ライフサイエンスコーパス: immobilized enzyme

1 spectra before and after incubation with the immobilized enzyme.

2 optimum local pH for maximal activity of the immobilized enzyme.

3 % of the activity obtained in buffer for the immobilized enzyme.

4 lide hydrochloride (BApNA) were made for the immobilized enzyme.

5 cancer therapy and chemoprevention), by the immobilized enzyme.

6 l analytical microsystems containing surface-immobilized enzymes.

7 le supra-biological catalytic performance of immobilized enzymes.

8 ared to amperometric detection using surface-immobilized enzymes.

9 higher than the values for systems based on immobilized enzymes.

10 Quantitation of the spatial coverage of immobilized enzymes, a key parameter used for process de

11 er physically adsorbed enzymes or covalently immobilized enzymes according to the usual immobilizatio

12 hydration and exposure to denaturants on the immobilized enzyme activity are presented.

13 ans for pesticide detoxification in place of immobilized enzymes, affording a reduced diffusional bar

14 The immobilized enzyme also exhibited good operational stabi

15 trices, non-toxicity, increased stability of immobilized enzyme and effective hydrolysis of RFOs incr

16 s knowledge of the compatability between the immobilized enzyme and its host material.

17 The amount of immobilized enzyme and the retained activity were found

18 The amount of immobilized enzyme and the retained activity were found

19 iculty in ensuring the free accessibility of immobilized enzymes and cofactors.

20 to facilitate electron transfer between the immobilized enzymes and electrode surfaces, better confo

21 characterization methodologies used for MOF-immobilized enzymes and identifies some key parameters t

22 R-IR spectroscopy to monitor the activity of immobilized enzymes and its ability to perform complex b

23 tre-sized beads, tunable activity of surface-immobilized enzymes and reversible encapsulation of adhe

24 Getting information about the fate of immobilized enzymes and the evolution of their environme

25 of the spatial and chemical distribution of immobilized enzymes are critical for proper functionalit

26 s that chitosan-grafted hydrogels containing immobilized enzymes are useful for the production of lac

27 ZnONR imparted significant stability to the immobilized enzyme as against physisorbed enzyme.

28 ingly wide range of devices that use surface-immobilized enzymes as integral components with improved

29 Most often, the immobilized enzyme based quantification is an attractive

30 to fluorescent species, and (ii) a novel non-immobilized enzyme-based fluorescence assay strategy, fe

31 may also have utility for the production of immobilized enzyme bioreactors.

32 Immobilized enzyme bioremediation is a promising techniq

33 her, several schemes on porous silicon-based immobilized enzyme biosensors for the detection of chrom

34 etects binding of 3H-labeled DNA to the bead-immobilized enzyme by scintillation counting.

35 atively, uncertainties in the activity of an immobilized enzyme can be accounted for using standard a

36 In addition, the immobilized enzyme can be cleaned easily, enabling the m

37 It is further shown that the immobilized enzyme can be recycled and reused for contin

38 The immobilized enzyme can be reused for multiple cycles of

39 The immobilized enzyme can be used effectively for the hydro

40 ing previously published mutations, and this immobilized enzyme can be used for the modification of c

41 l that chitosan-grafted hydrogels containing immobilized enzymes can be reused several times without

42 bes an exciting technology that makes use of immobilized enzyme-catalysts for condensation polyester

43 locity, V'(max), is linearly proportional to immobilized enzyme concentration, but the magnitude is a

44 This new vehicle for immobilized enzymes, created entirely from biomolecules,

45 These immobilized enzymes demonstrated catalytic activity comp

46 ization method, geometry, enzyme loading) of immobilized-enzyme devices.

47 ensure the electrocatalytic activity of the immobilized enzyme, didodecyldimethylammonium bromide (D

48 Immobilized enzyme digestion resulted in more partial cl

49 significant decrease in the activity of the immobilized enzyme during reutilization studies.

50 d T4 proteins was passed through a column of immobilized enzyme (either dTMP synthase or dCMP deamina

51 iently integrated in the process, and use of immobilized enzymes entails an economical advantage.

52 We have termed this method "immobilized enzyme ESR," abbreviated IE-ESR.

53 Furthermore, the immobilized enzyme exhibited a retention of nearly 80% r

54 The immobilized enzyme exhibited around 82% residual activit

55 Besides, the immobilized enzyme exhibited excellent reusability and s

56 (top) membrane contains an electrostatically immobilized enzyme for the catalytic production of one o

57 The regenerated NADH can then be consumed by immobilized enzymes for CO(2) reduction, realizing the a

58 was applied to determine the kinetics of the immobilized enzymes for CO2 absorption.

59 solution is approximately 4x higher than the immobilized enzyme, for which we measured an apparent K'

60 Flowing substrate solution over the immobilized enzyme generates in situ, transient radicals

61 nes' impact on the isomerization reaction by immobilized enzymes grants permission for a novel resear

62 The immobilized enzyme had higher thermal stability than the

63 The immobilized enzymes had better thermal resistance and st

64 The immobilized enzymes had better thermal resistance and st

65 characterize the interfacial orientation of immobilized enzymes has been developed using a combinati

66 ications, relatively few processes employing immobilized enzymes have been successfully commercialize

67 The activity of the immobilized enzyme in air approaches 25% of the activity

68 Therefore, the immobilized enzyme in genipin-activated chitosan has pot

69 This enhanced catalytic efficiency of the immobilized enzyme in presence of metal ions can promote

70 The immobilized enzymes in anode and cathode are very stable

71 n of Michaelis-Menten kinetic parameters for immobilized enzymes in microfluidic reactors are address

72 review the focus is set on the evaluation of immobilized enzymes in respect to mass transport limitat

73 tivated surface-initiated polymerization and immobilized enzymes in situ.

74 Since the large-scale application of immobilized enzymes in the 1960s, substantial research e

75 ear and grape juices were interacted with co-immobilized enzymes in the batch reactor system, and tur

76 hed and emerging industrial applications for immobilized enzymes, including high-fructose corn syrup

77 The immobilized enzyme/inhibitor mixture is centrifuged, and

78 l modification can be detected as long as an immobilized enzyme is available that reacts with the mod

79 ith potential substrates, albeit only if the immobilized enzyme is electroactive.

80 The catalytic activity of the immobilized enzymes is monitored in real time by reflect

81 product, coupled with the efficiency of the immobilized enzyme, is the determining factor for the se

82 aelis constant KM of (122 +/- 4) muM for the immobilized enzyme layer.

83 The immobilized enzyme (Man-AOP) displayed enhanced thermal

84 ip comprises a sample loading module with an immobilized enzyme microreactor (IMER) for on-chip pepsi

85 aptamer affinity solid-phase extraction and immobilized enzyme microreactor capillary electrophoresi

86 odel protein to study how the orientation of immobilized enzyme molecules on surfaces affects their c

87 strate high enzymatic activity levels of the immobilized enzymes (more than 80%), while maintaining t

88 Here, the use of the immobilized enzyme Novozym 435 to efficiently catalyze t

89 e library is subsequently incubated with the immobilized enzyme of interest under the correct conditi

90 application of soluble enzymes in industry, immobilized enzymes often offer advantages in view of st

91 requency (371.1 Hz) of norepinephrine to the immobilized enzyme on a gold disk electrode.

92 The amount of immobilized enzyme on Fe3O4@SiO2@p(GMA) and Fe3O4@SiO2@p

93 and the highest activity was observed for co-immobilized enzymes onto silica gel.

94 to systematically investigate the covalently immobilized enzyme penicillinase under different experim

95 The immobilized enzyme possessed a better heat-resistance th

96 The immobilized enzyme presented higher thermal stability th

97 d N-linked glycosylation in vitro enabled by immobilized enzymes produced with a one-step immobilizat

98 tes (WPC) were hydrolyzed with both free and immobilized enzyme, reaching a similar degree of hydroly

99 ed trypsin digestion using a continuous flow immobilized enzyme reactor (cf-IMER).

100 The first step uses an immobilized enzyme reactor (IMER) column interfaced to a

101 igestion efficiency of the, thiol-ene based, immobilized enzyme reactor (IMER) is compared to that of

102 ncreasing trypsin concentration by use of an immobilized enzyme reactor (IMER).

103 epsin, an exceptionally effective microscale immobilized enzyme reactor (muIMER) was created.

104 a decrease in concentration when using this immobilized enzyme reactor.

105 Applications ranging from immobilized enzyme reactors to fast media for the separa

106 Moreover, the immobilized enzyme recovered by low g-force centrifugati

107 The immobilized enzyme retained catalytic property even afte

108 The immobilized enzyme retained its bioactivity, exhibited a

109 The immobilized enzymes retained 56-88% of their original ac

110 The immobilized enzymes retained up to 75% of residual activ

111 ard electropolymerized films of PPB with the immobilized enzyme retaining virtually all of its enzyma

112 The immobilized enzyme showed 70% activity after 30days of s

113 Moreover, the immobilized enzyme showed an excellent operational stabi

114 Post-immobilization analyses indicated that immobilized enzyme showed higher activity as compared to

115 The immobilized enzyme showed higher Km 2.08mg/ml than the f

116 Also, the immobilized enzyme still retained 73% of its initial act

117 After ten successive runs, the immobilized enzyme still retained approximately 60% acti

118 was specifically purified by binding to the immobilized enzyme substrate and the cDNA was cloned in

119 e MCH@PDA-lipase can be used as an operative immobilized enzyme system for many biotechnological appl

120 mploying biocompatible material gallic acid, immobilized enzyme system was synthesized along with imp

121 Immobilized enzyme systems are important in a broad rang

122 e with similar kinetic restrictions as other immobilized enzyme systems.

123 Inhibitor libraries are screened by using immobilized enzyme technologies and electrospray ionizat

124 he first example of a biosensor that uses an immobilized enzyme that possesses the tryptophan tryptop

125 Here we show that surface-immobilized enzymes that are independent of adenosine tr

126 This enzymatic fuel cell is based on non-immobilized enzymes that exhibit a maximum power output

127 Immobilized enzymes that most likely undergo single-enzy

128 Immobilized enzymes typically have greater thermal and o

129 Measuring the catalytic activity of immobilized enzymes underpins development of biosensing,

130 onstant (K(m)) of 0.12 mM, indicate that the immobilized enzyme (uricase) has enhanced affinity towar

131 ant (K(m)) indicate the enhanced affinity of immobilized enzyme (uricase) towards uric acid.

132 ophenol and phosphate via beads carrying the immobilized enzyme using ATR-IR spectroscopy.

133 The Vmax of immobilized enzyme was about 2.92+/-.02mg/ml/min and tha

134 The turnover number of the immobilized enzyme was estimated to be 65s(-1) which is

135 The immobilized enzyme was evaluated and found to have an ap

136 The immobilized enzyme was stable and not inhibited by other

137 A newly developed ESR technique that uses immobilized enzyme was used to perform the ESR experimen

138 ity and reusability for starch hydrolysis of immobilized enzyme were obtained.

139 These hydrogels containing immobilized enzymes were employed to simulate the produc

140 In addition, the immobilized enzymes were more stable than the free enzym

141 best reaction yields were obtained when the immobilized enzymes were treated with LPG.

142 Immobilized enzymes will be dispersed on the support sur

143 Electrochemical characterization of the immobilized enzyme with GO and DDAB on glassy carbon ele

144 probably owing to the good contacting of the immobilized enzymes with the electrode material and the