Results 241 to 250 of about 83,587 (297)
Microtubule association induces a Mg-free apo-like ADP pre-release conformation in kinesin-1 that is unaffected by its autoinhibitory tail. [PDF]
Nat CommunAtherton J +10 more
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Integrated genomic analysis of a diverse maize population reveals novel genes and superior predictive models for ear diameter. [PDF]
BMC GenomicsWu X +6 more
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Lowering Ionic Strength Improves the Sensitivity of Microtubule Gliding Assay Based Molecular Detection. [PDF]
Nano LettV R EC +4 more
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The two coiled-coil domains of the fission yeast kinesin-6 Klp9 are required for motor tetramerization and spindle elongation. [PDF]
MicroPubl BiolNguyen MT, Ji L, Tran PT.
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Mechanical coordination between anaphase A and B drives asymmetric chromosome segregation
Dias Maia Henriques AM +6 more
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Current Opinion in Cell Biology, 2006
Kinesin-1 is a single-molecule walking machine, driven by ATP turnover. Recent optical trapping experiments show that pulling backwards on a walking kinesin-1 molecule causes the mechanical walking action to reverse, while the coupled chemical cycle of ATP turnover continues, apparently, to run forwards -- kinesin can moonwalk.
Nicholas J, Carter, Robert A, Cross
openaire +2 more sources
Kinesin-1 is a single-molecule walking machine, driven by ATP turnover. Recent optical trapping experiments show that pulling backwards on a walking kinesin-1 molecule causes the mechanical walking action to reverse, while the coupled chemical cycle of ATP turnover continues, apparently, to run forwards -- kinesin can moonwalk.
Nicholas J, Carter, Robert A, Cross
openaire +2 more sources
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
openaire +2 more sources
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
openaire +2 more sources