about
Shelterin complex and associated factors at human telomeresTelomeres in aging and disease: lessons from zebrafishIt all comes together at the ends: telomerase structure, function, and biogenesisTelomeres and immune competencyLinking functional decline of telomeres, mitochondria and stem cells during ageingVariation at the TERT locus and predisposition for cancerAn official American Thoracic Society/European Respiratory Society statement: Update of the international multidisciplinary classification of the idiopathic interstitial pneumoniasA Nondegenerate Code of Deleterious Variants in Mendelian Loci Contributes to Complex Disease RiskZebrafish models for dyskeratosis congenita reveal critical roles of p53 activation contributing to hematopoietic defects through RNA processingThe box H/ACA ribonucleoprotein complex: interplay of RNA and protein structures in post-transcriptional RNA modification.Pneumococcal vaccine failure: can it be a primary immunodeficiency?Telomere length is inherited with resetting of the telomere set-point.Progeria syndromes and ageing: what is the connection?Human RTEL1 deficiency causes Hoyeraal-Hreidarsson syndrome with short telomeres and genome instability.The biology of hyperpigmentation syndromes.Telomere length in blood, buccal cells, and fibroblasts from patients with inherited bone marrow failure syndromesGenetic Variations in Telomere Maintenance, with Implications on Tissue Renewal Capacity and Chronic Disease Pathologies.Animal models of Diamond Blackfan anemia.Bone marrow skeletal stem/progenitor cell defects in dyskeratosis congenita and telomere biology disorders.TIN2 protein dyskeratosis congenita missense mutants are defective in association with telomerase.A case report on a rare disease: dyskeratosis congenita.P. berghei telomerase subunit TERT is essential for parasite survival.Transplantation for congenital bone marrow failure syndromes.Accelerated hematopoietic stem cell aging in a mouse model of dyskeratosis congenita responds to antioxidant treatment.The relationship between telomere length and beekeeping among Malaysians.The pathogenesis of COPD and IPF: distinct horns of the same devil?Dyskeratosis congenita and the DNA damage response.Telomere Length as an Indicator of the Robustness of B- and T-Cell Response to Influenza in Older Adults.RNA-Binding Protein FXR1 Regulates p21 and TERC RNA to Bypass p53-Mediated Cellular Senescence in OSCC.Aplastic anemia: pathophysiology and treatment.Interstitial lung disease in a patient with dyskeratosis congenita.Defective telomere elongation and hematopoiesis from telomerase-mutant aplastic anemia iPSCsP66SHC deletion improves fertility and progeric phenotype of late-generation TERC-deficient mice but not their short lifespan.Purification, crystallization and preliminary X-ray crystallographic study of the tRNA pseudouridine synthase TruB from Streptococcus pneumoniaeTelomeres and mitochondria in the aging heart.Pathophysiology and management of inherited bone marrow failure syndromes.Premature aging in telomerase-deficient zebrafishTelomerase reverse transcriptase-dependent telomere equilibration mitigates tissue dysfunction in mTert heterozygotes.Fatal Hemorrhagic Gastrointestinal Angioectasia after Bone Marrow Transplantation for Dyskeratosis Congenita.Conditional TRF1 knockout in the hematopoietic compartment leads to bone marrow failure and recapitulates clinical features of dyskeratosis congenita.
P2860
Q24601577-AC6CCF1B-3E3A-4350-8291-14A98FDB64F3Q26740023-35EEB834-D822-439B-B409-048DA4CE7137Q26823394-168FC768-E03F-4A93-BACD-08D087ABC6E7Q26825318-42016B18-25BA-4B87-A394-6A37EA8E74A6Q28277689-FDB5A1FD-BB84-4F24-9299-190984C0975EQ28282704-404CD4EA-7E5F-4FA6-9ED6-AEB7A319B2CCQ28298430-AF85FBCA-2B23-4252-8200-42EAAD51BD32Q30002401-F204AC2F-1D38-41F2-97F1-EB9052D93380Q31047627-7487C417-A6D2-4F6A-9C20-1C64D56D454EQ33569825-126236D3-663D-47C3-BD94-BA4F02542855Q33802340-AC6FA3B8-3E69-4AF7-B195-27769E876861Q33933472-BFC6DC38-F82E-4B26-A7EF-33F86FD483F8Q34127512-536D36EA-ECF3-454C-BA33-CED4035249B4Q34339671-47D51E1F-8792-40D8-92A3-A940BF6DF743Q34409196-D4B205FF-B25A-41E2-BB46-5A1A5FD556DAQ34424931-03890AA2-2A31-4809-A6C9-FE7496AFC4C0Q34506827-04D677D4-D09D-4E30-964C-D12E2CCB807CQ35017968-BD845894-007C-4F6F-91DD-765FF434D627Q35029446-851BA093-B17D-4B63-859A-04DEC23E89D5Q35067743-749486A5-3924-4E98-ACC1-4181067713A0Q35166873-1DB8312D-537B-49D9-9B99-7A579B7E569BQ35294671-7BA276E6-0ECD-469B-AAF3-B19E99D1BFE9Q35428973-35569435-7B78-420C-A95A-36AB909F530CQ35615304-D55D4E99-E143-4E0F-A0AD-1E73B93C7A06Q35668632-53DE9715-902A-4475-B0D6-79BBB6154B51Q35766351-59E3680E-500F-4984-B897-0F6396696F7AQ35895247-C0EB7995-2B11-42FE-AFF8-F5F08132911DQ36078756-A48DF8A6-8BD1-4616-80A5-44B7086B1B09Q36126403-1A9B4683-B2F6-4FF3-8E98-1CCEA0CC3C2BQ36464602-66E436BB-0368-411B-AE2F-1159C66A21C5Q36665970-35C3FCDF-5D9C-4C4A-B66F-4E493D2638B5Q36793537-FE090FC6-CC60-41DC-9851-20C11BA0F764Q36863716-D65430C3-C80D-42EC-9DCC-8DB8F9C599EAQ36985188-D89549D9-31B2-41D6-AF95-41E9ED25CA3AQ37033248-2093489C-6713-484D-8BC5-4D9AB9DF0F5FQ37070448-2E80E438-CFB9-4DC6-BEBB-0F7AA499C8A4Q37137741-EB06E601-F403-49CA-8B52-F70647DB874AQ37412899-720B214E-2AD0-4D6A-BA0B-80280A55A071Q37562747-A6FD1694-7BE4-4BC8-A465-C1995D384DE0Q37570832-A892C6C8-DEA2-4003-ACDC-A7D6BA2865A5
P2860
description
article científic
@ca
article scientifique
@fr
articolo scientifico
@it
artigo científico
@pt
bilimsel makale
@tr
scientific article published on 07 February 2009
@en
vedecký článok
@sk
vetenskaplig artikel
@sv
videnskabelig artikel
@da
vědecký článek
@cs
name
Dyskeratosis congenita, stem cells and telomeres.
@en
Dyskeratosis congenita, stem cells and telomeres.
@nl
type
label
Dyskeratosis congenita, stem cells and telomeres.
@en
Dyskeratosis congenita, stem cells and telomeres.
@nl
prefLabel
Dyskeratosis congenita, stem cells and telomeres.
@en
Dyskeratosis congenita, stem cells and telomeres.
@nl
P2860
P921
P1476
Dyskeratosis congenita, stem cells and telomeres.
@en
P2093
Inderjeet Dokal
Michael Kirwan
P2860
P304
P356
10.1016/J.BBADIS.2009.01.010
P407
P5008
P577
2009-02-07T00:00:00Z
2009-04-01T00:00:00Z