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Literature DB >> 27199431

Accelerated actin filament polymerization from microtubule plus ends.

Jessica L Henty-Ridilla¹, Aneliya Rankova¹, Julian A Eskin¹, Katelyn Kenny¹, Bruce L Goode².

Abstract

Microtubules (MTs) govern actin network remodeling in a wide range of biological processes, yet the mechanisms underlying this cytoskeletal cross-talk have remained obscure. We used single-molecule fluorescence microscopy to show that the MT plus-end-associated protein CLIP-170 binds tightly to formins to accelerate actin filament elongation. Furthermore, we observed mDia1 dimers and CLIP-170 dimers cotracking growing filament ends for several minutes. CLIP-170-mDia1 complexes promoted actin polymerization ~18 times faster than free-barbed-end growth while simultaneously enhancing protection from capping proteins. We used a MT-actin dynamics co-reconstitution system to observe CLIP-170-mDia1 complexes being recruited to growing MT ends by EB1. The complexes triggered rapid growth of actin filaments that remained attached to the MT surface. These activities of CLIP-170 were required in primary neurons for normal dendritic morphology. Thus, our results reveal a cellular mechanism whereby growing MT plus ends direct rapid actin assembly.

Entities: CellLine Chemical Disease Gene Species

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Year: 2016 PMID： 27199431 PMCID： PMC5179141 DOI： 10.1126/science.aaf1709

Source DB: PubMed Journal: Science ISSN： 0036-8075 Impact factor: 47.728

49 in total

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4. Structure and activity of full-length formin mDia1.

Authors: Sankar Maiti; Alphee Michelot; Christopher Gould; Laurent Blanchoin; Olga Sokolova; Bruce L Goode
Journal: Cytoskeleton (Hoboken) Date: 2012-06

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Journal: Dev Cell Date: 2009-02 Impact factor: 12.270

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Authors: P Forscher; S J Smith
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