Effet inhibiteur de Zn2+ sur la biosynthese induite par l'oxygene des enzymes respiratoires de la levure

Lisa Ohaniance, Paulette Chaix
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引用次数: 20

Abstract

To investigate what the function might be of the Zn-protoporphyrin present in yeast cells, the course of the O2-induced biosynthesis of respiratory enzymes was studied in yeast harvested from anaerobic culture on synthetic medium, either with Zn2+ added at a concentration which stimulates the growth ((+) Zn yeast) or without added Zn2+ ((−) Zn yeast).

Zn2+ has an inhibitory effect of the respiratory adaptation. In (−) Zn yeast, the adaptive development of respiratory enzymes is much faster; there is an increase of cytochrome content, O2 consumption, succinate: cytochrome c reductase and NADH2: cytochrome c reductase activities and a decrease of fermentation.

Different hypotheses are presented to explain the inhibitory effect of Zn2+ on the synthesis of respiratory enzymes.

Zn2+对酵母呼吸酶氧诱导生物合成的抑制作用
为了研究酵母细胞中存在的Zn-原卟啉的功能,在合成培养基上厌氧培养的酵母中,研究了o2诱导呼吸酶的生物合成过程,其中Zn2+添加浓度刺激生长((+)Zn酵母)或不添加Zn2+((−)Zn酵母)。Zn2+对呼吸适应有抑制作用。在(−)Zn酵母中,呼吸酶的适应性发育快得多;细胞色素含量、耗氧量、琥珀酸-细胞色素c还原酶和NADH2 -细胞色素c还原酶活性增加,发酵量减少。对Zn2+对呼吸酶合成的抑制作用提出了不同的假说。
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