ライフサイエンスコーパス: etc

1 s of all possible sign structures (+/+, -/0, etc.).

2 etallopeptidase 9), TSP1 (thrombospondin 1), etc.

3 d (CH4O(-1), C4O(-3), C2H(-8)O(-1), CH(-12), etc.).

4 he nutrients (e.g., PO4(3-), Ca(2+), Mg(2+), etc.) and results in their enrichment in the bioreactor.

5 flammation markers (e.g., TNF-alpha and IL-6 etc.), apoptosis, autophagy and phosphorylation of prote

6 erential, D-dimer, fibrinogen, C3, C4, IL-6, etc.

7 tandem solar cells, as an electron acceptor, etc.

8 of damaging chemicals (CCl4 , acetaminophen, etc.).

9 s, catecholamines, nucleosides, amino acids, etc.).

10 tion, photoredox activation, C-H activation, etc.), and thereby novel concepts within catalysis are c

11 genetic endowment, diet, physical activity, etc.

12 e, memory, circadian rhythm, drug addiction, etc.

13 ctions with temperature, solvent, additives, etc., dissuades chemists from employing light-initiated

14 stimated mass-to-charge ratio (m/z), adduct, etc.] need to be combined, requiring the approach to mak

15 ons, willingness to always carry adrenaline, etc.), consideration may be given to allow the consumpti

16 carbons, carbon nanotubes, carbon aerogels, etc.), particularly when the whole life cycle is conside

17 emical composition measurements of aerosols, etc.

18 ch as temperature, static time, drying agent etc., on the ASE extraction efficiency are investigated

19 protection, medicine, industry, agriculture, etc.

20 anticodon/amino acid properties, alignments, etc. while giving users the ability to at-will investiga

21 onophosphate-activated protein kinase alpha, etc.

22 es (e.g. European, African, Native American, etc).

23 xample ionic liquids (imidazolium, ammonium, etc.) were omitted, as were those that do not fulfill th

24 ent parts of the striatum, cortex, amygdala, etc) in mice.

25 oral ordering of cells, clustering analysis, etc.

26 larization microscopy and material analysis, etc.

27 c disorders, cancer, autoimmune diseases and etc.

28 scattering, resonant states, anharmonicity, etc.

29 ear of publication, authorship, annotations, etc.) to all elements of a name.

30 nic kidney disease, obstructive sleep apnea, etc.

31 shifts, deviation from linear approximation, etc.) for common sample parameters in the case of PTIR w

32 s including nuclearity, shape, architecture, etc. are unpredictable depending on the specific structu

33 perties: volume, boundary area, buried area, etc.

34 etic tree of the organisms within each ATGC, etc.

35 gid driving components (controller, battery, etc.) and the primarily soft body, and also enhances per

36 (e.g., Gaussian, Poisson, negative binomial, etc.), which may not be well met by the datasets of inte

37 ion (e.g. ecoregion, taxonomy, biogeography, etc.) that facilitates interpretation of the numerous de

38 clamps, electrochemical cellular biosensors, etc.) or morphological characterization.

39 electrochemistry, analytics, biotechnology, etc.

40 transition metal oxides, g-C3N4, Bi2Se3, BN, etc.), which are referred to as 2D-GAs, have emerged as

41 ty, dielectric properties, hydrogen bonding, etc.

42 ion factor families like MYC, AP2/ERF, bZIP, etc. are enriched in OsMADS1-bound DNAs.

43 cage fullerene species (e.g., C70, C74, C84, etc.) in water.

44 competition (over resources, space, capital, etc) and adaptation.

45 ar fuel materials (e.g., nitrides, carbides, etc.) in the form of pellets, powders, and microspheres

46 small molecule, nucleic acid, carbohydrate, etc.).

47 ution, rearrangement, hydrolysis, catalysis, etc. has been described briefly to highlight important a

48 ications, such as energy storage, catalysis, etc.

49 s based on the specific reagents, catalysts, etc., involved.

50 ntioxidants and nanocrystalline solar cells, etc.

51 f reactions of C1 molecules (CO, CO2, CH3OH, etc.), the reactions of water will also be reviewed beca

52 tions in catalysis, drug delivery, cleaning, etc.

53 being a source of halogen gases (HCl, ClNO2, etc.).

54 Transition-metal ions (V, Cr, Fe, Co, etc.) isolated on silica surfaces are known to catalyze

55 ictive coding, robust coding, sparse coding, etc.), differing in their regimes of applicability, in t

56 anic additives, different buffer components, etc.

57 purity, uniformity, grain size, composition, etc., associated with the solution-growth of MOCP thin f

58 Imminent divergences of compressibility etc. unfortunately cannot be confirmed due to pre-emptio

59 ic biology, medicine, molecular computation, etc.

60 ct/indirect treatment, oxygen concentration, etc.), in primary cultures of normal human dermal fibrob

61 reatment of burns, ulcerated skin conditions etc. with great success.

62 structure, phase evolution, and conductivity etc.

63 o pollution, energy consumption, congestion, etc.

64 n operative environment, blood conservation, etc), and postoperatively (refined anticoagulation, impr

65 ting, drying, baking, ohmic-infrared cooking etc. contribute towards its formation.

66 tion, charge-transfer, intersystem crossing, etc.) dictates the availability of these alternative (po

67 ays in cell death, apoptosis, and cell cycle etc.

68 "insulin signalling pathway", "cell cycle", etc.

69 e determined by 1D and 2D NMR, HRESIMS data, etc.

70 to model biological networks, imaging data, etc.

71 g. data noise, inappropriately labeled data, etc.

72 environmental exposures, diet, social data, etc.

73 acteristics (soluble, ground, decaffeinated, etc) were evaluated for antioxidant capacity (AC) (ABTS

74 ntrol, skin decontamination, decolonisation, etc), intraoperatively (ultraclean operative environment

75 ructures, functionalization, and decoration, etc.

76 ic technology, diagnostics and drug delivery etc.

77 perception (biases towards smaller, denser, etc., dots) are evidence for the number's dependence on

78 n-coding sequences, contamination detection, etc.

79 ost epitaxial growth, active planar devices, etc.

80 arker discovery, metabolite-based diagnosis, etc.

81 ies (e.g., composition, morphology, diameter etc.) of such user-synthesized hybrids were investigated

82 l orientation dispersion, density, diameter, etc., in complex white matter fiber configurations (e.g.

83 dhood, smoke more heavily, eat poorer diets, etc., than generations born earlier or later.

84 the cell cycle, apoptosis, differentiation, etc.

85 sters, cyanoesters, cyanoamides, dinitriles, etc., many of which are not readily accessible with alte

86 s intermediates (phenyl cations, diradicals, etc.) in the process was studied by computational analys

87 betes, cardiovascular, communicable diseases etc.

88 RNA regulated pathways, functions, diseases, etc) are hyperlinked to an appropriate external resource

89 ke Alzheimer's, Parkinson's, prion diseases, etc.

90 s allele frequencies, linkage disequilibrium etc., is an integral component of many studies, includin

91 ch as change of lattice structure, disorder, etc.

92 drug delivery systems, projection displays, etc.

93 for this purpose (using sulfide, dithionite, etc.) is the main topic of this review, but insights are

94 omolecular interfaces such as proteins, DNA, etc., can analyze presence of biomolecular inputs accord

95 design, homology modeling, flexible docking, etc. require the prediction of a protein's optimal side-

96 d anticoagulation, improved wound dressings, etc).

97 judgements of quantities (lengths, durations etc.) to gravitate towards their mean, is one of the mos

98 , side-chain repacking, changes in dynamics, etc.) will result in different findings in whole-protein

99 as vortex, self-accelerating, Bessel EBeams etc.

100 oduction, properties, applications, economy, etc. of the final product.

101 ious environmental conditions (e.g., pH, Eh, etc.) are not entirely understood.

102 e Raman and UV-vis spectra, electrophoresis, etc.

103 ponents (transistors, solar cells, emitters, etc.) that can enable a diversity of emerging technologi

104 ic annotations (promoters, exons, enhancers, etc.).

105 ed studies that reported a tRF as expressed, etc.

106 g. gold (Au), chitosan (CS), ferrocene (Fc), etc. to enhance the sensitivity of biosensors.

107 g software (e.g. Finite Element Method (FEM) etc.) and home-made developed tools.

108 ), fibroblast growth factor receptor (FGFR), etc.

109 s pectin, lipids, flavonoids, dietary fibres etc.

110 polymers, entanglement in fluids and fields, etc.

111 mic contact lines, detailed velocity fields, etc., even if the droplet size is comparable with the sc

112 sociated events (signaling, fusion, fission, etc.).

113 ormative experimental methods (fluorescence, etc.), are often confused with variability in intermedia

114 lighting, biomedical studies, fluorescence, etc.

115 rgin olive oil in binary blends, foodstuffs, etc., when the provided percentage is greater than 25%.

116 VO forces (e.g., steric, hydrophobic forces, etc.).

117 pulation genetics, phylogenetics, forensics, etc.), due to their high mutability within and between s

118 s system function, red blood cell formation, etc.

119 anic frameworks, covalent organic frameworks etc.) also having the electrostatic interaction with pol

120 ity, quality indices, provenance, freshness, etc.), led to the concept of electronic tongues as a new

121 s, data stewardship, computing fundamentals, etc., a need that universities have not yet been able to

122 my alterations to other (substance, gambling etc.) addictions.

123 ns (exponential, multiexponential, Gaussian, etc.), as well as user-specified PDFs without the need f

124 el intellectual ability (brilliance, genius, etc.) with men more than women.

125 read coverage, distance of reference genome, etc) to assess the effects of various parameter values o

126 r actions are performed (e.g., rude, gentle, etc.).

127 ilayer n-MoS2 and heavily doped p-germanium, etc.

128 ons (TCA-[X]4-GGAGGAGGA, AGT-[X]4-GGTGGTGGT, etc., where [X]4 denotes a random NNK library).

129 ich are cancer, obesity, epilepsy, glaucoma, etc., sulfonamide inhibitors as those reported here may

130 as rheumatoid arthritis, glomerulonephritis, etc.

131 for "all-equatorial" carbohydrates (glucose, etc.), the recognition of other types of saccharide unde

132 ies, genome-wide association studies (GWAS), etc., we propose a general framework to assess and to te

133 acid, various fused carbo- and heterocycles, etc.

134 chaperones (grpE, dnaK, dnaJ, hsp20, hsp90), etc.

135 l factors such as temperature, pH, humidity, etc.

136 s Digital Pulse, Peak Force Tapping, HybriD, etc.) of atomic force microscopy (AFM) allow imaging of

137 ic processes (hydrogenation, hydrogenolysis, etc.).

138 e self-assembly (electrostatic, hydrophobic, etc.) upon growth of both ordered BTA stacks and random

139 ci for blood pressure, lipids, hypertension, etc.

140 pirically-determined activities (MICs, IC50, etc.) against more than 4200 specific target microbes fo

141 raphy (SPECT), photoacoustic, Raman imaging, etc.) and cargo (chemo/gene/therapy) delivery.

142 computing, communication, sensing, imaging, etc.

143 ence, binding types, causes of interactions, etc., and do not perform satisfactorily when such inform

144 ls, sensing compartments, various interfaces etc.

145 ion strategies (NCL, Staudinger, KAHA, KATs, etc.) that could involve both carboxylic acid and amine

146 etoprofen, ibuprofen, diclofenac, ketorolac, etc., cyclooxygenase inhibitors) as agents for the manag

147 more organs such as the heart, lung, kidney, etc.

148 ene, linear/branched alkanes, xenon/krypton, etc.

149 s (degree distribution, average path length, etc.) have been developed.

150 al changes in temperature, pH, oxygen level, etc.), (ii) ribosomal large subunit biogenesis, (iii) pr

151 rent density, rate capabilities, cycle life, etc. have been investigated by synthesizing catalyticall

152 uch as pH, temperature, nutrient limitation, etc., not only trigger adaptive responses within bacteri

153 a containing electrolytes, proteins, lipids, etc., nanoparticles (NPs) are subjected to a range of fo

154 lusion in emulsions, suspensions, liposomes, etc., that are being employed to maintain stability of t

155 ical signal processing (regeneration, logic, etc.) has not yet become a practical alternative to elec

156 ffuse large B cell tumors, T cell lymphomas, etc.

157 ric, fluorescent, electrochemical, magnetic, etc.) and signal enhancement strategies (affording secon

158 s such as band-gap, conductivity, magnetism, etc.

159 ation purposes (e.g., polymer manufacturing, etc.).

160 device, molecular battery, cathode material, etc.

161 atabases, software tools, training materials etc.) makes it difficult for users to find them.

162 sts, battery materials, plasmonic materials, etc.

163 lower, organic pear, radish leaf, lamb meat, etc.), and good results were obtained.

164 s, property trends, and reaction mechanisms, etc.

165 y collecting samples (cells, lysates, media, etc.) from an OOC.

166 e pathways and cell-wall-related metabolism, etc.

167 ternal stores (proteins, mRNAs, metabolites, etc.) during their growth in the ovary to support develo

168 metamolecules, metasurfaces, metamaterials, etc.).

169 Ervatamine, silicine, methuenine, etc., are naturally occurring alkaloids that exhibit ant

170 as gene expression, copy number, methylation etc.

171 hex-3yl-ester; hexadecanoicacid methylester etc. whereas, increase in DPPH (48.32-59.62%) and hydrog

172 ike pentadecanoicacid; 14-methyl-methylester etc.

173 investigated how pitch classes (do, re, mi, etc.) are associated with the three dimensions of color

174 free energy of micellization (DeltaG(0)mic.) etc. have been calculated in different concentrations of

175 film image transmission electron microscopy, etc.

176 de abbreviations, annotations, misspellings, etc.

177 tectonic environment, geohazard mitigation, etc.

178 coherent, ballistic, acoustically modulated, etc.), this framework aims to use all of the optical sig

179 , Laplace-Beltrami spectra, Zernike moments, etc.

180 ments, discovery of short functional motifs, etc.

181 eutral molecules, such as NH3, NH3BH3, N2H4, etc.

182 possibility of manipulation at the nanoscale etc, and high phase and spectral sensitivities, PSLRs pr

183 otonics, adaptive materials, nanotechnology, etc.

184 of diverse gut components (immune, neuronal, etc.).

185 i, neurological disorders, optic neuropathy, etc.

186 raw photon data (timestamp, channel number, etc.) from any acquisition hardware, but also setup and

187 thylsilylether, 9,12,15-octadecatrienoicacid etc. as a result of germinated explored the possible pot

188 g, gas storage, adsorption, optoelectricity, etc. owning to the unprecedented combination of large su

189 ts visual features (e.g. shape, orientation, etc.) and to map them into our own peripersonal space.

190 s, isotopic exchange with structural oxygen, etc.) are discussed.

191 redox signaling, and biological oxygenation, etc., but also have driven the development of bioinorgan

192 cription of hydrogen atom-like states (S, P, etc.) in the conduction band.

193 caffold templates, drug delivery, packaging, etc., due to their inherent sustainability, biocompatibi

194 elative orientations of adjacent base pairs, etc.

195 such as lab-on-chip, lab-on-CD, lab-on-paper etc.

196 es (hepatitis B and C, human papillomavirus, etc) to cause cancer has been time tested and proven sci

197 uble perovskite oxides A 2VFeO6 (A = Ba, Pb, etc).

198 of functional groups, immobilizing peptides, etc.) due to recombinant synthesis techniques.

199 s disease conditions, genetic perturbations, etc.

200 ysicochemical conditions (concentration, pH, etc.) can be finely tuned without cross-contamination, a

201 odal responsivity, e.g., to light, heat, pH, etc., although highly desirable, require a combination o

202 D), and phobias (agoraphobia, social phobia, etc.).

203 ucocorticoids, sphingolipids, phospholipids, etc.

204 esearchers (scientists, engineers, planners, etc.) interested in promoting sustainable development ca

205 s (their cameras, connectivity, portability, etc.) and to advances in biosensing, the coupling of the

206 n depots, flour mills, and entry-exit ports, etc.

207 any health outcomes (weight, blood pressure, etc) at either assessment.

208 mmunications, all-optical signal processing, etc.

209 dairy, nuts, herbs, beverages, meat products etc.

210 eir density, fragility, adhesive properties, etc.

211 governed by key modulators (genes, proteins, etc.).

212 small analytes (i.e. metabolites, proteins, etc.) stability in complex sweat buffer with varying pH

213 linaceous species (chickens, turkeys, quail, etc.) and less likely to infect and transmit in wild duc

214 y, protein kinase B (AKT)/PI3K pathway, RAS, etc.

215 umulation potential and time, the scan rate, etc.) were thoroughly studied in order to achieve a high

216 morphology, orientation, sulfidation ratio, etc.) remains an open question in hydrotreating catalysi

217 rgy - light, ultrasound, radio waves, X-rays etc.

218 tion, CO2 reduction, CO oxidation reactions, etc.

219 ostatin M, hepatocyte growth factor receptor etc.

220 EGF receptors, PDGFs bind to PDGF receptors, etc.

221 circadian rhythms, pupillary light reflexes, etc.

222 (promoters, 5' and 3' untranslated regions, etc.) are collected.

223 delivery, tissue engineering, wound repair, etc.) through judicious selection of the monomer and bac

224 troviruses, DNA transposons, simple repeats, etc.) were significantly increased in the frontal cortex

225 (sensitivity, specificity, reproducibility, etc.) and their relationship to the results of clinical

226 inas (i.e. protein materials, natural resins etc.) from paintings of historical and artistic interest

227 progression, metastasis and drug resistance etc., cannot be fully understood by genetic mutations or

228 is, infrared, microwave, magnetic resonance, etc.).

229 protein processing in endoplasmic reticulum, etc.

230 values, invoking scientific criteria (rigor, etc.) as their justification.

231 ents of the anion receptor (urea, aryl ring, etc.) are predicted to produce an inverse effect.

232 waterways, such as sewers, springs, rivers, etc., ensuring wide applicability of the developed produ

233 actions between proteins, peptides, DNA, RNA etc. and graphene, therefore understanding such molecula

234 ules (proteins, glycans, lipids, DNAs, RNAs, etc.) and insoluble vesicles (exosomes), thus hindering

235 nsumer electronics (TVs, computers, routers, etc.), which are present in houses and offices in contin

236 fferent solid foods (spinach, onion, salami, etc.) were compared with well-established protocols.

237 ration and type of eluent, volume of sample, etc.) on the recoveries of selenium were optimized.

238 ith nanostructures at various length scales, etc.

239 nmental monitoring, forensics, and security, etc.

240 he lasso, the elastic net, subset selection, etc.

241 biomacromolecule materials, remote sensing, etc.

242 devices, tunable microwave devices, sensors, etc.

243 te sequencing, m(1)A-Seq, Par-CLIP, RIP-Seq, etc.

244 uch combination therapies (timing, sequence, etc.) remains an open challenge.

245 tify which option (system, product, service, etc.) has smaller environmental footprints and for provi

246 riability among neurons, tuning curve shape, etc.

247 inding, Notch signaling, Hedgehog signaling, etc.

248 athways, transcription factor binding sites, etc., one property at a time.

249 s, transcription factor binding motif sites, etc.).

250 chemical modification, tunable channel size, etc.

251 es (frequency dependence, volatility smiles, etc) to improve forecasting and management of complex ad

252 heavy metal contents (e.g., Cr, Zn, Ni, Sn, etc.) and the capacity to remove dissolved sulfide is re

253 ch as plant, animal, or human tissues; soil; etc.) often require many sample treatment steps, includi

254 diac pacemaker battery, (242)Cm heat source, etc.) was developed and validated.

255 y, biomedical, pharmaceutical, aero spatial, etc.

256 tate NMR, and X-ray absorption spectroscopy, etc., show that Yb(3+) would preferably enter into the z

257 s (i.e., phosphatidylcholine, sphingolipids, etc) these FA differences occur.

258 progress, catalytic activity and stability, etc.

259 bration time, excellent potential stability, etc.).

260 taste chemoreception, protein stabilization, etc.

261 , species distribution, conservation status, etc.

262 pids (triacylglycerols [TAGs], sterylesters, etc.) are reserves of high-energy metabolites and other

263 c optical reconstruction microscopy (STORM), etc.] has evolved remarkably over the last decade.

264 om grain size, porosity, and internal strain etc. can be summarized to the dielectric constant or die

265 eripheral arterial disease, ischemic stroke, etc.

266 ein-protein interactions, protein structure, etc.

267 decontamination, ecological sustainability, etc.

268 d patients or mice (IBD, metabolic syndrome, etc.) to germ-free mice was found to be sufficient to tr

269 ld, unsuitability for large-scale synthesis, etc. warranted the exploitation of other self-assembled

270 phylogenomics, workflow management systems, etc.).

271 transmission of diseases (ideas, technology, etc.) across social networks has predominantly relied on

272 , as well as repetitive elements, telomeres, etc.

273 ex, amount of reagent, effect of temperature etc.

274 ucture in the ensemble, melting temperature, etc.

275 cally relevant changes like pH, temperature, etc.

276 he correlation between different MeSH terms, etc.

277 icals (tannins, (iso)flavonoids, terpenoids, etc.) are reported herein in sumac fruits for the first

278 mplices (nodes, links, triangles, tetrahedra etc.) that have a natural geometric interpretation.

279 y several "cues" (color, luminance, texture, etc.), and humans can integrate sensory cues to improve

280 isease detection, clinical assisted therapy, etc.

281 ion, photolithography, photodynamic therapy, etc., is yet to become a common tool during the synthesi

282 brewing conditions (temperature, brew time, etc.) were assessed using one popular tea as a standard.

283 sitivity (aversion to certain sounds, touch, etc., or increased ability to make sensory discriminatio

284 in the target genome (exome, transcriptome, etc.) is sequenced multiple times.

285 r data (genomic, epigenomic, transcriptomic, etc) and multiple endpoints on a clinical trial cohort,

286 intravenous, intramuscular, transcutaneous, etc.

287 ons, commensurate-incommensurate transition, etc.).

288 d spacing of detectors (e.g. cameras, traps, etc.) must reflect movement characteristics of the focal

289 pecific impact (e.g. a disease, a treatment, etc.).

290 ans, 27% C. parapsilosis, 26% C. tropicalis, etc.) were evaluated between January 2012 and May 2013 f

291 different cells, tissues and disease types, etc.).

292 itations (i.e. speed, accuracy, ease-of-use, etc.).

293 arbon emissions, land occupation, water use, etc.) Urban farming (UF) has been advocated as a means t

294 ss such as laparoscopy, transection variants etc.).

295 properties (affinity, solubility, viscosity, etc.) and suggest changes at other positions for increas

296 time, volume of ionic liquid, sample volume, etc. were optimized.

297 (temperature, time, extracted water volume, etc.) and we showed that the polyphenols composition pro

298 e network (e.g., roads, railways, waterways, etc.) is the backbone of nearly all trade partnerships i

299 sterols, free and alkyl fatty acids, waxes, etc., was investigated in different vegetable oils by a

300 everal analytical techniques (ICP, SEM, XRD, etc.), which were used in order to investigate the fixat