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1
Factors influencing palmitoyl-CoA oxidation by rat liver peroxisomal fractions. Substrate concentration, organelle integrity and ATP.影响大鼠肝脏过氧化物酶体组分中棕榈酰辅酶A氧化的因素。底物浓度、细胞器完整性与ATP
Biochem J. 1980 Sep 15;190(3):485-94. doi: 10.1042/bj1900485.
2
Mitochondrial and peroxisomal fatty acid oxidation in liver homogenates and isolated hepatocytes from control and clofibrate-treated rats.来自对照和氯贝丁酯处理大鼠的肝脏匀浆和分离肝细胞中线粒体和过氧化物酶体的脂肪酸氧化
J Biol Chem. 1979 Jun 10;254(11):4585-95.
3
Rat liver peroxisomes, II. Stimulation of peroxisomal fatty-acid beta-oxidation by thyroid hormones.大鼠肝脏过氧化物酶体,II. 甲状腺激素对过氧化物酶体脂肪酸β氧化的刺激作用
Hoppe Seylers Z Physiol Chem. 1983 Nov;364(11):1541-7. doi: 10.1515/bchm2.1983.364.2.1541.
4
Physiological role of peroxisomal beta-oxidation in liver of fasted rats.禁食大鼠肝脏中过氧化物酶体β-氧化的生理作用。
J Biochem. 1980 Jun;87(6):1855-8. doi: 10.1093/oxfordjournals.jbchem.a132931.
5
Mitochondrial and peroxisomal fatty acid oxidation in liver homogenates from control and clofibrate-treated rats [proceedings].对照和氯贝丁酯处理大鼠肝脏匀浆中的线粒体和过氧化物酶体脂肪酸氧化[会议论文集]
Arch Int Physiol Biochim. 1979 Feb;87(1):209-10.
6
Metabolism of acetyl-CoA by isolated peroxisomal fractions: formation of acetate and acetoacetyl-CoA.
J Lipid Res. 1991 Jun;32(6):993-9.
7
Transport of fatty acids into human and rat peroxisomes. Differential transport of palmitic and lignoceric acids and its implication to X-adrenoleukodystrophy.脂肪酸向人和大鼠过氧化物酶体的转运。棕榈酸和木蜡酸的差异转运及其与X-肾上腺脑白质营养不良的关系。
J Biol Chem. 1992 Jul 5;267(19):13306-13.
8
Beta-oxidation of the carboxyl side chain of prostaglandin E2 in rat liver peroxisomes and mitochondria.前列腺素E2羧基侧链在大鼠肝脏过氧化物酶体和线粒体中的β-氧化作用。
J Biol Chem. 1988 Feb 25;263(6):2724-31.
9
Peroxisomal palmitoyl-CoA oxidation in the Zucker rat.Zucker大鼠中的过氧化物酶体棕榈酰辅酶A氧化
Biochem J. 1983 Jun 15;212(3):891-4. doi: 10.1042/bj2120891.
10
Hepatic peroxisomal and mitochondrial fatty acid oxidation in the riboflavin-deficient rat.核黄素缺乏大鼠肝脏中过氧化物酶体和线粒体的脂肪酸氧化
Biochem J. 1985 Aug 1;229(3):717-21. doi: 10.1042/bj2290717.

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1
Exercise, Nutrition, and Supplements in the Muscle Carnitine Palmitoyl-Transferase II Deficiency: New Theoretical Bases for Potential Applications.肌肉肉碱棕榈酰转移酶II缺乏症中的运动、营养与补充剂:潜在应用的新理论基础
Front Physiol. 2021 Aug 2;12:704290. doi: 10.3389/fphys.2021.704290. eCollection 2021.
2
Peroxisome-mitochondria interplay and disease.过氧化物酶体与线粒体的相互作用及疾病
J Inherit Metab Dis. 2015 Jul;38(4):681-702. doi: 10.1007/s10545-015-9819-7. Epub 2015 Feb 17.
3
Involvement of carnitine acyltransferases in peroxisomal fatty acid metabolism by the yeast Pichia guilliermondii.肉碱酰基转移酶参与季也蒙毕赤酵母的过氧化物酶体脂肪酸代谢。
Appl Environ Microbiol. 1996 Oct;62(10):3864-7. doi: 10.1128/aem.62.10.3864-3867.1996.
4
Peroxisomal fatty acid oxidation as detected by H2O2 production in intact perfused rat liver.通过完整灌注大鼠肝脏中过氧化氢生成所检测到的过氧化物酶体脂肪酸氧化。
Biochem J. 1981 Jun 15;196(3):705-12. doi: 10.1042/bj1960705.
5
Evidence that peroxisomal acyl-CoA synthetase is located at the cytoplasmic side of the peroxisomal membrane.过氧化物酶体酰基辅酶A合成酶位于过氧化物酶体膜胞质侧的证据。
Biochem J. 1982 Apr 15;204(1):17-23. doi: 10.1042/bj2040017.
6
Water- and solute-accessible spaces of purified peroxisomes. Evidence that peroxisomes are permeable to NAD+.纯化过氧化物酶体的水相和溶质可及空间。过氧化物酶体对NAD⁺具有通透性的证据。
Biochem J. 1983 Mar 15;210(3):685-93. doi: 10.1042/bj2100685.
7
Induction, immunochemical identity and immunofluorescence localization of an 80 000-molecular-weight peroxisome-proliferation-associated polypeptide (polypeptide PPA-80) and peroxisomal enoyl-CoA hydratase of mouse liver and renal cortex.小鼠肝脏和肾皮质中80000分子量过氧化物酶体增殖相关多肽(多肽PPA - 80)及过氧化物酶体烯酰辅酶A水合酶的诱导、免疫化学特性及免疫荧光定位
Biochem J. 1981 Jul 15;198(1):177-86. doi: 10.1042/bj1980177.
8
Effects of chronic modification of dietary fat and carbohydrate in rats.大鼠饮食中脂肪和碳水化合物长期改变的影响。
Biochem J. 1981 Nov 15;200(2):265-73. doi: 10.1042/bj2000265.
9
Inhibition of peroxisomal fatty acyl-CoA oxidase by antimycin A.抗霉素A对过氧化物酶体脂肪酰辅酶A氧化酶的抑制作用。
Biochem J. 1987 Dec 1;248(2):603-7. doi: 10.1042/bj2480603.
10
Large cation-selective pores from rat liver peroxisomal membranes incorporated to planar lipid bilayers.来自大鼠肝脏过氧化物酶体膜的大阳离子选择性孔整合到平面脂质双分子层中。
J Membr Biol. 1986;94(3):285-91. doi: 10.1007/BF01869724.

本文引用的文献

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Properties of catalase. Catalysis of coupled oxidation of alcohols.过氧化氢酶的性质。醇类的偶联氧化催化作用。
Biochem J. 1945;39(4):293-301.
2
The effect of the degree of homogenization on the catalase activity of liver homogenates.匀浆程度对肝脏匀浆过氧化氢酶活性的影响。
Br J Cancer. 1957 Jun;11(2):310-25. doi: 10.1038/bjc.1957.39.
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The colorimetric estimation of formaldehyde by means of the Hantzsch reaction.通过汉茨希反应对比色法测定甲醛。
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4
Removal of fatty acids from serum albumin by charcoal treatment.通过活性炭处理从血清白蛋白中去除脂肪酸。
J Biol Chem. 1967 Jan 25;242(2):173-81.
5
Tissue fractionation studies. 17. Intracellular distribution of monoamine oxidase, aspartate aminotransferase, alanine aminotransferase, D-amino acid oxidase and catalase in rat-liver tissue.组织分级分离研究。17. 大鼠肝脏组织中单胺氧化酶、天冬氨酸转氨酶、丙氨酸转氨酶、D-氨基酸氧化酶和过氧化氢酶的细胞内分布。
Biochem J. 1964 Jul;92(1):179-84. doi: 10.1042/bj0920179.
6
The combustion of alcohol and its inhibition by 4-methyl-pyrazole in perfused rat livers.酒精在灌注大鼠肝脏中的燃烧及其被4-甲基吡唑抑制的情况。
Arch Biochem Biophys. 1972 Aug;151(2):434-44. doi: 10.1016/0003-9861(72)90519-x.
7
The large-scale separation of peroxisomes, mitochondria, and lysosomes from the livers of rats injected with triton WR-1339. Improved isolation procedures, automated analysis, biochemical and morphological properties of fractions.从注射曲拉通WR-1339的大鼠肝脏中大规模分离过氧化物酶体、线粒体和溶酶体。改进的分离程序、自动分析、各组分的生化和形态学特性。
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8
Differential increase of hepatic peroxisomal, mitochondrial and microsomal carnitine acyltransferases in clofibrate-fed rats.氯贝丁酯喂养的大鼠肝脏过氧化物酶体、线粒体和微粒体肉碱酰基转移酶的差异增加。
Biochem Pharmacol. 1977 Sep 15;26(18):1697-702. doi: 10.1016/0006-2952(77)90147-2.
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Subcellular distribution of the enzymes of the fatty acyl-CoA beta-oxidation system and their induction by di(2-ethylhexyl)phthalate in rat liver.大鼠肝脏中脂肪酰辅酶Aβ-氧化系统酶的亚细胞分布及其邻苯二甲酸二(2-乙基己基)酯诱导作用
J Biochem. 1979 Jan;85(1):131-9. doi: 10.1093/oxfordjournals.jbchem.a132302.
10
The effect of clofibrate-feeding on hepatic fatty acid metabolism.氯贝丁酯喂养对肝脏脂肪酸代谢的影响。
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影响大鼠肝脏过氧化物酶体组分中棕榈酰辅酶A氧化的因素。底物浓度、细胞器完整性与ATP

Factors influencing palmitoyl-CoA oxidation by rat liver peroxisomal fractions. Substrate concentration, organelle integrity and ATP.

作者信息

Thomas J, Debeer L J, De Schepper P J, Mannaerts G P

出版信息

Biochem J. 1980 Sep 15;190(3):485-94. doi: 10.1042/bj1900485.

DOI:10.1042/bj1900485
PMID:7470063
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1162123/
Abstract
  1. The first dehydrogenation step of peroxisomal beta-oxidation involves the reduction of O2 to H2O2. Production rates of H2O2 and acetyl units by purified rat liver peroxisomes oxidizing palmitoyl-CoA were equal, indicating that H2O2 production is a reliable index for the release of acetyl units during peroxisomal fatty-acid oxidation. 2. Measurements of H2O2 and acid-soluble oxidation products during [1-14C]palmitoyl-CoA oxidation by purified peroxisomes revealed that the number of acetyl units released per molecule of palmitoyl-CoA oxidized rapidly decreased with increasing unbound palmitoyl-CoA concentrations. Structural damage to the peroxisomes caused by detergents or other treatments also decreased the number of acetyl units released. Under conditions where oxidation proceeded linearly with time the theoretical maximum of 5 acetyl units released per molecule of palmitoyl-CoA oxidized [Lazarow (1978) J. Biol. Chem. 253, 1522--1528] was never reached. 3. Expressed in terms of acetyl units produced and measured at low unbound-palmitoyl-CoA concentrations, mitochondrial oxidation was 10--20-fold higher than peroxisomal oxidation. 4. ATP stimulated peroxisomal palmitoyl-CoA oxidation approx. 2-fold. The ATP effect required the presence of Mg2+ and was lost when peroxisomal membranes were disrupted by Triton X-100 or high concentrations of unbound palmitoyl-CoA. 5. Disruption of peroxisomes by detergents, freeze--thawing, osmotic or mechanical treatment did not stimulate palmitoyl-CoA oxidation in the presence of ATP, indicating that peroxisomal fatty-acid-CoA oxidation was not latent. In the absence of ATP, Triton X-100 stimulated peroxisomal palmitoyl-CoA oxidation approx. 2-fold.
摘要
  1. 过氧化物酶体β-氧化的第一步脱氢反应涉及将O2还原为H2O2。纯化的大鼠肝脏过氧化物酶体氧化棕榈酰辅酶A时,H2O2和乙酰单位的生成速率相等,这表明H2O2的生成是过氧化物酶体脂肪酸氧化过程中乙酰单位释放的可靠指标。2. 在纯化的过氧化物酶体氧化[1-14C]棕榈酰辅酶A的过程中,对H2O2和酸溶性氧化产物的测量表明,随着游离棕榈酰辅酶A浓度的增加,每氧化一分子棕榈酰辅酶A释放的乙酰单位数量迅速减少。洗涤剂或其他处理对过氧化物酶体造成的结构损伤也会减少乙酰单位的释放量。在氧化随时间呈线性进行的条件下,每氧化一分子棕榈酰辅酶A释放5个乙酰单位的理论最大值[拉扎罗(1978年)《生物化学杂志》253卷,1522 - 1528页]从未达到。3. 以在低游离棕榈酰辅酶A浓度下产生并测量的乙酰单位来表示,线粒体氧化比过氧化物酶体氧化高10 - 20倍。4. ATP使过氧化物酶体棕榈酰辅酶A氧化增加约2倍。ATP的这种作用需要Mg2+的存在,当用Triton X - 100或高浓度的游离棕榈酰辅酶A破坏过氧化物酶体膜时,这种作用就会消失。5. 用洗涤剂、冻融、渗透或机械处理破坏过氧化物酶体,在有ATP存在的情况下并不会刺激棕榈酰辅酶A的氧化,这表明过氧化物酶体脂肪酸辅酶A氧化没有潜在活性。在没有ATP的情况下,Triton X - 100使过氧化物酶体棕榈酰辅酶A氧化增加约2倍。