Click
here to close Hello! We notice that
you are using Internet Explorer, which is not supported by Echinobase
and may cause the site to display incorrectly. We suggest using a
current version of Chrome,
FireFox,
or Safari.
Wilehm Roux Arch Dev Biol
1984 Mar 01;1932:71-77. doi: 10.1007/BF00848633.
Show Gene links
Show Anatomy links
Cell-to-substratum adhesion of dissociated embryonic cells of the sea urchin,Pseudocentrotus depressus.
Iwata M
,
Nakano E
.
???displayArticle.abstract???
Some plant lectins, Concanavalin agglutinin (Con A), succinyl Con A and wheat germ agglutinin (WGA) increased the adhesion of dissociated embryonic cells of the sea urchin,Pseudocentrotus depressus, to the substratum (plastic and glass surface) in vitro. Other plant lectins,Ulex europeus agglutinin (UEA) andDolichos biflorus agglutinin (DBA) had no effect on the cell-to-substratum interaction. A specific monocarbohydrate inhibitor of lectins, α-methyl-D-mannoside, inhibited the Con A-induced cell-to-substratum adhesion of dissociated embryonic cells. This observation suggests that the Con A-induced cell-to-substratum adhesion may be attributed to the Con A-carbohydrate interaction. In Millipore-filtered sea water (MPFSW) containing Con A (0.1 mg/ml), dissociated embryonic cells adhered to the substratum for more than 6 h at 18°C, while in MPFSW as control, almost all the dissociated cells were released from the substratum after 1 h. A scanning electron microscopic study showed that dissociated embryonic cells adhered to the substratum were surrounded by an extracellular fibrous material, when the cells were cultured in MPFSW containing Con A. The induction of the extracellular fibrous material by Con A was inhibited by α-methyl-D-mannoside. The appearance of this material may be related to the cell-to-substratum adhesion of dissociated cells. Sequential extractions of Con A-treated dissociated cells with Triton X 100 and urea solubilized most of the cellular components, leaving the fibrous material on the surface. Biochemical conponents of the isolated fibrous material included sea urchin fibronectin, Con A and minor components (88 and 140 kilodalton proteins). Fibronectin preformed in the cells was excreted after the dissociation, while the 88 and 140 kilodalton proteins were synthesized and released to the extracellular space.
Bell,
DNA synthesis in "nuclear monolayers" from BSC-1 cells infected with herpes virus.
1974, Pubmed
Bell,
DNA synthesis in "nuclear monolayers" from BSC-1 cells infected with herpes virus.
1974,
Pubmed
Bonner,
A film detection method for tritium-labelled proteins and nucleic acids in polyacrylamide gels.
1974,
Pubmed
Carter,
Studies on cell adhesion and recognition. II. The kinetics of cell adhesion and cell spreading on surfaces coated with carbohydrate-reactive proteins (glycosidases and lectins) and fibronectin.
1981,
Pubmed
Carter,
A new cell surface, detergent-insoluble glycoprotein matrix of human and hamster fibroblasts. The role of disulfide bonds in stabilization of the matrix.
1981,
Pubmed
GIUDICE,
Restitution of whole larvae from disaggregated cells of sea urchin embryos.
1962,
Pubmed
,
Echinobase
Gonen,
Cell adhesion and acquisition of detergent resistance by the cytoskeleton of cultured chick fibroblasts.
1979,
Pubmed
Grinnell,
Cellular adhesiveness and extracellular substrata.
1978,
Pubmed
Grinnell,
Initial adhesion of human fibroblasts in serum-free medium: possible role of secreted fibronectin.
1979,
Pubmed
GUSTAFSON,
THE CELLULAR BASIS OF MORPHOGENESIS AND SEA URCHIN DEVELOPMENT.
1963,
Pubmed
,
Echinobase
Harkey,
Isolation, culture, and differentiation of echinoid primary mesenchyme cells.
1980,
Pubmed
,
Echinobase
Iwata,
Fibronectin from the ovary of the sea urchin,Pseudocentrotus depressus.
1981,
Pubmed
,
Echinobase
Katow,
In situ distribution of concanavalin A-binding sites in mesenchyme blastulae and early gastrulae of the sea urchin Lytechinus pictus.
1982,
Pubmed
,
Echinobase
Krach,
Cell surface changes occurring during sea urchin embryonic development monitored by quantitative agglutination with plant lectins.
1974,
Pubmed
,
Echinobase
Laemmli,
Cleavage of structural proteins during the assembly of the head of bacteriophage T4.
1970,
Pubmed
Lallier,
Effects of concanavalin A on the development of sea urchin egg.
1972,
Pubmed
,
Echinobase
Neri,
Quantitative evaluation of concanavalin A receptor site distributions on the surfaces of specific populations of embryonic cells.
1975,
Pubmed
,
Echinobase
Nicolson,
Trans-membrane control of the receptors on normal and tumor cells. II. Surface changes associated with transformation and malignancy.
1976,
Pubmed
Noll,
Reconstitution of membranes and embryonic development in dissociated blastula cells of the sea urchin by reinsertion of aggregation-promoting membrane proteins extracted with butanol.
1979,
Pubmed
,
Echinobase
Osborn,
The detertent-resistant cytoskeleton of tissue culture cells includes the nucleus and the microfilament bundles.
1977,
Pubmed
Rauvala,
Studies on cell adhesion and recognition. I. Extent and specificity of cell adhesion triggered by carbohydrate-reactive proteins (glycosidases and lectins) and by fibronectin.
1981,
Pubmed
Roberson,
Quantitative agglutination of specific populations of sea urchin embryo cells with concanavalin A.
1975,
Pubmed
,
Echinobase
Rutishauser,
Receptor mobility and the binding of cells to lectin-coated fibers.
1975,
Pubmed
Spiegel,
Cell adhesion during gastrulation. A new approach.
1982,
Pubmed
,
Echinobase
Yamada,
Cell surface protein partially restores morphology, adhesiveness, and contact inhibition of movement to transformed fibroblasts.
1976,
Pubmed
Yamada,
Fibronectins--adhesive glycoproteins of cell surface and blood.
1978,
Pubmed
