ライフサイエンスコーパス: biocatalytic

1 The first example of a biocatalytic [2,3]-sigmatropic rearrangement reaction in

2 The glucose probe is based on the biocatalytic action of glucose oxidase, and the insulin

3 eening of bacterial colonies to identify new biocatalytic activities is a widely adopted tool in biot

4 This biocatalytic activity now addresses previously refractor

5 However, the biocatalytic activity of anaerobic fungal cellulosomes i

6 Biocatalytic activity of the mobile enzymes is preserved

7 This work provides a first example of biocatalytic aldehyde olefination and extends the spectr

8 H W110A)) in a redox-neutral cascade for the biocatalytic alkylation of amines using primary and seco

9 Protein endoglycosidases are useful for biocatalytic alteration of glycans on protein surfaces,

10 ad increased cost and impact, in contrast to biocatalytic and catalytic technologies.

11 Recent developments of stereoselective biocatalytic and chemocatalytic methods are discussed.

12 he values obtained were then correlated with biocatalytic and electrochemical parameters of the prepa

13 Biocatalytic and immunoassays can be used to determine a

14 These include biocatalytic and organic/inorganic (polymer/iron) nanoco

15 ases that are emerging as promising tools in biocatalytic applications and as targets for prodrug act

16 on/reduction processes, developing practical biocatalytic applications of oxidoreductases has long be

17 dentify or create novel enzymes for specific biocatalytic applications.

18 A biocatalytic approach could harness the high affinity of

19 merged: chemoenzymatic glycorandomization, a biocatalytic approach dependent upon the substrate promi

20 Herein, we describe a general biocatalytic approach for the enantioselective preparati

21 The biocatalytic approach to combinatorial chemistry uses en

22 Using a biocatalytic approach, paclitaxel and a variety of taxan

23 Biocatalytic approaches have yielded efficient total syn

24 Biocatalytic approaches to the synthesis of optically pu

25 A biocatalytic assay for on-site forensic investigations w

26 The biocatalytic assay was used to determine the age range o

27 ochemical content in the fingerprint using a biocatalytic assay, coupled with a specially designed ex

28 , comprehensive, strain-level information on biocatalytic/biodegradative microbes is not readily avai

29 design is general and broadly applicable to biocatalytic, biosensing, and tissue-engineering applica

30 sed on an inventory of the large spectrum of biocatalytic C-O functional group chemistry, this review

31 /or hard-to-handle carbene donor reagents in biocatalytic carbene transfer reactions.

32 ring, biocatalyst (formulation) engineering, biocatalytic cascade engineering and reactor engineering

33 This coupled biocatalytic condensation/assembly approach is thermodyn

34 us electron transfer rate (kS) and a maximum biocatalytic current density.

35 ng the growth of gold nanoparticles with the biocatalytic cycle of the enzyme label.

36 to regenerate the cofactors needed by their biocatalytic cycles.

37 Further, the selective biocatalytic deacylation methodology has been utilized f

38 The development of biocatalytic desulfurization of petroleum fractions may

39 biodesulfurization and the development of a biocatalytic desulfurization process.

40 The strategy represents a new biocatalytic disconnection, which relies on an omega-TA-

41 withstanding extraordinary architectural and biocatalytic diversity, all PKSs are evolutionarily rela

42 ineering toolbox with previously unavailable biocatalytic diversity.

43 obscures the underlying principles governing biocatalytic efficiency.

44 Implantation of biocatalytic electrodes and extraction of electrical pow

45 , was able to regenerate glucose consumed by biocatalytic electrodes, upon appropriate feeding and re

46 on of supramolecular nanostructures based on biocatalytic formation and hydrolysis of self-assembling

47 oligase and transaminase enzymes enabled the biocatalytic formation of (1R,2S)-metaraminol.

48 s should aid in the optimization of this new biocatalytic function.

49 ivated ketones, thus facilitating the facile biocatalytic generation of 1,1'-disubstituted THIQs.

50 ortunity for the utilisation of Pac13 in the biocatalytic generation of antiviral compounds.

51 plexes), chemical (pH-doped polyaniline), or biocatalytic (glucose oxidase/urease) triggers.

52 We present a biocatalytic hydrogen-borrowing amination of primary and

53 alts as additives that result in significant biocatalytic improvements.

54 rees C, based on melting temperature and the biocatalytic inactivation rate at 115 degrees C.

55 The biocatalytic layer demonstrated to be highly reproducibl

56 Immobilized biocatalytic lithography is presented as an application

57 eover, 1541 nanofibrils function as a unique biocatalytic material that activates procaspase-3 via in

58 We start by tracing biocatalytic mechanisms operating in metabolic enzymes a

59 acterization of ionomers and proteins within biocatalytic membranes to aid in the development of ener

60 This reveals a simple, flexible biocatalytic method for glycoconjugate synthesis using P

61 nd the use of combinatorial biosynthesis and biocatalytic methodologies for new compound development.

62 The review provides a guide to the use of biocatalytic methods in the area of chemical synthesis w

63 Broad-based adoption of biocatalytic methods will require widely available datab

64 Biocatalytic N-acyl transfer of novel acyl groups to the

65 potentially provides a tool for alternative biocatalytic N-aroylation/alkanoylation to construct nex

66 Finally, a biocatalytic nitration process was developed to nitrate

67 have previously described the development of biocatalytic nitration processes driven by an engineered

68 ents of artificial biosynthetic pathways and biocatalytic or chemoenzymatic cascades, and therapeutic

69 Here we demonstrated a biocatalytic pathway, termed the methanol condensation c

70 ach enables discovery and mass-production of biocatalytic phages.

71 These biocatalytic plastics, containing alpha-chymotrypsin and

72 by PagF, demonstrating utility as a general biocatalytic platform for modifications on any peptide s

73 A biocatalytic platform that employs the final two monomod

74 te methane monooxygenase (pMMO), we create a biocatalytic polymer material that converts methane to m

75 rately thermophilic bacterium and holds high biocatalytic potential as a source for several highly th

76 CglAlcOx, respectively, to explore the wider biocatalytic potential in AA5.

77 of sLac on woody biomass and highlights the biocatalytic potential of bacterial enzymes.

78 ith the antibody-antigen binding reaction by biocatalytic precipitation of 5-bromo-4-chloro-3-indolyl

79 recent volumes and reviews for more detailed biocatalytic procedures.

80 ws the fuel to immediately separate from the biocatalytic process after synthesis, yet does not precl

81 design criteria for a commercially relevant biocatalytic process involved in the synthesis of a chol

82 Here, we report an efficient biocatalytic process to replace a recently implemented r

83 emical chlorination protocol paralleling the biocatalytic process was developed.

84 s and hence increase the productivity of the biocatalytic process.

85 s a prerequisite for their implementation in biocatalytic processes and in the evolution of new funct

86 the gap between fundamental understanding of biocatalytic processes and their potential for bioenergy

87 Biocatalytic processes for the manufacture of small, hig

88 Biocatalytic processes have also been described for the

89 Biocatalytic processes have been described for the synth

90 The search for affordable, green biocatalytic processes is a challenge for chemicals manu

91 particle wrapping, intracellular uptake and biocatalytic processes that could have biocompatible or

92 itrant compounds, and for the development of biocatalytic processes to produce useful compounds.

93 inson's disease, is also being developed for biocatalytic processes, including vanillin production, a

94 es with potential application to a wealth of biocatalytic processes.

95 one oxidoreductases and their application in biocatalytic processes.

96 Significant progress has been made in the biocatalytic production of both synthetic and natural po

97 g the photophysical features of PSI with the biocatalytic properties of hSOX for advanced light-contr

98 lays a thermostabilizing role and influences biocatalytic properties, suggesting that beta subunit co

99 The development of biocatalytic protocols will be facilitated by the increa

100 compile relevant information on enzymes for biocatalytic purposes.

101 The inclusion of a biocatalytic racemization along with the PAM-catalyzed r

102 We then optimized the FGE biocatalytic reaction conditions for conversion of cyste

103 lysts are discussed, including how 'green' a biocatalytic reaction may be, and trends in biocatalyst

104 t the structure of and flux distributions in biocatalytic reaction networks.

105 the depletion of silver ions induced by the biocatalytic reaction of the alkaline-phosphatase enzyme

106 chip" protocol integrating on-line precolumn biocatalytic reactions of multiple (oxidase and dehydrog

107 in 1995 to provide information on microbial biocatalytic reactions of, and biodegradation pathways f

108 zyme catalyzes the rate-limiting step of two biocatalytic reactions producing Neu5Ac in industry.

109 ng enzymes and the invention of entirely new biocatalytic reactions that were previously unknown in N

110 , nature has developed complexity-generating biocatalytic reactions within natural product pathways.

111 ectiveness and, hence, the sustainability of biocatalytic reactions.

112 l devices include targeted drug delivery and biocatalytic reactors.

113 (Saccharomyces cerevisiae) are a convenient biocatalytic reducing agent for a wide variety of carbon

114 e-mediated enzyme-linked assay involving the biocatalytic reduction of H2O2 was investigated.

115 enzymes and developing a more comprehensive biocatalytic repertoire.

116 Biocatalytic retrosynthetic analysis of dibenz[c,e]azepi

117 ctases was studied with the aim to provide a biocatalytic route to precursors for GABA analogues, suc

118 reactions provide a convenient and effective biocatalytic route to the stereoselective synthesis of k

119 If biocatalytic routes for lignin breakdown could be develo

120 e electrocatalytic properties of MWCNTs, the biocatalytic specificity of GOx, and the permselective p

121 k extends the toolbox of currently available biocatalytic strategies for the asymmetric formation of

122 These biocatalytic strategies outperform currently available m

123 ngineering strategies currently employed for biocatalytic sugar upgrading to "green" chemicals and fu

124 mes on MPS have been described, their use as biocatalytic supports is limited.

125 m biological sensing to the industrial-scale biocatalytic synthesis of chiral products.

126 nfluence on the performance of inorganic and biocatalytic systems alike.

127 eneral approach for metabolic engineering of biocatalytic systems comprising the uses of a chemostat

128 With this concept, enzymatic, photo-biocatalytic systems for solar energy conversion can be

129 e core along with syntheses applying various biocatalytic techniques have also been reviewed.

130 sents a departure from existing light-driven biocatalytic techniques, which are typically explored in

131 In its current undeveloped state, the biocatalytic technology was approximately 1 order of mag

132 Therefore, it represents a valuable new biocatalytic tool.

133 treptomyces maritimus, thereby expanding the biocatalytic toolbox and enabling the production of the

134 ent one of the most important enzymes of the biocatalytic toolbox for chiral amine synthesis as they

135 ymes studied here may represent valuable new biocatalytic tools for investigating the structures of r

136 The application of these biocatalytic tools in organic synthesis, however, remain

137 oach was utilized to monitor stereoselective biocatalytic transamination and assign the absolute conf

138 The biocatalytic transfer of an acyl group to the tertiary h

139 In the absence of biocatalytic transformation, such structural control wou

140 The investigation of stereoselective biocatalytic transformations at a single-cell level is t

141 The biocatalytic transformations used by chemists are often

142 ore natural sequence diversity for desirable biocatalytic transformations.

143 enzymes could create opportunities for their biocatalytic use in preparing complex synthetic scaffold

144 The biocatalytic versatility of wildtype and engineered carb