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绵羊肝脏线粒体对丙酸的代谢。α-酮戊二酸、三磷酸腺苷、氯化钠和氯化钾的影响。

Metabolism of propionate by sheep-liver mitochondria. Effects of alpha-oxoglutarate, adenosine triphosphate, sodium chloride and potassium chloride.

作者信息

Smith R M, Russell G R

出版信息

Biochem J. 1967 Aug;104(2):450-9. doi: 10.1042/bj1040450.

DOI:10.1042/bj1040450
PMID:6048787
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1270606/
Abstract
  1. A study has been made of the effects of ATP and alpha-oxoglutarate on the rate of metabolism of propionate by whole mitochondria from sheep liver, and by mitochondria disrupted with ultrasonic energy or by freezing and thawing. Whole mitochondria metabolized propionate aerobically; the rate was increased and stabilized by 0.5mm-ATP, and increased at least a further 50% by 1.67mm-alpha-oxoglutarate. 2. Anaerobically, externally added ATP at high concentrations permitted slow consumption of propionate. 3. In the presence of 1.3mm-ATP, but in the absence of alpha-oxoglutarate, there was no significant lag phase in the removal of propionate by whole mitochondria, and the rate declined at concentrations below 2mm. In the additional presence of 1.67mm-alpha-oxoglutarate or -glutamate, propionate was removed at linear rates until the residual propionate concentration was about 0.1mm. 4. Maximum rates of metabolism of propionate by whole mitochondria with 1.3mm-ATP occurred with alkali-metal chloride concentrations of 65-95mm and with K(+)/Na(+) ratios 5-10, both in the presence and absence of alpha-oxoglutarate. 5. With disrupted mitochondria stimulatory effects of alpha-oxoglutarate were obtained only aerobically, only with propionate and not propionyl-CoA as substrate, and only when sufficient mitochondrial structure remained to permit unsupplemented metabolism of propionate to occur. 6. In the presence of ATP and CoA, disrupted mitochondria fixed [2-(14)C]propionate at a rate adequate to explain the rate with whole mitochondria stimulated with ATP and alpha-oxoglutarate. 7. With both whole and partially disrupted mitochondria in the absence of ATP, the rate of metabolism of propionate was inhibited by about 80% by 3.3mm-AMP. The inhibition was partly overcome by alpha-oxoglutarate plus CoA. 8. It is concluded that the ultimate effect of alpha-oxoglutarate was to increase the rate of supply of ATP within the mitochondria. Reasons are given why it is premature to conclude that the extra ATP arose entirely from the oxidation of alpha-oxoglutarate itself.
摘要
  1. 对ATP和α-酮戊二酸对绵羊肝脏完整线粒体以及经超声处理或冻融破坏的线粒体中丙酸代谢速率的影响进行了研究。完整线粒体在有氧条件下代谢丙酸;0.5mmol/L的ATP可提高并稳定代谢速率,1.67mmol/L的α-酮戊二酸可使代谢速率至少再提高50%。2. 在无氧条件下,高浓度的外源ATP可使丙酸缓慢消耗。3. 在存在1.3mmol/L ATP但不存在α-酮戊二酸的情况下,完整线粒体去除丙酸时无明显延迟期,且在浓度低于2mmol/L时代谢速率下降。在额外存在1.67mmol/Lα-酮戊二酸或谷氨酸的情况下,丙酸以线性速率被去除,直至残留丙酸浓度约为0.1mmol/L。4. 在存在和不存在α-酮戊二酸的情况下,当碱金属氯化物浓度为65 - 9.95mmol/L且K⁺/Na⁺比值为5 - 10时,完整线粒体在1.3mmol/L ATP存在下丙酸代谢的最大速率出现。5. 对于破坏的线粒体,α-酮戊二酸的刺激作用仅在有氧条件下获得,仅以丙酸而非丙酰辅酶A作为底物,且仅当保留足够的线粒体结构以允许未补充物质时丙酸代谢发生时才出现。6. 在ATP和辅酶A存在的情况下,破坏的线粒体固定[2-(¹⁴)C]丙酸的速率足以解释用ATP和α-酮戊二酸刺激的完整线粒体的代谢速率。7. 在不存在ATP的情况下,完整和部分破坏的线粒体中,3.3mmol/L的AMP可使丙酸代谢速率降低约80%。α-酮戊二酸加辅酶A可部分克服这种抑制作用。8. 得出结论,α-酮戊二酸的最终作用是提高线粒体内ATP的供应速率。给出了为何现在就得出额外的ATP完全来自α-酮戊二酸自身氧化还为时过早的原因。

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1
Metabolism of propionate by sheep-liver mitochondria. Effects of alpha-oxoglutarate, adenosine triphosphate, sodium chloride and potassium chloride.绵羊肝脏线粒体对丙酸的代谢。α-酮戊二酸、三磷酸腺苷、氯化钠和氯化钾的影响。
Biochem J. 1967 Aug;104(2):450-9. doi: 10.1042/bj1040450.
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引用本文的文献

1
Metabolism of propionate by sheep-liver mitochondria. Evidence for rate control by a specific succinate oxidase.绵羊肝脏线粒体中丙酸的代谢。特定琥珀酸氧化酶进行速率控制的证据。
Biochem J. 1967 Aug;104(2):460-72. doi: 10.1042/bj1040460.
2
Interactions of acetate, propionate and butyrate in sheep liver mitochondria.绵羊肝脏线粒体中乙酸盐、丙酸盐和丁酸盐的相互作用。
Biochem J. 1971 Oct;124(5):877-81. doi: 10.1042/bj1240877.
3
Synthesis of phosphoenolpyruvate from propionate in sheep liver.绵羊肝脏中由丙酸合成磷酸烯醇丙酮酸
Biochem J. 1971 Oct;124(5):867-76. doi: 10.1042/bj1240867.

本文引用的文献

1
Effects of sodium and potassium ions on oxidative phosphorylation in relation to respiratory control by a cell-membrane adenosine triphosphatase.钠和钾离子对氧化磷酸化的影响与细胞膜三磷酸腺苷酶的呼吸控制的关系。
Biochem J. 1965 Nov;97(2):523-31. doi: 10.1042/bj0970523.
2
Metabolism of propionate by sheep liver. Stimulation of the mitochondrial rate by factors from the cell sap.绵羊肝脏中丙酸的代谢。细胞液中的因子对线粒体速率的刺激作用。
Biochem J. 1965 May;95(2):423-30. doi: 10.1042/bj0950423.
3
METABOLISM OF PROPIONATE BY SHEEP LIVER. INTERRELATIONS OF PROPIONATE AND GLUTAMATE IN AGED MITOCHONDRIA.绵羊肝脏中丙酸盐的代谢。衰老线粒体中丙酸盐与谷氨酸的相互关系。
Biochem J. 1965 May;95(2):431-6. doi: 10.1042/bj0950431.
4
METABOLISM OF PROPIONATE BY SHEEP LIVER. OXIDATION OF PROPIONATE BY HOMOGENATES.绵羊肝脏中丙酸的代谢。匀浆对丙酸的氧化作用。
Biochem J. 1965 May;95(2):411-22. doi: 10.1042/bj0950411.
5
Metabolism of acetate, propionate and butyrate by sheep-liver slices.绵羊肝脏切片对乙酸盐、丙酸盐和丁酸盐的代谢
Biochem J. 1963 Feb;86(2):319-27. doi: 10.1042/bj0860319.
6
Oxidative phosphorylation in submitochondrial systems.亚线粒体系统中的氧化磷酸化作用。
Fed Proc. 1960 Dec;19:952-62.
7
Respiratory control and compartmentation of substrate level phosphorylation in liver mitochondria.肝脏线粒体中底物水平磷酸化的呼吸控制与区室化
J Biol Chem. 1961 May;236:1501-9.
8
Oxidative phosphorylation in mitochondria from aged rats.老年大鼠线粒体中的氧化磷酸化。
J Biol Chem. 1959 Feb;234(2):412-7.
9
Oxidative phosphorylation by mitochondrial suspensions after freezing and storage at low temperatures.线粒体悬浮液在低温冷冻和储存后的氧化磷酸化作用。
J Biol Chem. 1958 Aug;233(2):524-7.
10
Oxidative phosphorylation in mitochondrial fragments obtained by sonic vibration.通过超声振动获得的线粒体片段中的氧化磷酸化作用。
J Biol Chem. 1958 Jan;230(1):521-33.