Snell W J
J Cell Biol. 1976 Jan;68(1):48-69. doi: 10.1083/jcb.68.1.48.
To determine the ultrastructural and biochemical bases for flagellar adhesiveness in the mating reaction in Chlamydomonas, gametic and vegetative flagella and flagellar membranes were studied by use of electron microscope and electrophoretic procedures. Negative staining with uranyl acetate revealed no differences in gametic and vegetative flagellar surfaces; both had flagellar membranes, flagellar sheaths, and similar numbers and distributions of mastigonemes. Freezecleave procedures suggested that there may be a greater density of intramembranous particles on the B faces of gametic flagellar membranes than on the B faces of vegetative flagellar membranes. Gamone, the adhesive material that gametes release into their medium, was demonstrated, on the basis of ultrastructural and biochemical analyses, to be composed of flagellar surface components, i.e., membrane vesicles and mastigonemes. Comparison of vegetative (nonadhesive) and gametic (adhesive) "gamones" by use of SDS polyacrylamide gel electrophoresis showed both preparations to be composed of membrane, mastigoneme, and some microtubule proteins, as well as several unidentified protein and carbohydrate-staining components. However, there was an additional protein of approximately 70,000 mol wt in gametic gamone which was not present in vegetative gamone. When gametic gamone was separated into a membrane and a mastigoneme fraction on CSCl gradients, only the membrane fraction had isoagglutinating activity; the mastigoneme fraction was inactive, suggesting that mastigonemes are not involved in adhesion.
为了确定衣藻交配反应中鞭毛黏附性的超微结构和生化基础,利用电子显微镜和电泳方法对配子鞭毛和营养细胞鞭毛以及鞭毛膜进行了研究。用醋酸铀进行负染色显示,配子鞭毛表面和营养细胞鞭毛表面没有差异;两者都有鞭毛膜、鞭毛鞘,且鞭茸的数量和分布相似。冰冻断裂实验表明,配子鞭毛膜B面的膜内颗粒密度可能比营养细胞鞭毛膜B面的更高。基于超微结构和生化分析,配子释放到其周围介质中的黏附物质配子素被证明是由鞭毛表面成分组成的,即膜泡和鞭茸。通过十二烷基硫酸钠聚丙烯酰胺凝胶电泳比较营养细胞(无黏附性)和配子(有黏附性)的“配子素”,结果显示两种制剂均由膜、鞭茸和一些微管蛋白以及几种未鉴定的蛋白质和碳水化合物染色成分组成。然而,配子配子素中有一种约70,000道尔顿的额外蛋白质,而营养细胞配子素中不存在这种蛋白质。当在氯化铯梯度上把配子配子素分离成膜部分和鞭茸部分时,只有膜部分具有同种凝集活性;鞭茸部分没有活性,这表明鞭茸不参与黏附过程。