05386nam 2201525z- 450 991055748750332120231214133159.0(CKB)5400000000042957(oapen)https://directory.doabooks.org/handle/20.500.12854/68295(EXLCZ)99540000000004295720202105d2021 |y 0engurmn|---annantxtrdacontentcrdamediacrrdacarrierBiocatalytic Process OptimizationBasel, SwitzerlandMDPI - Multidisciplinary Digital Publishing Institute20211 electronic resource (296 p.)3-03943-915-4 3-03943-916-2 Biocatalysis is very appealing to the industry because it allows, in principle, the synthesis of products not accessible by chemical synthesis. Enzymes are very effective, as are precise biocatalysts, as they are enantioselective, with mild reaction conditions and green chemistry. Biocatalysis is currently widely used in the pharmaceutical industry, food industry, cosmetic industry, and textile industry. This includes enzyme production, biocatalytic process development, biotransformation, enzyme engineering, immobilization, the synthesis of fine chemicals and the recycling of biocatalysts. One of the most challenging problems in biocatalysis applications is process optimization. This Special Issue shows that an optimized biocatalysis process can provide an environmentally friendly, clean, highly efficient, low cost, and renewable process for the synthesis and production of valuable products. With further development and improvements, more biocatalysis processes may be applied in the future.Research & information: generalbicssccatechindegalloylationflavonolglycoside hydrolaseoptimizationtannaseimmobilized DERAstatin side chaincontinuous flow synthesisalginate-luffa matrixdesign of experimentsAnguilla marmorataeel protein hydrolysatesfunctional propertiesherbal eel extractsagaroseagaraseagarotrioseagaropentaoseexpressioncalycosincalycosin-7-O-β-D-glucosideglucosyltransferasesucrose synthaseUDP-glucose recycleUGT-SuSy cascade reactionCandida antarctica lipase Asurface-display systemshear ratemass transfer rateenzymatic kinetic studyenzymatic synthesisβ-amino acid estersmicroreactoraromatic aminesMichael additionkraft pulpcellulosexylanenzymatic hydrolysisPenicillium verruculosumglucosexyloselipaseacidolysisdocosahexaenoic acid ethyl estereicosapentaenoic acid ethyl esterethyl acetatekineticsstyrene monooxygenaseindole monooxygenasetwo-component systemchiral biocatalystsolvent tolerancebiotransformationepoxidationNAD(P)H-mimicssuperoxide dismutase (SOD)catalase (CAT)glutathione reductase (GR)aluminum (Al)selenium (Se)mousebrainliverphosphatidylcholine3,4-dimethoxycinnamic acidenzymatic interesterificationbiocatalysisPleurotus ostreatusenenzymatic hydrolysispeptideantioxidanthepatoprotective activityYarrowia lipolyticawhole-cell biocatalysisindolizinecycloadditiontrehaloseviscosityenzymesprotein dynamicsKramers' theoryprotein stabilizationenzyme inhibitionLipasetransesterification2-phenylethyl acetatepacked-bed reactorsolvent-freecyclic voltammetryelectrochemical impedance spectroscopycarbon nanotubesredox mediatorsCYP102A1naringin dihydrochalconeneoeriocitrin dihydrochalconeregioselective hydroxylationResearch & information: generalKuo Chia-Hungedt1312696Shieh Chwen-JenedtKuo Chia-HungothShieh Chwen-JenothBOOK9910557487503321Biocatalytic Process Optimization3030923UNINA