ライフサイエンスコーパス: optimal condition for

1 Cells were allowed to grow under optimal conditions for 14 days.

2 er, numerous reported protocols make finding optimal conditions for a specific substrate time-consumi

3 Interestingly, each of the estimated optimal conditions for abiotic variables were intermedia

4 Optimal conditions for activation and inactivation of th

5 The optimal conditions for activity were pH 7.0 and 40 degre

6 The optimal conditions for activity were pH 7.8 and 35 degre

7 characterized biochemically to determine the optimal conditions for activity.

8 zation of proteins in condensates may create optimal conditions for amplification, and disruption of

9 s because this was previously considered the optimal condition for aqueous amine scrubbers.

10 Moreover, the optimal conditions for ASE are met in only one spatial o

11 lary light reflex (PLR) and to determine the optimal conditions for assessing the health of the rod,

12 the formation of dimer byproducts, determine optimal conditions for batch operation, and highlight su

13 The optimal conditions for bioleaching were identified as a

14 peats and acidic soils, and to better define optimal conditions for bioremediation processes.

15 nine XSCID provides a model to determine the optimal conditions for bone marrow transplantation in hu

16 The optimal conditions for cell immobilization included coat

17 hematical mass-action model to determine the optimal conditions for ceRNA activity in silico.

18 aid contour plots prediction showed that the optimal conditions for CJPL were 125mL juice volume, 6.5

19 Optimal conditions for coating glass plates and time for

20 Optimal conditions for collection, transport, and storag

21 semiconductor heterostructure we predict the optimal conditions for controlling multiexciton generati

22 e, so it can be challenging to determine the optimal conditions for crystallization.

23 nd mutant strains of V. cholerae grown under optimal conditions for CT and TCP expression.

24 Specifically, optimal conditions for culturing bovine pulmonary artery

25 ring during pathogen infection would lead to optimal conditions for DC maturation, migration, and fun

26 U mL(-1)) for 5 min (37 degrees C; pH 6) was optimal condition for deconjugation of anthocyanidins an

27 Optimal conditions for depositing protein microarrays us

28 l agar for conidial formation along with the optimal conditions for dermatophyte susceptibility testi

29 ck system control scheme to quickly pinpoint optimal conditions for desired biological activities, an

30 individual protein scans, we determined the optimal condition for detecting all 6 proteins on a sing

31 easurement with standard additions to target optimal conditions for detecting catechol estrogens (CEs

32 The optimal condition for diabetic skin was six pulses of 10

33 ment conditions have been tested to identify optimal conditions for DNA immobilization using this app

34 obility of Rad54 and might therefore provide optimal conditions for DNA translocation and subsequent

35 each channel during sample delivery yielded optimal conditions for each experiment.

36 At optimal conditions for each system, superoxide/H2O2 was

37 ly indicated DMEM/F12 at 60,000 cells as the optimal condition for ECIS assessment of HUCLs.

38 Optimal conditions for efficient continuous fractionatio

39 Further experiments delineate the optimal conditions for efficient viral transduction of c

40 een as informative as those for RyR1 because optimal conditions for electron microscopy, which requir

41 This study evaluates the optimal conditions for elicitation with H2O2 for improvi

42 US neuromodulation remains elusive, and the optimal condition for eliciting a neural response with m

43 However, optimal conditions for emulsion stability should be care

44 is approach streamlines the determination of optimal conditions for enhancing P removal in the DS-EBP

45 This study evaluates optimal conditions for enzymatic hydrolysis of pork live

46 perature, are also assessed to determine the optimal conditions for erythrocyte characterization.

47 Thus, our studies establish the optimal conditions for experimental modeling of human ad

48 The optimal conditions for experimental parameters were pH:

49 Under optimal conditions for expression of TSG-6, the hMSCs al

50 RSM constitutes a powerful tool for deriving optimal conditions for extraction of antioxidant phenoli

51 xture of acetone/n-hexane 1:3 (v/v) provided optimal conditions for extraction of lycopene.

52 The optimal conditions for extraction were as follows: extra

53 the above results, in the present study the optimal conditions for fermentation and drying of cocoa

54 Under optimal conditions for folding, Glu-22 and Asp-23 form t

55 closer and the gaps widths are more uniform-optimal conditions for forming a complete bandgap that i

56 Optimal conditions for gamma-glutamyl transferase activi

57 esponse of alkali degradation determined the optimal conditions for generation of the chemoattractant

58 al temperature dependence, which suggests an optimal condition for grain refinement.

59 ies alters the global environment toward the optimal conditions for growth and tends to regulate agai

60 Our results prescribe optimal conditions for HC generation and extraction, and

61 Also, the optimal conditions for immobilizing the half-antibody on

62 (IL-2 and TNF-alpha at 10-50 pg/ml), created optimal conditions for immune activation.

63 ellular drug response in vitro and determine optimal conditions for improved replicability and reprod

64 These findings inform and enable optimal conditions for interneuron transplant therapies.

65 rigin and sequence identities, we provide an optimal condition for its use.

66 ework for many anecdotal descriptions of the optimal conditions for L-form growth and non-lytic killi

67 Optimal conditions for labeling Mregs with 50-nm gold pa

68 , most importantly, to stabilize NADPH under optimal conditions for long-term storage.

69 f reactants, is developed that describes the optimal conditions for maximizing both the average curre

70 alculator allows rapid identification of the optimal conditions for maximizing incorporation, efficie

71 ajor shortcomings in miRNA FISH, identifying optimal conditions for miRNA fixation and ribosomal RNA

72 ssed in two different media to determine the optimal conditions for monitoring of cellular behavior o

73 The optimal conditions for NALC-NaOH decontamination were de

74 We provide guidance on optimal conditions for next-generation sequencing (NGS)

75 Although the optimal condition for Np and Pu simultaneous determinati

76 We determined the optimal conditions for O2 distribution and volume mainte

77 Optimal conditions for oak growth favoured the productio

78 inlet air temperature 135 degrees C were the optimal conditions for OLE-SA microparticles.

79 The optimal conditions for oligolevans/FOSs production (109.

80 , pH 6.04 and 29.92 h were identified as the optimal conditions for oligolevans/levans production (14

81 The optimal conditions for osmotic dehydration were found to

82 The optimal conditions for other factors such as temperature

83 ming of germination is required to encounter optimal conditions for plant survival and is the result

84 D 15 days before surgery represents the most optimal condition for postoperative analgesia.

85 gether, our quantitative analyses identified optimal conditions for precise insertion of exogenous DN

86 in script across primes and targets provides optimal conditions for prime word processing, hence gene

87 dependent RNA polymerase (3D(pol)) including optimal conditions for primer extension, processivity an

88 These results emphasize the need to define optimal conditions for prion conversion in vitro, under

89 nt and biological activity, and identify the optimal conditions for processing.

90 two homogenization cycles were identified as optimal conditions for producing stable nanoemulsions.

91 Optimal conditions for promoting sequence-specific bindi

92 We first determined the optimal conditions for protein isolation and protease di

93 Thus, our findings showcase the optimal conditions for protein translocations and the im

94 the usual for agar media, pH 6.8, to provide optimal conditions for PZA activity, and it also differs

95 Experimental design allowed us to find the optimal conditions for quantification of both IgA and Ig

96 Moreover, optimal conditions for RA proteolysis were identified to

97 The optimal conditions for Rad51-mediated DNA strand exchang

98 Optimal conditions for RecA protein-mediated DNA strand

99 rotein refolding and aggregation affects the optimal conditions for refolding of four-helix bundles.

100 standing environmental adversity and seeking optimal conditions for reproduction are basic requiremen

101 re effective NORR catalysts and help develop optimal conditions for selective ammonia synthesis.

102 able model to establish basic principles and optimal conditions for selective killing of neoplastic c

103 vironment is stoichiometrically varied until optimal conditions for selective MNF synthesis are achie

104 ribozymes has been studied extensively under optimal conditions for self-splicing in vitro (42 degree

105 Optimal conditions for simultaneously maximizing the ant

106 ependent deposition behaviors and identified optimal conditions for solution-based SAC synthesis.

107 across diverse taxa, which may be related to optimal conditions for sound transmission.

108 l framework to quantify the mismatch between optimal conditions for species occurrence and multiple m

109 by SOs and spindles, ripples thus establish optimal conditions for spike-timing-dependent plasticity

110 nd Bub1(5AV) support the checkpoint under an optimal condition for spindle checkpoint activation.

111 AAC2 and ovine uncoupling protein UCP1 allow optimal conditions for stability in detergents to be est

112 hypothesis that intermediate levels provide optimal conditions for stability.

113 primate and possibly serve to establish the optimal conditions for stimulus encoding.

114 The optimal condition for storage was -70 degrees C.

115 The optimal conditions for strand exchange were 1 mM MgCl(2)

116 The OA/Zr ratio was varied to determine the optimal conditions for subsequent fluoride adsorption.

117 onsible for pollutant transformation and the optimal conditions for subsurface application remain poo

118 be dissociated from normal kidney aging when optimal conditions for successful aging are provided.

119 standing challenge is thus to understand the optimal conditions for superconductivity in thin films:

120 Optimal conditions for T-cell stimulation are encountere

121 A helicase assay was developed, and optimal conditions for T. aquaticus DnaB activity were d

122 The optimal conditions for TH removal were determined as pH

123 These trends identify an optimal condition for the actuation performance of the a

124 The optimal condition for the first asymmetric reduction of

125 An optimal condition for the GTPase assay was determined to

126 The optimal condition for the liquid desorption was 150 muL

127 in membrane association among isoforms under optimal conditions for the anion permease activity.

128 eans of ELISA and surface plasmon resonance, optimal conditions for the biomolecular testing with the

129 ts could be potentially important in finding optimal conditions for the chemical activation and disso

130 Optimal conditions for the condensation were identified

131 The optimal conditions for the de novo initiation activity h

132 es C, 15 IU/ml, and 10 h incubation were the optimal conditions for the decolorization of the melanin

133 nstitute methods for BMD and DD testing, the optimal conditions for the detection of mupirocin HLR we

134 Optimal conditions for the development of IL-17-producin

135 However, optimal conditions for the DNA pairing and DNA strand ex

136 The optimal conditions for the enzyme treatment were: water

137 ction outcome was evaluated to determine the optimal conditions for the evaluation of HIV-1 preventiv

138 o generalized consensus exists regarding the optimal conditions for the extraction procedure.

139 Optimal conditions for the first step were established a

140 the crystal growth process and determine the optimal conditions for the formation of single crystal l

141 CD was varied from 30 to 60% to evaluate the optimal conditions for the fragmentation of peptide back

142 The optimal conditions for the highest yield of TPC (7.21+/-

143 e direction of macrocyclization provided the optimal conditions for the highly selective formation of

144 EpsE is an Mg2+-dependent ATPase and define optimal conditions for the hydrolysis reaction.

145 Optimal conditions for the mini-RIA were established usi

146 5.2% and 97.7% +/- 1.5% were obtained under optimal conditions for the miniaturized and conventional

147 buffers and solutions allows us to identify optimal conditions for the monitoring of intercalation c

148 Then, the optimal conditions for the obtainment of AuNp through el

149 hods (sublimation, vacuum, convection) using optimal conditions for the process.

150 These results demonstrate how discovery of optimal conditions for the separation of new analytes ca

151 The optimal conditions for the separation were 100mM borate

152 Optimal conditions for the slow release of the boronic a

153 precursor addition rate and thereby predict optimal conditions for the synthesis of multimetallic na

154 echanisms and would help in determination of optimal conditions for their ethnopharmacological use.

155 It is essential for bacteria to find optimal conditions for their growth and survival.

156 m the overlying Cambrian succession, despite optimal conditions for their preservation, and instead t

157 id molecules onto PEM films to determine the optimal conditions for these parameters to achieve effic

158 This work also outlines optimal conditions for thioimidate formation on solid su

159 xperiments for low-input samples to identify optimal conditions for this critical step that is often

160 nspecific control LNA were used to determine optimal conditions for this type of flow-FISH.

161 l and possible graft-specific tolerance (eg, optimal conditions for tolerance induction and how immun

162 s were transduced simultaneously to identify optimal conditions for transcriptional activation.

163 Optimal conditions for transrutinosylation of tyrosol we

164 ation, and hence WNT signaling, provides the optimal conditions for tumorigenesis.

165 According to the theoretical discussion, the optimal conditions for two model analytes, 5-carboxyfluo

166 igned to reclassify climate data relative to optimal conditions for vector establishment, could be ap

167 Optimal conditions for VPE were determined, and the resu

168 can be potentially employed to determine the optimal conditions for weaning formulations with differe

169 Under optimal conditions for wild type, variants with one addi