Pages that link to "Q37751194"

The following pages link to Microtubule dynamics reconstituted in vitro and imaged by single-molecule fluorescence microscopy. (Q37751194):

Displaying 50 items.

• Islands containing slowly hydrolyzable GTP analogs promote microtubule rescues (Q27310112) (← links)
• Structure and Dynamics of Single-isoform Recombinant Neuronal Human Tubulin (Q27314966) (← links)
• α-Tubulin Tyrosination and CLIP-170 Phosphorylation Regulate the Initiation of Dynein-Driven Transport in Neurons (Q27319841) (← links)
• GTSE1 is a microtubule plus-end tracking protein that regulates EB1-dependent cell migration (Q27331882) (← links)
• Kinesin Kip2 enhances microtubule growth in vitro through length-dependent feedback on polymerization and catastrophe (Q27931170) (← links)
• Minus-end-directed Kinesin-14 motors align antiparallel microtubules to control metaphase spindle length (Q27935370) (← links)
• Dynactin subunit p150(Glued) is a neuron-specific anti-catastrophe factor (Q28115161) (← links)
• Synergy between XMAP215 and EB1 increases microtubule growth rates to physiological levels (Q28290478) (← links)
• Doublecortin recognizes the 13-protofilament microtubule cooperatively and tracks microtubule ends (Q29394565) (← links)
• Reconstitution of dynamic microtubules with Drosophila XMAP215, EB1, and Sentin (Q30528966) (← links)
• Evolving tip structures can explain age-dependent microtubule catastrophe. (Q30544047) (← links)
• GDP-to-GTP exchange on the microtubule end can contribute to the frequency of catastrophe (Q30834283) (← links)
• Mechanisms of kinetic stabilization by the drugs paclitaxel and vinblastine. (Q33632434) (← links)
• Quality control in single-molecule studies of kinesins and microtubule-associated proteins (Q33662990) (← links)
• Stu2, the budding yeast XMAP215/Dis1 homolog, promotes assembly of yeast microtubules by increasing growth rate and decreasing catastrophe frequency (Q34317259) (← links)
• Branching microtubule nucleation in Xenopus egg extracts mediated by augmin and TPX2. (Q34328106) (← links)
• Tubulin acetylation alone does not affect kinesin-1 velocity and run length in vitro (Q34369369) (← links)
• The contribution of αβ-tubulin curvature to microtubule dynamics. (Q34483807) (← links)
• Five factors can reconstitute all three phases of microtubule polymerization dynamics (Q34543786) (← links)
• XMAP215 polymerase activity is built by combining multiple tubulin-binding TOG domains and a basic lattice-binding region (Q34582737) (← links)
• Covalent immobilization of microtubules on glass surfaces for molecular motor force measurements and other single-molecule assays (Q34650296) (← links)
• Reconstitution of a prokaryotic minus end-tracking system using TubRC centromeric complexes and tubulin-like protein TubZ filaments (Q35484814) (← links)
• Writing and Reading the Tubulin Code (Q35837105) (← links)
• Metavinculin Tunes the Flexibility and the Architecture of Vinculin-Induced Bundles of Actin Filaments (Q35967533) (← links)
• Assembly and turnover of short actin filaments by the formin INF2 and profilin (Q36049928) (← links)
• Microtubule dynamics followed through cell differentiation and tissue biogenesis in C. elegans (Q36105873) (← links)
• A mutation uncouples the tubulin conformational and GTPase cycles, revealing allosteric control of microtubule dynamics (Q36505995) (← links)
• Suppression of microtubule assembly kinetics by the mitotic protein TPX2. (Q36856746) (← links)
• Aurora B suppresses microtubule dynamics and limits central spindle size by locally activating KIF4A (Q37104871) (← links)
• The growth speed of microtubules with XMAP215-coated beads coupled to their ends is increased by tensile force. (Q37157351) (← links)
• Loss of function of the Drosophila Ninein-related centrosomal protein Bsg25D causes mitotic defects and impairs embryonic development (Q37216841) (← links)
• Working stroke of the kinesin-14, ncd, comprises two substeps of different direction (Q37379633) (← links)
• GTSE1 tunes microtubule stability for chromosome alignment and segregation by inhibiting the microtubule depolymerase MCAK. (Q37488344) (← links)
• Molecular basis of Kar9-Bim1 complex function during mating and spindle positioning (Q37518039) (← links)
• Temporal self-regulation of transposition through host-independent transposase rodlet formation (Q37577387) (← links)
• Regulation of microtubule minus-end dynamics by CAMSAPs and Patronin (Q37725242) (← links)
• Modern methods to interrogate microtubule dynamics. (Q38141735) (← links)
• Fluorescence and labelling: how to choose and what to do. (Q38237243) (← links)
• Understanding force-generating microtubule systems through in vitro reconstitution (Q38813815) (← links)
• Microtubule-associated proteins control the kinetics of microtubule nucleation (Q38861270) (← links)
• Super-resolution imaging for monitoring cytoskeleton dynamics. (Q38934108) (← links)
• The kinesin-13 MCAK has an unconventional ATPase cycle adapted for microtubule depolymerization. (Q38967642) (← links)
• Real-Time Single Molecule Visualization of SH2 Domain Membrane Recruitment in Growth Factor Stimulated Cells (Q39018593) (← links)
• Label-free Imaging of Microtubules with Sub-nm Precision Using Interferometric Scattering Microscopy (Q39446230) (← links)
• Measuring the Effects of Microtubule-Associated Proteins on Microtubule Dynamics In Vitro (Q39755364) (← links)
• Use of stopped-flow fluorescence and labeled nucleotides to analyze the ATP turnover cycle of kinesins (Q39912209) (← links)
• Polarized endosome dynamics by spindle asymmetry during asymmetric cell division (Q40219692) (← links)
• Visualizing and Analyzing Branching Microtubule Nucleation Using Meiotic Xenopus Egg Extracts and TIRF Microscopy (Q41045487) (← links)
• The family-specific α4-helix of the kinesin-13, MCAK, is critical to microtubule end recognition. (Q41643512) (← links)
• Tracking single particles and elongated filaments with nanometer precision (Q41893028) (← links)