Spindle-dependent partitioning of the Golgi ribbon

Jen Hsuan Wei; Joachim Seemann

doi:10.4161/cib.2.5.8764

Spindle-dependent partitioning of the Golgi ribbon

Jen Hsuan Wei, Joachim Seemann

Research output: Contribution to journal › Comment/debate › peer-review

8 Scopus citations

Abstract

During mitosis, the Golgi apparatus needs to be divided into the daughter cells. To achieve successful division, the single continuous Golgi ribbon is disassembled in early mitosis into vesicular and tubular membranes, which upon segregation fuse to reform a functional Golgi complex in telophase. Although the process of Golgi division has been well described, the underlying mechanisms remain largely unknown. The observation that Golgi membranes accumulate around the spindle poles implies a role of the mitotic spindle in Golgi partitioning. By inducing asymmetrical cell division where the spindle goes into only one of the daughter cells, we have recently shown that the inheritance of a continuous Golgi ribbon critically relies on the mitotic spindle, while membranes sufficient to reassemble polarized, functional Golgi stacks are inherited independently.

Original language	English (US)
Pages (from-to)	406-407
Number of pages	2
Journal	Communicative and Integrative Biology
Volume	2
Issue number	5
DOIs	https://doi.org/10.4161/cib.2.5.8764
State	Published - 2009

Keywords

Cell division
Golgi
Mitosis
Organelle inheritance
Partitioning
Spindle

ASJC Scopus subject areas

Agricultural and Biological Sciences(all)

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10.4161/cib.2.5.8764

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title = "Spindle-dependent partitioning of the Golgi ribbon",

abstract = "During mitosis, the Golgi apparatus needs to be divided into the daughter cells. To achieve successful division, the single continuous Golgi ribbon is disassembled in early mitosis into vesicular and tubular membranes, which upon segregation fuse to reform a functional Golgi complex in telophase. Although the process of Golgi division has been well described, the underlying mechanisms remain largely unknown. The observation that Golgi membranes accumulate around the spindle poles implies a role of the mitotic spindle in Golgi partitioning. By inducing asymmetrical cell division where the spindle goes into only one of the daughter cells, we have recently shown that the inheritance of a continuous Golgi ribbon critically relies on the mitotic spindle, while membranes sufficient to reassemble polarized, functional Golgi stacks are inherited independently.",

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AU - Seemann, Joachim

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AB - During mitosis, the Golgi apparatus needs to be divided into the daughter cells. To achieve successful division, the single continuous Golgi ribbon is disassembled in early mitosis into vesicular and tubular membranes, which upon segregation fuse to reform a functional Golgi complex in telophase. Although the process of Golgi division has been well described, the underlying mechanisms remain largely unknown. The observation that Golgi membranes accumulate around the spindle poles implies a role of the mitotic spindle in Golgi partitioning. By inducing asymmetrical cell division where the spindle goes into only one of the daughter cells, we have recently shown that the inheritance of a continuous Golgi ribbon critically relies on the mitotic spindle, while membranes sufficient to reassemble polarized, functional Golgi stacks are inherited independently.

KW - Cell division

KW - Golgi

KW - Mitosis

KW - Organelle inheritance

KW - Partitioning

KW - Spindle

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Spindle-dependent partitioning of the Golgi ribbon

Abstract

Keywords

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