Kinesins are widely expressed, microtubule‐dependent motors that play vital roles in microtubule‐associated cellular activities, such as cell division and intracellular transport. Eg5, also known as kinesin‐5 or kinesin spindle protein,… Click to show full abstract
Kinesins are widely expressed, microtubule‐dependent motors that play vital roles in microtubule‐associated cellular activities, such as cell division and intracellular transport. Eg5, also known as kinesin‐5 or kinesin spindle protein, is a member of the kinesin family that contributes to the formation and maintenance of the bipolar mitotic spindle during cell division. Small‐molecule compounds that inhibit Eg5 activity have been shown to impair spindle assembly, block mitotic progression, and possess anti‐cancer activity. Recent studies focusing on the localization and functions of Eg5 in plants have demonstrated that in addition to spindle organization, this motor protein has non‐canonical functions, such as chromosome segregation and cytokinesis, that have not been observed in animals. In this review, we discuss the structure, function, and localization of Eg5 in various organisms, highlighting the specific role of this protein in plants. We also propose directions for the future studies of novel Eg5 functions based on the lessons learned from plants.
               
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