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Fgf10-positive cells represent a progenitor cell population during lung development and postnatallymiR-142-3p balances proliferation and differentiation of mesenchymal cells during lung development.Contrasting expression of canonical Wnt signaling reporters TOPGAL, BATGAL and Axin2(LacZ) during murine lung development and repair.A breath of fresh air on the mesenchyme: impact of impaired mesenchymal development on the pathogenesis of bronchopulmonary dysplasia.Attenuating endogenous Fgfr2b ligands during bleomycin-induced lung fibrosis does not compromise murine lung repairMesenchymal adenomatous polyposis coli plays critical and diverse roles in regulating lung developmentGeneration and Validation of miR-142 Knock Out Mice.Increased FGF1-FGFRc expression in idiopathic pulmonary fibrosis.Influenza Virus Infects Epithelial Stem/Progenitor Cells of the Distal Lung: Impact on Fgfr2b-Driven Epithelial Repair.Evidence for the involvement of fibroblast growth factor 10 in lipofibroblast formation during embryonic lung development.Fgf10-expressing tanycytes add new neurons to the appetite/energy-balance regulating centers of the postnatal and adult hypothalamus.Walking along the Fibroblast Growth Factor 10 Route: A Key Pathway to Understand the Control and Regulation of Epithelial and Mesenchymal Cell-Lineage Formation during Lung Development and Repair after Injury.Role of fibroblast growth factors in organ regeneration and repair.Ex vivo analysis of the contribution of FGF10+ cells to airway smooth muscle cell formation during early lung development.Therapeutic and pathological roles of fibroblast growth factors in pulmonary diseases.Two-Way Conversion between Lipogenic and Myogenic Fibroblastic Phenotypes Marks the Progression and Resolution of Lung Fibrosis.Pulmonary Hypertension due to Lung Diseases and/or Hypoxia: What Do We Actually Know?Fgf10-Hippo Epithelial-Mesenchymal Crosstalk Maintains and Recruits Lung Basal Stem Cells.Origin and characterization of alpha smooth muscle actin-positive cells during murine lung development.Fgf10 deficiency is causative for lethality in a mouse model of bronchopulmonary dysplasia.Low density lipoprotein receptor-related protein 1 couples β1 integrin activation to degradation.A novel mouse Cre-driver line targeting Perilipin 2-expressing cells in the neonatal lung.Resident cell lineages are preserved in pulmonary vascular remodeling.Mesenchymal Stem Cells in Fibrotic Disease.Is fibroblast growth factor signaling pathway a victim of receptor tyrosine kinase inhibition in pulmonary parenchymal and vascular remodeling?Early transcriptional regulation by C-peptide in freshly isolated rat proximal tubular cells.PDGFRα and αSMA mark two distinct mesenchymal cell populations involved in parenchymal and vascular remodeling in pulmonary fibrosisImpact of Fgf10 deficiency on pulmonary vasculature formation in a mouse model of bronchopulmonary dysplasiaMetformin induces lipogenic differentiation in myofibroblasts to reverse lung fibrosisEmbryonic mesothelium in motion: a systematic studyA critical role for miR-142 in alveolar epithelial lineage formation in mouse lung development
P50
Q30561785-DCE5C85F-522E-4837-AF0F-CE98CC959DBDQ30573413-A86D8AC1-040F-4A0E-AFA8-5A577C891EF7Q33999191-2ADE7E11-33C4-4EEA-8279-2664F4EA43D9Q35545614-3C423F59-C370-4465-A9AB-260B9AF1BD1DQ35622495-D48B73A9-E7AA-46EB-BB26-7DD0516CBDBFQ35669246-A18EE802-3CE3-4A6B-A2B9-931D4763AF77Q35761072-FAEED1F1-9B56-4AAA-95F1-2022276A8472Q35830712-A2F84591-8DC5-4AAA-A262-027B20718153Q36056848-3BADE1EC-7CDD-4FA4-BEF7-1FC3A31F012DQ36462506-F4CBED60-18A8-4B4D-9ECD-7B1A0FD531E4Q37077300-185559CD-D28B-4481-9441-C145C99EBBBFQ38258350-15B3A462-04D6-4821-BA74-1EA4047F96BBQ38605540-F75A02FC-C42B-4AD1-A346-C2B49DE01149Q38848030-16D6C0F1-694F-4538-975E-D3D2445A6783Q38991364-ED0C7549-C061-44C1-9B90-C3F6E2394110Q39170625-8CECCF8B-D660-4003-BCBF-A32B0FA599B7Q42356009-F438F56B-BFFA-4BBC-939D-1511AB3B1D9AQ42516632-25AAE4D7-C40C-4C55-86A4-8A34C2B65677Q43596014-D4B561B5-DB6D-4BB5-9077-A72D73F100DAQ45940168-B8560A65-C85F-4BCF-B1DB-1CB4B96C7E46Q47425693-D1A1AA17-2CAC-43A2-8958-B5476830ED7CQ47634048-716992CE-F97D-48DE-A225-087C1E90ABE2Q48186543-58E17110-41E2-4B9B-9361-A67CD8B453BEQ48703502-B86E3AC0-65EC-4947-9FA6-2A78B028E295Q54112678-A7861550-1D92-41F5-9FBE-B4D3465F894DQ54369086-DAFB5298-D562-47F4-9864-1D54E046CFF5Q89546596-1CD7469E-2073-406C-9691-CED65E9CB3A9Q90636833-212358D1-A645-449F-8EF2-149817611641Q91665346-F418B405-FFC1-49EE-B127-C4C8612AAAB2Q92155361-BE890796-C6EC-4B1B-A115-CEE7D820A672Q92465460-C833D375-15BB-47EC-ACC1-1CE848C0B60B
P50
description
hulumtues
@sq
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Elie El Agha
@ast
Elie El Agha
@en
Elie El Agha
@es
Elie El Agha
@nl
Elie El Agha
@sl
type
label
Elie El Agha
@ast
Elie El Agha
@en
Elie El Agha
@es
Elie El Agha
@nl
Elie El Agha
@sl
prefLabel
Elie El Agha
@ast
Elie El Agha
@en
Elie El Agha
@es
Elie El Agha
@nl
Elie El Agha
@sl
P106
P21
P31
P496
0000-0001-7504-3417
P569
2000-01-01T00:00:00Z