Schaaff-Gerstenschläger I, Zimmermann F K
Institut für Mikrobiologie, TH Darmstadt, Germany.
Curr Genet. 1993 Nov;24(5):373-6. doi: 10.1007/BF00351843.
Deletion mutants for the yeast transketolase gene TKL1 were constructed by gene replacement. Transketolase activity was below the level of detection in mutant crude extracts. Transketolase protein could be detected as a single protein band of the expected size by Western-blot analysis in wild-type strains but not in the deletion mutant. Deletion of TKL1 led to a reduced but distinct growth in synthetic medium without an aromatic amino-acid supplement. We also isolated double and triple mutants for transketolase (tkl1), transaldolase (tal1), and glucose 6-phosphate dehydrogenase (zwf1) by crossing the different mutants. A tal1 tkl1 double mutant grew nearly like wild-type in rich medium. Only the tkl1 zwf1 double and the tal1 tkl1 zwf1 triple mutant grew more slowly than the wild-type in rich medium. This growth defect could be partly alleviated by the addition of xylulose but not ribose. The triple mutant still grew slowly on a synthetic mineral salts medium without a supplement of aromatic amino acids. This suggests the existence of an alternative but limited source of pentose phosphates and erythrose 4-phosphate in the tkl1 zwf1 double mutants. Hybridization with low stringency showed the existence of a sequence with homology to transketolase, possibly a second gene.
通过基因置换构建了酵母转酮醇酶基因TKL1的缺失突变体。突变体粗提物中的转酮醇酶活性低于检测水平。通过蛋白质免疫印迹分析,在野生型菌株中可检测到转酮醇酶蛋白为预期大小的单一蛋白条带,但在缺失突变体中未检测到。TKL1的缺失导致在不添加芳香族氨基酸的合成培养基中生长有所减少但仍明显。我们还通过将不同突变体杂交,分离出了转酮醇酶(tkl1)、转醛醇酶(tal1)和葡萄糖6-磷酸脱氢酶(zwf1)的双突变体和三突变体。tal1 tkl1双突变体在丰富培养基中的生长情况几乎与野生型相同。只有tkl1 zwf1双突变体和tal1 tkl1 zwf1三突变体在丰富培养基中的生长比野生型慢。添加木酮糖而非核糖可部分缓解这种生长缺陷。三突变体在不添加芳香族氨基酸的合成矿物盐培养基上仍生长缓慢。这表明在tkl1 zwf1双突变体中存在戊糖磷酸和赤藓糖-4-磷酸的替代但有限的来源。低严谨度杂交显示存在与转酮醇酶具有同源性的序列,可能是第二个基因。
