Pentose Phosphate Pathway during Photosynthetic Nitrate Assimilation).通过氧化还原调节实现莱茵衣藻在氮素限制条件下叶绿体代谢的协调(II. 氧化还原调节在光合硝酸盐同化过程中激活氧化戊糖磷酸途径)
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8
Photosynthetic CO(2) Fixation Products and Activities of Enzymes Related to Photosynthesis in Bermudagrass and Other Plants.百慕大草和其他植物的光合 CO2 固定产物和与光合作用相关的酶活性。
Plant Physiol. 1971 Feb;47(2):199-203. doi: 10.1104/pp.47.2.199.
9
Activities of enzymes of the oxidative and the reductive pentose phosphate pathways in heterocysts of a blue-green alga.蓝藻异形胞中氧化和还原磷酸戊糖途径的酶活性。
Plant Physiol. 1973 Nov;52(5):480-3. doi: 10.1104/pp.52.5.480.
10
The reductive pentose phosphate cycle for photosynthetic CO2 assimilation: enzyme modulation.用于光合二氧化碳同化的还原戊糖磷酸循环:酶的调节
FASEB J. 1993 May;7(8):622-37. doi: 10.1096/fasebj.7.8.8500687.

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1
Design and in vitro realization of carbon-conserving photorespiration.设计并在体外实现节约碳的光呼吸。
Proc Natl Acad Sci U S A. 2018 Dec 4;115(49):E11455-E11464. doi: 10.1073/pnas.1812605115. Epub 2018 Nov 20.
2
Development of Enzymes Involved in Photosynthetic Carbon Assimilation in Greening Seedlings of Maize (Zea mays).玉米(Zea mays)绿化幼苗中参与光合碳同化的酶的发育
Plant Physiol. 1980 Feb;65(2):198-203. doi: 10.1104/pp.65.2.198.
3
Carbon dioxide assimilation by leaves, isolated chloroplasts, and ribulose bisphosphate carboxylase from spinach.菠菜叶片、分离的叶绿体和核酮糖二磷酸羧化酶对二氧化碳的同化作用。
Plant Physiol. 1975 Jun;55(6):1087-92. doi: 10.1104/pp.55.6.1087.
4
Inhibition of ribulose 1,5-diphosphate carboxylase by 6-phosphogluconate.6-磷酸葡萄糖酸对核酮糖 1,5-二磷酸羧化酶的抑制作用。
Plant Physiol. 1972 Aug;50(2):224-7. doi: 10.1104/pp.50.2.224.
5
Enzyme activities of the carbon reduction cycle in some photosynthetic organisms.某些光合生物的碳还原循环中的酶活性。
Plant Physiol. 1969 Feb;44(2):295-300. doi: 10.1104/pp.44.2.295.
6
Enhanced Dark CO(2) Fixation by Preilluminated Chlorella pyrenoidosa and Anacystis nidulans.增强型暗 CO2 固定:受预光照的蛋白核小球藻和鱼腥藻的影响。
Plant Physiol. 1967 Jul;42(7):991-6. doi: 10.1104/pp.42.7.991.
7
Isolation and Distribution of Phosphoglycolate Phosphatase.磷酸乙醇酸磷酸酶的分离与分布
Plant Physiol. 1964 Jul;39(4):643-7. doi: 10.1104/pp.39.4.643.
8
Localization of Carboxydismutase & Triosephosphate Dehydrogenases in Chloroplasts.羧化歧化酶和磷酸丙糖脱氢酶在叶绿体中的定位
Plant Physiol. 1963 May;38(3):355-60. doi: 10.1104/pp.38.3.355.
9
Role of Aldolase in Photosynthesis. I. Enzyme Studies With Photosynthetic Organisms With Special Reference to Blue-Green Algae.醛缩酶在光合作用中的作用。I. 对光合生物的酶学研究,特别提及蓝藻。
Plant Physiol. 1962 May;37(3):402-6. doi: 10.1104/pp.37.3.402.
10
[CO2 FIXATION AND INTERMEDIATE METABOLISM IN CHROMATIUM OKENII PERTY].[奥氏着色菌中的二氧化碳固定与中间代谢]
Arch Mikrobiol. 1964 Jul 15;49:23-50.

本文引用的文献

1
COPPER ENZYMES IN ISOLATED CHLOROPLASTS. POLYPHENOLOXIDASE IN BETA VULGARIS.分离叶绿体中的铜酶。甜菜中的多酚氧化酶。
Plant Physiol. 1949 Jan;24(1):1-15. doi: 10.1104/pp.24.1.1.
2
ASYMMETRIC DISTRIBUTION OF C IN SUGARS FORMED DURING PHOTOSYNTHESIS.光合作用过程中形成的糖类中碳的不对称分布。
Proc Natl Acad Sci U S A. 1957 Jun 15;43(6):446-51. doi: 10.1073/pnas.43.6.446.
3
Triosephosphate dehydrogenase and glucose-6-phosphate dehydrogenase in the pea plant.豌豆植株中的磷酸丙糖脱氢酶和葡萄糖-6-磷酸脱氢酶。
Nature. 1952 Jul 26;170(4317):164-5. doi: 10.1038/170164a0.
4
Crystalline transketolase from bakers' yeast: isolation and properties.来自面包酵母的结晶转酮醇酶:分离与性质
J Biol Chem. 1955 May;214(1):409-26.
5
Regulatory mechanisms in carbohydrate metabolism. V. Limiting factors of glycolysis in HeLa cells.碳水化合物代谢中的调节机制。V. 海拉细胞糖酵解的限制因素。
J Biol Chem. 1959 Nov;234:2806-10.
6
Partial resolution of the enzymes catalyzing oxidative phosphorylation. II. Participation of a soluble adenosine tolphosphatase in oxidative phosphorylation.催化氧化磷酸化的酶的部分分解。II. 可溶性腺苷三磷酸酶在氧化磷酸化中的作用。
J Biol Chem. 1960 Nov;235:3330-6.
7
Comparative biochemistry of urea synthesis. II. Levels of urea cycle enzymes in metamorphosing Rana catesbeiana tadpoles.尿素合成的比较生物化学。II. 美国牛蛙蝌蚪变态过程中尿素循环酶的水平。
J Biol Chem. 1959 Jul;234(7):1775-80.
8
Regulatory mechanisms in carbohydrate metabolism. III. Limiting factors in glycolysis of ascites tumor cells.碳水化合物代谢中的调节机制。III. 腹水肿瘤细胞糖酵解中的限制因素。
J Biol Chem. 1959 May;234(5):1029-35.
9
The reductive pentose phosphate cycle. II. Specific C-1 phosphatases for fructose 1,6-diphosphate and sedoheptulose 1,7-diphosphate.磷酸戊糖还原循环。II. 针对1,6 - 二磷酸果糖和1,7 - 二磷酸景天庚酮糖的特异性C - 1磷酸酶
Arch Biochem Biophys. 1958 Apr;74(2):326-44. doi: 10.1016/0003-9861(58)90004-3.
10
The oxidative pentose phosphate cycle. III. The interconversion of ribose 5-phosphate, ribulose 5-phosphate and xylulose 5-phosphate.磷酸戊糖氧化循环。III. 5-磷酸核糖、5-磷酸核酮糖和5-磷酸木酮糖的相互转化。
Arch Biochem Biophys. 1958 Apr;74(2):315-25. doi: 10.1016/0003-9861(58)90003-1.

The reductive pentose phosphate cycle. III. Enzyme activities in cell-free extracts of photosynthetic organisms.

作者信息

Peterkofsky A, Racker E

机构信息

Division of Nutrition & Physiology, Public Health Research Institute of the City of New York, Inc., New York 9.

出版信息

Plant Physiol. 1961 Jul;36(4):409-14. doi: 10.1104/pp.36.4.409.

DOI:10.1104/pp.36.4.409
PMID:16655531
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC406159/
Abstract
摘要