The regenerative capacity of zebrafish reverses cardiac failure caused by genetic cardiomyocyte depletion. - Test2 - elhamkhani - TriplyDB

The regenerative capacity of zebrafish reverses cardiac failure caused by genetic cardiomyocyte depletion.

The regenerative capacity of zebrafish reverses cardiac failure caused by genetic cardiomyocyte depletion.

http://www.wikidata.org/entity/Q30502828

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Building and re-building the heart by cardiomyocyte proliferation Programming and reprogramming a human heart cell A neonatal blueprint for cardiac regeneration Heart repair and regeneration: recent insights from zebrafish studies Ciona as a Simple Chordate Model for Heart Development and Regeneration Advanced echocardiography in adult zebrafish reveals delayed recovery of heart function after myocardial cryoinjury Epicardial regeneration is guided by cardiac outflow tract and Hedgehog signalling.Use of echocardiography reveals reestablishment of ventricular pumping efficiency and partial ventricular wall motion recovery upon ventricular cryoinjury in the zebrafish.Hypoxia/reoxygenation cardiac injury and regeneration in zebrafish adult heart Dedifferentiation, Transdifferentiation, and Proliferation: Mechanisms Underlying Cardiac Muscle Regeneration in Zebrafish 3D Finite Element Electrical Model of Larval Zebrafish ECG Signals Telomerase Is Essential for Zebrafish Heart Regeneration The Epicardium in the Embryonic and Adult Zebrafish.Explant culture of adult zebrafish hearts for epicardial regeneration studies.High-Resolution Magnetic Resonance Imaging of the Regenerating Adult Zebrafish Heart.The oxygen-rich postnatal environment induces cardiomyocyte cell-cycle arrest through DNA damage response Hydrogen peroxide primes heart regeneration with a derepression mechanism.Skeletal muscle regeneration in Xenopus tadpoles and zebrafish larvae.Transcriptional response to cardiac injury in the zebrafish: systematic identification of genes with highly concordant activity across in vivo models.Hand2 elevates cardiomyocyte production during zebrafish heart development and regeneration.Regenerative responses after mild heart injuries for cardiomyocyte proliferation in zebrafish Nerve growth factor stimulates cardiac regeneration via cardiomyocyte proliferation in experimental heart failure Cardiac regenerative capacity and mechanisms Multiple influences of blood flow on cardiomyocyte hypertrophy in the embryonic zebrafish heart.Fetal Mammalian Heart Generates a Robust Compensatory Response to Cell Loss.Clonally dominant cardiomyocytes direct heart morphogenesis.Cardiac regeneration Regulation of zebrafish heart regeneration by miR-133 Leukemia Inhibitory Factor Enhances Endogenous Cardiomyocyte Regeneration after Myocardial Infarction.Myocardial NF-κB activation is essential for zebrafish heart regeneration.Dynamic microRNA-101a and Fosab expression controls zebrafish heart regeneration New approaches under development: cardiovascular embryology applied to heart disease.Single epicardial cell transcriptome sequencing identifies Caveolin 1 as an essential factor in zebrafish heart regeneration Regulation of neonatal and adult mammalian heart regeneration by the miR-15 family.Adult zebrafish hearts efficiently compensate for excessive forced overload cardiac stress with hyperplastic cardiomegaly In vivo monitoring of cardiomyocyte proliferation to identify chemical modifiers of heart regeneration.TCDD inhibits heart regeneration in adult zebrafish Mechanisms of Cardiac Regeneration Comparative transcriptome profiling of the injured zebrafish and mouse hearts identifies miRNA-dependent repair pathways.Common developmental pathways link tooth shape to regeneration

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The regenerative capacity of zebrafish reverses cardiac failure caused by genetic cardiomyocyte depletion.

http://www.wikidata.org/entity/Q30502828

description

2011 nî lūn-bûn

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2011 թուականի Յուլիսին հրատարակուած գիտական յօդուած

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2011 թվականի հուլիսին հրատարակված գիտական հոդված

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2011年の論文

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2011年論文

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2011年論文

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2011年論文

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2011年論文

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2011年論文

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2011年论文

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name

The regenerative capacity of z ...... netic cardiomyocyte depletion.

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The regenerative capacity of z ...... netic cardiomyocyte depletion.

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type

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The regenerative capacity of z ...... netic cardiomyocyte depletion.

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The regenerative capacity of z ...... netic cardiomyocyte depletion.

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The regenerative capacity of z ...... netic cardiomyocyte depletion.

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The regenerative capacity of z ...... netic cardiomyocyte depletion.

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Amy L Dickson

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Andreas A Werdich

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Calum A Macrae

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Deborah Yelon

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James S Burris

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Jennifer E Holdway

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Jinhu Wang

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M Khaled Sabeh

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

Matthew Gemberling

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

Yi-Fan Lin

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

P2860

Wnt11 patterns a myocardial electrical gradient through regulation of the L-type Ca(2+) channel

Cre reporter strains produced by targeted insertion of EYFP and ECFP into the ROSA26 locus

Neuregulin1/ErbB4 signaling induces cardiomyocyte proliferation and repair of heart injury

Postnatal isl1+ cardioblasts enter fully differentiated cardiomyocyte lineages

Direct reprogramming of fibroblasts into functional cardiomyocytes by defined factors.

Heart regeneration in zebrafish

In vivo imaging of embryonic vascular development using transgenic zebrafish

Adult cardiac stem cells are multipotent and support myocardial regeneration

Transient regenerative potential of the neonatal mouse heart

Zebrafish heart regeneration occurs by cardiomyocyte dedifferentiation and proliferation

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3421-3430

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10.1242/DEV.068601

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16

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138

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Sumeet Pal Singh

Daniela Panáková

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2011-07-13T00:00:00Z

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51489286

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