A method for grafting poly(acrylic acid) onto nylon 6,6 using amine end-groups on the nylon surface

Tobiesen, Finn Andrew

08 1900

No description available.

Polymers Surfaces

Acrylic acid

Adhesion

Mediation of vascular smooth muscle cell adhesion and migration by cell surface heparan sulfate glycosaminoglycans

Chon, John H.

12 1900

No description available.

Vascular endothelium

Cell adhesion

Glycosaminoglycans

A study of the cell surface properties of Candida albicans

Hobden, Carole Lesley

January 1995

No description available.

571.4

An investigation of the nature of the interaction of dicyandiamide cured epoxy resin adhesives with aluminium substrates, using model compounds

Robb, David Andrew

January 2001

No description available.

541

Surface chemistry; Interfaces; Adhesion

The biosorption of particulates and metal ions by fungal mycelium

Singleton, Ian

January 1989

Particulate adsorption by Mucor flavus and Neurospora crassa is a physical property of the cell wall, independent of both cellular metabolism and the production of extracellular polymers. Initial attractive forces responsible for particulate adsorption by N. crassa are mainly electrostatic in nature and this mechanism probably holds for M. flavus also. The outer glucan layer of the cell wall of N. crassa, although able to adsorb particulates, was not as efficient as the underlying protein layer at particle adsorption. Young, growing mycelium generally adsorbs the , -, largest amount of particles, due to the continued production of adsorption sites and the entrapment of particulates by hyphae. Factors increasing adsorption include nutrient starvation of mycelium and incubation with low concentrations of magnesium ions. Relatively high concentrations of mercury and copper ions decrease adsorption perhaps due to the precipitation and adsorption of the corresponding metal sulphides on the mycelial surface thereby effectively physically interfering with further particulate adsorption. Optimum conditions for adsorption are a temperature of 250C and a slightly acid pH value. Also, small particles are more readily adsorbed than large particles. Mucor flavus can adsorb clays and this ability may be used to treat industrial effluents which contain large amounts of clay minerals. An acid pH and a temperature of 250C are optimum conditions for clay adsorption by the fungus. Low concentrations of montmorillonite and kaolinite increase biomass production by Aspergillus niger in submerged culture, due to the inhibition of pellet formation by the fungus. The clays cause A. niger to grow in a more filamentous form and presumably would affect other fungi in a similar way. The use of clays to control fungal morphology may be important in several industrial fermentations. Low concentrations of the fungicide thiram stimulated the growth of Aspergillus niger in the presence of montmorillonite. Immobilization of fungi by magnetic means is possible due to their ability to adsorb magnetite. This method could also be used to remove fungi from fermentation media as an alternative to filtration or centrifugation. Even though older hyphae of Penicillium chrysogenum are unable to adsorb magnetite, this fungus can still be magnetically immobilized if it is grown from a spore suspension in the presence of magnetite. Either the spores or young hyphae of this fungus adsorb magnetite, producing pellets with magnetic properties. Magnetite adsorption occurs optimally at a temperature of 250C and is constant over a wide range of pH values. Waste mycelium of A. niger from the surface fermentation method of citric acid production can be magnetically removed from solution after adsorbing magnetite. Dilute solutions of sodium hydroxide and sodium bicarbonate desorbed magnetite attached to mycelial surfaces. Silver is accumulated selectively by A. niger waste mycelium produced by the surface fermentation method of citric acid production. The process is rapid, maximum uptake occurring twenty minutes after initial exposure of the mycelium to a silver solution. Silver accumulation by the mycelium is relatively insensitive to changes in pH and temperature, a slight decrease in uptake only occurring at a temperature of 800C. Dilute solutions of H2S04 and HNO3 desorb silver from the mycelial surface. However, this process is relatively inefficient and more effective desorbents need to be found to make the silver accumulation process economically viable.

580

Microbial adhesion to surfaces

A new glioma-associated cell surface glycoprotein

Mulligan, Karl Andrew

January 1997

No description available.

610

Brain tumours; Cell adhesion

Early Endothelial Progenitor Cells and Cardiac Transplant Vasculopathy

Prodger, Jessica

26 February 2009

Cardiac allograft vasculopathy (CAV) limits survival after heart transplantation. CAV is caused by damage to the allograft endothelium, resulting in occlusive intimal lesions. Administration of ex vivo cultured early endothelial progenitor cells (eEPCs) enhances endothelial repair and inhibits intimal hyperplasia. However, engraftment rates of eEPCs remain low. We examined changes in eEPC adhesion molecule expression during ex vivo cultivation, and how these changes affect their ability to adhere. Compared to their parent cell population (freshly isolated peripheral blood mononuclear cells, PBMCs), eEPCs had decreased expression of integrins necessary to form firm adhesions with endothelial cells. Despite this eEPCs showed an enhanced ability to adhere under static conditions compared to PBMCs. However, under conditions of physiological flow, eEPC rolling adhesion was reduced compared to PBMCs. We hypothesize that low eEPC retention rates observed in vivo may be due to impaired eEPC rolling resulting from ex vivo culture.

Endothelial Progenitor Cell

adhesion

0379

Factors Influencing the Formation and Development of Microalgal Biofilms

Irving, Tyler E.

01 January 2011

Differences in biofilm formation between Scenedesmus obliquus and Chlorella vulgaris were examined, as well as the effects of substrate properties. Species selection and species control had significant effects. In non-sterile conditions, C. vulgaris shifted from planktonic (23.7% attachment) to sessile (79.8% attachment) growth, and formed films of higher average thickness (52 ± 19 µm) than in sterile conditions (7 ± 6 µm). By contrast, S. obliquus attained similar thicknesses (54 ± 31 µm and 53 ± 38 µm) in both sterile and non-sterile conditions. The effect of substrate properties was minimal. Both species grew films of similar thickness (~ 30 µm for S. obliquus, <10 µm for C. vulgaris) on materials ranging from hydrophilic (glass) to hydrophobic (polytetrafluoroethylene). Micropatterning the surface also had little effect on film formation. The results indicate that species selection and species control are more important that substrate properties in the development of microalgal biofilms.

Microalgae

Biofilm

Photobioreactor

adhesion

0542

Early Endothelial Progenitor Cells and Cardiac Transplant Vasculopathy

Prodger, Jessica

26 February 2009

Cardiac allograft vasculopathy (CAV) limits survival after heart transplantation. CAV is caused by damage to the allograft endothelium, resulting in occlusive intimal lesions. Administration of ex vivo cultured early endothelial progenitor cells (eEPCs) enhances endothelial repair and inhibits intimal hyperplasia. However, engraftment rates of eEPCs remain low. We examined changes in eEPC adhesion molecule expression during ex vivo cultivation, and how these changes affect their ability to adhere. Compared to their parent cell population (freshly isolated peripheral blood mononuclear cells, PBMCs), eEPCs had decreased expression of integrins necessary to form firm adhesions with endothelial cells. Despite this eEPCs showed an enhanced ability to adhere under static conditions compared to PBMCs. However, under conditions of physiological flow, eEPC rolling adhesion was reduced compared to PBMCs. We hypothesize that low eEPC retention rates observed in vivo may be due to impaired eEPC rolling resulting from ex vivo culture.

Endothelial Progenitor Cell

adhesion

0379

Factors Influencing the Formation and Development of Microalgal Biofilms

Irving, Tyler E.

01 January 2011

Differences in biofilm formation between Scenedesmus obliquus and Chlorella vulgaris were examined, as well as the effects of substrate properties. Species selection and species control had significant effects. In non-sterile conditions, C. vulgaris shifted from planktonic (23.7% attachment) to sessile (79.8% attachment) growth, and formed films of higher average thickness (52 ± 19 µm) than in sterile conditions (7 ± 6 µm). By contrast, S. obliquus attained similar thicknesses (54 ± 31 µm and 53 ± 38 µm) in both sterile and non-sterile conditions. The effect of substrate properties was minimal. Both species grew films of similar thickness (~ 30 µm for S. obliquus, <10 µm for C. vulgaris) on materials ranging from hydrophilic (glass) to hydrophobic (polytetrafluoroethylene). Micropatterning the surface also had little effect on film formation. The results indicate that species selection and species control are more important that substrate properties in the development of microalgal biofilms.

Microalgae

Biofilm

Photobioreactor

adhesion

0542