The loss of phenotypic traits by differentiated cells. 3. The reversible behavior of chondrocytes in primary cultures
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Control of stem cell fate by physical interactions with the extracellular matrixThe effect of cartilage and bone density of mushroom-shaped, photooxidized, osteochondral transplants: an experimental study on graft performance in sheep using transplants originating from different species.Targets, models and challenges in osteoarthritis researchForms, forces, and stem cell fateEffect of dynamic compressive loading and its combination with a growth factor on the chondrocytic phenotype of 3-dimensional scaffold-embedded chondrocytesMEPE is a novel regulator of growth plate cartilage mineralizationA Review on Extracellular Matrix Mimicking Strategies for an Artificial Stem Cell NicheNew directions in nanofibrous scaffolds for soft tissue engineering and regeneration.Scaffold architecture controls insulinoma clustering, viability, and insulin production.Extracellular matrix ligand and stiffness modulate immature nucleus pulposus cell-cell interactions.An electron microscopic study on the caudal glomerulus of the ratFibronectin and stem cell differentiation - lessons from chondrogenesis.Simultaneous synthesis of DNA and specialized cellular products by differentiating cartilage cells in vitro.The loss of phenotypic traits by differentiated cells in vitro. VII. Effects of 5-bromodeoxyuridine and prolonged culturing on fine structure of chondrocytesControl of liver cell replication by albumin needSynthesis of cartilage matrix by mammalian chondrocytes in vitro. I. Isolation, culture characteristics, and morphologyStudies on the conservation of epidermal specificies of skin and certain mucosas in adult mammals.Cellular differentiation and the aging process in cartilaginous tissues. Mucopolysaccharide synthesis in cell cultures of chondrocytes.The loss of phenotypic traits by differentiated cells. VI. Behavior of the progeny of a single chondrocyteStudies on antibody-producing cells. 3. Identification of young plaque-forming cells by thymidine- 3 H labeling.Myogenesis: fusion, myosin synthesis, and the mitotic cycle.Effect of 5-bromodeoxyuridine on expression of cultured chondrocytes grown in vitroThe loss of phenotypic traits by differentiated cells, V. The effect of 5-bromodeoxyuridine on cloned chondrocytes.Analysis of changes in collagen biosynthesis that occur when chick chondrocytes are grown in 5-bromo-2'-deoxyuridine.The Effect of Cell Dose on the Early Magnetic Resonance Morphological Outcomes of Autologous Cell Implantation for Articular Cartilage Defects in the Knee: A Randomized Clinical Trial.Cell Seeding Densities in Autologous Chondrocyte Implantation Techniques for Cartilage Repair.Optimization of Methods for Articular Cartilage Surface Tissue Engineering: Cell Density and Transforming Growth Factor Beta Are Critical for Self-Assembly and Lubricin Secretion.Surface topography during neural stem cell differentiation regulates cell migration and cell morphology.Cellular differentiation in skeletal tissues.Mitosis in developing cardiac muscleExtracellular matrix formation by chondrocytes in monolayer culture.The effects of long term monolayer culture on the proteoglycan phenotype of a clonal population of mature human malignant chondrocytes.Protein-polyaccharide of chicken cartilage and chondrocyte cell cultures.Cartilage oligomeric matrix protein (COMP) and collagen IX are sensitive markers for the differentiation state of articular primary chondrocytes.Complete cDNA sequence of chicken vigilin, a novel protein with amplified and evolutionary conserved domains.Tracheal matrices, obtained by a detergent-enzymatic method, support in vitro the adhesion of chondrocytes and tracheal epithelial cells.Isolation and culture techniques of foetal calf chondrocytes.Variations in expression of surface antigens on cultured cells.Integration of engineered cartilage.Three-Dimensional, High-Density and Tissue Engineered Culture Models of Articular Cartilage
P2860
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P2860
The loss of phenotypic traits by differentiated cells. 3. The reversible behavior of chondrocytes in primary cultures
description
1966 nî lūn-bûn
@nan
1966年の論文
@ja
1966年論文
@yue
1966年論文
@zh-hant
1966年論文
@zh-hk
1966年論文
@zh-mo
1966年論文
@zh-tw
1966年论文
@wuu
1966年论文
@zh
1966年论文
@zh-cn
name
The loss of phenotypic traits ...... ondrocytes in primary cultures
@ast
The loss of phenotypic traits ...... ondrocytes in primary cultures
@en
type
label
The loss of phenotypic traits ...... ondrocytes in primary cultures
@ast
The loss of phenotypic traits ...... ondrocytes in primary cultures
@en
prefLabel
The loss of phenotypic traits ...... ondrocytes in primary cultures
@ast
The loss of phenotypic traits ...... ondrocytes in primary cultures
@en
P2860
P356
P1476
The loss of phenotypic traits ...... ondrocytes in primary cultures
@en
P2093
P2860
P304
P356
10.1083/JCB.28.3.473
P407
P577
1966-03-01T00:00:00Z