Add to ORKGThe effects of fibronectin on the migration of human skin fibroblasts and Syrian hamster melanoma cells into 3-dimensional gels of native collagen fibres have been examined. Cell migration into the 3-dimensional gel was measured by plating cells on the gel surface and then determining the percentage of cells within the gel at various times thereafter by direct microscopic examination. We find that fibronectin bound to collagen inhibits the migration of human skin fibroblasts and stimulates the migration of melanoma cells into the gel matrix. Fibronectin had no apparent effect on cell adhesion to the collagen gels, proliferation or morphology under the conditions studied.</p
Nanomolar concentrations of native fibronectin and its RGDS-containing cell-binding domain have prev...
Nanomolar concentrations of native fibronectin and its RGDS-containing cell-binding domain have prev...
Hydrogels based on natural or/and synthetic (co)polymers are promising materials for tissue engineer...
The effects of fibronectin on the migration of human skin fibroblasts and Syrian hamster melanoma ce...
The effects of fibronectin on the migration of human skin fibroblasts and Syrian hamster melanoma ce...
The effects of fibronectin on the migration of human skin fibroblasts and Syrian hamster melanoma ce...
Data are presented indicating that the adhesion of Chinese hamster ovary cells (CHO) to films of den...
Data are presented indicating that the adhesion of Chinese hamster ovary cells (CHO) to films of den...
Data are presented indicating that the adhesion of Chinese hamster ovary cells (CHO) to films of den...
We have been using three-dimensional gels of native collagen fibres as a substratum for the study of...
We have been using three-dimensional gels of native collagen fibres as a substratum for the study of...
We have been using three-dimensional gels of native collagen fibres as a substratum for the study of...
Three-dimensional gels of native type I collagen fibres have been used as a substratum for the growt...
Nanomolar concentrations of native fibronectin and its RGDS-containing cell-binding domain have prev...
Hydrogels based on natural or/and synthetic (co)polymers are promising materials for tissue engineer...
Nanomolar concentrations of native fibronectin and its RGDS-containing cell-binding domain have prev...
Nanomolar concentrations of native fibronectin and its RGDS-containing cell-binding domain have prev...
Hydrogels based on natural or/and synthetic (co)polymers are promising materials for tissue engineer...
The effects of fibronectin on the migration of human skin fibroblasts and Syrian hamster melanoma ce...
The effects of fibronectin on the migration of human skin fibroblasts and Syrian hamster melanoma ce...
The effects of fibronectin on the migration of human skin fibroblasts and Syrian hamster melanoma ce...
Data are presented indicating that the adhesion of Chinese hamster ovary cells (CHO) to films of den...
Data are presented indicating that the adhesion of Chinese hamster ovary cells (CHO) to films of den...
Data are presented indicating that the adhesion of Chinese hamster ovary cells (CHO) to films of den...
We have been using three-dimensional gels of native collagen fibres as a substratum for the study of...
We have been using three-dimensional gels of native collagen fibres as a substratum for the study of...
We have been using three-dimensional gels of native collagen fibres as a substratum for the study of...
Three-dimensional gels of native type I collagen fibres have been used as a substratum for the growt...
Nanomolar concentrations of native fibronectin and its RGDS-containing cell-binding domain have prev...
Hydrogels based on natural or/and synthetic (co)polymers are promising materials for tissue engineer...
Nanomolar concentrations of native fibronectin and its RGDS-containing cell-binding domain have prev...
Nanomolar concentrations of native fibronectin and its RGDS-containing cell-binding domain have prev...
Hydrogels based on natural or/and synthetic (co)polymers are promising materials for tissue engineer...