Saxl Ruth L, Maley Gladys F, Hauer Charles R, Maccoll Robert, Changchien Liming, Maley Frank
The Wadsworth Center, New York State Department of Health, Albany, NY 12201-0509, USA.
Protein Sci. 2007 Jul;16(7):1439-48. doi: 10.1110/ps.062509807.
Wild-type thymidylate synthase (WT-TS) from Escherichia coli and several of its mutants showed varying degrees of susceptibility to trypsin. While WT-TS was resistant to trypsin as were the mutants C146S, K48E, and R126K, others such as Y94A, Y94F, C146W, and R126E were digested but at different rates from one another. The peptides released from the mutants were identified by mass spectrometry and Edman sequence analysis. The known crystal structures for WT-TS, Y94F, and R126E, surprisingly, showed no structural differences that could explain the difference in their susceptibility to trypsin. One explanation is that the mutations could perturb the dynamic equilibrium of the dimeric state of the mutants as to increase their dissociation to monomers, which being less structured than the dimer, would be hydrolyzed more readily by trypsin. Earlier studies appear to support this proposal since conditions that promote subunit dissociation in solutions of R126E with other inactive mutants, such as dilution, low concentrations of urea, and elevated pH, greatly enhance the rate of restoration of TS activity. Analytic ultracentrifuge studies with various TSs in urea, or at pH 9.0, or that have been highly diluted are, for the most part, in agreement with this thesis, since these conditions are associated with an increase in dissociation to monomers, particularly with the mutant TSs. However, these studies do not rule out the possibility that conformation differences among the various TS dimers are responsible for the differences in susceptibility to trypsin, particularly at high concentrations of protein where the WT-TS and mutants are mainly dimers.
来自大肠杆菌的野生型胸苷酸合成酶(WT-TS)及其多个突变体对胰蛋白酶表现出不同程度的敏感性。WT-TS以及突变体C146S、K48E和R126K对胰蛋白酶具有抗性,而其他突变体如Y94A、Y94F、C146W和R126E则会被消化,但彼此的消化速率不同。通过质谱和埃德曼序列分析鉴定了从突变体中释放的肽段。令人惊讶的是,WT-TS、Y94F和R126E的已知晶体结构没有显示出可以解释它们对胰蛋白酶敏感性差异的结构差异。一种解释是,这些突变可能会扰乱突变体二聚体状态的动态平衡,从而增加它们解离为单体的程度,单体的结构比二聚体更松散,更容易被胰蛋白酶水解。早期的研究似乎支持这一观点,因为在R126E与其他无活性突变体的溶液中促进亚基解离的条件,如稀释、低浓度尿素和升高pH值,会大大提高胸苷酸合成酶活性恢复的速率。对各种胸苷酸合成酶在尿素中、pH 9.0或高度稀释状态下进行的分析超速离心研究在很大程度上与这一论点一致,因为这些条件与单体解离增加有关,尤其是与突变体胸苷酸合成酶有关。然而,这些研究并没有排除各种胸苷酸合成酶二聚体之间的构象差异导致对胰蛋白酶敏感性不同的可能性,特别是在高浓度蛋白质的情况下,此时WT-TS和突变体主要以二聚体形式存在。