Cell movement patterns during gastrulation in the chick are controlled by positive and negative chemotaxis mediated by FGF4 and FGF8.
about
Modeling gastrulation in the chick embryo: formation of the primitive streakNOGO-A induction and localization during chick brain development indicate a role disparate from neurite outgrowth inhibitionFGF signalling: diverse roles during early vertebrate embryogenesisCell movement during chick primitive streak formationPtdIns(3,4,5)P(3)-dependent and -independent roles for PTEN in the control of cell migrationHow to make an intestineAutophagy is involved in high glucose-induced heart tube malformation.Embryogenesis of the first circulating endothelial cellsCell shape dynamics: from waves to migrationThe ECM moves during primitive streak formation--computation of ECM versus cellular motionMoving forward moving backward: directional sorting of chemotactic cells due to size and adhesion differencesExtracellular matrix motion and early morphogenesisGenerating human intestinal tissues from pluripotent stem cells to study development and diseaseSpatial and temporal expression of perlecan in the early chick embryoExtracellular matrix protein anosmin promotes neural crest formation and regulates FGF, BMP, and WNT activitiesModelling Chemotactic Motion of Cells in Biological TissuesTowards an integrated experimental-theoretical approach for assessing the mechanistic basis of hair and feather morphogenesisBreaking evolutionary and pleiotropic constraints in mammals: On sloths, manatees and homeotic mutationsMouse primitive streak forms in situ by initiation of epithelial to mesenchymal transition without migration of a cell population.PTK7 is essential for polarized cell motility and convergent extension during mouse gastrulation.Control of the segmentation process by graded MAPK/ERK activation in the chick embryo.Imaging of cell migration.Chemoattractants and chemorepellents act by inducing opposite polarity in phospholipase C and PI3-kinase signaling.The migration of paraxial and lateral plate mesoderm cells emerging from the late primitive streak is controlled by different Wnt signals.Patterning of the heart field in the chick.Rotation of organizer tissue contributes to left-right asymmetry.Dynamic positional fate map of the primary heart-forming region.FGF8 signaling is chemotactic for cardiac neural crest cells.A random cell motility gradient downstream of FGF controls elongation of an amniote embryo.Extracellular matrix fluctuations during early embryogenesis.Tumorigenic fragments of APC cause dominant defects in directional cell migration in multiple model systemsNeural crest invasion is a spatially-ordered progression into the head with higher cell proliferation at the migratory front as revealed by the photoactivatable protein, KikGRRegulated tissue fluidity steers zebrafish body elongation.Smad1 transcription factor integrates BMP2 and Wnt3a signals in migrating cardiac progenitor cells.Waves and patterning in developmental biology: vertebrate segmentation and feather bud formation as case studiesTbx1 controls the morphogenesis of pharyngeal pouch epithelia through mesodermal Wnt11r and Fgf8a.FGF ligands of the postnatal mammary stroma regulate distinct aspects of epithelial morphogenesis.Rectified directional sensing in long-range cell migrationFGF8 coordinates tissue elongation and cell epithelialization during early kidney tubulogenesisThe signalling receptor MCAM coordinates apical-basal polarity and planar cell polarity during morphogenesis
P2860
Q21091133-F21BFD7C-1820-4363-86C4-1F8AF775F158Q21284138-C01844AE-0C0B-4353-BCB2-BB485C0A1BFFQ24630591-8DF13E87-6075-4132-935E-5B9B2E6AF20BQ24658405-EEF3FB8D-BF24-4616-A37D-98ADEB2ED0AEQ24677034-6E64ACD5-8FC5-4BA6-8209-AD6834F8FE2BQ26991687-4A3D9341-CAAF-416D-B7CB-2ADF36B9AB13Q27311429-39F33640-632A-4708-846B-2D2EED862434Q27329062-5C854E4F-B827-49F0-8E05-700CC8D31303Q27331979-7193B3C8-11E3-49B8-84DF-C4330A937BDFQ27332373-45594DCE-7EF7-4FAC-A910-236537532DAAQ27339869-69A444B3-C5AC-4E16-A1EE-AD4113A534ABQ28074712-AB06C46F-FC79-475D-BD6D-DAB26D1DD4A4Q28081264-0CFF4C68-04CD-41E9-81B2-856ADB62DA09Q28245112-B346F738-88F5-4948-805A-092FFB4E2DD2Q28273253-767D4373-C297-47E3-834F-52B8144914ADQ28553075-04164D06-8ABD-4DDB-9AF8-D74785125665Q28729105-AB817D34-7A1B-4EB4-BFD5-EFD097241004Q28743356-D1781D7B-4AF0-4A84-8166-29366BD45719Q30422568-95F1CD24-48EC-4BBA-9469-992412EF555CQ30435847-C963AFFB-9499-4057-822F-B4F885961487Q30476074-55604DF4-BB38-4634-9BF6-FCD17E9A2E01Q30477789-E357E6FE-3121-4900-8852-AE74B3A3EB49Q30480437-7B5426AA-5546-4A2D-B4B4-3603F507A36DQ30482424-DDC2DCEC-568A-4146-AB2A-EF1827FA42FBQ30483203-01E5ED04-84FB-4671-A4CB-088D60F3A281Q30489001-FBF5BEAC-1B4D-48EC-910C-8AF96142C478Q30489268-2E26FFB4-78CC-482A-BE8E-AFE8EDF1DFDEQ30500159-E3B3E1AD-B5F7-463E-A5A1-AADF0D9E3FB3Q30501367-61C072B5-1A60-4ACB-8CC0-46064A8AC742Q30504515-43B5ED72-C4D4-4AFC-AC6B-AC1338380ECBQ30527837-802F46C3-1304-427E-9E7D-D51394186E3EQ30528485-F9D534EC-4F8C-4ACA-BE46-054B36AE0710Q30533874-B88E4D01-1ECE-4736-9C08-BAE7443B740DQ30578883-DD3C543F-9C99-46C8-8EAD-6E78C4F01307Q30589742-099964A4-A145-480C-8018-DCACB3727156Q30592681-067A05EE-CDFE-4009-85CB-7B4B5AFAFAA0Q30592934-0C6905B5-09B8-47D4-950A-6221C6607A6CQ30610141-143487E0-F364-48CB-AD98-2602F64C34F1Q30658521-9B10ED86-52CE-49EB-B53B-75A75F7D5E67Q30855418-115C9DA6-D266-4D95-8A7D-A8FDDA2D80C7
P2860
Cell movement patterns during gastrulation in the chick are controlled by positive and negative chemotaxis mediated by FGF4 and FGF8.
description
2002 nî lūn-bûn
@nan
2002年の論文
@ja
2002年学术文章
@wuu
2002年学术文章
@zh
2002年学术文章
@zh-cn
2002年学术文章
@zh-hans
2002年学术文章
@zh-my
2002年学术文章
@zh-sg
2002年學術文章
@yue
2002年學術文章
@zh-hant
name
Cell movement patterns during ...... xis mediated by FGF4 and FGF8.
@en
Cell movement patterns during ...... xis mediated by FGF4 and FGF8.
@nl
type
label
Cell movement patterns during ...... xis mediated by FGF4 and FGF8.
@en
Cell movement patterns during ...... xis mediated by FGF4 and FGF8.
@nl
prefLabel
Cell movement patterns during ...... xis mediated by FGF4 and FGF8.
@en
Cell movement patterns during ...... xis mediated by FGF4 and FGF8.
@nl
P1433
P1476
Cell movement patterns during ...... axis mediated by FGF4 and FGF8
@en
P2093
Dirk Dormann
Xuesong Yang
P304
P356
10.1016/S1534-5807(02)00256-3
P407
P577
2002-09-01T00:00:00Z