Determination of cellular shape by the extracellular matrix and its correlation with the control of cellular growth.
about
Fibronectin controls capillary endothelial cell growth by modulating cell shapeCell adhesion induces expression of growth-associated genes in suspension-arrested fibroblastsRegulation of microfilament organization and anchorage-independent growth by tropomyosin 1.SV40 virions and viral RNA metabolism are associated with cellular substructures.In vitro culture of bovine preantral follicles: a reviewQuantitative studies of endothelial cell adhesion. Directional remodeling of focal adhesion sites in response to flow forces.Angiogenic effects of extracellular human immunodeficiency virus type 1 Tat protein and its role in the pathogenesis of AIDS-associated Kaposi's sarcoma.Endothelial cell-derived basic fibroblast growth factor: synthesis and deposition into subendothelial extracellular matrix.Coordinate regulation of stromelysin and collagenase genes determined with cDNA probesLimited cleavage of cellular fibronectin by plasminogen activator purified from transformed cells.Flow-mediated endothelial mechanotransduction.Basal membrane complex architecture is disrupted during posterior subcapsular cataract formation in Royal College of Surgeons rats.Differential response to growth factor by rat mammary epithelium plated on different collagen substrata in serum-free medium.T-lymphocyte differentiation and the extracellular matrix: identification of a thymocyte subset that attaches specifically to fibronectin.In vivo-like growth of human tumors in vitro.Regulation of cytoskeletal proteins involved in cell contact formation during differentiation of granulosa cells on extracellular matrix.Endothelial cell adhesion in real time. Measurements in vitro by tandem scanning confocal image analysisEvaluation of hepatocellular carcinoma aggressiveness by a panel of extracellular matrix antigensImmunohistochemical study of basement membrane antigens in bronchioloalveolar carcinomaThe matrix of human breast tumor cells is mitogenic for fibroblastsHuman breast cancer cells share antigens with the myeloid monocyte lineageVascular endothelial cells maintained in the absence of fibroblast growth factor undergo structural and functional alterations that are incompatible with their in vivo differentiated properties.Epidermal growth factor inhibits growth of A431 human epidermoid carcinoma in serum-free cell culture.Regulation of growth and differentiation of a rat hepatoma cell line by the synergistic interactions of hormones and collagenous substrataRole of collagenous matrices in the adhesion and growth of cellsImportance of geometry of the extracellular matrix in endochondral bone differentiation.To grow mouse mammary epithelial cells in culture.Comparison of the ability of basement membranes produced by corneal endothelial and mouse-derived Endodermal PF-HR-9 cells to support the proliferation and differentiation of bovine kidney tubule epithelial cells in vitroBasal lamina directs acetylcholinesterase accumulation at synaptic sites in regenerating muscleA neuronal cell surface heparan sulfate proteoglycan is required for dorsal root ganglion neuron stimulation of Schwann cell proliferation.The extracellular matrix of normal chick embryo fibroblasts: its effect on transformed chick fibroblasts and its proteolytic degradation by the transformants.Schwann cell myelination: induction by exogenous basement membrane-like extracellular matrixIdentification of fibronectin receptors on T lymphocytes.Preferential expression of fibronectin receptors on immature thymocytes.Mechanochemical switching between growth and differentiation during fibroblast growth factor-stimulated angiogenesis in vitro: role of extracellular matrix.Inhibition of proteoglycan synthesis alters extracellular matrix deposition, proliferation, and cytoskeletal organization of rat aortic smooth muscle cells in cultureBasic fibroblast growth factor is an extracellular matrix component required for supporting the proliferation of vascular endothelial cells and the differentiation of PC12 cells.Regulation of in vitro capillary tube formation by anti-integrin antibodies.Dimethyl sulfoxide affects colony morphology on agar and alters distribution of glycosaminoglycans and fibronectinControl of intracellular pH and growth by fibronectin in capillary endothelial cells.
P2860
Q33572594-088C317F-67AC-4D57-9E3A-F3AF2C8F3529Q33647839-D10F8B8D-8429-4C04-AAE1-552C63860B9CQ33706258-838091FE-3D24-49FD-AE4D-34702C9D22D2Q33928185-51F6AA2A-13F1-4803-A648-0D995059A7DFQ34105966-2DD0A4E5-A9A7-4270-8A2E-4E2BC7C583B6Q34144041-39911F6B-6A0D-42B2-B163-7EAC5C04698CQ34587184-4452C723-EB1E-407F-9CB2-4481CD0E0002Q34613112-42C4345F-F43A-4CA9-86FA-195F75E396C9Q34616419-4B3EBDFB-1ACC-4DD3-A984-C97386B8016CQ34617970-E8AB57F1-B20C-40C0-90E1-750DD0D85AC6Q34648558-A547A599-8765-4D6C-9953-85D6366C5A23Q34877636-30458420-B81F-4FE9-A16C-1D37FEDAAE7CQ35307938-C6D52E65-783B-446A-B886-2A8A03BBECE7Q35600528-61D043F7-5557-47A6-BE18-B09FB6A4B1BAQ35600893-D4358A9A-ABF7-46F3-A31C-879A9E5EB0ECQ35602505-DF43F50E-C3E2-4DA1-8374-2ECB2B4F2BCFQ35610952-DBAC1FAA-63D7-449B-A409-8C941CCEC3EDQ35831060-4B88F2A1-5268-4A1D-9E58-F27D53052555Q35856040-C87439A5-4E41-443C-9D1D-85572ECDD323Q35857888-718452E6-79EF-4744-8D9B-2CD5B229D586Q36027895-199E25A3-EAC3-4B3E-B37D-ACFA00F2C0ABQ36203908-D83629F7-6F0C-4F3E-93A2-D640FCD43F9DQ36206006-EFFD2157-765F-48AC-908C-D7526B4D4628Q36208107-113327F8-5ABF-4BBB-9239-C967ED605F36Q36208622-A36BB1AE-6F5B-4684-8657-521890CB527EQ36209774-1F127720-0EEF-42AA-B26F-BB1B4AAB6EF6Q36210278-CBA1E997-E522-47F4-9CC3-C1B9124E6DB2Q36211326-07C2A8FF-C84D-4C75-A396-A83D7D565DA8Q36212788-A127BF59-1243-4302-9DB3-AD276837FB42Q36212802-CED75B1C-EEC6-4BA7-A31B-2493D29895C2Q36213680-F98C7E75-3F02-4675-8881-E04115755C76Q36215155-3A3D658B-FA5E-4D0A-BE1F-44209A7968A7Q36217989-71078888-386E-4901-8D4F-DBC87E7D65A1Q36218845-90612B5B-F188-49D0-8228-6BE644F5A83DQ36220283-BCC4120A-F8F5-439C-9EC4-FED45AEFB850Q36220875-F2300C38-7334-4E7B-8C6A-C6377D1EAEF8Q36221277-AD0A3853-C8BC-4A9F-9344-1FB04701D157Q36233262-CFBA7E8F-C48D-446D-A4CC-8092F0903C41Q36320837-722224CC-139B-4890-9AE0-04BB68E6F92AQ36383431-68D0B3A2-248B-4ED0-94B9-208224B2CA23
P2860
Determination of cellular shape by the extracellular matrix and its correlation with the control of cellular growth.
description
1978 nî lūn-bûn
@nan
1978年の論文
@ja
1978年学术文章
@wuu
1978年学术文章
@zh-cn
1978年学术文章
@zh-hans
1978年学术文章
@zh-my
1978年学术文章
@zh-sg
1978年學術文章
@yue
1978年學術文章
@zh
1978年學術文章
@zh-hant
name
Determination of cellular shap ...... he control of cellular growth.
@en
Determination of cellular shap ...... he control of cellular growth.
@nl
type
label
Determination of cellular shap ...... he control of cellular growth.
@en
Determination of cellular shap ...... he control of cellular growth.
@nl
prefLabel
Determination of cellular shap ...... he control of cellular growth.
@en
Determination of cellular shap ...... he control of cellular growth.
@nl
P2093
P1433
P1476
Determination of cellular shap ...... he control of cellular growth.
@en
P2093
Birdwell CR
Gospodarowicz D
Greenburg G
P304
P407
P433
P577
1978-11-01T00:00:00Z