Enzymological Applications

Godfrey, T., and West, S. (eds) Industrial Enzymology - Application of Enzymes in Industry, 2nd Edition. Macmillan London, 1996. 

Enzymological application of polarography was tried in the cerebrospinal fluid, the proteolytic activity being investigated after addition of inactivated serum as substrate (198). A comparison with the serum revealed the presence, in healthy subjects, of the cathepsin system in the cerebrospinal fluid, whereas in the serum two systems are found, viz., those of pepsinogen and cathepsin. The cathepsin activity in the cerebrospinal fluid is about half as high as that in the serum. In the cerebrospinal fluid of newborn infants lower values are found than in that of older children and adults. In 74 examinations no relationship with the diagnosis could be established, so that further study is necessary in this direction. 

Carba-Nicotinamide Adenine Dinucleotide Synthesis and Enzymological Application of a Novel Inhibitor of ADP-ribosyl Transfer... 

Wn, R., 1993. Development of enzyme-ba.sed mediods for DNA. sequence analy.sis and dieir application in genome projects. Methods in Enzymology 67 431-468. 

Prindples of Enzymology for Technological Applications Technological Applications of Biocatalysts Technological Applications of Immunochemicals... 

Antisense technology Part B Applications. In Phillips M.I. (Ed.), Methods Enzymology Vol. 314. Academic Press ... 

Staros, J.V., Lee, W.T., and Conrad, D.H. (1987) Membrane-impermeant cross-linking reagents Application to the study of the cell surface receptor for IgE. In Methods in Enzymology, (G. Di Sabato, ed.), Vol. 150, pp. 503-512. Academic Press, Orlando, FL. 

It is difficult to exhaustively cover the vast, exciting, and rapidly developing field of enzymology of plant biopolymers in a short introductory review. However, the chapters that follow this introduction will deal in depth with various aspects of eiu mology of plant polymers. Potential applications and improvements are many and through dedicated research and development efforts new industrial eiu me-based processes can become a reality in the future. 

Selected entries from Methods in Enzymology [vol, page(s)] Absorption Spectrophotometer Application, 24, 15-25 baseline compensation, 24, 8-10 computerized, 24, 19-25 light scattering, 24, 13-15 monochromator, 24, 4 photometer, 24, 5-8 recorder, 24, 8 sample compartment, 24, 5 single-beam, 24, 3-4 spectral characteristics, 24, 10-12 split-beam, 24, 3 stray light, 24, 12-13. 

Selected entries from Methods in Enzymology [vol, page(s)j Detection and quantification, 74, 608-616 effect of antigen/anti-body ratio, 74, 613, 614 applications, 74, 614-615 controls, 74, 612 data analysis, 74, 612-613 immunoglobulin G [conjugation to glucose oxidase, 74, 610 heat aggregation, 74, 609-610 heat denaturation, 74, 610 immobilization, 74, 610] precision, 74,... 

Selected entries from Methods in Enzymology [vol, page(s)] . Applications, 246, 335 [immunoassay, 246, 343-344 nucleic acids, 246, 344-345 photoreceptors, 246, 341-343 protein conformation, 246, 339-340 protein-membrane interactions, 246, 340-341 two-dimensional imaging, 246, 345] energy level diagram, 246, 336 excited state decay kinetics, 246, 337-338 in-... 

Selected entries from Methods in Enzymology [vol, page(s)] Analysis of GTP-binding/GTPase cycle of G protein, 237, 411-412 applications, 240, 216-217, 247 246, 301-302 [diffusion rates, 246, 303 distance of closest approach, 246, 303 DNA (Holliday junctions, 246, 325-326 hybridization, 246, 324 structure, 246, 322-324) dye development, 246, 303, 328 reaction kinetics, 246, 18, 302-303, 322] computer programs for testing, 240, 243-247 conformational distribution determination, 240, 247-253 decay evaluation [donor fluorescence decay, 240, 230-234, 249-250, 252 exponential approximation of exact theoretical decay, 240, 222-229 linked systems, 240, 234-237, 249-253 randomly distributed fluorophores, 240, 237-243] diffusion coefficient determination, 240, 248, 250-251 diffusion-enhanced FRET, 246, 326-328 distance measurement [accuracy, 246, 330 effect of dye orientation, 246, 305, 312-313 limitations, 246,... 

Selected entries from Methods in Enzymology [vol, page(s)] Application in fluorescence, 240, 734, 736, 757 convolution, 240, 490-491 in NMR [discrete transform, 239, 319-322 inverse transform, 239, 208, 259 multinuclear multidimensional NMR, 239, 71-73 shift theorem, 239, 210 time-domain shape functions, 239, 208-209] FT infrared spectroscopy [iron-coordinated CO, in difference spectrum of photolyzed carbonmonoxymyo-globin, 232, 186-187 for fatty acyl ester determination in small cell samples, 233, 311-313 myoglobin conformational substrates, 232, 186-187]. 

Selected entries from Methods in Enzymology [vol, page(s)] Databases and Resources Information services of European Bioinformatics Institute, 266, 3 TDB new databases for biological discovery, 266, 27 PIR-international protein sequence database, 266, 41 superfamily classification in PIR-international protein sequence database, 266, 59 gene classification artificial neural system, 266, 71 blocks database and its applications, 266, 88 indexing and using sequence databases, 266, 105 SRS information retrieval system for molecular biology data banks, 266, 114. 

Maximum (maximized) likelihood is a statistical term that refers to the probability of randomly drawing a particular sample from a population, maximized over the possible values of the population parameters. Selected entries from Methods in Enzymology [vol, page(s)] Theory, 210, 203 testing by simulations, 210, 225 computer applications for, 210, 233 fitting of sums of exponentials to dwell-time distributions, 207, 772 fluorescence data analysis, 210,... 

Selected entries from Methods in Enzymology [vol, page(s)] Applications, 249, 263-283 basic kinetics, 249, 243-245 biphasic kinetics, 249, 253 competitive inhibitor protection, 249, 247,... 

Selected entries from Methods in Enzymology [vol, page(s)] Activation of lipolytic enzymes by interfaces, 64, 341 model for lipase action on insoluble lipids, 64, 345 interfacial enzyme inactivation, 64, 347 reversibility of the adsorption step, 64, 347 monolayer substrates, 64, 349 kinetic models applicable to partly soluble amphiphilic lipids, 64, 353 surface dilution model, 64, 355 and 364 practical aspects, 64, 357. 

Selected entries from Methods in Enzymology [vol, page(s)] Overview, 226, 119, 147 absorption apparatus, 226, 131 apparatus, 226, 152 detectors, 226, 126 detector systems, 226, 125 excitation source, 226, 121 global analysis, 226, 146, 155 kinetic applications, 226, 134 heme proteins, 226, 142 multiphoton effects, 226, 141 nanosecond time-resolved recombination, 226, 141 quantum yields, 226, 139 singular value decomposition, 226, 146, 155 spectral dynamics, 226, 136 time delay generators, 226, 130. 

Roberts, M. F. 1998. Production of alkaloids in plant cell culture. In Alkaloids. Biochemistry, Ecology, and Medicinal Applications (Roberts, M. F. and Wink, M., eds), pp. 159-197 and, Roberts, M. F. 1998. Enzymology of alkaloid biosynthesis. In Alkaloids. Biochemistry, Ecology, and Medicinal Applications (Roberts, M. F. and Wink, M., eds), pp. 109-146. New York - London Plenum Press. 

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