Extracellular matrix regulates expression of the TGF-beta 1 gene.
about
Structural and functional analysis of a promoter of the human granulin/epithelin geneLatent transforming growth factor-beta 1 associates to fibroblast extracellular matrix via latent TGF-beta binding proteinTransforming growth factor-beta and breast cancer: Mammary gland development.Phenotypic differences between dermal fibroblasts from different body sites determine their responses to tension and TGFbeta1.Enhanced depth-independent chondrocyte proliferation and phenotype maintenance in an ultrasound bioreactor and an assessment of ultrasound dampening in the scaffoldLocalisation of transforming growth factor beta1 and beta3 mRNA transcripts in normal and fibrotic human lungIsolation of a novel latent transforming growth factor-beta binding protein gene (LTBP-3)Of extracellular matrix, scaffolds, and signaling: tissue architecture regulates development, homeostasis, and cancer.Nanolitre liquid patterning in aqueous environments for spatially defined reagent delivery to mammalian cells.Exploring hypotheses of the actions of TGF-beta1 in epidermal wound healing using a 3D computational multiscale model of the human epidermisDevelopment of a three dimensional multiscale computational model of the human epidermis.TGF-beta biology in mammary development and breast cancer.PAI-1 Regulates the Invasive Phenotype in Human Cutaneous Squamous Cell Carcinoma.Structural cues from the tissue microenvironment are essential determinants of the human mammary epithelial cell phenotype.Tissue architecture and breast cancer: the role of extracellular matrix and steroid hormonesExtracellular matrix, nuclear and chromatin structure, and gene expression in normal tissues and malignant tumors: a work in progress.Laminin mediates tissue-specific gene expression in mammary epitheliaLocal feedback mechanisms in human breast cancer.A hierarchy of ECM-mediated signalling regulates tissue-specific gene expressionModeling dynamic reciprocity: engineering three-dimensional culture models of breast architecture, function, and neoplastic transformationECM stiffness primes the TGFβ pathway to promote chondrocyte differentiation.Microenvironmental regulators of tissue structure and function also regulate tumor induction and progression: the role of extracellular matrix and its degrading enzymes.TGF-beta promotes cell death and suppresses lactation during the second stage of mammary involutionRole of transforming growth factor Beta in corneal function, biology and pathologyA mathematical model for foreign body reactions in 2D.Pulmonary edema and elevated left atrial pressure: four hours and beyond.A Predictive Tool for Foreign Body Fibrotic Reactions Using 2-Dimensional Computational ModelUnderstanding the final stages of wound contraction.Label-free characterization of cancer-activated fibroblasts using infrared spectroscopic imagingTGFbeta promotes conversion of CD16+ peripheral blood NK cells into CD16- NK cells with similarities to decidual NK cells.Exploring the host desmoplastic response to pancreatic carcinoma: gene expression of stromal and neoplastic cells at the site of primary invasion.Regional differences in the distribution of the proteoglycans biglycan and decorin in the extracellular matrix of atherosclerotic and restenotic human coronary arteriesRole of chemokines in tumor growth.Extracellular matrix regulates whey acidic protein gene expression by suppression of TGF-alpha in mouse mammary epithelial cells: studies in culture and in transgenic mice.A three-dimensional collagen lattice activates NF-kappaB in human fibroblasts: role in integrin alpha2 gene expression and tissue remodeling.The fibronectin domain ED-A is crucial for myofibroblastic phenotype induction by transforming growth factor-beta1.Discrete spatial organization of TGFβ receptors couples receptor multimerization and signaling to cellular tensionElectric field-directed cell motility involves up-regulated expression and asymmetric redistribution of the epidermal growth factor receptors and is enhanced by fibronectin and lamininExpression of Hoxa-1 and Hoxb-7 is regulated by extracellular matrix-dependent signals in mammary epithelial cells.Mammary gland tumor formation in transgenic mice overexpressing stromelysin-1.
P2860
Q24529964-55242A31-A07B-4ED9-AAE7-48865A1E5131Q24673676-0768A249-985E-4547-9B86-AC7F9567D53EQ24793194-4EA787D8-6733-4740-9C60-263DACC5E015Q24803687-F37206BE-8696-4C45-AA06-5EA3EA461FE9Q27334726-1C20559C-AE63-4D7E-B923-74A735377ED1Q28367151-4C5CD32A-09F6-4803-9FAA-C524E9A55A2AQ28592926-DB8A28D5-0295-48E1-9805-0BB0922C609CQ30355361-E5D583A8-0813-49AF-AE35-D2A3D0766B69Q30491889-048B8A62-0843-4E40-952B-98D31505FD5AQ33521712-39B59F23-36BA-405E-9AD5-55AF7F319ED6Q33524410-4E0C91BA-056F-4BED-9661-26F147A3DA6CQ33681686-31DF9F7E-3BCB-4041-AC80-D2FCE70CE2F5Q33693105-9C118370-B285-4025-8A18-86F4775F2C3DQ33923783-F015B77D-46C7-4A73-8F08-DBE245BEA253Q33974007-EDDDCEDC-5376-495D-809C-E181F354E531Q34029064-8DD86B14-1C4F-4CE0-BBF6-1093259B7E58Q34058782-5F86D2E2-8919-4DC8-A046-1E34A4B4B7EFQ34092849-A379D8FE-563A-453C-A4E2-2F61AA734DC6Q34103381-C8793DA1-8B19-448C-A75B-7B5A20EAF102Q34103419-85708F64-295C-4868-8D0F-B78CBE53719EQ34290357-84B07A6B-B061-4180-BCD5-DAC96D641D29Q34418858-4668A41E-F426-4FFE-9059-F5B5E57871CCQ34571586-ED0F9E5F-FF64-4A6E-A9BF-67187798498FQ34623130-C1BFA55C-A708-43B2-A3C4-2728BDAB6B25Q34886618-38D4B122-080F-4948-8E77-C00516E8DA45Q34998587-5D8400CF-375D-4834-8F1A-67364A0FAA38Q35152184-F70B0311-26B6-44D8-B276-B183B2C05972Q35215327-8F7AE46B-5945-466D-8BA2-1D6C7DFC67BEQ35224000-7D96A94B-A981-499B-A142-A4C447007140Q35652432-DE124129-A6C4-48A3-894F-93CBD7F9A0F0Q35788695-5F109888-A579-4C2D-95E4-9EDAF419A779Q35833909-2092FF3C-D7B6-4F62-80C7-DE4194017118Q36120825-9C6F4514-DC53-4D4A-B3C4-5EC464A54825Q36235659-02DFCBA4-C7B5-4A85-8599-646351335C49Q36274882-D43DAAC8-481B-4F92-98C1-73133EE32E3CQ36288284-75122D05-0D3B-46D3-8457-634DCFA1B09AQ36505979-717685B3-AB26-4DE0-84CA-C2162BE4ADFEQ36854755-507C13BD-3606-4C7B-A105-FCC909691BC5Q36897024-015A0B29-3659-4E3A-92EC-AE73DE451996Q37274338-12FFB60E-B419-4ECB-AAD5-FABFAF7DC128
P2860
Extracellular matrix regulates expression of the TGF-beta 1 gene.
description
1993 nî lūn-bûn
@nan
1993年の論文
@ja
1993年論文
@yue
1993年論文
@zh-hant
1993年論文
@zh-hk
1993年論文
@zh-mo
1993年論文
@zh-tw
1993年论文
@wuu
1993年论文
@zh
1993年论文
@zh-cn
name
Extracellular matrix regulates expression of the TGF-beta 1 gene.
@ast
Extracellular matrix regulates expression of the TGF-beta 1 gene.
@en
type
label
Extracellular matrix regulates expression of the TGF-beta 1 gene.
@ast
Extracellular matrix regulates expression of the TGF-beta 1 gene.
@en
prefLabel
Extracellular matrix regulates expression of the TGF-beta 1 gene.
@ast
Extracellular matrix regulates expression of the TGF-beta 1 gene.
@en
P2093
P2860
P356
P1476
Extracellular matrix regulates expression of the TGF-beta 1 gene.
@en
P2093
Bissell MJ
Schmidhauser C
Streuli CH
P2860
P304
P356
10.1083/JCB.120.1.253
P407
P577
1993-01-01T00:00:00Z