Mitchell E J, Zimmerman A M
J Cell Sci. 1985 Feb;73:279-97. doi: 10.1242/jcs.73.1.279.
A protein from an ATP extract prepared from an acetone powder of Tetrahymena pyriformis GL was identified as actin. The protein migrated slightly behind muscle actin on sodium dodecyl sulphate (SDS)/10% polyacrylamide gels (SDS/PAGE) with an apparent molecular weight of 47 500 (47.5 X 10(3) Mr). Partial proteolysis of this band with Staphylococcus aureus V-8 protease followed by electrophoresis revealed a pattern of peptides in which at least four peptides were similar to those observed after digestion of rabbit skeletal muscle actin. The 47.5 X 10(3) Mr protein appeared particularly susceptible to endogenous proteolytic cleavage, which was inhibited by leupeptin. An ATP extract prepared with leupeptin was applied to a DNase I-affinity column and a distinct peak was eluted with 3 M-guanidine . HCl; the DNase I-binding protein appeared as a distinct band on SDS/PAGE with an apparent molecular weight of 47.5 X 10(3) Mr. In the absence of leupeptin, the DNase I-binding protein appeared as a broad 34 X 10(3) Mr band on gels. Both the ATP extract and the DNase I-binding protein showed reactivity with commercially available antiserum raised against native chicken skeletal muscle actin as determined by an enzyme-linked immunosorbance assay (ELISA). Immuno-blotting studies and affinity purification of this antiserum showed that the recognition was not specific to the 47.5 X 10(3) Mr protein. However, using affinity-purified anti-actin antibodies raised against denatured actin from chick smooth muscle, recognition of the 47.5 X 10(3) Mr protein and a 34 X 10(3) Mr protein was shown. In negatively stained preparations from an ATP extract after two cycles of polymerization and depolymerization there were filaments, 8-12 nm diameter, which did not decorate with subfragment S-1 of myosin, but which resembled intermediate filaments. Analysis of these filaments on SDS/PAGE indicated an intensely stained 54 X 10(3) Mr band. It is suggested that, in vitro, Tetrahymena intermediate filaments assemble under conditions expected to assemble actin filaments. Thus, in Tetrahymena there is a protein that resembles actin in its extractability, molecular weight, peptide pattern after partial proteolysis, DNase I-binding capacity and reactivity with anti-actin antibodies. However, this protein did not assemble into actin filaments in crude extracts.
从梨形四膜虫GL丙酮粉制备的ATP提取物中的一种蛋白质被鉴定为肌动蛋白。该蛋白质在十二烷基硫酸钠(SDS)/10%聚丙烯酰胺凝胶(SDS/PAGE)上的迁移位置略在肌肉肌动蛋白之后,表观分子量为47500(47.5×10³Mr)。用金黄色葡萄球菌V-8蛋白酶对该条带进行部分蛋白水解,然后进行电泳,显示出一种肽图谱,其中至少有四种肽与兔骨骼肌肌动蛋白消化后观察到的肽相似。47.5×10³Mr的蛋白质似乎特别容易受到内源性蛋白水解切割的影响,这种切割被亮抑酶肽抑制。用亮抑酶肽制备的ATP提取物应用于DNA酶I亲和柱,用3M盐酸胍洗脱得到一个明显的峰;DNA酶I结合蛋白在SDS/PAGE上显示为一条明显的带,表观分子量为47.5×10³Mr。在没有亮抑酶肽的情况下,DNA酶I结合蛋白在凝胶上显示为一条宽的34×10³Mr带。通过酶联免疫吸附测定(ELISA)测定,ATP提取物和DNA酶I结合蛋白都与针对天然鸡骨骼肌肌动蛋白产生的市售抗血清发生反应。免疫印迹研究和该抗血清的亲和纯化表明,这种识别并非特异性针对47.5×10³Mr的蛋白质。然而,使用针对鸡平滑肌变性肌动蛋白产生的亲和纯化抗肌动蛋白抗体,显示出对47.5×10³Mr蛋白质和34×10³Mr蛋白质的识别。在经过两轮聚合和解聚后的ATP提取物的负染制剂中,有直径为8 - 12nm的细丝,这些细丝不能用肌球蛋白亚片段S-1进行装饰,但类似于中间丝。在SDS/PAGE上对这些细丝进行分析,显示出一条染色强烈的54×10³Mr带。有人提出,在体外,梨形四膜虫中间丝在预期能组装肌动蛋白丝的条件下组装。因此,在梨形四膜虫中有一种蛋白质,其在可提取性、分子量、部分蛋白水解后的肽图谱、DNA酶I结合能力以及与抗肌动蛋白抗体的反应性方面类似于肌动蛋白。然而,这种蛋白质在粗提取物中不能组装成肌动蛋白丝。
