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Kinesin
UCSD MOLECULE PAGES Doi:10.6072/H0.MP.A002549.01 Volume 1, Issue 2, 2012 Copyright UC Press, All Rights Reserved
The Kinesin Walk: a Dynamic Model with Elastically Coupled Heads
Kinesin Motility Is Driven by Subdomain Dynamics Wonmuk Hwang1,2,3*, Matthew J Lang4,5*, Martin Karplus6,7*
Kinesin Kip2 Enhances Microtubule Growth in Vitro Through Length
Bee1, a Yeast Protein with Homology to Wiscott-Aldrich Syndrome Protein, Is Critical for the Assembly of Cortical Actin Cytoskel
Sperm Differentiation
A Small-Molecule Activator of Kinesin-1 Drives Remodeling of the Microtubule Network
Microtubule Motors
Annotated Classic Kinesin Motors on Microtubules
Cytoskeletal Proteins in Neurological Disorders
How Dynein Moves Along Microtubules
MICROTUBULE GLIDING at the BOUNDARY of KINESIN and DYNEIN PATTERNED SURFACE Junya Ikuta1*, Nagendra K
Kank Family Proteins Comprise a Novel Type of Talin Activator
Kinesin-Binding Protein Remodels the Kinesin Motor to Prevent Microtubule-Binding
Adenomatous Polyposis Coli Associates with the Microtubule-Destabilizing Protein XMCAK
The Case for a Common Ancestor: Kinesin and Myosin Motor Proteins and G Proteins
A Role for KIF9 in Male Fertility
KLC3 Is Involved in Sperm Tail Midpiece Formation and Sperm Function
Top View
The Relationship Between Mitochondrial Shape and Function and the Cytoskeleton ⁎ Vasiliki Anesti, Luca Scorrano
Snapshot: Motor Proteins in Spindle Assembly
A Proteomic Approach Reveals Integrin Activation State-Dependent Control of Microtubule Cortical Targeting
Motor Proteins & Filaments Moving in the Cell
Phd Thesis the Role of Wiskott-Aldrich Syndrome Protein
Advancing Molecular Force Measurements Across Talin
Identification of a Novel Link Between the Motor Proteins
Kinesin and Myosin: Molecular Motors with Similar Engines Ivan Rayment
Why Kinesin Is So Processive
Wnt Signalling and the Actin Cytoskeleton
Kinesin Superfamily Protein Member 4 (KIF4) Is Localized to Midzone and Midbody in Dividing Cells
The Force Generated by a Single Kinesin Molecule Against an Elastic Load
Intermediate Filament Assembly: Dynamics to Disease
An Introduction to the Cytoskeleton
Kinesin-5 Is a Microtubule Polymerase
Motility and Microtubule Depolymerization Mechanisms Of
Kinesin- and Dynein-Powered Movements 20.2
Profilin and the Microfilament System in Cultured Cells
Self-Repair Protects Microtubules from Their Destruction by Molecular Motors
Talin-KANK1 Interaction Controls the Recruitment of Cortical Microtubule Stabilizing Complexes to Focal Adhesions
The Adenomatous Polyposis Coli-Binding Protein EB1 Is Associated with Cytoplasmic and Spindle Microtubules
The Role of the Wiskott-Aldrich Syndrome Protein in Regulating T
Microtubule–Microtubule Sliding by Kinesin-1 Is Essential for Normal
A Novel Microtubule-Depolymerizing Kinesin Involved in Length Control
Kinesin-1 and Dynein Use Distinct Mechanisms to Bypass Obstacles
Acrylamide Effects on Kinesin-Related Proteins of the Mitotic/Meiotic Spindle ⁎ Dale W
The WASP–WAVE Protein Network: Connecting the Membrane to the Cytoskeleton
How Kinesin-1 Utilize the Energy of Nucleotide: the Conformational Changes and Mechanochemical Coupling in the Unidirectional Motion of Kinesin-1
The Function of Intermediate Filaments in Cell Shape and Cytoskeletal Integrity Robert D
Force Generation by Kinesin and Myosin Cytoskeletal Motor Proteins
Dynamics of Molecular Motors Molecular Motors
Roles of Actin Remodeling Proteins, Gelsolin and Flightless-I in Epidermal Wound Healing
Kinesin and Myosin Travel Along Molecular Rails
Kinesin: Switch I & II and the Motor Mechanism
Stochastic Modeling Reveals How Motor Protein and Filament Properties Affect Intermediate Filament Transport
Recombinant Kinesin Motor Domain Binds to 1B-Tubulin and Decorates
Biophysics 400 Problem Set #9