Gravitational force modulates G2/M phase exit in mechanically unloaded myoblasts. - Wikidata - awgldk - TriplyDB

Gravitational force modulates G2/M phase exit in mechanically unloaded myoblasts.

Gravitational force modulates G2/M phase exit in mechanically unloaded myoblasts.

http://www.wikidata.org/entity/Q37420049

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RhoGTPases as key players in mammalian cell adaptation to microgravity Cell cultivation under different gravitational loads using a novel random positioning incubator.TRPC1: getting physical in space.Impedance flow cytometry gauges proliferative capacity by detecting TRPC1 expression.YAP and ERK mediated mechanical strain-induced cell cycle progression through RhoA and cytoskeletal dynamics in rat growth plate chondrocytes.Hypergravity As a Tool for Cell Stimulation: Implications in Biomedicine

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Gravitational force modulates G2/M phase exit in mechanically unloaded myoblasts.

http://www.wikidata.org/entity/Q37420049

description

article científic

@ca

article scientifique

@fr

articolo scientifico

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artigo científico

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bilimsel makale

@tr

scientific article published on 14 August 2013

@en

vedecký článok

@sk

vetenskaplig artikel

@sv

videnskabelig artikel

@da

vědecký článek

@cs

name

Gravitational force modulates G2/M phase exit in mechanically unloaded myoblasts.

@en

Gravitational force modulates G2/M phase exit in mechanically unloaded myoblasts.

@nl

type

label

Gravitational force modulates G2/M phase exit in mechanically unloaded myoblasts.

@en

Gravitational force modulates G2/M phase exit in mechanically unloaded myoblasts.

@nl

prefLabel

Gravitational force modulates G2/M phase exit in mechanically unloaded myoblasts.

@en

Gravitational force modulates G2/M phase exit in mechanically unloaded myoblasts.

@nl

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Gravitational force modulates G2/M phase exit in mechanically unloaded myoblasts.

@en

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Alfredo Franco-Obregón

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

Marcel Egli

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

Tatiana Benavides Damm

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

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Stretch-activated ion channels: what are they?

Calmodulin is required for cell-cycle progression during G1 and mitosis

Human cyclins A and B1 are differentially located in the cell and undergo cell cycle-dependent nuclear transport

A critical role for FBXW8 and MAPK in cyclin D1 degradation and cancer cell proliferation.

Functional and structural adaptations of skeletal muscle to microgravity.

Actin cytoskeleton regulates stretch-activated Ca2+ influx in human pulmonary microvascular endothelial cells.

Ca2+-calmodulin-dependent protein kinase II potentiates store-operated Ca2+ current

Bone mineral and lean tissue loss after long duration space flight.

Cytometry of cyclin proteins.

The cell cycle: a new entry in the field of Ca2+ signaling.

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3001-3012

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scholarly article

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10.4161/CC.26029

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2013-08-14T00:00:00Z

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256100563

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23974110

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