Dynamic Exchange of Myosin VI on Endocytic Structures
The actin-based molecular motor myosin VI functions in the endocytic uptake pathway, both during the early stages of clathrin-mediated uptake and in later transport to/from early endosomes. This study uses fluorescence recovery after photobleaching (FRAP) to examine the turnover rate of myosin VI du...
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Veröffentlicht in: | The Journal of biological chemistry 2012-11, Vol.287 (46), p.38637-38646 |
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Sprache: | eng |
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Zusammenfassung: | The actin-based molecular motor myosin VI functions in the endocytic uptake pathway, both during the early stages of clathrin-mediated uptake and in later transport to/from early endosomes. This study uses fluorescence recovery after photobleaching (FRAP) to examine the turnover rate of myosin VI during endocytosis. The results demonstrate that myosin VI turns over dynamically on endocytic structures with a characteristic half-life common to both the large insert isoform of myosin VI on clathrin-coated structures and the no-insert isoform on early endosomes. This half-life is shared by the myosin VI-binding partner Dab2 and is identical for full-length myosin VI and the cargo-binding tail region. The 4-fold slower half-life of an artificially dimerized construct of myosin VI on clathrin-coated structures suggests that wild type myosin VI does not function as a stable dimer, but either as a monomer or in a monomer/dimer equilibrium. Taken together, these FRAP results offer insight into both the basic turnover dynamics and the monomer/dimer nature of myosin VI.
Background: Myosin VI turnover during endocytosis is underexplored.
Results: Wild type myosin VI exchanges at the same rate as its binding partner and faster than artificially dimerized myosin VI.
Conclusion: During endocytic exchange, myosin VI relies on binding partner dynamics and does not function as a stable dimer.
Significance: The turnover dynamics and monomer/dimer properties of myosin VI are illuminated. |
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ISSN: | 0021-9258 1083-351X |
DOI: | 10.1074/jbc.M112.373969 |