The egress of oxygen from sheep erythrocytes after mixing with sodium dithionite

Biochimica et Biophysica Acta (BBA) - Biophysics including Photosynthesis Pub Date : 1966-09-05 DOI:10.1016/0926-6585(66)90033-1

John A. Sirs

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引用次数: 7

Abstract

Spectrophotometric measurements, using the rapid-mixing technique, have been made of the initial rate of egress of oxygen from HbO₂ in sheep erythrocytes after mixing with dithionite. This rate is $18 sec^{−1} ± 20%$ at 25° and the activation energy is $14 kcal ± 20%$ for HbB. No variation was found with a change of oxygen concentration from 0.075–0.35 mM at 10°, nor with a change of Na₂S₂O₄ concentration from 4–12 g/l. The rate of dissociation was found to be greater, during the later part of the reaction, with the stopped-flow system as compared with the constant-flow technique. An analysis of the results suggests that the cell membrane has negligible resistance to the egress of oxygen and that the initial rate is determined by the chemical reaction of $HbO_{2} → Hb$ . It is also suggested that the internal contents of the erythrocyte may be effectively mixed.

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绵羊红细胞与二亚硝酸钠混合后的氧气输出

采用快速混合技术，用分光光度法测定了绵羊红细胞中HbO2与二亚铁混合后氧的初始排出率。在25°温度下，该速率为18秒−1±20%，HbB的活化能为14千卡±20%。氧浓度从0.075 ~ 0.35 mM在10°范围内变化，Na2S2O4浓度从4 ~ 12 g/l变化也没有发现变化。在反应的后期，与恒流技术相比，停流系统的解离率更高。对结果的分析表明，细胞膜对氧气的输出具有可忽略不计的阻力，并且初始速率由HbO2→Hb的化学反应决定。这也表明红细胞的内部内容物可能是有效的混合。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Biochimica et Biophysica Acta (BBA) - Biophysics including Photosynthesis

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