Purification of a fibroblast growth factor from bovine pituitary.
about
Diverse forms of a receptor for acidic and basic fibroblast growth factorsThe human fibroblast growth factor receptor genes: a common structural arrangement underlies the mechanisms for generating receptor forms that differ in their third immunoglobulin domainFibroblast Growth Factor Signaling in Metabolic RegulationExtending the family table: Insights from beyond vertebrates into the regulation of embryonic development by FGFsA rat excised larynx model of vocal fold scarGrowth regulation of skin cells by epidermal cell-derived factors: implications for wound healing.Acidic fibroblast growth factor (FGF) from bovine brain: amino-terminal sequence and comparison with basic FGFProduction a corpus luteum angiogenic factor responsible for proliferation of capillaries and neovascularization of the corpus luteum.Growth and maintenance of HeLa cells in serum-free medium supplemented with hormonesAn endothelial cell growth factor from bovine hypothalamus: identification and partial characterization.Interactions of tumor cells with vascular endothelial cell monolayers: a model for metastatic invasion.Epidermal growth factor: in vivo ocular studiesEvidence for a nonprolactin, non-growth-hormone mammary mitogen in the human pituitary gland.The Fibroblast Growth Factor signaling pathwayNumerous isoforms of Fgf8 reflect its multiple roles in the developing brain.Fibroblast growth factors: from molecular evolution to roles in development, metabolism and disease.Radioimmunoassay of a human serum growth factor for Balb/c-3T3 cells: derivation from platelets.Clonal growth of bovine vascular endothelial cells: fibroblast growth factor as a survival agentAn 18,000 molecular weight polypeptide induces early events and stimulates DNA synthesis in cultured cells.Angiotensin stimulation of bovine adrenocortical cell growth.Effect of medium composition on protein degradation and DNA synthesis in rat embryo fibroblasts.Isolation of a cationic polypeptide from human serum that stimulates proliferation of 3T3 cells.Adipogenic and anti-adipogenic factors in the pituitary and other organs.Evidence and characterization of the receptor to eye-derived growth factor I, the retinal form of basic fibroblast growth factor, on bovine epithelial lens cellsBasic fibroblast growth factor promotes proliferation of rat glomerular visceral epithelial cells in vitro.The aortic ring model of angiogenesis: a quarter century of search and discovery.Atheromatous plaque macrophages produce plasminogen activator inhibitor type-1 and stimulate its production by endothelial cells and vascular smooth muscle cellsA novel monoclonal antibody to fibroblast growth factor 2 effectively inhibits growth of hepatocellular carcinoma xenografts.Brain-derived fibroblast growth factor: identity with a fragment of the basic protein of myelin.Human milk stimulates DNA synthesis and cellular proliferation in cultured fibroblasts.Mitogenic effect of fibroblast growth factor on early passage cultures of human and murine fibroblastsEffect of fibroblast growth factor on the division and fusion of bovine myoblasts.Control of proliferation of human vascular endothelial cells. Characterization of the response of human umbilical vein endothelial cells to fibroblast growth factor, epidermal growth factor, and thrombin.Vascular endothelial cells maintained in the absence of fibroblast growth factor undergo structural and functional alterations that are incompatible with their in vivo differentiated properties.Persistence of the mitogenic response to platelet-derived growth factor (competence) does not reflect a long-term interaction between the growth factor and the target cell.Role of fibronectin as a growth factor for fibroblasts.Bovine brain and pituitary fibroblast growth factors: comparison of their abilities to support the proliferation of human and bovine vascular endothelial cells.Purified plasma membranes inhibit polypeptide growth factor-induced DNA synthesis in subconfluent 3T3 cellsEndothelial cell mitogens derived from retina and hypothalamus: biochemical and biological similarities.Growth and partial differentiation of presumptive human cardiac myoblasts in culture.
P2860
Q24306588-B5AC3CC0-BC7D-4C6F-B328-2017103349FBQ24306718-05088CF9-A4B0-41B6-B5DC-8291FEE37972Q26772751-00303176-6133-4425-8F2D-E9D46B0DAEA1Q30393982-1B21901B-2D23-4692-8033-84D3773C91F4Q30480266-777F885E-445E-4908-8DFA-0CCBE2D7FA5AQ33560803-179A0D1F-B661-49BB-9B55-6F8E8951E31EQ33931601-15A4B91D-0059-4D93-9832-2D4C67C7B65BQ33962190-E9B9C66D-3668-445D-9685-C70BF6BD9AD7Q33962686-691D53AD-85C9-4C98-9A14-78398F6AB6D1Q33979935-FAED5EEB-6BD7-4908-A6C2-2865F4B63B61Q33980191-6FACC81B-8A7E-486D-BB94-9A5E68FD4047Q34211693-1FC6388C-3CF5-4A4F-B6F2-1EB9346CA3E1Q34366967-0E5F8B0B-3BDF-4A96-ADE4-4DD1A5856EC8Q34467171-D448FE43-158F-42A3-A57B-C7042C32A27CQ34768206-A4F203C8-A17B-4F2C-BEEC-EA44F7DAD4F0Q35020888-D286BDCE-1A3D-48BF-AE98-9AB1E7D3465FQ35026851-F1B0327A-1B56-40F1-AD88-CC6F7CABC833Q35036872-1543C99C-5CB0-4249-99D1-2AAA9616F95BQ35043287-B45B51BF-F309-45ED-B23E-D41A9B16EA9EQ35052581-E37EC0FB-EBC2-4718-8CC1-81D0586E3781Q35064313-8F7144AA-A8DB-4D37-B7A3-BA79354CFDFAQ35083862-471ABEEB-7A93-42D6-B2F6-135618557B97Q35390473-73154190-FD4D-4805-90E9-2B75441871F4Q35616220-9214C91F-6E4D-411F-ADAC-0680408BF9C0Q35831840-D08BB8B3-09AB-4069-90BF-C7F8C2010044Q35832019-51B038C8-D199-4C97-92A2-418F2EB3D999Q35833573-2DE954EC-E52B-4DB8-8457-03C9B1CCD336Q35884134-1705ADA8-6936-408E-8B9A-4F8374A30E21Q35993076-6DEB68E2-3E11-4F08-8A44-AE65F2FB8FD3Q35995919-38C2696B-8764-4AB7-8A47-5C06CA7FD3D9Q36197506-99502AE6-2E7C-4888-87E9-8D6EBFAD0923Q36198441-B0099299-41EF-4A1E-935C-119570B3A741Q36199610-DBC5ACD6-518B-4F67-BB4F-96525F910527Q36203908-3D73B246-5B7C-47E3-AB42-E03BF5933C57Q36208193-4DFBB941-B433-42F2-B812-21410751076BQ36208528-5172529F-0D30-4109-9D4B-67F9776AC613Q36208553-76570712-FCE0-4BCC-9A2B-03FC02FCA1D5Q36210236-E2D47178-2AB4-4DF9-8DB4-0A63D6766B29Q36210967-3792F726-82D0-45E6-A288-55767A8E530EQ36219913-9EBE5248-159A-4938-B113-A3A1EAEF8ABB
P2860
Purification of a fibroblast growth factor from bovine pituitary.
description
1975 nî lūn-bûn
@nan
1975年の論文
@ja
1975年論文
@yue
1975年論文
@zh-hant
1975年論文
@zh-hk
1975年論文
@zh-mo
1975年論文
@zh-tw
1975年论文
@wuu
1975年论文
@zh
1975年论文
@zh-cn
name
Purification of a fibroblast growth factor from bovine pituitary.
@en
Purification of a fibroblast growth factor from bovine pituitary.
@nl
type
label
Purification of a fibroblast growth factor from bovine pituitary.
@en
Purification of a fibroblast growth factor from bovine pituitary.
@nl
prefLabel
Purification of a fibroblast growth factor from bovine pituitary.
@en
Purification of a fibroblast growth factor from bovine pituitary.
@nl
P1476
Purification of a fibroblast growth factor from bovine pituitary.
@en
P2093
Gospodarowicz D
P304
P407
P577
1975-04-01T00:00:00Z