Myo1c is designed for the adaptation response in the inner ear - Wikidata - wikimedia - TriplyDB

Myo1c is designed for the adaptation response in the inner ear

Myo1c is designed for the adaptation response in the inner ear

http://www.wikidata.org/entity/Q24610102

about

Myosin 1G (Myo1G) is a haematopoietic specific myosin that localises to the plasma membrane and regulates cell elasticity Making an effort to listen: mechanical amplification in the ear Control of the initiation and termination of kinesin-1-driven transport by myosin-Ic and nonmuscle tropomyosin A vertebrate myosin-I structure reveals unique insights into myosin mechanochemical tuning.Localization of myosin 1b to actin protrusions requires phosphoinositide binding Modification of loop 1 affects the nucleotide binding properties of Myo1c, the adaptation motor in the inner ear A model of stereocilia adaptation based on single molecule mechanical studies of myosin I Myosin-1c regulates the dynamic stability of E-cadherin-based cell-cell contacts in polarized Madin-Darby canine kidney cells.Fast adaptation in vestibular hair cells requires myosin-1c activity.Calcium sensitivity of the cross-bridge cycle of Myo1c, the adaptation motor in the inner ear Distribution of frequencies of spontaneous oscillations in hair cells of the bullfrog sacculus.The actions of calcium on hair bundle mechanics in mammalian cochlear hair cells.Myosin-1c couples assembling actin to membranes to drive compensatory endocytosis.Myo1c regulates lipid raft recycling to control cell spreading, migration and Salmonella invasion Myosin-Vb functions as a dynamic tether for peripheral endocytic compartments during transferrin trafficking.Myosin-10 produces its power-stroke in two phases and moves processively along a single actin filament under low load.Leveraging the membrane - cytoskeleton interface with myosin-1.Myo1c mutations associated with hearing loss cause defects in the interaction with nucleotide and actin.A virtual hair cell, I: addition of gating spring theory into a 3-D bundle mechanical model.Mechanochemical tuning of myosin-I by the N-terminal region Adenosine diphosphate and strain sensitivity in myosin motors.Calcium regulation of myosin-I tension sensing Unifying the various incarnations of active hair-bundle motility by the vertebrate hair cell Myosin IC generates power over a range of loads via a new tension-sensing mechanism.Temperature dependence of nucleotide association and kinetic characterization of myo1b.Enrichment of distinct microfilament-associated and GTP-binding-proteins in membrane/microvilli fractions from lymphoid cells.Calcium regulation of calmodulin binding to and dissociation from the myo1c regulatory domain.Myosin light chains: Teaching old dogs new tricks A Perspective on the Role of Myosins as Mechanosensors Myosin-I molecular motors at a glance Drug effect unveils inter-head cooperativity and strain-dependent ADP release in fast skeletal actomyosin.Shaking the myosin family tree: biochemical kinetics defines four types of myosin motor Regulation and control of myosin-I by the motor and light chain-binding domains.Kinetic Adaptations of Myosins for Their Diverse Cellular Functions Mechanics and Activation of Unconventional Myosins.Mechanism of nucleotide binding to actomyosin VI: evidence for allosteric head-head communication.Kinetic adaptation of human Myo19 for active mitochondrial transport to growing filopodia tips Impact of the Motor and Tail Domains of Class III Myosins on Regulating the Formation and Elongation of Actin Protrusions N-terminal splicing extensions of the human MYO1C gene fine-tune the kinetics of the three full-length myosin IC isoforms.Structure of myosin-1c tail bound to calmodulin provides insights into calcium-mediated conformational coupling

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Myo1c is designed for the adaptation response in the inner ear

http://www.wikidata.org/entity/Q24610102

description

2004 nî lūn-bûn

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2004 թուականի Մարտին հրատարակուած գիտական յօդուած

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2004 թվականի մարտին հրատարակված գիտական հոդված

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2004年の論文

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2004年論文

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2004年論文

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2004年論文

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2004年論文

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2004年論文

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2004年论文

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name

Myo1c is designed for the adaptation response in the inner ear

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Myo1c is designed for the adaptation response in the inner ear

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Myo1c is designed for the adaptation response in the inner ear

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type

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Myo1c is designed for the adaptation response in the inner ear

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Myo1c is designed for the adaptation response in the inner ear

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Myo1c is designed for the adaptation response in the inner ear

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prefLabel

Myo1c is designed for the adaptation response in the inner ear

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Myo1c is designed for the adaptation response in the inner ear

@en

Myo1c is designed for the adaptation response in the inner ear

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SJ.EMBOJ.7600169

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The EMBO Journal

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Myo1c is designed for the adaptation response in the inner ear

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Abel Lin

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

Christopher Batters

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Christopher P Arthur

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Jessica Porter

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Lynne M Coluccio

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Ronald A Milligan

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P2860

Domain structure of a mammalian myosin I beta

Improved methods for building protein models in electron density maps and the location of errors in these models

Three-dimensional structure of myosin subfragment-1: a molecular motor

Transient kinetic analysis of the 130-kDa myosin I (MYR-1 gene product) from rat liver. A myosin I designed for maintenance of tension?

Reduced climbing and increased slipping adaptation in cochlear hair cells of mice with Myo7a mutations

The regulation of rabbit skeletal muscle contraction. I. Biochemical studies of the interaction of the tropomyosin-troponin complex with actin and the proteolytic fragments of myosin

Processing images of helical structures: a new twist.

Force measurements by micromanipulation of a single actin filament by glass needles.

Characterization of adaptation motors in saccular hair cells by fluctuation analysis.

Localization of the rat myosin I molecules myr 1 and myr 2 and in vivo targeting of their tail domains.

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7

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23

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Michael A. Geeves

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2004-03-11T00:00:00Z

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6940007

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15014434

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391074

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