Traversing the basement membrane in vivo: a diversity of strategies
about
A recapitulative three-dimensional model of breast carcinoma requires perfusion for multi-week growthSPARC Promotes Cell Invasion In Vivo by Decreasing Type IV Collagen Levels in the Basement MembraneA Sensitized Screen for Genes Promoting Invadopodia Function In Vivo: CDC-42 and Rab GDI-1 Direct Distinct Aspects of Invadopodia FormationPodoplanin mediates ECM degradation by squamous carcinoma cells through control of invadopodia stabilityIntense sperm-mediated sexual conflict promotes reproductive isolation in Caenorhabditis nematodesUNC-6 (netrin) stabilizes oscillatory clustering of the UNC-40 (DCC) receptor to orient polarity.Invasive Cell Fate Requires G1 Cell-Cycle Arrest and Histone Deacetylase-Mediated Changes in Gene ExpressionLess is more: low expression of MT1-MMP is optimal to promote migration and tumourigenesis of breast cancer cells.Local and global dynamics of the basement membrane during branching morphogenesis require protease activity and actomyosin contractilityInvadopodia and basement membrane invasion in vivo.Tumour cell invasion: an emerging role for basal epithelial cell extrusion.Podosomes and invadopodia: tools to breach vascular basement membrane.Plasma membrane overgrowth causes fibrotic collagen accumulation and immune activation in Drosophila adipocytesA developmental biologist's "outside-the-cell" thinking.A Cathepsin-L is required for invasive behavior during Air Sac Primordium development in Drosophila melanogaster.Basement Membranes in the Worm: A Dynamic Scaffolding that Instructs Cellular Behaviors and Shapes Tissues.Normal mammary epithelial cells promote carcinoma basement membrane invasion by inducing microtubule-rich protrusions.Circulating Tumor Cells: When a Solid Tumor Meets a Fluid MicroenvironmentSIAH ubiquitin ligases regulate breast cancer cell migration and invasion independent of the oxygen status.Electrospun gelatin biopapers as substrate for in vitro bilayer models of blood-brain barrier tissue.A new front in cell invasion: The invadopodial membrane.Divide or Conquer: Cell Cycle Regulation of Invasive Behavior.The impact of hypoxia in pancreatic cancer invasion and metastasis.Targeting the Epithelial-to-Mesenchymal Transition: The Case for Differentiation-Based Therapy.Revisiting Seed and Soil: Examining the Primary Tumor and Cancer Cell Foraging in Metastasis.Smart mechanosensing machineries enable migration of vascular smooth muscle cells in atherosclerosis-relevant 3D matrices.Bioinspired Hydrogels to Engineer Cancer Microenvironments.Effect of equine herpesvirus type 1 (EHV-1) infection of nasal mucosa epithelial cells on integrin alpha 6 and on different components of the basement membrane.Boundary cells restrict dystroglycan trafficking to control basement membrane sliding during tissue remodelingShould I stay or should I go? Identification of novel nutritionally regulated developmental checkpoints in C. elegans.Chikungunya virus dissemination from the midgut of Aedes aegypti is associated with temporal basal lamina degradation during bloodmeal digestionB-LINK: a hemicentin, plakin, and integrin-dependent adhesion system that links tissues by connecting adjacent basement membranes.Tango1 spatially organizes ER exit sites to control ER export.Cancer-associated fibroblasts induce metalloprotease-independent cancer cell invasion of the basement membraneShh promotes direct interactions between epidermal cells and osteoblast progenitors to shape regenerated zebrafish bone.Finite element modeling to analyze TEER values across silicon nanomembranes.Mechanoreciprocity in cell migration.Nck deficiency is associated with delayed breast carcinoma progression and reduced metastasis.Live-cell confocal microscopy and quantitative 4D image analysis of anchor-cell invasion through the basement membrane in Caenorhabditis elegans.Invading, Leading and Navigating Cells in Caenorhabditis elegans: Insights into Cell Movement in Vivo.
P2860
Q26779577-8295A700-C8C9-4AEA-87DD-9AD485494C89Q27309073-54673B7B-E17A-48F6-BF79-597A3502390AQ27309256-27004F5B-FE1E-4C32-BAA7-1DFF4AF65F66Q27310083-97E0621B-4B43-438B-8B25-D017BFE6157CQ27314593-C8CBA721-1544-4257-B9FA-DFB4FBE79CF3Q30586748-99F2BBAB-1063-4ABC-835A-5DCA1B0A142BQ30703677-72A0E62D-6FFF-4F60-ABCF-96A1F1660AFDQ30824578-214B5E15-4D47-457E-A231-1A42A808ED74Q34240445-57F2D1E0-21E7-4D66-A8AE-DE975CC20394Q34344641-E317C21C-E078-4862-AE3E-C96A7903AC2DQ34425577-6A21B8CF-D329-4518-9903-2D43673A82C6Q34467865-840C1700-362C-4B82-A551-B6BB03EE5C94Q35813551-892BA300-011C-4233-AF9E-933BC9AFDC21Q35912625-D4B7BA73-5AE1-4341-BA2A-A936C1768A07Q36123921-569BC332-28F9-497B-983A-C25421F4C127Q36420663-94A3A272-8F7E-4591-B76A-CD4090AB867CQ36544928-5A272161-2E96-4844-A412-98E34F55395BQ37420868-59035BBE-2611-43F4-BAE3-87BFB2288846Q38812815-E99529D5-D3C4-4EB5-905D-D786CDF48069Q38813134-F24A5E07-0547-49EA-819D-6ADAD1667D37Q38893256-C9ADFA8A-4BC0-4839-96E4-356F38D1F8F9Q38955852-257DB7C2-C018-48E3-ACBF-65911B77790BQ38989132-FBF6F891-A11F-4132-B872-F6661E3E44E1Q39069234-D82D3B4F-BECF-4B0E-A5C8-98467B8671B6Q39139734-DE03AF9A-4A38-4534-808B-202C096BD37CQ39192915-0559D1CE-8AA1-48B8-8392-722F9911A08FQ39386471-937DC88B-FDAC-4268-9C95-B7A6C536F7ABQ40938961-D183EC81-AC07-4AC1-A71A-14DB51B89E4DQ41443201-1BFA1888-7D2E-4825-992D-2107965A163DQ41597017-FD385C3F-957D-48ED-936F-8C460C04B07CQ41928027-722026E8-6806-479A-AE9B-85A985C7B29FQ41975309-C3F95D19-2866-4C2A-A851-19444333898DQ42292869-0C974032-A2DA-4236-988A-9B11A2BA773BQ42377290-F4A26CC3-6046-405E-839D-C5E9E2DD0613Q42507801-A72801E9-9B18-4E25-8D35-821B1414C62EQ47197469-2E9173E9-2C93-4E80-8E09-0470639F3467Q47262581-E77655C6-3ACA-489C-89E3-F7F735411BC6Q47625162-F918D502-D476-4BBB-A5E3-0D96958B95B5Q47705920-B5E059A5-95A5-4A90-8E0E-70A4C6DC30CBQ47751135-5CF29CC7-0C4B-4E8C-9F8A-74EBD8DF621D
P2860
Traversing the basement membrane in vivo: a diversity of strategies
description
2014 nî lūn-bûn
@nan
2014 թուականի Փետրուարին հրատարակուած գիտական յօդուած
@hyw
2014 թվականի փետրվարին հրատարակված գիտական հոդված
@hy
2014年の論文
@ja
2014年論文
@yue
2014年論文
@zh-hant
2014年論文
@zh-hk
2014年論文
@zh-mo
2014年論文
@zh-tw
2014年论文
@wuu
name
Traversing the basement membrane in vivo: a diversity of strategies
@ast
Traversing the basement membrane in vivo: a diversity of strategies
@en
Traversing the basement membrane in vivo: a diversity of strategies
@nl
type
label
Traversing the basement membrane in vivo: a diversity of strategies
@ast
Traversing the basement membrane in vivo: a diversity of strategies
@en
Traversing the basement membrane in vivo: a diversity of strategies
@nl
prefLabel
Traversing the basement membrane in vivo: a diversity of strategies
@ast
Traversing the basement membrane in vivo: a diversity of strategies
@en
Traversing the basement membrane in vivo: a diversity of strategies
@nl
P2093
P2860
P3181
P356
P1476
Traversing the basement membrane in vivo: a diversity of strategies
@en
P2093
David R. Sherwood
Elliott J. Hagedorn
Laura C. Kelley
Lauren L. Lohmer
P2860
P304
P3181
P356
10.1083/JCB.201311112
P407
P577
2014-02-03T00:00:00Z