Search Results - "Chew, Wei Xiang"

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  1. 1
    Branched microtubule nucleation and dynein transport organize RanGTP asters in Xenopus laevis egg extract

    Branched microtubule nucleation and dynein transport organize RanGTP asters in Xenopus laevis egg extract by Scrofani, Jacopo, Ruhnow, Felix, Chew, Wei-Xiang, Normanno, Davide, Nedelec, Francois, Surrey, Thomas, Vernos, Isabelle

    Published in Molecular biology of the cell (01-01-2024)
    “…Chromosome segregation relies on the correct assembly of a bipolar spindle. Spindle pole self-organization requires dynein-dependent microtubule (MT) transport…”
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  2. 2
    Effects of microtubule length and crowding on active microtubule network organization

    Effects of microtubule length and crowding on active microtubule network organization by Chew, Wei-Xiang, Henkin, Gil, Nédélec, François, Surrey, Thomas

    Published in iScience (17-02-2023)
    “…Active filament networks can organize into various dynamic architectures driven by cross-linking motors. Densities and kinetic properties of motors and…”
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  3. 3
    Surface reaction-diffusion kinetics on lattice at the microscopic scale

    Surface reaction-diffusion kinetics on lattice at the microscopic scale by Chew, Wei-Xiang, Kaizu, Kazunari, Watabe, Masaki, Muniandy, Sithi V, Takahashi, Koichi, Arjunan, Satya N V

    Published in Physical review. E (19-04-2019)
    “…Microscopic models of reaction-diffusion processes on the cell membrane can link local spatiotemporal effects to macroscopic self-organized patterns often…”
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  4. 4
    Cross-linker design determines microtubule network organization by opposing motors

    Cross-linker design determines microtubule network organization by opposing motors by Henkin, Gil, Chew, Wei-Xiang, Nédélec, François, Surrey, Thomas

    “…During cell division, cross-linking motors determine the architecture of the spindle, a dynamic microtubule network that segregates the chromosomes in…”
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  5. 5
    Regulation of minimal spindle midzone organization by mitotic kinases

    Regulation of minimal spindle midzone organization by mitotic kinases by Lim, Wei Ming, Chew, Wei-Xiang, Esposito Verza, Arianna, Pesenti, Marion, Musacchio, Andrea, Surrey, Thomas

    Published in Nature communications (29-10-2024)
    “…During cell division, the microtubule cytoskeleton undergoes dramatic cell cycle-driven reorganizations of its architecture. Coordinated by changes in the…”
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  6. 6
    Cooperativity transitions driven by higher-order oligomer formations in ligand-induced receptor dimerization

    Cooperativity transitions driven by higher-order oligomer formations in ligand-induced receptor dimerization by Watabe, Masaki, Arjunan, Satya N. V, Chew, Wei Xiang, Kaizu, Kazunari, Takahashi, Koichi

    Published 13-12-2019
    “…Phys. Rev. E 100, 062407 (2019) While cooperativity in ligand-induced receptor dimerization has been linked with receptor-receptor couplings via minimal…”
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  7. 7
    Simulation of live-cell imaging system reveals hidden uncertainties in cooperative binding measurements

    Simulation of live-cell imaging system reveals hidden uncertainties in cooperative binding measurements by Watabe, Masaki, Arjunan, Satya N. V, Chew, Wei Xiang, Kaizu, Kazunari, Takahashi, Koichi

    Published 04-07-2019
    “…1 July 2019 issue of Physical Review E (Vol. 100, No. 1) We propose a computational method to quantitatively evaluate the systematic uncertainties that arise…”
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  8. 8
    Surface reaction-diffusion kinetics on lattice at the microscopic scale

    Surface reaction-diffusion kinetics on lattice at the microscopic scale by Chew, Wei-Xiang, Kaizu, Kazunari, Watabe, Masaki, Muniandy, Sithi V, Takahashi, Koichi, Arjunan, Satya N. V

    Published 17-11-2018
    “…Phys. Rev. E 99, 042411 (2019) Microscopic models of reaction-diffusion processes on the cell membrane can link local spatiotemporal effects to macroscopic…”
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  9. 9
    Reaction-diffusion kinetics on lattice at the microscopic scale

    Reaction-diffusion kinetics on lattice at the microscopic scale by Chew, Wei-Xiang, Kaizu, Kazunari, Watabe, Masaki, Muniandy, Sithi V, Takahashi, Koichi, Arjunan, Satya N. V

    Published 01-09-2018
    “…Phys. Rev. E 98, 032418 (2018) Lattice-based stochastic simulators are commonly used to study biological reaction-diffusion processes. Some of these schemes…”
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  10. 10
    Cooperativity transitions driven by higher-order oligomer formations in ligand-induced receptor dimerization

    Cooperativity transitions driven by higher-order oligomer formations in ligand-induced receptor dimerization by Watabe, Masaki, Arjunan, Satya N V, Chew, Wei Xiang, Kaizu, Kazunari, Takahashi, Koichi

    Published in Physical review. E (13-12-2019)
    “…While cooperativity in ligand-induced receptor dimerization has been linked with receptor-receptor couplings via minimal representations of physical…”
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  11. 11
    Simulation of live-cell imaging system reveals hidden uncertainties in cooperative binding measurements

    Simulation of live-cell imaging system reveals hidden uncertainties in cooperative binding measurements by Watabe, Masaki, Arjunan, Satya N V, Chew, Wei Xiang, Kaizu, Kazunari, Takahashi, Koichi

    Published in Physical review. E (03-07-2019)
    “…We propose a computational method to quantitatively evaluate the systematic uncertainties that arise from undetectable sources in biological measurements using…”
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  12. 12
    Microscopic Lattice Method for Studying Intracellular Reaction-diffusion Kinetics

    Microscopic Lattice Method for Studying Intracellular Reaction-diffusion Kinetics by Xiang, Chew Wei

    Published 01-01-2019
    “…Reaction and diffusion plays fundamental roles in many intracellular biochemical process. Bottom-up modelling approaches provide a way to connect the…”
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    Dissertation
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  13. 13
    Study of Particle Dynamics in Dusty Plasma System Using Stochastic Models

    Study of Particle Dynamics in Dusty Plasma System Using Stochastic Models by Xiang, Chew Wei

    Published 01-01-2013
    “…Dusty plasma typically consists of electrons and ions with micron-size charged dust particles. Due to complex inter-species interactions, the system…”
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