ライフサイエンスコーパス: efficiency

1 l and external stimuli to maximise water-use efficiency.

2 CO(2) electroreduction to formate with high efficiency.

3 ported so far(9)), resulting in a low energy efficiency.

4 hich could further improve feature selection efficiency.

5 al cost of ownership while increasing energy efficiency.

6 cles via trichlorotriazine with high loading efficiency.

7 changes by inherently compromising metabolic efficiency.

8 electrodes through improved charge transfer efficiency.

9 on, we also assessed its role in translation efficiency.

10 tion of methane to methanol suffers from low efficiency.

11 three dOs by one VMO yielded > 85% knockdown efficiency.

12 ivates mammalian ribosomes with near-perfect efficiency.

13 re available for analyte detection with high efficiency.

14 her methods to assess transcript translation efficiency.

15 DABM with zDHHC17 is optimal for S-acylation efficiency.

16 progenitor state that generates BAs at high efficiency.

17 enable these reactions to occur with greater efficiency.

18 elimination reaction with greater catalytic efficiency.

19 is comes at the expense of on-target editing efficiency.

20 n a fluctuation of the in vitro transfection efficiency.

21 lates ADAR substrate recognition and editing efficiency.

22 to neck elongation and its impact on feeding efficiency.

23 predicted trade-offs between growth rate and efficiency.

24 mristor arrays to improve parallel-computing efficiency.

25 per square centimeter at 45% cathodic energy efficiency.

26 t of BS conversion assays can achieve> 99.5% efficiency.

27 late transcripts by reducing their splicing efficiency.

28 g RACD to a 200-m radius maximized yield and efficiency.

29 n electron source and high energy conversion efficiency.

30 ng lifetime and high phosphorescence quantum efficiency.

31 formance, now exceeding 18% power conversion efficiencies.

32 s (OSCs) is a key approach to improve device efficiencies.

33 (HK) to release bradykinin with a catalytic efficiency ~1500-fold lower than that of kallikrein clea

34 only slight increases in long-term water-use efficiency (+2.5%) inferred from (13) C composition.

35 patterns (DAMPs/PAMPs) from blood with high efficiency (92-99%).

36 on of various primary amines with conversion efficiency above 99% under visible light irradiation.

37 e; and maximization of limiting resource use efficiency across scales.

38 energy flow and higher community-energy-use efficiency across the entire trophic network.

39 Examination of translation efficiency across the yeast membrane proteome revealed t

40 roposed to explain the increasing adsorption efficiency after electrothermal regeneration and the gre

41 K rescued both radioresistance and HR repair efficiency after TTK knockdown; however, reintroduction

42 existing methods that focus on translational efficiency analysis.

43 nts and synthesis conditions at unparalleled efficiencies and sampling rates.

44 ates for cyclopropenation with unprecedented efficiencies and stereoselectivities (up to 5760 TTN, an

45 e on the (1)H to (13)C polarization transfer efficiency and (ii) the high reproducibility of the tech

46 tested to optimize both T1317 encapsulation efficiency and ability of T1317-sHDL to efflux cholester

47 plant proteins differed in their clarifying efficiency and ability to interact with colorless phenol

48 n organism, which further supported the high efficiency and accuracy of our library and revealed many

49 We tested efficiency and cognitive capacities in 200 adults aged 1

50 dose-dependent manner, achieving far higher efficiency and concentration than equivalent quantities

51 ation standards in plasma, largely improving efficiency and consistency.

52 The clinic efficiency and cost savings achieved by eliminating form

53 hat such composition changes affect delivery efficiency and determine subcellular localization, effec

54 Group differences in global efficiency and functional connectivity among 12 regions

55 ift mutants displayed reduced photosynthesis efficiency and growth rate, smaller leaves, and lower gr

56 ibit an improvement in both internal quantum efficiency and light output, which is similar to their c

57 ent of oxyfuel in the cement kiln to improve efficiency and lower CO(2) emissions, or the output gase

58 ities, might lead to improved fertilizer use efficiency and mitigation of N(2) O emissions.

59 , with no changes in instantaneous water-use efficiency and only slight increases in long-term water-

60 de based on quantified surface micro-contact efficiency and provides a prospective technical approach

61 s a vital role in boosting energy conversion efficiency and providing sufficient performance and dura

62 ovide significant improvements in procedural efficiency and radiation dose savings for targeting out-

63 offer powerful means for improving resource efficiency and reducing food waste.

64 y a role to assist clinicians to promote the efficiency and safety of healthcare in the future.

65 sting variant annotation algorithms lack the efficiency and scalability to process big genomic data,

66 Their extraordinary efficiency and selectivity enable the development of fla

67 tion, (13)C/(2)H KIEs, LFERs, CF(2) transfer efficiency and selectivity, the effect of inhibitors, an

68 g and pruning processes, further improve the efficiency and sparseness of the resulting neural repres

69 FACTOR 1 (GIF1) substantially increases the efficiency and speed of regeneration in wheat, triticale

70 (9), but could still be improved in terms of efficiency and stability.

71 itutions in this position modulate inhibitor efficiency and substrate specificity leading to drug res

72 e to its c-subunit, enhancing ATP production efficiency and synaptic growth.

73 ably, however, the room-temperature emission efficiency and the fluorescence lifetime of the restrain

74 fluorescence microscopes for high-throughput efficiency and the new sequencing chemistry removes limi

75 However, the efficiency and tissue targeting capabilities of these ve

76 t of non-foliar photosynthesis on carbon-use efficiency and total assimilation.

77 urgery, (2) intraoperative graft unscrolling efficiency, and (3) frequency of postoperative complicat

78 its ligand binding affinity, CCL2 scavenging efficiency, and cell activation sensitivity.

79 attering, electron microscopy, encapsulation efficiency, and drug loading capacity.

80 icantly reduced substrate binding, catalytic efficiency, and inhibitor binding.

81 bled the highest values of yield, biological efficiency, and productivity.

82 Its easy implementation, efficiency, and robustness can improve multiplexed bioph

83 ortunities remain in the development of high-efficiency antennas for biointegrated electronic/optoele

84 e the template to the nucleus, enhancing HDR efficiency approximately two- to fourfold.

85 highly efficient energy transfer (around 90% efficiency), as evidenced by time-resolved spectroscopy.

86 te a threshold in laser-to-proton conversion efficiency at background pressures [Formula: see text],

87 tions, showing a remarkable amplification of efficiency at high concentrations.

88 lances requires energy and should impact the efficiency at which assimilated nutrients are converted

89 ene, the lipoMSN achieved a 54% gene-editing efficiency, besting the state-of-art Lipofectamine CRISP

90 e, with potential costs to overall chaperone efficiency but also advantages with respect to reduction

91 st, (Ss)RidA-2 had a generally low catalytic efficiency, but showed a relatively higher activity with

92 rectly impacts the magnitude of transfection efficiency, but that overall trends in the location of t

93 h polyglutamic acid further improves editing efficiency by approximately twofold, reduces toxicity, a

94 gress data, this design achieves much higher efficiency by collecting all data during a single reacti

95 hermodynamics-based interpretation of energy efficiency by illustrating how energy consumption breaks

96 or engineering can increase AAV transduction efficiency (by optimizing the transgene cassette), vecto

97 Zn-X composite anode delivers high coulombic efficiency (ca. 97 %), deep Zn plating/stripping (10 mAh

98 xcellent agreement is found between the FRET efficiency calculated from the fit of the eGFP15eGFP flu

99 Plasmon-assisted photocatalytic efficiencies can improve when intermediate insulation la

100 m hydrophobic nanopores with high and stable efficiency can be achieved by regulating the confinement

101 herent spin wave detection, the spin pumping efficiency can be thermally controlled, and new insight

102 s and display substantially higher water-use efficiency compared with C(3) and C(4) plants.

103 its ability to replicate UBPs with improved efficiency compared with Klentaq.

104 e SAX-based algorithm improves the detection efficiency considerably compared to existing gap filling

105 Organic photovoltaic (OPV) efficiencies continue to rise, raising their prospects f

106 ticle sizes of 107 and 222 nm, encapsulation efficiency (EE) and loading efficiency (LE) values of 67

107 otovoltaic performance with power conversion efficiencies exceeding 23%, accompanied by enhanced stab

108 The resulting gain in absolute efficiency exceeds 6 per cent, leading to a very high po

109 orded better (P < 0.05) European performance efficiency factor and better economic efficiency when co

110 allow for a visualized understanding on the efficiency/fairness balance, and have demonstrated that

111 s high NH(3) formation rate and high Faradic efficiency (FE) difficult.

112 Genes with increased translational efficiency following loss of ARF include many ribosomal

113 d dielectrophoretic characteristics, sorting efficiencies for long and short SWNTs recovered from sep

114 Unfortunately, the Faradaic efficiency for ethylene is still low in neutral media (6

115 We observe a wide range of efficiency for incorporation of various mismatched base

116 actively dividing cells (S/G2-phase) and its efficiency for the introduction of large DNA sequences i

117 uL slugs), this represents an improvement in efficiency for typical kinetic experimentation in batch

118 at stochastically limits Vbeta recombination efficiency governs monogenic TCRbeta expression, thereby

119 ining high assay reproducibility and capture efficiencies greater than 93% after processing 7.5 mL bl

120 Variation in nonsteady-state efficiency greatly exceeded that at steady state, sugges

121 topological polar surface area < 75, ligand efficiency > 0.43, and good aqueous solubility and metab

122 meter 12 nm), the SWING filters exhibit high efficiency (>99.995% PM(0.3) removal), low air resistanc

123 Foliar P fertilization could increase P use efficiency; however, leaf entry pathways for inorganic p

124 s offers the promise for orders of magnitude efficiency improvement over the electrical state-of-the-

125 f policies for renewable technologies, while efficiency improvements are especially important in emer

126 acks (i.e., cross-infection risk, filtration efficiency improvements limited by difficulty in breathi

127 nt in order to achieve high power conversion efficiencies in organic solar cells.

128 r under the same conditions, reaching higher efficiencies in the case of absorbing R-134a at a high F

129 he poor stability, reversibility, and energy efficiency in aprotic Li-O(2) and Na-O(2) batteries.

130 rs that can be tuned to maximize fluorogenic efficiency in bioconjugation reactions and reveal that s

131 , to weigh the implications, and to increase efficiency in clinical trials.

132 ore strongly but was S-acylated with reduced efficiency in HEK293T cells, implying that a lower-affin

133 pplementation altered mitochondrial coupling efficiency in murine skeletal muscle, and expression of

134 (+1) have remarkable stability and promising efficiency in photovoltaic and optoelectronic devices, y

135 art abstraction, pointing towards additional efficiency in the abstraction process by making it possi

136 learning methods, is valuable to improve the efficiency in the assessment of pasta quality.

137 ons is a critical aspect of improving energy efficiency in the chemical industry; thus, predictive mo

138 ow that the interactions that would maximize efficiency in these social foraging models depend on gro

139 for selection of greater crop photosynthetic efficiency in this key food crop.

140 xtracellular matrix to increase transfection efficiency in vivo.

141 cent work proposes an alternative account of efficiency: In certain contexts, redundancy facilitates

142 compatible with a diversity of hydrodynamic efficiencies including passive control of water flow aro

143 lications requiring broad bandwidth and high efficiency including energy harvesting, virtual reality

144 Improving tumor accumulation and delivery efficiency is an important goal of nanomedicine.

145 , such as secondary sulfamides, the reaction efficiency is documented.

146 rrelation analysis suggested that photolysis efficiency is favored by electron-rich substituents at C

147 However, the efficiency is limited by increased salt concentration an

148 During induction, efficiency is lower than at steady state.

149 The FRET efficiency is modulated upon Ca(2+) ion binding.

150 both reduced, whereas the marginal water use efficiency lambda increased linearly.

151 m, encapsulation efficiency (EE) and loading efficiency (LE) values of 67.4 and 63.1%, 26.6 and 22.7%

152 Time efficiency, low-cost biomodel production, provision of u

153 ackground, exo70a2 reduced male transmission efficiency, lowered pollen germination frequency and slo

154 cific homo-Forster resonance energy transfer efficiencies measured by fluorescence depolarization all

155 With power conversion efficiency now over 17%, a long operational lifetime is

156 th foodstuffs and resulted in net dewatering efficiencies of 7.4% and 4.9% for OJ and 10.7% and 6.3%

157 The quantum efficiencies of developed samples range from around 20 %

158 tically optimized to achieve 80-99% leaching efficiencies of Ni, Mn, Co, and Li from the LIB "black m

159 Hg(0) adsorption and regeneration efficiencies of raw and HNO(3)-treated activated carbon

160 non-absorbing nanoarchitecture, resulting in efficiencies of ~98%.

161 an optimized, applied bias photon-to-current efficiency of 1.5%.

162 have recently shown a high power conversion efficiency of 12% using low-bandgap porphyrin.

163 ed a progressively enhanced power conversion efficiency of 19.83% from 16.95% (BP-free).

164 lifetime of 5.72 s, phosphorescence quantum efficiency of 26.36%, and exceptional stability against

165 aneously realizes a maximum external quantum efficiency of 32.5%, CIE(y) ~ 0.12, a full width at half

166 high half-cell solar-to-hydrogen conversion efficiency of 4.33% under AM 1.5 G solar simulated light

167 c-side (half-cell) ethylene power conversion efficiency of 55 +/- 2 per cent at 150 milliamperes per

168 RNA editing loci with an average RNA editing efficiency of 63%.

169 oteinization used to obtain chitin showed an efficiency of 85%.

170 An extraction efficiency of 86-101% for all parabens achieved using th

171 eparation of a shaped single photons with an efficiency of 98%, and deterministic quantum state trans

172 |Ti cell to achieve a high average Coulombic efficiency of 99.1 % for 350 cycles.

173 te emission with a photoluminescence quantum efficiency of around 73 %.

174 erior superior temporal gyrus, enhancing the efficiency of auditory speech processing.

175 ection is poised to improve the accuracy and efficiency of biological image analysis.

176 t supramolecular chemists use to emulate the efficiency of biological processes, and elucidating how

177 ng nanoscale devices can greatly improve the efficiency of bionic medical machines by giving them dif

178 clinical trials to improve the accuracy and efficiency of breast cancer screening.

179 The energy efficiency of capacitive deionization (CDI) with porous

180 s. 3.0 +/- 0.8 %ID/g, P = 0.006), though the efficiency of cardiomyocyte suppression was variable amo

181 influences the fate of carrion resources and efficiency of carrion removal within ecosystems.

182 anisms, and this was not strictly linked the efficiency of cell-free spread.

183 cases and function with double the energetic efficiency of ClpAP variants with completely active D2 r

184 We investigate how the Faradaic efficiency of CO formation is affected by the CO(2) part

185 EF dimer with its ARF1 substrate reduced the efficiency of coordinated ARF1 activation.

186 eporter gene assay, we demonstrated that C/P efficiency of CSTF2D50A was lower than wild type.

187 dent processes and can maintain/modulate the efficiency of DNA replication, transcription, and DNA re

188 The efficiency of drug delivery and sensory perception is in

189 Hence, future efforts to enhance the efficiency of electrocatalytic MOFs should also consider

190 as a convenient tool to evaluate the energy efficiency of electrochemical desalination processes.

191 stance for plastocyanin would jeopardize the efficiency of electron transport.

192 This research aimed to compare the efficiency of five washing solutions (0.9% NaCl, 0.1% Na

193 and meanwhile boost the functionality/energy-efficiency of future electronic devices and smart system

194 The efficiency of GALC cross-correction in vivo, the role of

195 aving polysaccharides, thereby enhancing the efficiency of glycoside hydrolases.

196 a wide range of compounds, highlighting good efficiency of HF formation by DBD regardless of the chem

197 hermal regeneration and the great adsorption efficiency of HNO(3)-treated ACFC.

198 ld be exploited in the future to enhance the efficiency of HSCT.

199 We show that the efficiency of incorporation of the complementary UTP opp

200 rkers that are predictive of differentiation efficiency of individual lines, and utilise heterogeneit

201 his wide range arises from variations in the efficiency of iron retention in the upper ocean in the e

202 rease in water intensity, reflecting greater efficiency of irrigation systems, and by reduced local p

203 licable studies minimizes cost and maximizes efficiency of knowledge gain for the scientific communit

204 olysulfide in electrolytes and low Coulombic efficiency of Li anode require excess electrolytes and L

205 We report on the enhanced incorporation efficiency of magnesium dopants into facets of hexagonal

206 s in the channels, we improve the extraction efficiency of magnetic beads from aqueous nanoliter-size

207 t rather serve to fine-tune the activity and efficiency of MCR.

208 The present study aimed to verify the efficiency of microwave hydrodiffusion and gravity (MHG)

209 ent, leading to a very high power conversion efficiency of more than 30 per cent, as measured with an

210 The production efficiency of OHDCA was highest in marine air, related t

211 erimentally demonstrate that the translation efficiency of oncogenes that are preferentially mutated

212 This Faradaic efficiency of over 80 per cent (compared to about 66 per

213 ality in depressing GATA6 expression and the efficiency of pancreas differentiation.

214 two highly promising ways of increasing the efficiency of photovoltaic devices.

215 eristic curve >= 0.9), doubles the estimated efficiency of population-based newborn screening to prev

216 que also allows the direct assessment of the efficiency of protective layers toward deterioration of

217 To address this, we monitored growth efficiency of pseudodiploid mouse lymphocytic leukemia c

218 Fifth, efficiency of randomised trials should be improved by st

219 ma1 conformational flexibility modulates the efficiency of reovirus host cell attachment.IMPORTANCE N

220 a1 conformational rearrangements mediate the efficiency of reovirus host cell binding.

221 elayed RMDA, an AMD risk indicator assessing efficiency of retinoid resupply.

222 5 degrees C in vitro, while maintaining the efficiency of Rubisco activation by Rca.

223 ive strategy is proposed to boost the energy efficiency of semiconductor devices by using the self-ad

224 the particle-size-resolved fresh filtration efficiency of seven different cordierite filters is dete

225 lesterol in the target membrane enhances the efficiency of single-particle IAV lipid mixing, whereas

226 r isc10Delta mutations, modestly reduced the efficiency of spore differentiation whereas spores were

227 ytic functions is problematic due to the low efficiency of template copying with mononucleotides.

228 Altogether our new software enhance the efficiency of the CoGAPS Bayesian matrix factorization a

229 packed cilia and the chemomechanical energy efficiency of the flagellar beat.

230 The energy efficiency of the foams was best at low MCF fractions.

231 ical calibration of the system improving the efficiency of the method.

232 The collection efficiency of the microchannel was evaluated using diffe

233 our results demonstrate the specificity and efficiency of the nanostructure as a drug delivery vehic

234 We discovered that the efficiency of the NCLP (N-RNA) assembly depends on the l

235 onsequently, depletion of ZNF281 impairs the efficiency of the NHEJ repair pathway and decreases cell

236 The lysozyme adsorption efficiency of the P-COOH membrane operating in a stirred

237 ed its expected high adsorption capacity and efficiency of the purification levels during repeated ad

238 The comparative efficiency of the synthesized samples was investigated f

239 The relative efficiency of the three ligands and sense of stereoinduc

240 The efficiency of these materials towards these described ap

241 Here, we show that efficiency of these processes is enhanced, namely, PE sy

242 We find that the efficiency of this ET depends strongly on whether the su

243 To validate the efficiency of this new version, analyses for GM12878 ind

244 apor-fed CO(2)R cell yields a total Faradaic efficiency of up to 95% for electrochemical CO(2) reduct

245 We further benchmark the efficiency of various promiscuous biotin ligases in comp

246 e predictive value or PPV, and computational efficiency) of different metagenome analysis tools for e

247 e of roughly 397 MtCO(2)/yr at a 90% capture efficiency or 75% of the emissions in this sector, with

248 rences in oxidative phosphorylation coupling efficiency or membrane potential.

249 omplete dissolution with maximum therapeutic efficiency over a short period of time especially throug

250 ells and show that it substantially improves efficiency over conventional frameworks, while maintaini

251 9-fold increase in singlet oxygen generation efficiency over free rose bengal.

252 olar cells (PSCs) with high power conversion efficiencies (PCEs), that is, greater than 20%, normally

253 rch in fundamental materials aspects of high efficiency photocatalysts followed by six open questions

254 ken together, the modest improvement in aaRS efficiency provides a large practical impact and expands

255 field pea cultivars with high phosphorus use efficiency (PUE) is highly desirable for organic pulse c

256 itch region correlates with the class switch efficiency, raising the possibility that the minimal req

257 in whether LoS can be attributed to hospital efficiency rather than the characteristics of the hospit

258 marin had greater selectivity and extraction efficiency (recoveries above 75%, RSDs less than 6%) com

259 s was optimized to match the highest quantum efficiency region of the SiPMs.

260 Since the ultra-high loading and high-efficiency release of pH indicators, the ALISA exhibitss

261 The improvement of efficiency remains elusive without a comprehensive, mech

262 o cleave pBR322 plasmid DNA with the highest efficiency reported so far for catalysts based on a sing

263 40 to d60 of gestation reduced pig placental efficiency, resulting in compensatory growth of the plac

264 of parenchyma tissue influence the hydraulic efficiency-safety trade-off in the basal angiosperms.

265 volume and higher mRNA capture and barcoding efficiency significantly reduce the cost of reagents and

266 ized, and challenges regarding their editing efficiency, specificity and immunogenicity must be addre

267 y than the CT states in the external quantum efficiency spectra of a significant number of organic se

268 with photosynthesis and intrinsic water-use efficiency (TE(i) ), but not with stomatal conductance.

269 CKR2-V41A cells scavenging CCL2 with a lower efficiency than ACKR2-WT.

270 tate has more optoacoustic signal generation efficiency than the monomer transition.

271 itate enantioselective cyclopropanation with efficiencies that rival those of engineered hemin protei

272 the determination of a cotranslational decay efficiency that could be an alternative to other methods

273 competing factors of enzyme catalysis and ET efficiency that may arise when complex enzyme reactions

274 intercellular CO(2) and intrinsic water use efficiency that track rising atmospheric CO(2) .

275 erature-driven increases in trophic transfer efficiency (the fraction of production passed up trophic

276 Despite the loss in Faradaic efficiency, the electrocatalysts exhibit similar carbon

277 To reach high efficiencies, thermophotovoltaic cells must utilize the

278 -atom catalysts not only maximize metal atom efficiency, they also display properties that are consid

279 ueisser limit for single-junction solar cell efficiency through the production of two electron-hole p

280 8 V vs. Ag/Ag(+) is observed with a Faradaic efficiency to formic acid of 90.5%.

281 ed a combination of ultralow flow (ULF) high-efficiency ultranarrow bore monolithic LC columns couple

282 anism that improves photosynthetic operating efficiency under conditions of low inorganic carbon.

283 RFs), to the quantification of translational efficiency under various physiological or experimental c

284 uW and a large spontaneous emission coupling efficiency up to 18% under continuous-wave condition at

285 past, anthocyanin extraction conditions and efficiencies using a single acidified solvent have been

286 To address this low efficiency, variants of Int were constructed and examine

287 The encapsulation efficiency varied from 31.66 to 84.48%.

288 resonator design that can boost the coupling efficiency via virtual polariton modes with image charge

289 Targeted mutagenesis efficiency was further improved by an average of 1.4-fol

290 cally into wild-type mice, and gene transfer efficiency was monitored.

291 High removal efficiency was obtained with a pH of 7 and a ZnSO(4)/PS

292 tion and pup weaning mass, but mass transfer efficiency was predicted to be highest at the mean birth

293 (DSB) to the mutation site, rather than DSB efficiency, was the primary determinant for successful H

294 rmance efficiency factor and better economic efficiency when compared to other treatments, but it was

295 gle-pass water recovery and heat utilization efficiency while maintaining excellent material stabilit

296 Sucrose didn't affect the transfection efficiency, while sorbitol resulted in a fluctuation of

297 ignificantly increases the global procedural efficiency with similar midterm efficacy.

298 tion energy transfer, and thus high trapping efficiency, within the complex.

299 intained the highest instantaneous water use efficiency (WUE(i)) among species at 0.06 and 0.042 m(3)

300 In plants, water use efficiency (WUE) is a complex trait arising from numerou