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本文引用的文献

1
Cation exchange between cells and plasma of mammalian blood; methods and application to potassium exchange in human blood.哺乳动物血液中细胞与血浆之间的阳离子交换;方法及其在人体血液钾交换中的应用。
J Gen Physiol. 1950 Jul 20;33(6):703-22. doi: 10.1085/jgp.33.6.703.
2
Equations for tracer experiments.示踪剂实验的方程式。
J Clin Invest. 1949 Nov;28(6 Pt 1):1297-1307. doi: 10.1172/JCI102197.
3
[STUDIES ON THE ELECTROLYTE CONTENT OF EHRLICH ASCITES TUMOR CELLS].[艾氏腹水癌细胞电解质含量的研究]
Biochem Z. 1963 Jul 26;337:462-76.
4
Sodium fluxes in the Ehrlich mouse ascites tumor cell.艾氏小鼠腹水瘤细胞中的钠通量
Am J Physiol. 1963 May;204:789-94. doi: 10.1152/ajplegacy.1963.204.5.789.
5
Potassium transport in the Ehrlich mouse ascites tumor cell: evidence for autoinhibition by external potassium.艾氏小鼠腹水癌细胞中的钾转运:细胞外钾自抑制的证据。
J Cell Comp Physiol. 1962 Dec;60:181-98. doi: 10.1002/jcp.1030600302.
6
Potassium and sodium movements in the Ehrlich mouse ascites tumor cell.艾氏小鼠腹水瘤细胞中的钾离子和钠离子运动
J Gen Physiol. 1958 Jan 20;41(3):565-83. doi: 10.1085/jgp.41.3.565.
7
Restriction of cellular iodide space by mediated efflux.
Biochim Biophys Acta. 1966 Jul 13;120(3):383-94. doi: 10.1016/0926-6585(66)90305-0.
8
[Chloride transport and cation pump in Ehrlich ascites cells].[艾氏腹水癌细胞中的氯离子转运与阳离子泵]
Eur J Biochem. 1968 Jan;3(3):377-84. doi: 10.1111/j.1432-1033.1968.tb19540.x.
9
The effect of 2,4,6-trinitro-m-cresol on cation and anion transport in sheep red blood cells.2,4,6-三硝基间甲酚对绵羊红细胞中阳离子和阴离子转运的影响。
J Gen Physiol. 1971 May;57(5):593-609. doi: 10.1085/jgp.57.5.593.
10
The anion permeability of frog skeletal muscle in fluoride solutions.
J Physiol. 1970 Dec;211(2):Suppl:3P-4P.

细胞外阴离子对腹水肿瘤细胞跨膜氯离子稳态交换的影响。

The effect of external anions on steady-state chloride exchange across ascites tumour cells.

作者信息

Aull F

出版信息

J Physiol. 1972 Mar;221(3):755-71. doi: 10.1113/jphysiol.1972.sp009781.

DOI:10.1113/jphysiol.1972.sp009781
PMID:5016371
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1331365/
Abstract
  1. The rate of cell chloride exchange, or efflux coefficient, was measured after equilibration in media of different anionic composition.2. When sulphate substituted for chloride in the medium, the efflux coefficient was always higher than in control chloride solutions and varied inversely with external chloride concentration. In sulphate the chloride efflux coefficient varied from 19.6 to 100.7 hr(-1). The mean control efflux coefficient was 6.60 +/- 0.677 (S.E. of mean).3. In contrast, when external nitrate substituted for chloride, the efflux coefficient was independent of external chloride concentration and the same as in control chloride media. The mean value in nitrate was 6.42 +/- 0.603 (S.E. of mean). The results confirm findings of Hempling & Kromphardt (1965).4. Steady-state chloride flux varied in direct proportion to the external chloride concentration, which would be expected for passive chloride exchange. However, the slope of the line relating these variables was higher in sulphate than in nitrate and control media. Thus at any given external chloride concentration chloride flux was greater in sulphate than in nitrate and control solutions.5. It is suggested that the effect of sulphate to increase cell chloride exchange may be related to its greater tendency to bind water, relative to chloride and nitrate.
摘要

  1. 在不同阴离子组成的培养基中达到平衡后,测量细胞氯化物交换速率或流出系数。

  2. 当培养基中的硫酸盐替代氯化物时,流出系数总是高于对照氯化物溶液,且与外部氯化物浓度呈反比变化。在硫酸盐中,氯化物流出系数在19.6至100.7小时⁻¹之间变化。对照流出系数的平均值为6.60±0.677(平均值的标准误)。

  3. 相比之下,当外部硝酸盐替代氯化物时,流出系数与外部氯化物浓度无关,且与对照氯化物培养基中的相同。硝酸盐中的平均值为6.42±0.603(平均值的标准误)。结果证实了亨普林和克伦普哈特(1965年)的发现。

  4. 稳态氯化物流通量与外部氯化物浓度成正比变化,这对于被动氯化物交换来说是预期的。然而,将这些变量联系起来的直线斜率在硫酸盐中高于硝酸盐和对照培养基。因此,在任何给定的外部氯化物浓度下,硫酸盐中的氯化物流通量大于硝酸盐和对照溶液中的。

  5. 有人认为,硫酸盐增加细胞氯化物交换的作用可能与其相对于氯化物和硝酸盐更强的结合水的倾向有关。