Differentiation rather than aging of muscle stem cells abolishes their telomerase activity. - Wikidata - wikimedia - TriplyDB

Differentiation rather than aging of muscle stem cells abolishes their telomerase activity.

Differentiation rather than aging of muscle stem cells abolishes their telomerase activity.

http://www.wikidata.org/entity/Q37351695

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Muscle wasting in myotonic dystrophies: a model of premature aging The effect of physiological stimuli on sarcopenia; impact of Notch and Wnt signaling on impaired aged skeletal muscle repair Livestock models for exploiting the promise of pluripotent stem cells Longevity and skeletal muscle mass: the role of IGF signalling, the sirtuins, dietary restriction and protein intake Satellite cells senescence in limb muscle of severe patients with COPD Porcine skeletal muscle-derived multipotent PW1pos/Pax7neg interstitial cells: isolation, characterization, and long-term culture.Changed genome heterochromatinization upon prolonged activation of the Raf/ERK signaling pathway.Quantitative telomerase enzyme activity determination using droplet digital PCR with single cell resolution.Telomere length and regulatory proteins in human skeletal muscle with and without ongoing regenerative cycles.Multiple Genes Related to Muscle Identified through a Joint Analysis of a Two-stage Genome-wide Association Study for Racing Performance of 1,156 Thoroughbreds Systemic Problems: A perspective on stem cell aging and rejuvenation.Mimicking exercise in three-dimensional bioengineered skeletal muscle to investigate cellular and molecular mechanisms of physiological adaptation.Reduction of myoblast differentiation following multiple population doublings in mouse C2 C12 cells: a model to investigate ageing?Modelling in vivo skeletal muscle ageing in vitro using three-dimensional bioengineered constructs.The impact of age on the physical and cellular properties of the human limbal stem cell niche.Single Stem Cell Imaging and Analysis Reveals Telomere Length Differences in Diseased Human and Mouse Skeletal Muscles.Isolation and Purification of Satellite Cells for Skeletal Muscle Tissue Engineering.CEBP factors regulate telomerase reverse transcriptase promoter activity in whey acidic protein-T mice during mammary carcinogenesis.Murine myoblast migration: influence of replicative ageing and nutrition.Breaking ground on translational stem cell research.

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Differentiation rather than aging of muscle stem cells abolishes their telomerase activity.

http://www.wikidata.org/entity/Q37351695

description

article científic

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article scientifique

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articolo scientifico

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artigo científico

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bilimsel makale

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scientific article published on July 2009

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vedecký článok

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vetenskaplig artikel

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videnskabelig artikel

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vědecký článek

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name

Differentiation rather than ag ...... hes their telomerase activity.

@en

Differentiation rather than ag ...... hes their telomerase activity.

@nl

type

label

Differentiation rather than ag ...... hes their telomerase activity.

@en

Differentiation rather than ag ...... hes their telomerase activity.

@nl

prefLabel

Differentiation rather than ag ...... hes their telomerase activity.

@en

Differentiation rather than ag ...... hes their telomerase activity.

@nl

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Differentiation rather than ag ...... hes their telomerase activity.

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Irina M Conboy

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

Matthew S O'Connor

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

Morgan E Carlson

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

P2860

Wild-derived inbred mouse strains have short telomeres.

Embryonic stem cell lines derived from human blastocysts

Serial passaging and differentiation of myogenic cells isolated from dystrophic mouse muscle

Rejuvenation of aged progenitor cells by exposure to a young systemic environment

High incidence of non-random template strand segregation and asymmetric fate determination in dividing stem cells and their progeny.

Telomere shortening in mTR-/- embryos is associated with failure to close the neural tube.

Haploinsufficiency of mTR results in defects in telomere elongation.

Regenerative capacity of human satellite cells: the mitotic clock in cell transplantation.

Stem cell function, self-renewal, and behavioral heterogeneity of cells from the adult muscle satellite cell niche.

Telomere length regulation during postnatal development and ageing in Mus spretus.

P304

1130-1137

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scholarly article

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10.1002/BTPR.223

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4

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25

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2009-07-01T00:00:00Z

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24440240

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19455648

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2746102

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