Comert Kural et al 2005 J. Phys.: Condens. Matter 17 S3979 doi:10.1088/0953-8984/17/47/023
Comert Kural1, Hamza Balci2 and Paul R Selvin1,2,3
Show affiliationsProcessive molecular motors act as intracellular transporters of a broad range of cargoes varying from organelles to messenger RNAs. Due to the nanometre range movements and complex dynamics of these motors, highly specialized tools are required to study them, in particular at the single-molecule level. Such tools are what physicists are providing for understanding these biological systems. Fluorescence based real-time localization techniques, with 1 nm spatial resolution and down to 1 ms temporal resolution (FIONA: fluorescence imaging with one-nanometre accuracy), and their applications to a group of molecular motors (myosin V, myosin VI, kinesin, and dynein) are the topics of this paper. In addition to the well established in vitro studies, the recent applications of these techniques to the much more challenging, but also more informative, in vivo realm will be discussed.
87.16.Nn Motor proteins (myosin, kinesin dynein)
87.16.Tb Mitochondria and other organelles
Issue 47 (30 November 2005)
Received 16 August 2005
Published 4 November 2005
Comert Kural et al 2005 J. Phys.: Condens. Matter 17 S3979
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