2023 - Research.com Chemistry in Spain Leader Award
Jose M. Guisan focuses on Immobilized enzyme, Organic chemistry, Enzyme, Covalent bond and Chromatography. Jose M. Guisan has researched Immobilized enzyme in several fields, including Combinatorial chemistry, Catalysis, Aldehyde and Agarose. His work focuses on many connections between Organic chemistry and other disciplines, such as Chemical modification, that overlap with his field of interest in Bifunctional and Thiol.
His Enzyme research is multidisciplinary, relying on both Glutaraldehyde and Protein subunit, Protein quaternary structure. His Covalent bond study combines topics from a wide range of disciplines, such as Amino acid, Hybridization probe, Magnetic nanoparticles, Horseradish peroxidase and Epoxy. His study in Chromatography is interdisciplinary in nature, drawing from both Nanoparticle and Chemical engineering.
His primary areas of study are Organic chemistry, Enzyme, Immobilized enzyme, Chromatography and Hydrolysis. The Enzyme study combines topics in areas such as Covalent bond, Glutaraldehyde and Combinatorial chemistry. His work carried out in the field of Covalent bond brings together such families of science as Dextran, Stereochemistry and Aldehyde.
His work on Penicillin amidase as part of his general Immobilized enzyme study is frequently connected to Polyethylenimine, thereby bridging the divide between different branches of science. As part of one scientific family, he deals mainly with the area of Chromatography, narrowing it down to issues related to the Adsorption, and often Ionic bonding and Ionic strength. His Hydrolysis research is multidisciplinary, relying on both Enantiomeric excess, Enzyme catalysis, Substrate, Aspergillus niger and Mandelic acid.
Jose M. Guisan spends much of his time researching Organic chemistry, Enzyme, Lipase, Immobilized enzyme and Hydrolysis. His biological study spans a wide range of topics, including Covalent bond, Molecule, Stereochemistry and Lysine. His work in Lipase covers topics such as Adsorption which are related to areas like Anhydrous.
His research in Immobilized enzyme tackles topics such as Chemical engineering which are related to areas like Porous medium and Polymer. The various areas that Jose M. Guisan examines in his Hydrolysis study include Chromatography, Agarose, Xylanase and Enantioselective synthesis. His Chromatography research incorporates themes from Ethanol, Enzyme assay, Transesterification and Substrate.
Jose M. Guisan mostly deals with Immobilized enzyme, Organic chemistry, Biocatalysis, Lipase and Hydrolysis. Immobilized enzyme is a primary field of his research addressed under Enzyme. His Enzyme study incorporates themes from Pisum and Hydrogen peroxide.
His Biocatalysis research is multidisciplinary, incorporating elements of Covalent bond, Nanotechnology, Yield and Combinatorial chemistry. His Lipase study combines topics from a wide range of disciplines, such as Adsorption, Selectivity, Catalysis, Ethyl oleate and Polyethylene glycol. His work in Hydrolysis addresses issues such as Xylan, which are connected to fields such as Xylanase, Packed bed and Continuous production.
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Effect of the support and experimental conditions in the intensity of the multipoint covalent attachment of proteins on glyoxyl-agarose supports: Correlation between enzyme–support linkages and thermal stability
Justo Pedroche;Maria del Mar Yust;Cesar Mateo;Roberto Fernández-Lafuente.
Enzyme and Microbial Technology (2007)
Immobilization of Enzymes as the 21st Century Begins
Jose M. Guisan.
Advances in the design of new epoxy supports for enzyme immobilization-stabilization.
C. Mateo;V. Grazú;B.C.C. Pessela;T. Montes.
Biochemical Society Transactions (2007)
Immobilization-stabilization of Penicillin G acylase from Escherichia coli
Gregorio Alvaro;Roberto Fernandez-Lafuente;Rosa M. Blanco;José M. Guisán.
Applied Biochemistry and Biotechnology (1990)
Immobilization‐stabilization of α‐chymotrypsin by covalent attachment to aldehyde‐agarose gels
José M. Guisán;Agatha Bastida;Carmen Cuesta;Roberto Fernandez-Lufuente.
Biotechnology and Bioengineering (1991)
Improved stabilization of chemically aminated enzymes via multipoint covalent attachment on glyoxyl supports
Fernando López-Gallego;Tamara Montes;Manuel Fuentes;Noelia Alonso.
Journal of Biotechnology (2005)
The coimmobilization of d-amino acid oxidase and catalase enables the quantitative transformation of d-amino acids (d-phenylalanine) into α-keto acids (phenylpyruvic acid)
Roberto Fernández-Lafuente;Verónica Rodriguez;Jose M. Guisán.
Enzyme and Microbial Technology (1998)
Strategies for enzyme stabilization by intramolecular crosslinking with bifunctional reagents
R. Fernandez-Lafuente;C.M. Rosell;V. Rodriguez;J.M. Guisan.
Enzyme and Microbial Technology (1995)
Stabilization of multimeric enzymes via immobilization and post-immobilization techniques
Roberto Fernández-Lafuente;Verónica Rodrı́guez;Cesar Mateo;Guadalupe Penzol.
Journal of Molecular Catalysis B-enzymatic (1999)
Immobilization of peroxidase glycoprotein on gold electrodes modified with mixed epoxy-boronic acid monolayers
José M. Abad;Marisela Velez;Carolina Santamaria;Jose M. Guisan.
Journal of the American Chemical Society (2002)
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