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Immobilization gelatin

Sodium chlorite oxidation of com and rice starches is recommended for the production of textile sizes (101) and oxidized starch is recommended as a hardening agent in the immobilization of microbial cells within gelatin (102). [Pg.344]

In a second example, a cell—gelatin mixture is cross-linked with glutaraldehyde (43). When soluble enzyme is used for binding, the enzyme is first released from the cell, then recovered and concentrated. Examples of this type of immobilization include binding enzyme to a DEAE-ceUulose—titanium dioxide—polystyrene carrier (44) or absorbing enzyme onto alumina followed by cross-linking with glutaraldehyde (45,46). [Pg.294]

Subtractive dye precursors (couplers) that could be immobilized in each of the silver containing layers were sought, so that dye formation in all layers could proceed simultaneously rather than successively. The first of these to be commercialized were in Agfacolor Neue and Ansco Color films, introduced soon after Kodachrome film. These reversal working films contained colorless couplers that were immobilized (ballasted) by the attachment of long paraffinic chains. The addition of sulfonic or carboxyUc acid groups provided the necessary hydrophilicity to make them dispersible as micelles in aqueous gelatin. [Pg.471]

TEST-METHOD OF NITROXOLINE DETECTION AND DETERMINATION WITH THE REAGENTS IMMOBILIZED IN GELATIN MATRIX... [Pg.325]

Rasor and Tischer (1998) have brought out the advantages of enzyme immobilization. Examples of penicillin-G to 6-APA, hydrolysis of cephalospwrin C into 7-ACA, hydrolysis of isosorbide diacetate and hydrolysis of 5-(4-hydroxy phenyl) hydantom are cited. De Vroom (1998) has reported covalent attachment of penicillin acylase (EC 3.51.11) from E.Coli in a gelatine-based carrier to give a water insoluble catalyst assemblase which can be recycled many times, and is suitable for the production of semi-synthetic antibiotics in an aqueous environment. The enzyme can be applied both in a hydrolytic fashion and a synthetic fashion. 6-APA was produced from penicillin-G similarly, 7-ADCA was produced from desa acetoxycephalosporin G, a ring expansion product of penicillin G. [Pg.160]

The high specificity required for the analysis of physiological fluids often necessitates the incorporation of permselective membranes between the sample and the sensor. A typical configuration is presented in Fig. 7, where the membrane system comprises three distinct layers. The outer membrane. A, which encounters the sample solution is indicated by the dashed lines. It most commonly serves to eliminate high molecular weight interferences, such as other enzymes and proteins. The substrate, S, and other small molecules are allowed to enter the enzyme layer, B, which typically consist of a gelatinous material or a porous solid support. The immobilized enzyme catalyzes the conversion of substrate, S, to product, P. The substrate, product or a cofactor may be the species detected electrochemically. In many cases the electrochemical sensor may be prone to interferences and a permselective membrane, C, is required. The response time and sensitivity of the enzyme electrode will depend on the rate of permeation through layers A, B and C the kinetics of enzymatic conversion as well as the charac-... [Pg.62]

The sol-gel-entrapped microbial cells have shown excellent tolerance to different alcohols [99], The immobilized E. coli cells followed the Michaelis-Menten equation when quantified with the (3-glucosidase activity via the hydrolysis of 4-nitrophenyl-(3-D-galactopyranosdie [142], The sol-gel matrices doped with gelatin prevented the cell lysis, which usually occurs during the initial gelation process [143], Microorganisms are now widely used in the biosorption of different pollutants and toxicants. Bacillus sphaericus JG-A12 isolated from uranium mining water has been entrapped in aqueous silica nanosol for the accumulation of copper and uranium [144], Premkumar et al. [145] immobilized recombinant luminous bacteria into TEOS sol-gel to study the effect of sol-gel conditions on the cell response (luminescence). The entrapped and free cells showed almost the same intensity of luminescence (little lower), but the entrapped cells were more stable than the free cells (4 weeks at 4°C). This kind of stable cell could be employed in biosensors in the near future. [Pg.545]

Catalase was immobilized with gelatin by means of glutaraldehyde and fixed on a pretreated Teflon membrane served as enzyme electrode to determine hydrogen peroxide [248], The electrode response reached a maximum when 50mM phosphate buffer was used at pH 7.0 and at 35°C. Catalase enzyme electrode response depends linearly on hydrogen peroxide concentration between 1.0 X 10-5 and 3.0 X 10-3 M with response time 30 s. [Pg.587]

Wu et al. [183] studied the reversible hydrolysis of penicillin G into 6-aminopeni-cillanic acid (6-APA) and phenylacetic acid (PAA) in a chromatographic reactor. E. coli cells containing penicillin acylase (the catalyst) were immobilized by entrapment into gelatine and further cross-linking with glutaraldehyde. The ad-... [Pg.203]

Cell microarrays have also been fabricated. Ziauddin and Sabatini (2001) demonstrated the ability to transfect cells cultured onto plasmid DNA arrayed in gelatin on a standard DNA microarray slide. Xu (2002) printed down cells in the form of high density microarrays on permeable membranes and demonstrated phenotypic assay performance with the immobilized cells. The commercialization of viable cell arrays will permit an even closer look at cell-mediated events during the drug discovery process. [Pg.53]

Consider two compartments, occupying the regions — 1 < x < 0 and 0 < x < 1, respectively, filled with solutions of the same univalent electrolyte at concentrations 1 and A, respectively. Let at some moment t — 0 the wall separating the compartments at x = 0 be removed. The solution within the compartments is assumed immobilized, say, with gelatin, so that the entire transport is due to electro-diffusion only. The initial values of the electrolyte concentration are maintained at the external walls x = 1. These walls are electrically insulated so that no electric current can pass through them. [Pg.162]

Aging of gelatinized starch was studied by cross-relaxation NMR method [99]. Relatively immobile starch components increased and components with liquid-like mobility decreased during aging. Two spectral components were observed in cross-relaxation spectra. According to the theory mentioned above(5.5.1.), the broader one correlates with the degree of crystallinity and the narrower one with starch chains having mobility intermediate between... [Pg.142]

The analysis of intraparticle mass-transfer resistance requires the knowledge of the effective diffusivity Ds of a substrate in an immobilized matrix, such as agarose, agar, or gelatin. Gels are porous... [Pg.63]

An enzyme is immobilized uniformly in a gelatin slab (thickness L and area A). One side is in contact with substrate solution (Csb) and the other side is in contact with a glass plate. The mass transfer coefficient bn the surface of the gelatin is ks. [Pg.69]

See other pages where Immobilization gelatin is mentioned: [Pg.374]    [Pg.392]    [Pg.374]    [Pg.392]    [Pg.307]    [Pg.325]    [Pg.56]    [Pg.51]    [Pg.134]    [Pg.30]    [Pg.86]    [Pg.466]    [Pg.145]    [Pg.453]    [Pg.562]    [Pg.172]    [Pg.261]    [Pg.770]    [Pg.206]    [Pg.102]    [Pg.254]    [Pg.278]    [Pg.31]    [Pg.655]    [Pg.254]    [Pg.655]    [Pg.509]    [Pg.133]    [Pg.134]    [Pg.82]    [Pg.390]    [Pg.230]    [Pg.419]    [Pg.390]    [Pg.352]    [Pg.387]    [Pg.120]    [Pg.374]   
See also in sourсe #XX -- [ Pg.80 , Pg.94 ]



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Gelatin-immobilized enzymes

Gelatin-immobilized matrix

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