BALD-2:一种影响莱茵衣藻中微管双联体和三联体形成的突变。
BALD-2: a mutation affecting the formation of doublet and triplet sets of microtubules in Chlamydomonas reinhardtii.
作者信息
Goodenough U W, StClair H S
出版信息
J Cell Biol. 1975 Sep;66(3):480-91. doi: 10.1083/jcb.66.3.480.
Abstract
The mutant strain bald-2 is unique among "flagellaless" strains of Chlamydomonas reinhardtii isolated to date, in that it possesses a mutant basal body: it is only capable of forming a ring of nine singlet microtubules, 180 nm in diameter, instead of the usual triplet basal body which is 225 nm in diameter. This singlet basal body lacks structural stability and the ability to associate with striated fiber material but retains two critical properties of basal bodies, namely, information specifying the length to which it should elongate and the ability to induce, albeit rarely, a flagellar transition region, a short, singlet-containing axoneme, and a specialized tunnel in the cell wall through which flagella normally emerge. The mutation seems to be specific for B- and C-microtubule synthesis or assembly since all other cytoplasmic sets of microtubules appear normal in numbers, orientation, and stability.
摘要
突变菌株bald-2在迄今为止分离出的莱茵衣藻“无鞭毛”菌株中是独一无二的,因为它具有一个突变的基体:它只能形成一个由九条单微管组成的环,直径为180纳米,而不是通常直径为225纳米的三联体基体。这种单微管基体缺乏结构稳定性以及与横纹纤维物质结合的能力,但保留了基体的两个关键特性,即指定其应伸长长度的信息以及诱导鞭毛过渡区(尽管很少见)、含单微管的短轴丝和细胞壁中鞭毛正常穿出的特殊通道的能力。该突变似乎对B微管和C微管的合成或组装具有特异性,因为所有其他细胞质微管在数量、方向和稳定性方面看起来都是正常的。
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