Kana Mizutani scite author profile

Mitotic kinesin Eg5 is a homotetrameric molecular motor that cross-links and slides microtubules. The extent to which Eg5 moves processively is not clear. Here we use three-dimensional tracking of a quantum dot attached to the microtubule in a motility assay to directly visualize the corkscrew motion of a sliding microtubule. We show that the rotational pitch of microtubule sliding conveniently reports on the processivity of the driving motors, confirming that two-headed Eg5 is much less processive than two-headed kinesin-1.

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Difference in transformation behavior between ferrite and austenite formations in medium manganese steel

Nakada

et al. 2014

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All-atom molecular dynamics calculation study of entire poliovirus empty capsids in solution

Andoh

Yoshii

Yamada

et al. 2014

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Small viruses that belong, for example, to the Picornaviridae, such as poliovirus and foot-and-mouth disease virus, consist simply of capsid proteins and a single-stranded RNA (ssRNA) genome. The capsids are quite stable in solution to protect the genome from the environment. Here, based on long-time and large-scale 6.5 × 10(6) all-atom molecular dynamics calculations for the Mahoney strain of poliovirus, we show microscopic properties of the viral capsids at a molecular level. First, we found equilibrium rapid exchange of water molecules across the capsid. The exchange rate is so high that all water molecules inside the capsid (about 200,000) can leave the capsid and be replaced by water molecules from the outside in about 25 μs. This explains the capsid's tolerance to high pressures and deactivation by exsiccation. In contrast, the capsid did not exchange ions, at least within the present simulation time of 200 ns. This implies that the capsid can function, in principle, as a semipermeable membrane. We also found that, similar to the xylem of trees, the pressure of the solution inside the capsid without the genome was negative. This is caused by coulombic interaction of the solution inside the capsid with the capsid excess charges. The negative pressure may be compensated by positive osmotic pressure by the solution-soluble ssRNA and the counter ions introduced into it.

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Unitary step of gliding machinery in Mycoplasma mobile

Kinosita

Nakane

Sugawa

et al. 2014

Proc. Natl. Acad. Sci. U.S.A.

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Among the bacteria that glide on substrate surfaces, Mycoplasma mobile is one of the fastest, exhibiting smooth movement with a speed of 2.0-4.5 μm·s −1 with a cycle of attachment to and detachment from sialylated oligosaccharides. To study the gliding mechanism at the molecular level, we applied an assay with a fluorescently labeled and membrane-permeabilized ghost model, and investigated the motility by high precision colocalization microscopy. Under conditions designed to reduce the number of motor interactions on a randomly oriented substrate, ghosts took unitary 70-nm steps in the direction of gliding. Although it remains possible that the stepping behavior is produced by multiple interactions, our data suggest that these steps are produced by a unitary gliding machine that need not move between sites arranged on a cytoskeletal lattice.

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Evaluation of proton conductivity in SrCeO3, BaCeO3, CaZrO3 and SrZrO3 by temperature programmed desorption method

et al. 1992

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MODYLAS: A Highly Parallelized General-Purpose Molecular Dynamics Simulation Program for Large-Scale Systems with Long-Range Forces Calculated by Fast Multipole Method (FMM) and Highly Scalable Fine-Grained New Parallel Processing Algorithms

Andoh

Yoshii

Fujimoto

et al. 2013

J. Chem. Theory Comput.

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Our new molecular dynamics (MD) simulation program, MODYLAS, is a general-purpose program appropriate for very large physical, chemical, and biological systems. It is equipped with most standard MD techniques. Long-range forces are evaluated rigorously by the fast multipole method (FMM) without using the fast Fourier transform (FFT). Several new methods have also been developed for extremely fine-grained parallelism of the MD calculation. The virtually buffering-free methods for communications and arithmetic operations, the minimal communication latency algorithm, and the parallel bucket-relay communication algorithm for the upper-level multipole moments in the FMM realize excellent scalability. The methods for blockwise arithmetic operations avoid data reload, attaining very small cache miss rates. Benchmark tests for MODYLAS using 65 536 nodes of the K-computer showed that the overall calculation time per MD step including communications is as short as about 5 ms for a 10 million-atom system; that is, 35 ns of simulation time can be computed per day. The program enables investigations of large-scale real systems such as viruses, liposomes, assemblies of proteins and micelles, and polymers.

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Carcinoid tumors of the gastrointestinal tract: evaluation with endoscopic ultrasonography

Yoshikane

Tsukamoto

Niwa

et al. 1993

Gastrointestinal Endoscopy

111

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Field experiments on energy consumption and thermal comfort in the office environment controlled by occupants’ requirements from PC terminal

Murakami

Terano

Mizutani

et al. 2007

Building and Environment

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Kana Mizutani

A torque component present in mitotic kinesin Eg5 revealed by three-dimensional tracking

Difference in transformation behavior between ferrite and austenite formations in medium manganese steel

All-atom molecular dynamics calculation study of entire poliovirus empty capsids in solution

Unitary step of gliding machinery in Mycoplasma mobile

Evaluation of proton conductivity in SrCeO3, BaCeO3, CaZrO3 and SrZrO3 by temperature programmed desorption method

MODYLAS: A Highly Parallelized General-Purpose Molecular Dynamics Simulation Program for Large-Scale Systems with Long-Range Forces Calculated by Fast Multipole Method (FMM) and Highly Scalable Fine-Grained New Parallel Processing Algorithms

Carcinoid tumors of the gastrointestinal tract: evaluation with endoscopic ultrasonography

Field experiments on energy consumption and thermal comfort in the office environment controlled by occupants’ requirements from PC terminal

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