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The subcortical maternal complex controls symmetric division of mouse zygotes by regulating F-actin dynamics.


ABSTRACT: Maternal effect genes play critical roles in early embryogenesis of model organisms where they have been intensively investigated. However, their molecular function in mammals remains largely unknown. Recently, we identified a subcortical maternal complex (SCMC) that contains four proteins encoded by maternal effect genes (Mater, Filia, Floped and Tle6). Here we report that TLE6, similar to FLOPED and MATER, stabilizes the SCMC and is necessary for cleavage beyond the two-cell stage of development. We document that the SCMC is required for formation of the cytoplasmic F-actin meshwork that controls the central position of the spindle and ensures symmetric division of mouse zygotes. We further demonstrate that the SCMC controls formation of the actin cytoskeleton specifically via Cofilin, a key regulator of F-actin assembly. Our results provide molecular insight into the physiological function of TLE6, its interaction with the SCMC and their roles in the symmetric division of the zygote in early mouse development.

SUBMITTER: Yu XJ 

PROVIDER: S-EPMC6529946 | biostudies-literature | 2014 Sep

REPOSITORIES: biostudies-literature

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The subcortical maternal complex controls symmetric division of mouse zygotes by regulating F-actin dynamics.

Yu Xing-Jiang XJ   Yi Zhaohong Z   Gao Zheng Z   Qin Dandan D   Zhai Yanhua Y   Chen Xue X   Ou-Yang Yingchun Y   Wang Zhen-Bo ZB   Zheng Ping P   Zhu Min-Sheng MS   Wang Haibin H   Sun Qing-Yuan QY   Dean Jurrien J   Li Lei L  

Nature communications 20140911


Maternal effect genes play critical roles in early embryogenesis of model organisms where they have been intensively investigated. However, their molecular function in mammals remains largely unknown. Recently, we identified a subcortical maternal complex (SCMC) that contains four proteins encoded by maternal effect genes (Mater, Filia, Floped and Tle6). Here we report that TLE6, similar to FLOPED and MATER, stabilizes the SCMC and is necessary for cleavage beyond the two-cell stage of developme  ...[more]

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