Hasunuma K, Ishikawa T
Genetics. 1972 Mar;70(3):371-84. doi: 10.1093/genetics/70.3.371.
Two genes, nuc-1 and nuc-2, of Neurospora crassa which were responsible for the nucleic acid digestion, were located on linkage group 1 and 2, respectively. A temperature-sensitive mutant (B1ts-2) was obtained from a nuc-2 mutant. Nuclease mutants showed a reduced activity of nuclease N(3) which was found to be a complex consisting of nuclease N(3) (') and inhibitor molecule. Nuclease N(3), nuclease N(3) (') and inhibitor were partially purified and estimated to have the approximate molecular weights of 38,000, 12,500 and 25,000 respectively. A nuc-1 mutant produced the nuclease N(3) (') altered in thermolability. A nuc-2 mutant and B1ts-2 produced the inhibitor altered in the capacity to inhibit nuclease N(3) (') activity. The inhibitor prepared from B1ts-2 was more thermostable than that from other strains. From these results, it was suggested that the nuc-1 gene is the structural gene for nuclease N(3) (') and the nuc-2 gene that for the inhibitor. A possible involvement of this enzyme-inhibitor complex in the regulation of nuclease activity and synthesis of other proteins was suggested.
粗糙脉孢菌中负责核酸消化的两个基因,nuc - 1和nuc - 2,分别位于连锁群1和连锁群2上。从nuc - 2突变体中获得了一个温度敏感突变体(B1ts - 2)。核酸酶突变体显示核酸酶N(3)的活性降低,发现该核酸酶是由核酸酶N(3)(')和抑制剂分子组成的复合物。核酸酶N(3)、核酸酶N(3)(')和抑制剂被部分纯化,估计其近似分子量分别为38,000、12,500和25,000。一个nuc - 1突变体产生了热稳定性改变的核酸酶N(3)(')。一个nuc - 2突变体和B1ts - 2产生了抑制核酸酶N(3)(')活性能力改变的抑制剂。从B1ts - 2制备的抑制剂比其他菌株的更耐热。从这些结果推测,nuc - 1基因是核酸酶N(3)(')的结构基因,nuc - 2基因是抑制剂的结构基因。有人提出这种酶 - 抑制剂复合物可能参与核酸酶活性的调节和其他蛋白质的合成。