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Bicaudal D induces selective dynein-mediated microtubule minus end-directed transport.


ABSTRACT: Bicaudal D is an evolutionarily conserved protein, which is involved in dynein-mediated motility both in Drosophila and in mammals. Here we report that the N-terminal portion of human Bicaudal D2 (BICD2) is capable of inducing microtubule minus end-directed movement independently of the molecular context. This characteristic offers a new tool to exploit the relocalization of different cellular components by using appropriate targeting motifs. Here, we use the BICD2 N-terminal domain as a chimera with mitochondria and peroxisome-anchoring sequences to demonstrate the rapid dynein-mediated transport of selected organelles. Surprisingly, unlike other cytoplasmic dynein-mediated processes, this transport shows very low sensitivity to overexpression of the dynactin subunit dynamitin. The dynein-recruiting activity of the BICD2 N-terminal domain is reduced within the full-length molecule, indicating that the C-terminal part of the protein might regulate the interaction between BICD2 and the motor complex. Our findings provide a novel model system for dissection of the molecular mechanism of dynein motility.

SUBMITTER: Hoogenraad CC 

PROVIDER: S-EPMC275447 | biostudies-literature | 2003 Nov

REPOSITORIES: biostudies-literature

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Bicaudal D induces selective dynein-mediated microtubule minus end-directed transport.

Hoogenraad Casper C CC   Wulf Phebe P   Schiefermeier Natalia N   Stepanova Tatiana T   Galjart Niels N   Small J Victor JV   Grosveld Frank F   de Zeeuw Chris I CI   Akhmanova Anna A  

The EMBO journal 20031101 22


Bicaudal D is an evolutionarily conserved protein, which is involved in dynein-mediated motility both in Drosophila and in mammals. Here we report that the N-terminal portion of human Bicaudal D2 (BICD2) is capable of inducing microtubule minus end-directed movement independently of the molecular context. This characteristic offers a new tool to exploit the relocalization of different cellular components by using appropriate targeting motifs. Here, we use the BICD2 N-terminal domain as a chimera  ...[more]

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