Effect of glucose and other carbon compounds on the transport of α-methylglucoside in Escherichia coli K12

Yeheskel S. Halpern, Meir Lupo
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引用次数: 11

Abstract

The effect of glucose, succinate, sorbitol, glycerol and arabinose on the rate of uptake of α-[14C]methylglucoside by Escherichia coli K12 was studied in comparison with the effect of these substances on the rate of α-methylglucoside exit from cells preloaded with the radioactive compound.

Glucose was a very potent inhibitor of uptake and greatly accelerated exit, its effect on the former reaction exceeding four-fold that on the latter. Each of the other compounds tested was much less active than glucose and affected both uptake and exit of methylglucoside to a similar extent.

The inhibition of uptake and the acceleration of exit by glucose were not affected by sodium azide. On the other hand, azide practically abolished the effect of succinate and glycerol, both on the uptake and exit reactions and reduced to 50% the effect of sorbitol.

These results provide further support for the conclusion reached by Hoffeeet al. that α-methylglucoside is transported by a glucose permease and that the inhibitory effect of metabolizable compounds on its uptake is due to energy supply for the exit reaction. Another possible mechanism for acceleration of exit in the presence of hexitols and sugars is also discussed.

葡萄糖和其他碳化合物对大肠杆菌K12中α-甲基葡萄糖苷转运的影响
研究了葡萄糖、琥珀酸盐、山梨醇、甘油和阿拉伯糖对大肠杆菌K12对α-[14C]甲基葡萄糖苷的摄取速率的影响,并比较了这些物质对α-甲基葡萄糖苷从预载放射性化合物的细胞中排出速率的影响。葡萄糖是一种非常有效的摄取抑制剂,它对前一种反应的影响超过后一种反应的四倍。其他化合物的活性都比葡萄糖低得多,对甲基葡萄糖苷的吸收和排出都有类似的影响。叠氮化钠对葡萄糖抑制摄取和加速退出的作用不受影响。叠氮化物几乎消除了琥珀酸酯和甘油对吸收和退出反应的影响,并将山梨醇的影响降低到50%。这些结果进一步支持了Hoffeeet等人的结论,即α-甲基葡萄糖苷是通过葡萄糖渗透酶转运的,可代谢化合物对α-甲基葡萄糖苷摄取的抑制作用是由于出口反应的能量供应。另外还讨论了在己醇和糖存在下加速退出的另一种可能机制。
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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