Hollocher H, Place A R
Genetics. 1987 Jun;116(2):253-63. doi: 10.1093/genetics/116.2.253.
Using protein blotting and an immuno-overlay procedure, we have reexamined the cross-reacting material produced by ADH null-activity mutants generated with ethyl methanesulfonate (EMS). Of the 13 mutants, 11 have an immunodetectable polypeptide of wild-type size. The native and urea denatured isoelectric points (pI) establish that 7 of 13 of the mutations have no effect on protein charge. The electrophoretic mobilities of each variant on increasing percent acrylamide gels (Ferguson analysis), reveal that 9 of the 11 immunodetectable mutants have retained the ability to form dimers under native conditions. None of the inactive mutant proteins has the ability to form the "adduct-bound" isozyme. We have found no correlation between protein pI and in vivo stability. The observed frequencies of specific charge class alterations do not dispute the propensity of G:A transitions previously found for EMS mutagenesis.
利用蛋白质印迹法和免疫覆盖程序,我们重新检测了用甲磺酸乙酯(EMS)产生的乙醇脱氢酶(ADH)无活性突变体所产生的交叉反应物质。在13个突变体中,11个具有野生型大小的可免疫检测多肽。天然和尿素变性等电点(pI)表明,13个突变中有7个对蛋白质电荷无影响。在增加丙烯酰胺百分比的凝胶上各变体的电泳迁移率(弗格森分析)显示,11个可免疫检测的突变体中有9个在天然条件下保留了形成二聚体的能力。没有一个无活性的突变蛋白具有形成“加合物结合”同工酶的能力。我们没有发现蛋白质pI与体内稳定性之间的相关性。观察到的特定电荷类别改变的频率并不与先前发现的EMS诱变中G:A转换的倾向相矛盾。