Elongation Growth and Gravitropic Curvature in the Flammulina velutipes (Agaricales) Fruiting Body

Eva Haindl, Jan Monzer
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引用次数: 14

Abstract

Haindt, E., and Monzer, J. 1994. Elongation growth and gravitropic curvature in the Flammulina velutipes (Agaricales) fruiting body. Experimental Mycology 18, 150-158. Differential elongation of stipe hyphae drives the gravitropic reorientation of Flammulina velutipes (Agaricales) fruiting bodies. The gravitropic curvature is strictly dependent on the presence of the transition zone between pileus and stipe. Elongation growth, providing the driving force for curvature, is also promoted by the pileus. Gravitropic curvature is successfully suppressed by clinostatic rotation, but the elongation rate is not affected. Explantation of fruiting body stipes lowers curvature and elongation rates corresponding to explant size reduction. In Flammulina , 25 mm length of transition zone explants is an efficient size for reproducible curvature and elongation during 48- to 72-h curvature tests. Submersion of specimens in aqueous medium causes cessation of the gravitropic curvature, but does not affect elongation. Thus the involvement of a diffusible factor in transmission of the curvature signal is probable. Splitting the fruiting body stipe in segments of 18 diameter does not suppress the gravitropic response, and the segments are individually reoriented to the vertical. It is concluded that the graviresponse of the Flammulina fruiting body is based on cellular perception of the gravistimulus and that a differential growth signal is transmitted in the stipe by a soluble factor that regulates hyphal elongation.

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金针菇子实体的伸长生长和向地弯曲
海恩特,E.和蒙泽,J. 1994。金针菇子实体的伸长生长和向地弯曲。实验真菌学,18,150-158。柱头菌丝的差异伸长驱动金针菇子实体向地向定向。地向曲率严格依赖于茎柄和茎柄之间的过渡带的存在。伸长率的增长,为曲率提供动力,也由毛促进。静旋转成功地抑制了向地曲率,但伸长率不受影响。子实体柱头外植降低了曲率和伸长率,相应的外植体尺寸减小。在金针菇中,在48 ~ 72 h的曲率试验中,25 mm长度的过渡区外植体是可重复曲率和伸长率的有效尺寸。浸没在水介质中的试样,使向地曲率停止,但不影响伸长率。因此,在曲率信号的传输中可能涉及扩散因子。将子实体柱头分成18直径的节段不抑制向地性响应,各节段分别向垂直方向重新定向。由此得出结论:金针菇子实体的重力响应是基于细胞对重力刺激的感知,并通过一种调节菌丝伸长的可溶性因子在柱头中传递差异生长信号。
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