about
Nuclear actin modulates cell motility via transcriptional regulation of adhesive and cytoskeletal genes.Clonal growth of dermal papilla cells in hydrogels reveals intrinsic differences between Sox2-positive and -negative cells in vitro and in vivoExploiting the superior protein resistance of polymer brushes to control single cell adhesion and polarisation at the micron scale.Shape-induced terminal differentiation of human epidermal stem cells requires p38 and is regulated by histone acetylation.Extracellular-matrix tethering regulates stem-cell fate.Single-cell gene expression profiling reveals functional heterogeneity of undifferentiated human epidermal cells.Biophysical signals controlling cell fate decisions: how do stem cells really feel?Integrin-mediated adhesion and mechano-sensing in cutaneous wound healing.Epidermal grafting for wound healing: a review on the harvesting systems, the ultrastructure of the graft and the mechanism of wound healing.The cytolinker plectin regulates nuclear mechanotransduction in keratinocytes.Adipogenic Differentiation of hMSCs is Mediated by Recruitment of IGF-1r Onto the Primary Cilium Associated With Cilia Elongation.Surface topography regulates wnt signaling through control of primary cilia structure in mesenchymal stem cells.Dynamic compression regulates the expression and synthesis of chondrocyte-specific matrix molecules in bone marrow stromal cells.Sub-Populations of Dermal Skin Fibroblasts Secrete Distinct Extracellular Matrix: Implications for Using Skin Substitutes in the Clinic.Deconstruction of a metastatic tumor microenvironment reveals a common matrix response in human cancers.Highly Stable RNA Capture by Dense Cationic Polymer Brushes for the Design of Cytocompatible, Serum-Stable SiRNA Delivery Vectors.Actin and serum response factor transduce physical cues from the microenvironment to regulate epidermal stem cell fate decisions.Differential integrin expression regulates cell sensing of the matrix nanoscale geometry.Inhibition of in vitro chondrogenesis in RGD-modified three-dimensional alginate gels.Type VI Collagen Regulates Dermal Matrix Assembly and Fibroblast Motility.3D nanomechanical evaluations of dermal structures in skin.The influence of cyclic tension amplitude on chondrocyte matrix synthesis: experimental and finite element analyses.Directing cell migration using micropatterned and dynamically adhesive polymer brushes.Terminal differentiation of human epidermal stem cells on micro-patterned substratesNucleocytoplasmic shuttling: a common theme in mechanotransductionTissue stiffening promotes keratinocyte proliferation through activation of epidermal growth factor signalingEvidence for the Desmosomal Cadherin Desmoglein-3 in Regulating YAP and Phospho-YAP in Keratinocyte Responses to Mechanical ForcesContractile myosin rings and cofilin-mediated actin disassembly orchestrate ECM nanotopography sensing
P50
Q27345380-BFBA242F-75B2-495B-9BD9-C8ADF9E6643FQ30511443-671F4757-E27A-4CA5-A3FE-0D50CC2FF3C3Q33546851-3F0ED8D2-A6B0-47D6-A156-AC50F413FA65Q34071880-C69DED8F-1A1D-4139-8413-458637251411Q34277544-92485445-3967-4F2D-A2FA-8CF2061DF801Q36682936-9F229860-7388-42BA-92BC-0176FB404301Q38043835-8B78E0D6-AFF3-4711-9E22-7F4564305047Q38285373-D106EF6F-4E9D-400A-8DB8-0A8650C3066AQ38992232-F2DF19CC-DDD5-422A-A6FB-262CAC23FCDAQ40363824-23B142FD-CE04-43A4-85D1-B74234455355Q41950182-AE318DA0-2AD8-4C26-A57C-58B9A130634EQ41995406-73428D59-52D7-4FFB-8F59-A523D702A034Q42504577-66D4B369-95FA-4A88-89B4-55BE62825A4FQ47229038-92EF1DF9-C9FF-4238-A21A-B994C0FE0B23Q47292144-08498D83-42DD-47DB-BD07-DF870FA07131Q48042643-C23129AB-C199-4AB0-A8F8-B06905A5F4B9Q48532732-FA950082-D727-4CB5-93FA-0FD9548DDA8DQ51082174-650A67D3-8259-41CC-8947-2E84402E685CQ51101107-1B5782FE-64C9-4B30-930A-964FA8C93F67Q51563382-AC517A34-DEF2-4028-882F-50514BF24F76Q51592638-FF0DC8CB-F941-46F3-BEEF-CC4A7C26A028Q51634362-3A611DA4-51E3-43B8-B794-72B49D6F93BAQ51754040-08CDB5E6-E55E-4BCB-A5B4-CA78F70859E2Q84853507-A00EAE85-6A9F-4FFD-9A88-D885CB722285Q87922865-1F6BE8C7-6113-4984-BCC4-62E62C6835FCQ88400603-F8D9F273-EC13-47A5-90F5-2DAD4A9E7191Q91963966-36E28970-4AC9-48F3-961C-2FE19768C2E6Q92575403-58A21B9D-BF0F-4917-88F2-ACFAA0AD010D
P50
description
hulumtues
@sq
onderzoeker
@nl
researcher
@en
հետազոտող
@hy
name
John T Connelly
@ast
John T Connelly
@en
John T Connelly
@es
John T Connelly
@nl
John T Connelly
@sl
type
label
John T Connelly
@ast
John T Connelly
@en
John T Connelly
@es
John T Connelly
@nl
John T Connelly
@sl
prefLabel
John T Connelly
@ast
John T Connelly
@en
John T Connelly
@es
John T Connelly
@nl
John T Connelly
@sl
P106
P21
P31
P496
0000-0002-5955-8848