Rapid transport of foreign particles microinjected into crab axons

Richard J. Adams; Dennis Bray

doi:10.1038/303718a0

Abstract

The rapid transport of optically detectable organelles in axons has been well documented, although its molecular mechanism remains unknown. Here we report that synthetic particles microinjected into the giant axons of the shore crab, Carcinus maenas, are also transported, moving as though they were endogenous organelles. Polystyrene beads, polyacrolein beads, paraffin droplets and glass fragments, of sizes up to 0.5 micron in diameter, have been tested. Many of these foreign particles move rapidly and for long distances along the axon in the anterograde direction, travelling in a saltatory fashion, within a well defined velocity range. In many respects the movements are indistinguishable from those of anterogradely moving endogenous organelles seen by phase-contrast in these axons. Our results indicate that there is a transport system in axons capable of carrying almost any particle of suitable physical properties in an anterograde direction.

Keywords

OrganelleAxonAxoplasmic transportBiophysicsParticle (ecology)Range (aeronautics)AnatomyChemistryBiologyCell biologyMaterials scienceEcology

MeSH Terms

AcroleinAnimalsAxonal TransportAxonsBrachyuraForeign BodiesGlassKineticsMicroinjectionsParaffinPolymersPolystyrenes

Affiliated Institutions

MRC Laboratory for Molecular Cell Biology GB

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Publication Info

Year: 1983
Type: article
Volume: 303
Issue: 5919
Pages: 718-720
Citations: 95
Access: Closed

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APA Style

                            
                                    Richard J. Adams, 
                                
                                    Dennis Bray
                                
                            (1983). 
                            Rapid transport of foreign particles microinjected into crab axons. 
                            Nature
                            , 303
                            (5919)
                            , 718-720.
                            https://doi.org/10.1038/303718a0

Identifiers

DOI: 10.1038/303718a0
PMID: 6190095

Data Quality

Data completeness: 81%