docusate has been researched along with 1-anilino-8-naphthalenesulfonate in 19 studies
| Timeframe | Studies, this research(%) | All Research% |
|---|---|---|
| pre-1990 | 1 (5.26) | 18.7374 |
| 1990's | 9 (47.37) | 18.2507 |
| 2000's | 5 (26.32) | 29.6817 |
| 2010's | 4 (21.05) | 24.3611 |
| 2020's | 0 (0.00) | 2.80 |
| Authors | Studies |
|---|---|
| Chiang, CL; Tsai, SW | 1 |
| Hult, K; Jansson, M; Skagerlind, P | 1 |
| da Graca Nascimento, M; Jenta, TR; Rees, GD; Robinson, BH | 1 |
| Berezin, IV; Kurganov, BI; Levashov, AV; Malakhova, EA; Martinek, K | 1 |
| Cleverly, DR; O'Connor, CJ | 1 |
| Rees, GD; Robinson, BH; Stephenson, GR | 1 |
| Brown, ED; Marangoni, AG; Yada, RY | 1 |
| Han, D; Luisi, PL; Walde, P | 1 |
| Chang, CS; Tsai, SW | 1 |
| Cao, SG; Chu, Y; Fan, HL; Liu, JL; Wu, ZS; Yang, GX; You, DL; Zhang, W | 1 |
| Abuin, E; Aguilar, LF; Lissi, E | 1 |
| Hayashi, Y; Kawanishi, T; Ogino, C; Shimizu, N; Takeyama, T; Talukder, MM; Wu, JC | 1 |
| Chu, Y; Ji, JY; Yu, YC | 1 |
| Freedman, RB; Oldfield, C; Robinson, BH | 1 |
| Choi, WJ; Chow, Y; Feng, G; Susanto, D; Talukder, MR; Wu, J | 1 |
| de Oliveira, D; Fiametti, KG; Oliveira, JV; Rovani, S; Treichel, H; Valério, A | 1 |
| Goto, M; Moniruzzaman, M | 1 |
| Hong, SG; Kim, HS; Kim, J | 1 |
| Hu, CL; Wang, N; Wu, WX; Yu, XQ; Zhang, L; Zhang, WW | 1 |
19 other study(ies) available for docusate and 1-anilino-8-naphthalenesulfonate
| Article | Year |
|---|---|
Mathematical modelling and simulation of a recycle dialysis membrane reactor in a reversed micellar system.
Topics: Dialysis; Dioctyl Sulfosuccinic Acid; Lipase; Membranes, Artificial; Micelles; Models, Theoretical; Olive Oil; Permeability; Plant Oils | 1992 |
Surfactant interference on lipase catalysed reactions in microemulsions.
Topics: Dioctyl Sulfosuccinic Acid; Emulsions; Ethers; Hydrolysis; Kinetics; Lipase; Molecular Structure; Palm Oil; Plant Oils; Polyethylene Glycols; Structure-Activity Relationship; Surface-Active Agents | 1992 |
Reverse enzyme synthesis in microemulsion-based organo-gels.
Topics: Catalysis; Chromatography, High Pressure Liquid; Chromobacterium; Dioctyl Sulfosuccinic Acid; Emulsions; Enzymes, Immobilized; Esterification; Freezing; Gelatin; Lipase; Molecular Structure; Octanols; Stereoisomerism | 1991 |
[New approach to the study of enzyme reactions with the participation of water-insoluble substrates. Pancreatic lipase incorporated into the inverted micelles of a surface-active substance in an organic solvent].
Topics: Animals; Dioctyl Sulfosuccinic Acid; Hydrolysis; In Vitro Techniques; Lipase; Micelles; Octanes; Pancreas; Solubility; Solvents; Substrate Specificity; Surface-Active Agents; Swine; Triglycerides | 1983 |
Fourier-transform infrared assay of bile salt-stimulated lipase activity in reversed micelles.
Topics: Bile Acids and Salts; Dioctyl Sulfosuccinic Acid; Emulsions; Female; Humans; Kinetics; Lipase; Micelles; Milk, Human; Oleic Acids; Spectroscopy, Fourier Transform Infrared; Surface-Active Agents; Triolein; Water | 1994 |
Macrocyclic lactone synthesis by lipases in water-in-oil microemulsions.
Topics: 4-Aminopyridine; Candida; Cetrimonium; Cetrimonium Compounds; Chromatography, Gas; Chromobacterium; Dicyclohexylcarbodiimide; Dioctyl Sulfosuccinic Acid; Emulsions; Enzyme Stability; Kinetics; Lactones; Lipase; Models, Chemical; Palmitic Acids; Pseudomonas; Solubility; Surface-Active Agents | 1995 |
The dependence of the lipolytic activity of Rhizopus arrhizus lipase on surfactant concentration in Aerosol-OT/isooctane reverse micelles and its relationship to enzyme structure.
Topics: Circular Dichroism; Dioctyl Sulfosuccinic Acid; Lipase; Lipolysis; Micelles; Octanes; Rhizopus; Spectrometry, Fluorescence; Structure-Activity Relationship; Surface-Active Agents | 1993 |
Spectroscopic and kinetic studies of lipases solubilized in reverse micelles.
Topics: Animals; Candida; Circular Dichroism; Dioctyl Sulfosuccinic Acid; Humans; Kinetics; Lactones; Lipase; Micelles; Orlistat; Pancreas; Protein Conformation; Solubility; Spectrometry, Fluorescence; Spectrophotometry, Ultraviolet; Surface-Active Agents; Swine | 1993 |
Surfactant effect on enhancing (S)-naproxen prodrug production from racemic naproxen by lipase.
Topics: Dioctyl Sulfosuccinic Acid; Kinetics; Lipase; Naproxen; Prodrugs; Solubility; Spectrophotometry, Ultraviolet; Stereoisomerism; Surface-Active Agents | 1997 |
Lipase-catalyzed syntheses of monoglycerides by hydrolysis of soybean oil in AOT/isooctane reversed micelles.
Topics: Candida; Dioctyl Sulfosuccinic Acid; Glycerides; Hydrolysis; Kinetics; Lipase; Micelles; Octanes; Pseudomonas; Soybean Oil; Surface-Active Agents | 1998 |
A procedure for the joint evaluation of substrate partitioning and kinetic parameters for reactions catalyzed by enzymes in reverse micellar solutions. I. Hydrolysis of 2-naphthyl acetate catalyzed by lipase in sodium 1,4-bis(2-ethylhexyl) sulphosuccinate
Topics: Buffers; Catalysis; Dioctyl Sulfosuccinic Acid; Heptanes; Hydrolysis; Kinetics; Lipase; Micelles; Naphthaleneacetic Acids; Rhizopus; Substrate Specificity; Water | 2001 |
Improvement in enzyme activity and stability by addition of low molecular weight polyethylene glycol to sodium bis(2-ethyl-L-hexyl)sulfosuccinate/isooctane reverse micellar system.
Topics: Chromobacterium; Dioctyl Sulfosuccinic Acid; Enzyme Activation; Enzyme Stability; Hydrogen-Ion Concentration; Lipase; Micelles; Molecular Weight; Octanes; Polyethylene Glycols; Structure-Activity Relationship | 2003 |
Study of the factors affecting the forward and back extraction of yeast-lipase and its activity by reverse micelles.
Topics: Dioctyl Sulfosuccinic Acid; Ethanol; Hydrogen-Ion Concentration; Kinetics; Lipase; Micelles; Octanes; Surface-Active Agents; Temperature; Water; Yeasts | 2003 |
Enzyme hyperactivity in AOT water-in-oil microemulsions is induced by 'lone' sodium counterions in the water-pool.
Topics: Arylsulfonates; Buffers; Chymotrypsin; Dioctyl Sulfosuccinic Acid; Emulsions; Enzyme Activation; Glycylglycine; Kinetics; Lipase; Nitrophenols; Osmolar Concentration; Surface-Active Agents; Taurine; Water | 2005 |
Improvement in extraction and catalytic activity of Mucor javanicus lipase by modification of AOT reverse micelle.
Topics: Circular Dichroism; Dioctyl Sulfosuccinic Acid; Fungal Proteins; Lipase; Micelles; Mucor; Octanes; Polyethylene Glycols; Water | 2007 |
Low-pressure lipase-catalyzed production of mono- and diglycerides with and without N-butane and AOT surfactant.
Topics: Biocatalysis; Butanes; Diglycerides; Dioctyl Sulfosuccinic Acid; Enzymes, Immobilized; Fungal Proteins; Lipase; Monoglycerides; Pressure; Surface-Active Agents; Temperature | 2010 |
Molecular assembly-assisted biocatalytic reactions in ionic liquids.
Topics: Armoracia; Biocatalysis; Burkholderia cepacia; Dioctyl Sulfosuccinic Acid; Emulsions; Enzyme Stability; Green Chemistry Technology; Horseradish Peroxidase; Imidazoles; Ionic Liquids; Lipase; Mesylates; Solvents; Surface Properties; Temperature; Water | 2011 |
Highly stabilized lipase in polyaniline nanofibers for surfactant-mediated esterification of ibuprofen.
Topics: Adsorption; Aniline Compounds; Candida; Cross-Linking Reagents; Dioctyl Sulfosuccinic Acid; Enzyme Stability; Enzymes, Immobilized; Ibuprofen; Lipase; Nanofibers; Particle Size; Surface Properties; Surface-Active Agents | 2014 |
Effects of additives on lipase immobilization in microemulsion-based organogels.
Topics: Candida; Cetrimonium; Cetrimonium Compounds; Dioctyl Sulfosuccinic Acid; Emulsions; Enzyme Stability; Enzymes, Immobilized; Equipment Reuse; Fungal Proteins; Gels; Lipase; Polyethylene Glycols; Polyethyleneimine; Polysaccharides; Protein Structure, Secondary; Static Electricity | 2014 |