| scholarly article | Q13442814 |
| review article | Q7318358 |
| P50 | author | Jingxing Dai | Q81455586 |
| Chao Huang | Q59688181 | ||
| P2093 | author name string | Xin A Zhang | |
| P2860 | cites work | Activation of FAK is necessary for the osteogenic differentiation of human mesenchymal stem cells on laminin-5 | Q24300546 |
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| Inhibition of microtubule assembly in osteoblasts stimulates bone morphogenetic protein 2 expression and bone formation through transcription factor Gli2 | Q28591491 | ||
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| Cells lying on a bed of microneedles: an approach to isolate mechanical force | Q29617095 | ||
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| Shear stress induces osteogenic differentiation of human mesenchymal stem cells | Q33887388 | ||
| Stem cell shape regulates a chondrogenic versus myogenic fate through Rac1 and N-cadherin | Q33961447 | ||
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| Interplay of matrix stiffness and protein tethering in stem cell differentiation. | Q34232062 | ||
| Extracellular-matrix tethering regulates stem-cell fate | Q34277544 | ||
| RhoA and cytoskeletal disruption mediate reduced osteoblastogenesis and enhanced adipogenesis of human mesenchymal stem cells in modeled microgravity | Q34312867 | ||
| Young's modulus of trabecular and cortical bone material: ultrasonic and microtensile measurements | Q34360052 | ||
| The control of human mesenchymal cell differentiation using nanoscale symmetry and disorder | Q34692277 | ||
| C/EBPalpha induces adipogenesis through PPARgamma: a unified pathway | Q35004645 | ||
| Switching from differentiation to growth in hepatocytes: control by extracellular matrix | Q67479145 | ||
| Mineralization of adult mouse bone marrow in vitro | Q68066741 | ||
| Nerve fiber growth on defined hydrogel substrates | Q70357885 | ||
| Linear viscoelastic behavior of subcutaneous adipose tissue | Q82877668 | ||
| Micropatterned matrix directs differentiation of human mesenchymal stem cells towards myocardial lineage | Q82903564 | ||
| Tensile strain as a regulator of mesenchymal stem cell osteogenesis | Q83165111 | ||
| Adipogenic differentiation of individual mesenchymal stem cell on different geometric micropatterns | Q83840010 | ||
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| Focal adhesion kinase signaling pathways regulate the osteogenic differentiation of human mesenchymal stem cells | Q35607224 | ||
| Adipose-derived adult stem cells for cartilage tissue engineering | Q35858154 | ||
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| Inhibition of Rac1 promotes BMP-2-induced osteoblastic differentiation | Q36985160 | ||
| Mechanical strain inhibits adipogenesis in mesenchymal stem cells by stimulating a durable beta-catenin signal | Q37034948 | ||
| Emergence of patterned stem cell differentiation within multicellular structures | Q37218882 | ||
| Adipogenesis of adipose-derived stem cells may be regulated via the cytoskeleton at physiological oxygen levels in vitro. | Q37376903 | ||
| An osteopontin-integrin interaction plays a critical role in directing adipogenesis and osteogenesis by mesenchymal stem cells | Q37651851 | ||
| Nuclear lamin-A scales with tissue stiffness and enhances matrix-directed differentiation | Q37686106 | ||
| Physical cues of biomaterials guide stem cell differentiation fate | Q38079871 | ||
| Mechanoregulation of stem cell fate via micro-/nano-scale manipulation for regenerative medicine | Q38096418 | ||
| Cytoskeletal disassembly and cell rounding promotes adipogenesis from ES cells. | Q39741055 | ||
| Strontium promotes osteogenic differentiation of mesenchymal stem cells through the Ras/MAPK signaling pathway | Q39877851 | ||
| Mechanically induced osteogenic differentiation--the role of RhoA, ROCKII and cytoskeletal dynamics | Q39890220 | ||
| Mechanical loading down-regulates peroxisome proliferator-activated receptor gamma in bone marrow stromal cells and favors osteoblastogenesis at the expense of adipogenesis | Q40167680 | ||
| Effects of PPARgamma agonists on cell survival and focal adhesions in a Chinese thyroid carcinoma cell line | Q40263385 | ||
| Changes in integrin expression during adipocyte differentiation | Q40375216 | ||
| Osteoblast integrin adhesion and signaling regulate mineralization | Q40786984 | ||
| Harnessing traction-mediated manipulation of the cell/matrix interface to control stem-cell fate. | Q42179070 | ||
| Osteogenic differentiation of purified, culture-expanded human mesenchymal stem cells in vitro | Q42529073 | ||
| Adipogenic differentiating agents regulate expression of fatty acid binding protein and CD36 in the J744 macrophage cell line | Q42799314 | ||
| Fibronectin modulation of cell shape and lipogenic gene expression in 3T3-adipocytes | Q42820082 | ||
| Extracellular matrix with the rigidity of adipose tissue helps 3T3-L1 adipocytes maintain insulin responsiveness | Q42833848 | ||
| Micropatterning tractional forces in living cells | Q44060129 | ||
| In vitro differentiation of human processed lipoaspirate cells into early neural progenitors | Q44414879 | ||
| Extracellular matrix controls myosin light chain phosphorylation and cell contractility through modulation of cell shape and cytoskeletal prestress | Q44755127 | ||
| Osteogenic differentiation of human mesenchymal stem cells in collagen matrices: effect of uniaxial cyclic tensile strain on bone morphogenetic protein (BMP-2) mRNA expression | Q44870483 | ||
| Reevaluation of in vitro differentiation protocols for bone marrow stromal cells: disruption of actin cytoskeleton induces rapid morphological changes and mimics neuronal phenotype | Q44947592 | ||
| A generic micropatterning platform to direct human mesenchymal stem cells from different origins towards myogenic differentiation. | Q45373866 | ||
| Stem cells from human fat as cellular delivery vehicles in an athymic rat posterolateral spine fusion model | Q45877198 | ||
| TNFalpha promotes osteogenic differentiation of human mesenchymal stem cells by triggering the NF-kappaB signaling pathway | Q46275181 | ||
| Cyclic mechanical compression increases mineralization of cell-seeded polymer scaffolds in vivo | Q46279507 | ||
| Modeled microgravity inhibits osteogenic differentiation of human mesenchymal stem cells and increases adipogenesis | Q46285888 | ||
| Interactions between integrin receptors and fibronectin are required for calvarial osteoblast differentiation in vitro. | Q46292337 | ||
| Matrix stiffness regulation of integrin-mediated mechanotransduction during osteogenic differentiation of human mesenchymal stem cells | Q46295448 | ||
| Directing osteogenic and myogenic differentiation of MSCs: interplay of stiffness and adhesive ligand presentation | Q47378092 | ||
| Directing stem cell fate on hydrogel substrates by controlling cell geometry, matrix mechanics and adhesion ligand composition. | Q47816800 | ||
| A bio-inspired platform to modulate myogenic differentiation of human mesenchymal stem cells through focal adhesion regulation. | Q50547345 | ||
| Osteo-maturation of adipose-derived stem cells required the combined action of vitamin D3, beta-glycerophosphate, and ascorbic acid. | Q50683335 | ||
| Investigating the effects of preinduction on human adipose-derived precursor cells in an athymic rat model. | Q50711193 | ||
| Relationship between cell shape and type of collagen synthesised as chondrocytes lose their cartilage phenotype in culture | Q59072051 | ||
| Characterization of Osteogenically Induced Adipose Tissue-Derived Precursor Cells in 2-Dimensional and 3-Dimensional Environments | Q61599243 | ||
| P433 | issue | 6 | |
| P407 | language of work or name | English | Q1860 |
| P921 | main subject | mesenchymal stem cell | Q1922379 |
| P304 | page(s) | 1261-1266 | |
| P577 | publication date | 2015-02-26 | |
| P1433 | published in | Biochimica et Biophysica Acta | Q864239 |
| P1476 | title | Environmental physical cues determine the lineage specification of mesenchymal stem cells | |
| P478 | volume | 1850 |
| Q96767156 | 'Primed' Mesenchymal Stem Cells: a Potential Novel Therapeutic for COVID19 Patients |
| Q92240731 | Atypical Mesenchymal Stromal Cell Responses to Topographic Modifications of Titanium Biomaterials Indicate Cytoskeletal- and Genetic Plasticity-Based Heterogeneity of Cells |
| Q93083140 | Co-culture of the bone and bone marrow: a novel way to obtain mesenchymal stem cells with enhanced osteogenic ability for fracture healing in SD rats |
| Q47884229 | Combined effects of multi-scale topographical cues on stable cell sheet formation and differentiation of mesenchymal stem cells. |
| Q38915910 | Convergence of Highly Resolved and Rapid Screening Platforms with Dynamically Engineered, Cell Phenotype-Prescriptive Biomaterials |
| Q89952705 | Eco matters; In & Out |
| Q35742523 | Extracellular Matrix Stiffness Regulates Osteogenic Differentiation through MAPK Activation |
| Q36016865 | Geometric guidance of integrin mediated traction stress during stem cell differentiation |
| Q57177379 | Guiding the Differentiation Direction of Pancreatic Islet-Derived Stem Cells by Glycated Collagen |
| Q39694316 | Influence of biomechanical and biochemical stimulation on the proliferation and differentiation of bone marrow stromal cells seeded on polyurethane scaffolds. |
| Q40969143 | Matrix directed adipogenesis and neurogenesis of mesenchymal stem cells derived from adipose tissue and bone marrow |
| Q92608702 | Polymeric sheet actuators with programmable bioinstructivity |
| Q92405489 | Preconditioning of mesenchymal stromal cells with low-intensity ultrasound: influence on chondrogenesis and directed SOX9 signaling pathways |
| Q64072329 | Priming approaches to improve the efficacy of mesenchymal stromal cell-based therapies |
| Q51354501 | Stiffness-controlled three-dimensional collagen scaffolds for differentiation of human Wharton's jelly mesenchymal stem cells into cardiac progenitor cells. |
| Q37570411 | The Effects of Endocrine Disruptors on Adipogenesis and Osteogenesis in Mesenchymal Stem Cells: A Review |
| Q58580925 | The Mechanobiology of the Actin Cytoskeleton in Stem Cells during Differentiation and Interaction with Biomaterials |
| Q58615797 | The relationship between substrate topography and stem cell differentiation in the musculoskeletal system |
| Q55221537 | Three-Dimensional Graphene-RGD Peptide Nanoisland Composites That Enhance the Osteogenesis of Human Adipose-Derived Mesenchymal Stem Cells. |
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