Gerik K J, Gary S L, Burgers P M
Department of Biochemistry and Molecular Biophysics, Washington University School of Medicine, St. Louis, Missouri 63110, USA.
J Biol Chem. 1997 Jan 10;272(2):1256-62. doi: 10.1074/jbc.272.2.1256.
Yeast replication factor C (RF-C) is a heteropentamer encoded by the RFC1-5 genes. RF-C activity in yeast extracts was overproduced about 80-fold after induction of a strain containing all five genes on a single plasmid, with expression of each gene placed under control of the galactose-inducible GAL1-10 promoter. This strongly indicates that overexpression of the five known RFC genes is sufficient for overproduction of RF-C. Overexpression of all five genes was also necessary to achieve overproduction of RF-C as omission of any single gene from the plasmid gave uninduced, i.e. normal cellular levels of RF-C. The interaction between RF-C and proliferating cell nuclear antigen (PCNA) was studied with PCNA-agarose beads. Binding of RF-C to PCNA-agarose beads is negligible in buffers containing 0.3 M NaCl. However, addition of Mg-ATP to the binding buffer caused strong binding of RF-C to the beads even at 0.8 M NaCl. Binding of ATP, but not its hydrolysis, was required for the strong binding mode as nonhydrolyzable analogs were also effective. The existence of two distinct binding modes between PCNA and RF-C was used as the key step in a greatly improved procedure for the purification of RF-C. RF-C from the overproduction strain purified by this procedure was essentially homogeneous and had a severalfold higher specific activity than RF-C preparations that had previously been purified through multicolumn procedures.
酵母复制因子C(RF-C)是一种由RFC1-5基因编码的异源五聚体。在一个单一质粒上携带所有五个基因的菌株经诱导后,酵母提取物中的RF-C活性过量产生了约80倍,每个基因的表达置于半乳糖诱导型GAL1-10启动子的控制之下。这有力地表明,五个已知RFC基因的过表达足以使RF-C过量产生。五个基因的过表达对于实现RF-C的过量产生也是必需的,因为从质粒中缺失任何一个单一基因都会导致未诱导状态,即RF-C处于正常细胞水平。使用PCNA-琼脂糖珠研究了RF-C与增殖细胞核抗原(PCNA)之间的相互作用。在含有0.3 M NaCl的缓冲液中,RF-C与PCNA-琼脂糖珠的结合可以忽略不计。然而,向结合缓冲液中添加Mg-ATP会导致即使在0.8 M NaCl条件下RF-C也能与珠子强烈结合。强烈结合模式需要ATP的结合,但不需要其水解,因为不可水解的类似物也有效。PCNA和RF-C之间两种不同结合模式的存在被用作大大改进的RF-C纯化程序中的关键步骤。通过该程序从过量产生菌株中纯化的RF-C基本上是均一的,并且比先前通过多柱程序纯化的RF-C制剂具有几倍更高的比活性。
