Three of the methods in which a gelatin matrix is used to entrap cells are compared. The advantages and disadvantages of each method when used for immobilizing invertase-active cells of yeast (Saccharomyces cerevisiae) are discusse
Conditions are presented for the simple, rapid and reproducible immobilization of invertase [beta-D-...
The immobilization of enzymes and microbial cells within insolubilized gelatin involves both physica...
Sucrose hydrolysis by inveratyse-active yeast cells (S. cerevisiae) entrapped in gelatin was investi...
Three of the methods in which a gelatin matrix is used to entrap cells are compared. The advantages ...
The investigated byocatalyst consists of gelatin entrapped cells of Saccharomyces cerevisiae retaini...
A simple method for producing gelatin immobilized microbial cells is described.. The microorganism ...
A gel-entrapment method particularly suitable for viable cells is described. The gel matrix is gelat...
Yeast cell wall invertase (CWI) was immobilised within 10% gelatin hydrogel. The result of entrapmen...
Conditions are presented for the simple, rapid and reproducible immobilization of invertase [beta-D-...
The immobilization of enzymes and microbial cells within insolubilized gelatin involves both physica...
Sucrose hydrolysis by inveratyse-active yeast cells (S. cerevisiae) entrapped in gelatin was investi...
Three of the methods in which a gelatin matrix is used to entrap cells are compared. The advantages ...
The investigated byocatalyst consists of gelatin entrapped cells of Saccharomyces cerevisiae retaini...
A simple method for producing gelatin immobilized microbial cells is described.. The microorganism ...
A gel-entrapment method particularly suitable for viable cells is described. The gel matrix is gelat...
Yeast cell wall invertase (CWI) was immobilised within 10% gelatin hydrogel. The result of entrapmen...
Conditions are presented for the simple, rapid and reproducible immobilization of invertase [beta-D-...
The immobilization of enzymes and microbial cells within insolubilized gelatin involves both physica...
Sucrose hydrolysis by inveratyse-active yeast cells (S. cerevisiae) entrapped in gelatin was investi...
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