Vigorous beating of Chlamydomonas axonemes lacking central pair/radial spoke structures in the presence of salts and organic compounds.

T Yagi, R Kamiya
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引用次数: 53

Abstract

Flagella of Chlamydomonas mutants lacking the central pair of microtubules or radial spokes do not beat; however, axonemes isolated from these mutants were found to display vigorous bending movements in the presence of ATP and various salts, sugars, alcohols, and other organic compounds. For example, about 15% of the total axonemes isolated from pf18, a mutant lacking the central pair, displayed beating in the presence of 10 mM MgSO(4) and 0.2 mM ATP at about 22 Hz, while none beat with the same concentration of ATP and < or = 5 mM or > or = 25 mM MgSO(4). The beat frequency and waveform of beating pf18 axonemes were similar to those of wild type axonemes beating under the same conditions. Similarly, 10-50% of the axonemes beat in the presence of 0.5 M sucrose, 2.0 M glycerol, or 1.7 M[10% (v/v)] ethanol. The appearance of motility did not correlate with the change in axonemal ATPase; however, these substances at those concentrations commonly increased the amplitude of nanometer-scale oscillation (hyper-oscillation) in pf18 axonemes, as well as the extent of ATP-induced sliding disintegration of protease-treated axonemes. Axonemes of double mutants lacking both the central pair and various subspecies of inner-arm dynein also beat at increased MgSO(4) concentrations, but axonemes lacking outer-arm dynein in addition to the central pair did not beat. These and other observations suggest that small molecules perturb the regulation of microtubule sliding through some change in water activity or osmotic stress. Axonemes must have an intrinsic ability to beat without the central pair/radial spokes under a variety of non-physiological solution conditions, as long as the outer dynein arms are present. Apparently, the major function of the central pair/radial spoke structures is to restore this activity under physiological conditions.

缺乏中心对/辐射状辐状结构的衣藻轴突在盐和有机化合物存在下剧烈跳动。
突变衣藻的鞭毛缺乏中央对微管或放射状辐条不跳动;然而,从这些突变体中分离出来的轴突体在ATP和各种盐、糖、醇和其他有机化合物的存在下显示出剧烈的弯曲运动。例如,从缺乏中心对的突变体pf18中分离出的总轴突体中,约有15%在10mm MgSO(4)和0.2 mM ATP(约22 Hz)存在下显示跳动,而在相同浓度的ATP和<或= 5 mM或>或= 25 mM MgSO(4)下没有跳动。pf18轴突的跳动频率和波形与野生型轴突在相同条件下的跳动频率和波形相似。同样,10-50%的轴突蛋白在0.5 M蔗糖、2.0 M甘油或1.7 M[10% (v/v)]乙醇的存在下也能发酵。运动的出现与轴突atp酶的变化无关;然而,这些物质在这些浓度下通常会增加pf18轴突的纳米级振荡幅度(超振荡),以及atp诱导的蛋白酶处理轴突滑动解体的程度。当MgSO(4)浓度增加时,缺乏中心对和内臂动力蛋白各亚种的双突变体轴突组也会跳动,但除了中心对外缺乏外臂动力蛋白的轴突组不会跳动。这些和其他观察结果表明,小分子通过水活性或渗透应力的一些变化扰乱了微管滑动的调节。轴突体必须具有内在的能力,在各种非生理溶液条件下,只要外部动力蛋白臂存在,轴突体就可以在没有中心副/径向辐条的情况下跳动。显然,中央对/径向辐条结构的主要功能是在生理条件下恢复这种活动。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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