Imaging of thermal activation of actomyosin motors. - Wikidata - awgldk - TriplyDB

Imaging of thermal activation of actomyosin motors.

Imaging of thermal activation of actomyosin motors.

http://www.wikidata.org/entity/Q36426908

about

Triggering of high-speed neurite outgrowth using an optical microheater.Watching individual proteins acting on single molecules of DNA.Microscopic detection of thermogenesis in a single HeLa cell.Highly thermosensitive Ca dynamics in a HeLa cell through IP(3) receptors.Temperature control methods in a laser tweezers system Resource Letter: LBOT-1: Laser-based optical tweezers Laser-triggered carbon nanotube microdevice for remote control of biocatalytic reactions.Local heating of molecular motors using single carbon nanotubes.Two methods of temperature control for single-molecule measurements.Real-Time Infrared Overtone Laser Control of Temperature in Picoliter H(2)O Samples: "Nanobathtubs" for Single Molecule Microscopy.Temperature change does not affect force between single actin filaments and HMM from rabbit muscles.Yoctoliter thermometry for single-molecule investigations: a generic bead-on-a-tip temperature-control module.Impact of heating on passive and active biomechanics of suspended cells.Directional bleb formation in spherical cells under temperature gradient.Probing DNA helicase kinetics with temperature-controlled magnetic tweezers Micromechanical thermal assays of Ca2+-regulated thin-filament function and modulation by hypertrophic cardiomyopathy mutants of human cardiac troponin Exploring mechanochemical processes in the cell with optical tweezers.Kinetics of Reactive Modules Adds Discriminative Dimensions for Selective Cell Imaging.Nanoelectropulse-induced phosphatidylserine translocation.Optofluidic control using photothermal nanoparticles.Thermal activation of single kinesin molecules with temperature pulse microscopy.Temperature change does not affect force between regulated actin filaments and heavy meromyosin in single-molecule experiments.All-electrical switching and control mechanism for actomyosin-powered nanoactuators

P2860

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P2860

Imaging of thermal activation of actomyosin motors.

http://www.wikidata.org/entity/Q36426908

description

1999 nî lūn-bûn

@nan

1999年の論文

@ja

1999年学术文章

@wuu

1999年学术文章

@zh-cn

1999年学术文章

@zh-hans

1999年学术文章

@zh-my

1999年学术文章

@zh-sg

1999年學術文章

@yue

1999年學術文章

@zh

1999年學術文章

@zh-hant

name

Imaging of thermal activation of actomyosin motors.

@ast

Imaging of thermal activation of actomyosin motors.

@en

type

label

Imaging of thermal activation of actomyosin motors.

@ast

Imaging of thermal activation of actomyosin motors.

@en

prefLabel

Imaging of thermal activation of actomyosin motors.

@ast

Imaging of thermal activation of actomyosin motors.

@en

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P356

PNAS.96.17.9602

P1433

Proceedings of the National Academy of Sciences of the United States of America

P1476

Imaging of thermal activation of actomyosin motors.

@en

P2093

Iga T

http://www.w3.org/2001/XMLSchema#string

Ishiwata S

http://www.w3.org/2001/XMLSchema#string

Kato H

http://www.w3.org/2001/XMLSchema#string

Kinosita K Jr

http://www.w3.org/2001/XMLSchema#string

Nishizaka T

http://www.w3.org/2001/XMLSchema#string

P2860

Temperature dependence and Arrhenius activation energy of F-actin velocity generated in vitro by skeletal myosin.

Dual-view microscopy with a single camera: real-time imaging of molecular orientations and calcium.

Preparation of bead-tailed actin filaments: estimation of the torque produced by the sliding force in an in vitro motility assay

Real time imaging of single fluorophores on moving actin with an epifluorescence microscope.

Evidence for localized cell heating induced by infrared optical tweezers

Flexibility of myosin attachment to surfaces influences F-actin motion.

Thermal imaging of receptor-activated heat production in single cells.

Direct observation of motion of single F-actin filaments in the presence of myosin.

Single myosin molecule mechanics: piconewton forces and nanometre steps.

Force generation by muscle fibers in rigor: a laser temperature-jump study.

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9602-9606

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scholarly article

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10.1073/PNAS.96.17.9602

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