Department of Biology, University of Essex, Wivenhoe Park, Colchester, C03 3SQ, Essex, England.
Curr Genet. 1984 May;8(4):253-9. doi: 10.1007/BF00419721.
In Aspergillus nidulans there are two alcohol dehydrogenases. In the presence of ethanol, alcohol dehydrogenase I (AHH I) is induced and alcohol dehydrogenase II (ADH II) is repressed. ADH I and ADH II have molecular weights of 39,000 and 36,000 respectively. At least ADH I is under the control of alcR, a transacting regulatory gene that is adjacent to alcA (the structural gene for ADH I, Pateman et al. 1983). Mutations in the alcR regulatory gene result in non inducibility of ADH I specific mRNA. Extreme alcA and alcR mutations result in derepressed levels of ADH II, and it is not clear whether alcR controls ADH II directly or through its control of ADH I synthesis. Both enzymes are subject to carbon catabolite repression. Induction of ADH I and ADH II operates at the level of synthesis or processing of mRNA.
在构巢曲霉中有两种醇脱氢酶。在乙醇存在的情况下,醇脱氢酶 I(ADH I)被诱导,而醇脱氢酶 II(ADH II)被抑制。ADH I 和 ADH II 的分子量分别为 39,000 和 36,000。至少 ADH I 受 alcR 的控制,alcR 是一个反式作用的调节基因,位于 alcA(ADH I 的结构基因)的旁边(Pateman 等人,1983 年)。alcR 调节基因的突变导致 ADH I 特异性 mRNA 的非诱导性。极端的 alcA 和 alcR 突变导致 ADH II 的去抑制水平,目前尚不清楚 alcR 是否直接控制 ADH II,还是通过其对 ADH I 合成的控制。两种酶都受到碳分解代谢物的抑制。ADH I 和 ADH II 的诱导作用发生在 mRNA 的合成或加工水平上。