Goldstein S F
J Cell Biol. 1979 Jan;80(1):61-8. doi: 10.1083/jcb.80.1.61.
Live sea urchin spermatozoa were rendered immotile by lowered pH; Triton-extracted spermatozoa were rendered immotile by either lowered pH or by deprivation of ATP. The spermatozoa began to beat after an increase in pH or as ATP was supplied, and the first bends were recorded on ciné film. Triton-extracted spermatozoa deprived of ATP retained a partially formed basal bend which could be either principal or reverse, and which resumed its development and propagation as ATP was supplied. Both live and tritonated flagella straightened at low pH. As the pH was increased, a series of principal bends formed near the base and propagated to the tip. Reverse bends began to develop as the pH continued to increase. The principal and reverse bends thus exhibited different sensitivities to pH, which suggests differences in the mechanisms that produce them. Straight flagella began to move by synchronous sliding all along the flagellum, thus forming principal bends. Flagella that contained a basal bend began to move by primarily metachonous sliding within that bend.
活海胆精子在pH值降低时会失去运动能力;经Triton处理的精子,在pH值降低或ATP供应被剥夺时都会失去运动能力。当pH值升高或供应ATP时,精子开始摆动,并在电影胶片上记录到最初的弯曲。缺乏ATP的经Triton处理的精子保留了部分形成的基部弯曲,该弯曲可以是主弯曲或反向弯曲,并且随着ATP的供应,其恢复发育和传播。活的和经Triton处理的鞭毛在低pH值时都会伸直。随着pH值升高,一系列主弯曲在基部附近形成并向顶端传播。随着pH值持续升高,反向弯曲开始出现。因此,主弯曲和反向弯曲对pH值表现出不同的敏感性,这表明产生它们的机制存在差异。笔直的鞭毛开始通过沿鞭毛全长的同步滑动而移动,从而形成主弯曲。含有基部弯曲的鞭毛开始主要通过该弯曲内的异时滑动而移动。