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产黄青霉中的基因靶向:lys2基因的破坏导致青霉素过量生产。

Gene targeting in Penicillium chrysogenum: disruption of the lys2 gene leads to penicillin overproduction.

作者信息

Casqueiro J, Gutiérrez S, Bañuelos O, Hijarrubia M J, Martín J F

机构信息

Institute of Biotechnology (INBIOTEC), 24006 León, Spain.

出版信息

J Bacteriol. 1999 Feb;181(4):1181-8. doi: 10.1128/JB.181.4.1181-1188.1999.

Abstract

Two strategies have been used for targeted integration at the lys2 locus of Penicillium chrysogenum. In the first strategy the disruption of lys2 was obtained by a single crossing over between the endogenous lys2 and a fragment of the same gene located in an integrative plasmid. lys2-disrupted mutants were obtained with 1.6% efficiency when the lys2 homologous region was 4.9 kb, but no homologous integration was observed with constructions containing a shorter homologous region. Similarly, lys2-disrupted mutants were obtained by a double crossing over (gene replacement) with an efficiency of 0.14% by using two lys2 homologous regions of 4.3 and 3.0 kb flanking the pyrG marker. No homologous recombination was observed when the selectable marker was flanked by short lys2 homologous DNA fragments. The disruption of lys2 was confirmed by Southern blot analysis of three different lysine auxotrophs obtained by a single crossing over or gene replacement. The lys2-disrupted mutants lacked alpha-aminoadipate reductase activity (encoded by lys2) and showed specific penicillin yields double those of the parental nondisrupted strain, Wis 54-1255. The alpha-aminoadipic acid precursor is channelled to penicillin biosynthesis by blocking the lysine biosynthesis branch at the alpha-aminoadipate reductase level.

摘要

在产黄青霉的lys2位点进行靶向整合时采用了两种策略。在第一种策略中,通过内源性lys2与整合质粒中相同基因片段之间的单次交换来实现lys2的破坏。当lys2同源区域为4.9 kb时,以1.6%的效率获得了lys2破坏突变体,但对于包含较短同源区域的构建体,未观察到同源整合。同样,通过使用位于pyrG标记两侧的4.3 kb和3.0 kb的两个lys2同源区域,通过双交换(基因置换)以0.14%的效率获得了lys2破坏突变体。当选择标记两侧为短的lys2同源DNA片段时,未观察到同源重组。通过对通过单次交换或基因置换获得的三种不同赖氨酸营养缺陷型进行Southern印迹分析,证实了lys2的破坏。lys2破坏突变体缺乏α-氨基己二酸还原酶活性(由lys2编码),并且其特定青霉素产量是亲本未破坏菌株Wis 54-1255的两倍。通过在α-氨基己二酸还原酶水平阻断赖氨酸生物合成分支,α-氨基己二酸前体被引导至青霉素生物合成。

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