ライフサイエンスコーパス: etc

1 systems (e.g., SrCoO(2.5) , VO(2) , WO(3) , etc.) has demonstrated important opportunities to incorp

2 ding cation (H(+) , Li(+) , Na(+) , Al(3+) , etc.) intercalation/de-intercalation chemistry in transi

3 1-18:2-22:6, 16:0-18:2-20:5, 18:1-18:2-20:5, etc.).

4 ryl carboxylates (e.g., pivalates, acetates, etc.), aryl carbamates and carbonates, to aryl ethers (a

5 rellin, jasmonic acid, indole-3-acetic acid, etc.

6 noids, anthocyanins, tocols, phenolic acids, etc.).

7 eavage of halogen bonds, methane activation, etc.

8 phosphorylation, transcriptional activation, etc.) causing the up/down-regulation of the target entit

9 based on various templates, pore additives, etc., are introduced accordingly.

10 ties such as density, viscosity, adsorption, etc.

11 y available foods and competing advertising, etc.?

12 available foods, and competing advertising, etc.?; 3) how much information obtained from observation

13 s to introduce p-type dopants (Cu(+), Ag(+), etc.) into n-type metal-oxide nanocrystals, producing pr

14 replication, UV radiation, chemical agents, etc.) is normally detected by special cellular machinery

15 aling (increase of irritability, aggression, etc.), is the main cause of Captagon addiction; Theophyl

16 th land-use (e.g., development, agriculture, etc.) and climate change in future studies to encapsulat

17 ers, e.g. thresholds, underlying algorithms, etc.

18 starting materials (alkyl halides, alkenes, etc.) and simple, transition-metal-free conditions and d

19 , -Cl, -Br, -CF(3), -OMe, -NO(2), and alkyl, etc.

20 y production, epigenetic biomarker analyses, etc.

21 modifications, chromatin accessibility, and etc.

22 tome animals (arthropods, molluscs, annelids etc.), but a break has also been reported in some verteb

23 ironmental or food contaminants, antibiotics etc.

24 ts of bio-active proteins (enzyme, antibody, etc.) and nanomaterials (nanoparticles, nanotubes, nanos

25 , anti-HIV, anti-anxiety and antidepressant, etc.

26 ysis, biosafety, environmental applications, etc.

27 used sites (left upper arm, right upper arm, etc.) and methods have not been established.

28 ystems (e.g. marine, built, host associated, etc.), there is a need for researchers to be able to per

29 sigma-bond metathesis, electrophilic attack, etc.

30 y storage, wastewater treatment, automotive, etc.

31 ety of color spaces (RGB, HSB, Y'UV, L*a*b*, etc.).

32 Adaptations to shale, coal beds, etc., are possible.

33 i.e. genetic, genomic, clinical, behavioral, etc.).

34 applications (e.g. in coating, biotechnology etc.).

35 dney, liver, anthropometric profiles, blood, etc.

36 ation in complex mediums (food, whole blood, etc.), but no universal method has been proposed to acce

37 demographic factors (e.g. age, gender, BMI, etc.) significantly affect levels of leukocyte mtDNA cop

38 catalysts (i.e. BC(3), B(4)C, C(x)N(y), h-BN etc.) and their heterojunction, ternary photocatalysts (

39 for clothing, rope, bags, nets, mats, boats, etc.

40 etabolic pathway analysis, a genome browser, etc.

41 tions (e.g., ornamental bromeliads, buckets, etc.) were positively correlated with the abundance of A

42 xes, membrane potential, buffering capacity, etc.) work together to achieve specific pH setpoints.

43 ansport of food particulates, drug carriers, etc.

44 rming is happening, that it is human-caused, etc.), independent of an ecological worldview (i.e., the

45 type detection RNA-velocity in single cells, etc.

46 rythrocytes, macrophages, NK cells, T cells, etc.

47 body like CNS, cardiac region, tumor cells, etc.

48 (metal alloy, mixed oxide, and chalcogenide, etc.) for diverse applications.

49 erent biological modalities (RNA, chromatin, etc.) can help further our understanding of the processe

50 es (chloroplasts, leucoplasts, chromoplasts, etc.) that have distinct proteomes depending on the spec

51 onal specificities (scales, feathers, claws, etc.) established by typical enhancers control five subc

52 at 1.0-cm intervals (0.0-0.9 cm, 1.0-1.9 cm, etc), and greater than 10 cm.

53 e (rGO) supported Pt(3) M (M=Mn, Cr, Fe, Co, etc.) intermetallic NPs (Pt(3) M/rGO-HF) with ultrasmall

54 ational design of 3D structures (MOFs, COFs, etc.) is presently limited by our understanding of how t

55 d sizes (dimers, n-mers, micelles, colloids, etc.), each having their own unique properties.

56 -pai stacking, charge-transfer complexation, etc.

57 entities: chemicals, phenotypes, complexes, etc.

58 c frameworks (MOFs)/metal-carbon composites, etc.

59 rmation (size, shape, location, composition, etc.) and in this way, govern catalytic properties of na

60 fertilizer N (manure, green manure, compost, etc.) in crops is low (27%), though N recovery in subseq

61 (physiological stress, exogenous compounds, etc.).

62 nges in temperature, solvent, concentration, etc).

63 le operation of LMA in practical conditions, etc.

64 (reducing, stimuli responsive, conductive), etc.

65 nd "off" involving conductance, conformation etc.) and upon application of a controlled external pert

66 ction rate, Kcat, Michaelis-Menten constant, etc.) and the initial concentrations.

67 the high efficiency, low energy consumption, etc.

68 ce on substrate, manual baseline correction, etc.) which usually takes a significant amount of operat

69 ls, amphidynamic crystals, ordered crystals, etc.

70 at the key factors (e.g. WNT5A, TRAIL, CSF1, etc.) mediated the activation of PC-Treg and PC-TAM inte

71 n crinipellin, presilphiperfolanol, cucumin, etc.

72 tion of RNA-binding proteins (MBNL1, CUGBP1, etc.).

73 unctionalized with ester, keto, nitro, cyano etc.

74 s did not, ignoring the note "chroma" (C, D, etc.).

75 nchorage, mating, active or passive defence, etc.

76 hines, biosensing/bioimaging, drug delivery, etc.

77 such as ours, COMADRE for animal demography, etc.) will aid much-needed large-scale ecological data i

78 rties (e.g., myelin content, tissue density, etc.).

79 athered from Internet use, wearable devices, etc.), and address privacy.

80 uding Breast Cancer, Heart Attack, Diabetes, etc.

81 -related factors (e.g., BMI, exercise, diet, etc.), every 5-year increase in LOY was associated with

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

83 todetectors, sensors, light-emitting diodes, etc.

84 e.g., HIV, diabetes, chronic kidney disease, etc.) were identified from physician claims, hospitaliza

85 tional experiences (of anger, fear, disgust, etc.).

86 iverse geometrical (cylindrical, bent, disk, etc.) and chemical (neutral, ionic, etc.) natures have p

87 tical manipulation, electron or hole doping, etc.

88 oprecipitation, freeze drying, spray drying, etc.

89 ive facts (distances, directions, durations, etc.).

90 ikin, DuPont/Chemours, Juhua, 3F, 3M/Dyneon, etc., produce TFE homopolymers.

91 s, dyslipidemia, obesity, renal dysfunction, etc.) be treated in the candidate for LT?

92 , occupation, likes and dislikes, education, etc.) and perceptual cues (e.g., attractiveness, race, e

93 vortex time, sample volume and matrix effect etc.

94 s (e.g., gold disk, glassy carbon electrode, etc.) can undergo sophisticated design to detect chemica

95 pplications in optics, biology, electronics, etc.

96 icals, food chemistry, chemical engineering, etc.

97 tion, materials and electrolyte engineering, etc.).

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

99 lities, professional sports, entertainments, etc.

100 room temperature and in severe environments, etc.

101 (e.g., ethers, halides, thioetheres, esters, etc.).

102 arteriolar hyalinosis, mesangial expansion, etc.) were similar in prevalence and severity on surveil

103 oconductor's AnnotationHub and ExperimentHub etc., provide public access to large amounts of genomic

104 .g. case vs control, exposed vs non-exposed, etc.), where methylation assessment is carried out using

105 shuttle, pulverization-driven capacity fade, etc.

106 reinforcement corrosion, creep and fatigue, etc.

107 nd uptake of nutrients (Mg, P, K, S, Ca, Fe, etc.

108 layer thickness, electric, magnetic fields, etc.

109 xt of ecology, biology, transport, finances, etc., the elements or configurations that more contribut

110 ue characteristics of strength, flexibility, etc., of textiles, utilizing a fundamentally different m

111 iferation, migration, tumorsphere-formation, etc.) and induced apoptosis, especially SRSF3.

112 ., age, sex, dental arch, race, crown forms, etc.)?

113 oth computational resources (CPU, GPU, FPGA, etc.) and datastores to support popular bioinformatics p

114 ndodontic failures, retained root fragments, etc.

115 porous polymer, covalent triazine frameworks etc.) and their heterostructures.

116 um dots, nanoscale metal-organic frameworks, etc, in zebrafish and focus on how the physicochemical p

117 y main products (gasoline, diesel, jet fuel, etc.) but also for refinery secondary products (asphalt,

118 Nextflow, Common Workflow Language, Galaxy, etc.

119 iming of volatile (C, N, H(2)O, noble gases, etc.) delivery to Earth.

120 refrigeration, heat pumps, power generation, etc.

121 ies probing interactions (physical, genetic, etc.) produce quantitative maps with two-dimensional gen

122 els (e.g. Brooks-Corey (B-C), van Genuchten, etc.) that were developed for conventional oil and gas r

123 s, flavonoids and phenylpropanoid glycosides etc.

124 release pellets, particles, beads, granules, etc.

125 tential in electric vehicles, DC micro-grids etc.

126 functional groups (pai-bonds, leaving group, etc.) is required within the substrates, compromising th

127 olidation of records across research groups, etc.

128 eparation, energy storage, light harvesting, etc.

129 n B(2), Epicatechin, Phloridzin, Hesperetin, etc.

130 r visual aspects (colors, labels, highlights etc.) to their particular use case.

131 mation (e.g. survival, age, smoking history, etc.) than the images and the corresponding tumor contou

132 cer of COVID-19), human papillomavirus, HIV, etc.) viruses and diagnosis of virus-induced diseases is

133 ., areas human occipital [hOc]1, hOc2, hOc3, etc.) to anterior cytoarchitectonic areas (e.g., areas f

134 (e.g., suicide, psychiatric hospitalization, etc.,) or need for retreatment with repetitive transcran

135 c conditions, such as temperature, humidity, etc.

136 High-intensity environments (OR, ICU, etc.) made up 56% of the total.

137 epeat structures, ambiguous identifications, etc.

138 aticity, depth of focus, wide-angle imaging, etc.

139 garding severity, type (cardiac, infectious, etc), etiology (surgical/medical), and timing of occurre

140 y of wound healing, apoptosis, inflammation, etc.

141 CTLA-4 inhibitors, or PD-1/PD-L1 inhibitors, etc.

142 s (peak position, peak area, peak intensity, etc.).

143 affinity for hydrogen bonding interactions, etc., that are reflected by dramatic changes in temperat

144 es in membranes, molten atoms at interfaces, etc., which are difficult to understand due to the compl

145 by samarium vacancies, boron interstitials, etc.), the bulk resistivity shows an intrinsic thermally

146 t, disk, etc.) and chemical (neutral, ionic, etc.) natures have proven their wide scope and opportuni

147 effects of temperature, and interfering ions etc.

148 mptoms (e.g. sleep disturbance, irritability etc.).

149 , co-expression relationship among isoforms, etc.

150 g, linguistic communication, moral judgment, etc.

151 s, cubic blue phases, achiral bent-core LCs, etc.) and lyotropic LCs (DNA LCs, nanocellulose LCs, and

152 yte without Redox, short-circuiting, leakage etc.) without participating in electrochemical reactions

153 respiration and ethylene rates, ion leakage etc., to confirm the occurrence of PCI, and compared the

154 , bird feathers, insect wings, plant leaves, etc.) are superhydrophobic with rough surfaces at differ

155 inituarization, low electronic noise levels, etc.

156 .g., by olefin metathesis, peptide ligation, etc.).

157 nt-omic types (transcripts, proteins, lipids etc).

158 y in tissues (native heart, allograft, liver etc.) obtained post-transplant day five revealed wide-sp

159 elevated temperature, high catalyst loading, etc.

160 nderlying tissue types (tumour, lymphocytes, etc.) and then quantifying the co-localization of lympho

161 ics, bioorganometallic chemistry, materials, etc.

162 l barrier coating, thermoelectric materials, etc.

163 ility (nitrogen, phosphorus, organic matter, etc.) in the context of different spatial distributions

164 mediator production, regulatory mechanisms, etc) by stimulating astrocytes with potent exogenous TLR

165 nsmembrane transport, secondary metabolites, etc., which may be required for conidiation, IFS formati

166 based on metal-insulator transitions (MITs), etc.

167 ronics, thermal management, chemical mixing, etc.

168 position (M = V, Cr, Mn, Fe, Co, Ni, Cu, Mo, etc.).

169 (e.g. different speakers, articulation modes etc.), and listeners need to recalibrate their internal

170 ed anomalous Hall effect and Majorana modes, etc.

171 splicing, post-translational modifications, etc.

172 or allergens (house dust mites, pets, molds, etc), tobacco smoke, and other pollutants, which have an

173 ertainments, personal healthcare monitoring, etc.

174 and free-ranging cervids (deer, elk, moose, etc.).

175 , most imaging systems, e.g., Raman, IR, MS, etc., allow acquisition of 3D images, with a linear spec

176 ng microscopic glass slides, a table, a mug, etc.

177 f any topology (e.g., branched, multicyclic, etc.).

178 deposition in liver, heart, skeletal muscle, etc).

179 including drug delivery, artificial muscles, etc.

180 articles, nanotubes, nanosheets, nanoflowers etc.) with abundant physicochemical properties, numerous

181 ons, single photon emitters, nanoprocessors, etc.

182 vices (nanowire, nanobelts, carbon nanotube, etc.) are not treated here.

183 isease morbidities (neuropathy, nephropathy, etc).

184 including nanoemulsion, liposomes, SLN, NLC etc.

185 , and nanostructured lipid carriers (NLCs)), etc.

186 ye length, surface functionalization, noise, etc.).

187 itives, delivery systems for nutraceuticals, etc.

188 n-immunologic causes (hypertension, obesity, etc.) suggesting that new management approaches to preve

189 diploid or polyploid (tetraploid, octaploid, etc.) nuclear content.

190 olyploid hepatocytes (tetraploid, octaploid, etc.), with polyploids comprising >=90% of the hepatocyt

191 cts (asphalt, lubricant, wax, light olefins, etc.).

192 experimental treatments (heterotrophic only, etc.).

193 les (e.g. temporal, spatial, organizational, etc.).

194 ocioeconomic background, sexual orientation, etc.).

195 -spiking, bursting, mixed-mode oscillations, etc.) in understanding the single neuron dynamics.

196 ity from mild (e.g. gastroenteritis, otitis, etc.) to life-threatening (e.g. necrotizing fasciitis).

197 types of phenol derivatives (e.g., OTf, OTs, etc.), which have similar reactivities to the correspond

198 ping, deamidation, isomerization, oxidation, etc.

199 onal supports (N-doped carbon, metal oxides, etc.) remains a formidable challenge, especially under h

200 ment are Tamoxifen, Trastuzumab, Paclitaxel, etc.

201 s, electrode materials, fluid flow patterns, etc.

202 n hypersensitive responses (PAR1, RIN4, PBS1 etc.).

203 y coupled odd-gon (e.g., triangle, pentagon, etc) systems.

204 proton pumping rate, membrane permeability, etc., but, as expected, the ODE model fails to report on

205 individual PFAS subclasses (e.g. PFSA, PFCA, etc.).

206 concentration, temperature, composition, pH, etc.), it has been suggested that the polydispersity of

207 ion, and microwave-assisted phosphorylation, etc.

208 quantum computing, infrared photodetection, etc.

209 ctor (i.e., photocatalysts, photoelectrodes, etc.) is largely dictated by three key aspects: (i) band

210 chirality (central, axial, helical, planar, etc.), that inherent to Mobius topology remains almost u

211 ry, cell death assays, other omic platforms, etc.

212 relative position of the levitation points, etc.).

213 pe (e.g., expansive, contractile, polarized, etc.) and that shape heterogeneity may be (at least part

214 ods, industrial products, medical practices, etc., calls for the development of tools for rapid separ

215 ressive" fluctuations (of density, pressure, etc.).

216 pillary conditioning, and rinsing procedure, etc.) were left to the discretion of the contributing la

217 eparation, instrumentation, data processing, etc., is critical for comparison of untargeted data acro

218 tems, vegetables, mushrooms, animal products etc.

219 lyses (flow cytometry, expression profiling, etc.), forward screens can generate robust data sets lin

220 rtality (e.g. poaching, defense of property, etc.) was greater in non-harvested populations, and harv

221 or lectin kinase, R gene, aspartyl protease, etc.

222 ocks (i.e., amino acids, peptides, proteins, etc.) to highly organized tissues (i.e., bones, skin, et

223 res made of materials such as glass, quartz, etc.

224 perceptual cues (e.g., attractiveness, race, etc.).

225 -rays, chemiluminescence, radioluminescence, etc.) for the excitation of novel nanoprobes.

226 ffect, extremely high signal-to-noise ratio, etc., are joined in one platform due to the method of th

227 ted images (tumor x-rays, checkpoint x-rays, etc.) one after another.

228 ivation, anaphylatoxin and cytokine release, etc., leading to acute conspicuous organ damage.

229 ssion regulation, DNA replication and repair etc.

230 es (for example, transcription, replication, etc.) can expose these cryptic off-target sites to Cas9

231 hmias, cardiac ischemia, insulin resistance, etc.

232 by 4d and 5d transition metals (Pd, Pt, Rh, etc.) such as nitrene insertions or C-C and C-heteroatom

233 ia tsutsugamushi, and Rickettsia rickettsii, etc.

234 nation in bio-samples (urine, blood, saliva, etc.,) is of crucial importance in the field of occupati

235 le in water, and synthesized at large scale, etc.

236 rs, solar cells, transistors, scintillators, etc.

237 ntal photocatalysts (i.e. B, C, P, S, Si, Se etc.), binary photocatalysts (i.e. BC(3), B(4)C, C(x)N(y

238 luding cell therapy, drug delivery, sealants etc.

239 ng, mass-transfer sensing, genotype sensing, etc.

240 , Ora-tablet reading test, color sensitivity etc.

241 s9, big data and next generation sequencing, etc.

242 onal facilities, emergency medical services, etc., with the highest proportion from long-term care fa

243 w associated with two additional long setae, etc.

244 lucose homeostasis, obesity, ethnicity, sex, etc.), the limited availability of representative NASH c

245 2D materials, more layers, specific shapes, etc.), the patterning steps can become economically cost

246 hange, free energy perturbation simulations, etc.

247 ther implanted structures (in vivo, in situ, etc).

248 angiosperm syndrome (e.g. small cell sizes, etc.) is hierarchical vein networks that allow expressio

249 highly organized tissues (i.e., bones, skin, etc.).

250 n body fluids, pesticides in water and soil, etc.

251 .g., air-water, liquid-liquid, liquid-solid, etc.) have been employed to successfully synthesize crys

252 may be multi-modal (mechanical, odor, sound, etc.).

253 imaging, high-dimensional entangled source, etc.

254 ent methods (enzymatic, maceration, Soxhlet, etc.) and solvents (variable polarity index) were tested

255 utcome was the discomfort (eating, speaking, etc.) from the donor site during the first postoperative

256 different recording setups, tasks, species, etc.

257 for storage, increasing target specificity, etc.

258 athology, IHC, MRI, Micro-Raman spectroscopy etc.

259 ost cultivar, host water/nutritional status, etc., on bacterial survival.

260 ill working surfaces, composting stockpiles, etc., to be among the specific source types responsible

261 spheric circulation, albedo, carbon storage, etc.) and ecology (harboring the highest biodiversity of

262 hniques of warfare, geopolitical strategies, etc.), curiously, the exceptional economic resilience of

263 tion, low soil moisture, reduced streamflow, etc.), but relatively few publications (~32%) explicitly

264 nts, senior students mentor junior students, etc.).

265 nal studies, animal models, genetic studies, etc.

266 a structural change, a diffusing substance, etc., for example) versus time.

267 buffers, chain transfer agents, surfactants, etc.), the solvent environment, and the reaction conditi

268 ecules (e.g., such as polymers, surfactants, etc.) in the presence of small-molecule contaminants.

269 al memory, flip-flop, and ultrafast switches etc.

270 lammatory responses, cardiovascular systems, etc.

271 h ~300 terrestrial species (cobras, taipans, etc.) and ~60 fully marine sea snakes, plus eight indepe

272 interference, subject movement, cross-talk, etc.) and, of course, the desired spatial discrimination

273 to rapidly adapt to novel situations, tasks, etc.?

274 s, protocols, and experimental technologies, etc.

275 circumstances (defect density, temperature, etc.) the unwanted bulk state will conduct in parallel t

276 al scales (e.g., precipitation, temperature, etc.), which underlies forecasting climate change impact

277 NA origami, wireframe DNA origami, DNA tiles etc.) has been developed allowing the creation of new an

278 n different targets (liquid, cells, tissues, etc.).

279 on such as sample details (species, tissues, etc), instrumentation (mass spectrometer, sequencer), ke

280 iltering, stitching different tools together etc. can be prohibitive.

281 2B, MAP3K1, MAP3K4, MDM2, SMAD4, STK11, TP53 etc.), often leading to truncated proteins and affecting

282 as object counting, segmentation, tracking, etc.

283 le pixels (sparks, waves, puffs, transients, etc.), from which spatiotemporal event parameters (e.g.,

284 amic energy, grain size, nutrient transport, etc.

285 tructure, leading to hybrid (double, triple, etc.) perovskites and inverse (hybrid) perovskites.

286 momenta of the body segments (thigh, trunk, etc.) about their combined center of mass, and remains c

287 eeding, vitreous tube placement, bent tubes, etc.

288 ation), portal vein embolization, drain use, etc.)(p > 0.05).

289 inding strategies for long-term in vivo use, etc.

290 low layers, gradient explosion or vanishing, etc.

291 ulations, high inter-individual variability, etc.).

292 otein domains, single nucleotide variations, etc.

293 he lung, kidney, mammary gland, vasculature, etc.

294 , Vascular endothelial growth factor (VEGF), etc.

295 and cytarabine, anti-MEK agent, vinblastine, etc) used for maintenance could eradicate the BRAF(V600E

296 as diagnosis, forecasting, computer vision, etc.

297 mixing time, eluent solution, sample volume, etc.

298 rface plasmon resonance, optical waveguides, etc.

299 s multiple dimensions: when, where, to whom, etc.

300 The upstream inducers of Ctgf, such as Yap, etc, are well-known.