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A Markov Model for Kinesin [PDF]
Journal of Statistical Physics, 2003 zbMATH Open Web Interface contents unavailable due to conflicting licenses.
Christian Maes, Maarten H. van Wieren
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Force Generated by Two Kinesin Motors Depends on the Load Direction and Intermolecular Coupling.
Physical Review Letters, 2019Kinesins are molecular motors that carry cellular cargoes. While the mechanics of single kinesins are well characterized experimentally, the behavior of multiple kinesins varies considerably among experiments.
H. Khataee, J. Howard
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Biochemical Society Transactions, 2012
Kinesin-1 is a walking machine that takes ~8 nm steps along microtubules. Some aspects of the molecular mechanism of walking are now clear, but many are not. In the present paper, we discuss currently controversial points, focusing on the pathways by which kinesin takes occasional backsteps.
Nicholas J, Carter, Robert A, Cross
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Kinesin-1 is a walking machine that takes ~8 nm steps along microtubules. Some aspects of the molecular mechanism of walking are now clear, but many are not. In the present paper, we discuss currently controversial points, focusing on the pathways by which kinesin takes occasional backsteps.
Nicholas J, Carter, Robert A, Cross
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Trends in Cell Biology, 2002
Kinesins are motor proteins that move cargoes such as vesicles, organelles and chromosomes along microtubules. They are best known for their role in axonal transport and in mitosis. There is a diverse family of kinesins, members of which differ in composition and functions.
Mandelkow, Eckhard, Mandelkow, Eva-Maria
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Kinesins are motor proteins that move cargoes such as vesicles, organelles and chromosomes along microtubules. They are best known for their role in axonal transport and in mitosis. There is a diverse family of kinesins, members of which differ in composition and functions.
Mandelkow, Eckhard, Mandelkow, Eva-Maria
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Biochemistry, 2007
Several lines of experimental evidence suggest that the conventional kinesin 1 walks by an asymmetric hand-over-hand mechanism, although it is a homodimer. In the previous study, we examined several important force-dependent features of the hand-over-hand mechanism of kinesin. In this study, we focus on the asymmetry in the hand-over-hand mechanism. We
Qiang Shao, Yi Qin Gao
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Several lines of experimental evidence suggest that the conventional kinesin 1 walks by an asymmetric hand-over-hand mechanism, although it is a homodimer. In the previous study, we examined several important force-dependent features of the hand-over-hand mechanism of kinesin. In this study, we focus on the asymmetry in the hand-over-hand mechanism. We
Qiang Shao, Yi Qin Gao
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Flagellar Kinesins in Protists
Future Microbiology, 2011Cilia and flagella are organelles of the cell body present in many eukaryotic cells. Although their basic structure is well conserved from unicellular organisms to mammals, they show amazing diversity in number, structure, molecular composition, disposition and function.
Linda Kohl, William Marande
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Kinesins in the nervous system
Cellular and Molecular Life Sciences (CMLS), 1999Both the development and the maintenance of neurons require a great deal of active cytoplasmic transport. Much of this transport is driven by microtubule motor proteins. Membranous organelles and other macromolecular assemblies bind motor proteins that then use cycles of adenosine 5'-triphosphate hydrolysis to move these 'cargoes' along microtubules ...
M. A. E. Martin +2 more
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Nature Structural Biology, 1996
The first high resolution structures of the kinesin and NCD motor proteins reveal their surprising similarity to myosin but leave open the tantalizing question of what properties determine the directionality of movement along microtubules.
Roman Sakowicz, Lawrence S.B. Goldstein
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The first high resolution structures of the kinesin and NCD motor proteins reveal their surprising similarity to myosin but leave open the tantalizing question of what properties determine the directionality of movement along microtubules.
Roman Sakowicz, Lawrence S.B. Goldstein
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Trends in Neurosciences, 2018
Active intracellular transport of organelles relies on the coordinated activities of cytoplasmic dynein and kinesin, ATP-dependent microtubule motor proteins. While axonemal dynein was discovered during the mid-1960s, it was not until the mid-1980s that kinesin was discovered by Ron Vale and colleagues, as reported in 1985.
Erika L.F. Holzbaur, Eva Klinman
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Active intracellular transport of organelles relies on the coordinated activities of cytoplasmic dynein and kinesin, ATP-dependent microtubule motor proteins. While axonemal dynein was discovered during the mid-1960s, it was not until the mid-1980s that kinesin was discovered by Ron Vale and colleagues, as reported in 1985.
Erika L.F. Holzbaur, Eva Klinman
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The Mechanochemistry of Kinesin
Molecular and Chemical Neuropathology, 1990The mechanochemical protein kinesin is believed to play an important role in intracellular vesicle movements, including the anterograde motion of axoplasmic transport. This article reviews some of the pharmacological and biochemical information about kinesin, particularly with respect to the properties of nucleotide-dependent microtubule binding ...
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