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Life as a moving fluid: fate of cytoplasmic macromolecules in dynamic fungal syncytia.


ABSTRACT: In fungal syncytia dozens, or even millions of nuclei may coexist in a single connected cytoplasm. Recent discoveries have exposed some of the adaptations that enable fungi to marshall these nuclei to produce complex coordinated behaviors, including cell growth, nuclear division, secretion and communication. In addition to shedding light on the principles by which syncytia (including embryos and osteoplasts) are organized, fungal adaptations for dealing with internal genetic diversity and physically dynamic cytoplasm may provide mechanistic insights into how cells generally are carved into different functional compartments. In this review we focus on enumerating the physical constraints associated with maintaining macromolecular distributions within a fluctuating and often flowing cytoplasmic interior.

SUBMITTER: Roper M 

PROVIDER: S-EPMC4577449 | biostudies-literature | 2015 Aug

REPOSITORIES: biostudies-literature

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Life as a moving fluid: fate of cytoplasmic macromolecules in dynamic fungal syncytia.

Roper Marcus M   Lee ChangHwan C   Hickey Patrick C PC   Gladfelter Amy S AS  

Current opinion in microbiology 20150728


In fungal syncytia dozens, or even millions of nuclei may coexist in a single connected cytoplasm. Recent discoveries have exposed some of the adaptations that enable fungi to marshall these nuclei to produce complex coordinated behaviors, including cell growth, nuclear division, secretion and communication. In addition to shedding light on the principles by which syncytia (including embryos and osteoplasts) are organized, fungal adaptations for dealing with internal genetic diversity and physic  ...[more]

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2020-07-02 | GSE148359 | GEO