ライフサイエンスコーパス: door

1 espect to a desirability of outcome ranking (DOOR).

2 d 95% of delivered orders simply left at the door.

3 ve and active dodges in response to swinging doors.

4 ion, professional paths were not always open-door, and to a certain extent they still aren't.

5 DOORs are constructed by assigning higher ranks to patie

6 Findings open doors at the intersections of mechanics and biology, par

7 We illustrate this potential with a door-to-door canvassing intervention in South Florida targeting

8 ult residents were enumerated in the door-to-door census.

9 anda (n=20) and Kenya (n=12) using a door-to-door census.

10 represented open and closed states of a back door channel, associated with alternate positions of a t

11 DOOR distributions are compared between antibiotic use s

12 The stimuli of door-dodging events were essentially the same in two eve

13 -N-nitrosourea (ENU)-induced mutation, early doors (Edo), in the PER-ARNT-SIM (PAS) domain dimerizati

14 the intervention, 56 canvassers went door to door encouraging active perspective-taking with 501 vote

15 ers via an achiral intermediary, opening the door for "heterochiral" DNA nanotechnology having fully

16 , and environmental monitoring, and open the door for a new class of environmentally-triggered microm

17 es such as those presented here may open the door for accurately determining intermolecular hydrogen

18 anchored on the GO surface, thus opening the door for an array of functional group alkylations using

19 The results here presented open the door for an easy way to construct site-encoded multiplex

20 s of IT induces behavioral effects opens the door for applying the technical advantages of optogeneti

21 based on its expression profile, opening the door for automatic metadata extraction and facilitating

22 Our approach opens the door for deeper insights into mechanisms of sleep regula

23 This research opens a door for developing low-cost CDots as alternative phosph

24 rdiovascular lineage commitment, opening the door for exploring broader roles of RNA structure in dev

25 This work opens the door for further efforts with this taxon and close relat

26 These studies opened a door for further exploration of beta-palladium hydride-b

27 opments towards their synthesis and open the door for further progress in this area.

28 This work opens the door for future devices that may control blackbody radia

29 This work can open the door for future optoelectronic devices such as electrica

30 and its MRI T1-enhancing properties open the door for future studies on quantitative tracking of ther

31 This unique domain opens the door for generating any fragment of collagen in its nati

32 re generally, this rapid technique opens the door for high-throughput screening of potential inhibito

33 Next generation sequencing (NGS) opens the door for identification of unique sequences or searching

34 This work opens the door for investigating the biological and immunological

35 led detailed channel structures, opening the door for mapping structural elements mediating activatio

36 Our results open the door for matrix-free MSI of tissue sections and small ce

37 gas phase by ligand manipulation opens a new door for multiply charged species with potential applica

38 Our study opens the door for nanocrystals to become modular elements in the

39 ility of productivity over time and open the door for new efforts to understand how environmental and

40 work in mDAn development and PD, opening the door for new therapeutic interventions.

41 restrict how much cells secrete, opening the door for new therapeutic strategies for suppression of s

42 This opens the door for novel approaches to diagnose and prognosticate

43 a circuit model for addiction will open the door for novel therapies, such as deep brain stimulation

44 e discovery of trained immunity may open the door for novel vaccine approaches, new therapeutic strat

45 This technology opens the door for optogenetic experiments in which animals are ab

46 rch on cell-based therapies is opening a new door for patients to receive the organs they need withou

47 explained by ab initio modelling, opens the door for potential selectivity.

48 This opens the door for precision long-timescale investigations of the

49 This novel approach opens a new door for probing the influence of pathological, genetic,

50 lerated amino-Cope enabled cascades open the door for rapid and predictable assembly of complex chira

51 Our results open the door for realizing new topological phenomena and fermion

52 y completed null mutant collection, open the door for similar screens in other, less well-characteriz

53 This finding opens the door for spectroscopic targeting of plasmonic nanodrugs

54 Our method opens the door for studying multi-loci interactions and their impa

55 a eukaryotic expression system and opens the door for the analysis of proteins with single-molecule r

56 The reported strategy opens the door for the creation of biocompatible, custom-tailored

57 lexes is a remarkable feature that opens the door for the design of a new generation of metal-based p

58 This finding opens the door for the design of better materials for electrochemi

59 lynucleotide deaminases, thereby opening the door for the design of mechanistic-based therapeutics.

60 The demonstrated strategy opens the door for the development of new classes of liquid-phase

61 It also opens the door for the direct wiring of robust brain-machine inter

62 Our results not only open the door for the experimental realization of topological sem

63 mposition or magnetic order, which opens the door for the experimental realization of Weyl semimetals

64 This opens the door for the fabrication of technological products using

65 e in other chalcogenide spinels, opening the door for the realization of other magnesium solid ionic

66 y reduces the measurement time and opens the door for the spectroscopy of unrepeatable phenomena.

67 tle computer time, and this result opens the door for the use of human-guided simulations to RNA fold

68 of the NLRP3-ASC inflammasome has opened the door for therapeutic targeting the inflammasome filament

69 ffect of early-age pregnancy have opened the door for translational studies on pharmacologic preventi

70 s large-scale screening experiment opens the door for use of NAPA-LDI-MS in numerous metabolite analy

71 e times of 399 mus are observed, opening the door for video and other high-speed applications.

72 combination (AraC+CHK1i+G-CSF) will open the doors for a more efficient treatment of AML in the clini

73 for obtaining NIR luminophores will open new doors for further exploration of complex biomolecular sy

74 dotyping system pioneered in this work opens doors for future systematic exploration of the herpesvir

75 vative self-powered glucose sensor opens new doors for implementation of biofuel cells and capacitor

76 owers on a barley inflorescence, opening new doors for increasing grain yield.

77 ty for biological sample assays, opening new doors for other applications.

78 h degree of detail and accuracy, opening the doors for simulation-guided approaches to anti-arrhythmi

79 unctioning of tropical forests and opens new doors for the development of innovative monitoring strat

80 Each 10-fold improvement has opened the doors for the development of new techniques in all areas

81 This work opens doors for the preparation of highly active and well-stru

82 ocumented qualitatively by evaluation of the door frame and Amsler grid and measured quantitatively u

83 has come to be known as prison's "revolving door." However, it is unclear whether being sentenced to

84 randomly selected patient will have a better DOOR if assigned to the new strategy is estimated.

85 lated to an improvement in the time from PSC door in to door out that reduced from a median time of 1

86 efficiency measures including time from PSC door in to PSC door out, time from PSC door to CSC groin

87 iogenic shock, cardiac arrest, and prolonged door-in door-out time), STEMI referral hospitals' rural

88 included a panel, titled "Open Source, Open Door: Increasing Diversity in the Bioinformatics Open So

89 However, the door is not totally closed because of the diversity of n

90 gether, our results suggested a "foot-in-the-door" mechanism for drug synergy where cells were destro

91 Locked doors might not be able to prevent suicide and abscondin

92 poral retinal nerve fiber layer, opening the door next for testing of the high dose.

93 These results demonstrate that the revolving door of prison is in part an effect of the nature of pos

94 asured from the time the patient entered the door of the MSTU or emergency department, and any proble

95 ation task involving the identification of a door on the wall under free-viewing conditions.

96 liarities of BfAChE with high frequency back door opening, and the mode of action of Elec410 as one o

97 ent the determinants and mechanisms for back door opening, we solved a 2.7-A resolution crystal struc

98 by bound antibody and/or high frequency back door opening.

99 improvement in the time from PSC door in to door out that reduced from a median time of 104 minutes

100 sures including time from PSC door in to PSC door out, time from PSC door to CSC groin puncture, and

101 shock, cardiac arrest, and prolonged door-in door-out time), STEMI referral hospitals' rural location

102 el intracellular gate by exploiting the trap-door paradigm of pore blockade by internally applied qua

103 were not increased in hospitals with an open door policy.

104 mechanisms: a voltage-dependent "foot-in-the-door" pore block and an allosteric gating effect.

105 duced traditions for opening a bidirectional door puzzle box in replicate subpopulations of the great

106 DOOR/RADAR represents a new paradigm in assessing the ri

107 se adjusted for duration of antibiotic risk (DOOR/RADAR) are novel and innovative methods of evaluati

108 environment simulated a daily scenario where doors randomly swing outward while walking in a hallway.

109 Furthermore, having a window/door resulted in an 11% increase in exfiltration when an

110 For example, knocking at a door results in predictable sounds.

111 mbly of large viral capsids highlight a back door route for nuclear escape, a process referred to nuc

112 mission to an acute bed, and short revolving-door stays with high rates of rehospitalisation.

113 A back-door strategy is to use KcsA (a K(+) channel from the ba

114 nity Survey (ACS), a labor-intensive door-to-door study that measures statistics relating to race, ge

115 linic records, village chiefs, and a door-to-door survey between June, 2012, and June, 2013.

116 ible participants were identified by door-to-door survey with a household sampling design.

117 ratories throughout the world is prying open doors that may lead to restoration of myocardial structu

118 n actin-binding interface and a tunnel (back door) that creates an escape route for Pi with a minimal

119 were recruitment from China, short onset-to-door time, lower numbers of patients treated per center,

120 ogical pathways that simultaneously open the door to a better understanding of cardiac development an

121 ring well-defined oxide electrodes opens the door to a better understanding of the effect of oxide su

122 This work opens the door to a detailed atomistic understanding of transforma

123 y be applied to other materials, opening the door to a greater understanding of crystallization in ge

124 of the moth orchid genome sequence opens the door to a greater understanding of orchid morphological

125 Our results open the door to a much-expanded perspective on variation in the

126 This efficient protocol opens the door to a new area of research for the asymmetric constr

127 This work will open a door to a new catalytic-laser-based chemical sensing pla

128 usual stability of these trianions opens the door to a new class of super-pnictogens with potential a

129 ng single-site solid catalysts and opens the door to a new class of two-dimensional coordination mate

130 accuracy and controllable assembly opens the door to a new generation of genetically programmable pro

131 These advanced materials open the door to a new generation of membrane processes beyond ex

132 This advance opens a door to a number of quantum protocols for scalable gener

133 ition from AFM to FM ordering would open the door to a plethora of new spintronics based devices that

134 lity to couple alkyl electrophiles opens the door to a stereochemical dimension-specifically, enantio

135 unprecedented throughput of CHiLiS opens the door to a systems-level understanding of green algal lip

136 in other nanocrystalline alloys, opening the door to a variety of nanostructured bulk materials proce

137 without affecting cell viability, opens the door to a wide range of biomedical applications, yet thi

138 ic methods developed in this work may open a door to access a large number of functionalized organic

139 This study will open the door to achieving optimal grain refinement to nanoscale

140 in covalent mechanochemistry have opened the door to activating otherwise inaccessible reactions.

141 er Gravitational-wave Observatory opened the door to alternative probes of stellar and galactic evolu

142 h small and sharp Ag nanocubes will open the door to an array of applications in plasmonics, catalysi

143 Gulf of Mexico, the present study opens the door to assess the universality of endolithic stages amo

144 l differentiation of organelles, opening the door to better understanding of metabolic decisions in c

145 This might open the door to chemical formulations being developed to address

146 FNA sequencing opens the door to clinical trials in which patients undergo neoadj

147 m PSC door in to PSC door out, time from PSC door to CSC groin puncture, and 90-day modified Rankin S

148 Times from the door to CT completion (13 minutes [IQR, 9-21 minutes]) a

149 This approach opens the door to data-driven discovery of new synapse types and t

150 cture determination by cryoEM has opened the door to defining structural differences between ribosome

151 of Bi-B double and triple bonds, opening the door to design main-group metal-boron complexes with mul

152 dily be adapted to other species and opens a door to detailed investigations of inelastic or reactive

153 arboxysomes in Escherichia coli, opening the door to detailed mechanistic analysis of the assembly pr

154 This work opens the door to develop an array of methanotrophic bacterial str

155 erties of objects, this experiment opens the door to developing other such secure proof-systems for o

156 within hexagonal boron nitride, opening the door to direct thermal imaging of nanoscale dissipation

157 For the intervention, 56 canvassers went door to door encouraging active perspective-taking with

158 evealed that necroptosis functions as a trap door to eliminate virally infected cells.

159 surface-based nanoplasmonic sensors open the door to enhanced, quantitative measurement capabilities

160 he designer azadipyrromethene that opens the door to exciting applications.

161 ducts in chemistry and biology and opens the door to exploration of these species in oxidation cataly

162 Our work opens the door to exploring dynamical phases of matter and control

163 ing fundamental spin behaviours, opening the door to exploring new applications such as ultra-compact

164 ment techniques for kinase studies opens the door to exploring the rich biochemistry and pharmacologi

165 This opens the door to fully realizing the promise of next-generation h

166 ectra of individual molecules thus opens the door to functional interrogations of intracellular physi

167 of this singular functionality and open the door to further progress in this chemistry.

168 le stripe to bubble domains, which opens the door to future applications based on magnetic domain tai

169 mRNA and restore protein function opens the door to future in vivo applications to treat RTT and oth

170 nerates mature human astrocytes, opening the door to future studies of their function.

171 Furthermore, our findings open the door to future studies on curved crystals far from equil

172 Our results open the door to genetic dissection of mitochondrial Ca(2+) signa

173 Their approach opens the door to genotype-specific pharmacologic testing.

174 Our work opens the door to high-precision measurements of various atomic an

175 ally/IR-transparent organisms, and opens the door to high-resolution systematic analyses of C. elegan

176 leotide sequence context bias would open the door to identify all putative drug resistance mutations

177 It opens the door to imaging complex cellular circuitries in whole li

178 of precision dual-receptor circuit opens the door to immune recognition of a wider range of tumors.

179 st-processing analysis tools and to open the door to improving ab initio methods themselves with thes

180 solution down to the ns scale, opening a new door to in-situ structure-property characterization that

181 the molecular basis of taste has opened the door to inferring taste abilities from genetic data.

182 nstrated flexible MgO-barrier MTJs opens the door to integrating high-performance spintronic devices

183 This work opens the door to integrating more complex H(+) channels at the Pd

184 13 minutes [IQR, 9-21 minutes]) and from the door to intravenous thrombolysis (32 minutes [IQR, 24-47

185 diffusion selectivities, and has opened the door to many challenging and economically important flui

186 hinking skills that it provides can open the door to many different careers.

187 lled locally and non-invasively, opening the door to many other known therapies, such as the cases th

188 The sequenced genome opens the door to molecular analysis of single-cell regeneration i

189 ible with biological conditions, opening the door to monitor remotely (i.e., via imaging) redox proce

190 These findings open up the door to moving from a pure permanent-magnet system to a

191 ted in vivo SPME is now possible opening the door to near endless sampling opportunities.

192 Our results and methods open the door to new and more detailed investigations of the neur

193 abricated on plastic substrates and open the door to new applications for these important bioanalytic

194 nipulate the behaviors of SLIPS and open the door to new applications of this emerging class of soft

195 tion and biophysical coupling could open the door to new approaches and targets to treat and/or preve

196 oid genome sequence in a sample, opening the door to new approaches in genomic biology and medicine.

197 ber of existing applications and opening the door to new developments.

198 onse of metallic nanostructures, opening the door to new optomechanical device strategies.

199 cells and photodetectors, while opening the door to new possibilities in ionizing-radiation detector

200 ning FXI-3'UTR.These results should open the door to new therapeutic targets for thrombosis preventio

201 t Weyl semimetal candidate but also open the door to new topological Weyl physics that is not possibl

202 nge in 5d and 4d oxides and halides open the door to new types of magnetic ground states and excitati

203 n delta-doped oxide superlattices can open a door to novel oxide-based high-frequency logic devices.

204 This could open the door to novel treatments for numerous vagally mediated d

205 ned directed organic vertices has opened the door to other types of novel materials.

206 tion time for routine analyses, it opens the door to performing calculations that may have otherwise

207 chors for water-soluble Au-NPs and opens the door to potential biomedical applications of NHC surface

208 The delicate SME reaction opens a door to precisely control the alloying sites in the prot

209 The MWCNT-based LFB thus open a new door to prepare a new generation of LFB, and shows great

210 Our technique opens the door to quantitative analysis of time-dependent phenomen

211 rchitecture for artificial muscles opens the door to rapid design and low-cost fabrication of actuati

212 n somatosensory ganglia in vivo, opening the door to rapid optical mapping of neuronal excitability.

213 tained by specific immune responses open the door to rational design of immunotherapeutic strategies

214 These results open the door to realizing integrated optical meta-circuits, with

215 zations in the quantum Hall regime opens the door to realizing Majorana modes using two-dimensional s

216 es of localized SPhP resonances, opening the door to realizing narrow-band infrared sources with tail

217 This work opens a door to reconfigurable active and passive photonic devic

218 evidence of recent predictions and open the door to room-temperature skyrmion spintronics in robust

219 al tunability and transferability, opens the door to scalable integration of high-quality quantum emi

220 ole-genome sequencing (WGS), which opens the door to serotype determination using WGS data.

221 bonds through eta(1) coordination opened the door to several unique reduction processes.

222 nventional clinical information, opening the door to similar advances in other solid tumors.

223 This opens the door to similar separations for intact proteins and in t

224 This opens the door to structure-function studies to identify the conse

225 Our resource opens the door to systematic analysis of regulatory programs acros

226 This non-editing side of ADARs opens another door to target cancer.

227 two different polymer systems, and opens the door to the construction of 2D hierarchical structures w

228 This could open the door to the design of chiral and membrane-specific shutt

229 Importantly, this opens up the door to the development of new types of materials with a

230 This work should open the door to the development of novel self-cleaning adhesives

231 mbined with their high resolution, opens the door to the functional restoration of sight in patients

232 lack of phase pure materials, will open the door to the fundamental studies of VO2 polymorphs for po

233 ith unprecedented accuracy, thus opening the door to the long-sought "universal model" capable of des

234 of molecular structures, has now opened the door to the longstanding goal of precisely controlling m

235 These outstanding steps further unlocked the door to the preparation of previously difficult-to-acces

236 g in a particular tissue, this will open the door to the rapid development of additional drugs target

237 synthesis of the target oligomers, opens the door to the study of precision-engineered oligomeric int

238 observation of such a time crystal opens the door to the study of systems with long-range spatio-temp

239 This simple method opens the door to the synthesis of a variety of C-terminal ester-m

240 This work opens the door to the use of molecules as a versatile quantum memo

241 understand their function and will open the door to therapies that prevent or correct microbial comm

242 These emerging discoveries open a new door to understand the role of neutrophils during homeos

243 ant pathway in an edible plant and opens the door to using metabolic engineering to systematically qu

244 This opens the door to various applications for non-invasive diagnosis,

245 h an exquisite tumor specificity opens a new door to widespread application of VSV-LASV-GPC as a safe

246 While upconversion nanomaterials open doors to a wide range of new opportunities, they remain

247 ded studies and, most importantly, opens the doors to account for placebo effects in unblinded trials

248 This work opens new doors to developing applications that utilize peptides w

249 ties of Fh12 demonstrated in this study open doors to further studies directed at exploring the poten

250 The tool proposed here opens new doors to investigate seasonal patterns of ungulate accum

251 xciting methods and findings have opened new doors to investigate the potential functions and applica

252 These findings open doors to investigations of the effects of US on ion chan

253 er enhance the upconversion process, opening doors to many applications.

254 ssability of silyl ether-based networks open doors to many potential applications for this family of

255 e-scale genome sequencing projects opens the doors to new approaches to study the relationship betwee

256 nd typhoid fever susceptibility and may open doors to new prophylactic/therapeutic approaches.

257 icroscopy (EM) to serial imaging are opening doors to new ways of analyzing cellular structure.

258 s, and mathematical modelling-could open new doors to personalised radiotherapy adaptation and treatm

259 carefully, these reactive free radicals open doors to the controllable surface functionalization of m

260 ed in therapy outcome, our findings open new doors to the rational design of novel GR ligands and red

261 Our approach will open doors to the study of bacterial functional genomics of d

262 Door-to-antibiotic time and outcome were compared among

263 s earlier treatment, significant increase in door-to-antibiotic times of <1 and <2 hours, and a favor

264 increased by 20% for each 1 hour increase in door-to-antimicrobial time (p = 0.046).

265 ion between treating attending physician and door-to-antimicrobial time after adjustment for illness

266 interphysician variation in septic patients' door-to-antimicrobial time.

267 antimicrobials in the emergency department, door-to-antimicrobial times varied five-fold among treat

268 tment, attending physicians' (n = 40) median door-to-antimicrobial times varied significantly, rangin

269 correlation between hospital performance on door-to-balloon (D2B) time for STEMI and door-to-needle

270 Recent reductions in average door-to-balloon (D2B) times have not been associated wit

271 n, beta-blockers, acute reperfusion therapy, door-to-balloon [D2B] time </=90 min, and time to fibrin

272 o the cath lab had significantly lower first door-to-balloon times (median 191 versus 116 minutes, P<

273 Median door-to-balloon times in the hypothermia and control gro

274 First door-to-device </= 120 minutes was achieved in 65% of pa

275 Patients achieving first door-to-device time </= 120 minutes were compared with p

276 ferred for primary PCI fail to achieve first door-to-device time </= 120 minutes, despite estimated t

277 fer STEMI patients with </= 120-minute first door-to-device time).

278 Median door-to-dilation times were 82 +/- 26 min in the LMI + P

279 We illustrate this potential with a door-to-door canvassing intervention in South Florida ta

280 8,772 adult residents were enumerated in the door-to-door census.

281 es in Uganda (n=20) and Kenya (n=12) using a door-to-door census.

282 an Community Survey (ACS), a labor-intensive door-to-door study that measures statistics relating to

283 sters, clinic records, village chiefs, and a door-to-door survey between June, 2012, and June, 2013.

284 Eligible participants were identified by door-to-door survey with a household sampling design.

285 er than patients with D2B times >90 min, and door-to-needle (D2N) times </=30 min were associated wit

286 on door-to-balloon (D2B) time for STEMI and door-to-needle (DTN) time for AIS, with and without cont

287 practices have been developed for achieving door-to-needle (DTN) times </=60 minutes for stroke thro

288 Reduction in door-to-needle (DTN) times in patients with acute ischem

289 quality improvement initiative to accelerate door-to-needle (DTN) times, was associated with an avera

290 Door-to-needle time (DNT) is a key performance indicator

291 Median statewide door-to-needle time decreased from 49 min (IQR 35-60) in

292 d language therapist), an off-hours pattern (door-to-needle time for thrombolysis), and a flow patter

293 The largest magnitude of variation was for door-to-needle time within 60 min (range in quality 35-6

294 erval, 1.17-4.07); and more likely to exceed door-to-needle times (67% versus 37%; odds ratio, 2.62;

295 s of specific systems changes to reduce DTN (door-to-needle) time has not been fully evaluated.

296 oach is universally applicable and opens the door toward analyzing membrane protein interactions with

297 with reduced side effects and will open new doors toward the treatment of patients worldwide.

298 actions to illustrate how CAS could open the door towards the precise positioning of functional group

299 When we knock on a door, we perceive the impact as a collection of simultan

300 hat were either constrained ("She locked the door with the") or unconstrained ("She walked in here wi