ライフサイエンスコーパス: open the door to

1 n to biological pathways that simultaneously open the door to a better understanding of cardiac devel

2 ing of the organization of this system could open the door to a better understanding of the transform

3 experimental studies on these materials will open the door to a deeper fundamental understanding of s

4 more conserved than previously thought, and open the door to a more complete understanding of how CA

5 isting HIPEC protocols in a safe way and may open the door to a more effective, multimodal HIPEC.

6 Our results open the door to a much-expanded perspective on variatio

7 The results open the door to a new area of fiber optic-guided sensit

8 These extremely versatile and rigid devices open the door to a new class of materials that are able

9 ons of salt cress, already in progress, will open the door to a new era of forward and reverse geneti

10 These advanced materials open the door to a new generation of membrane processes

11 The good news is these findings open the door to a new strategy for the therapeutic trea

12 e restructuring of the yeast genome, and may open the door to a new type of combinatorial genetics ba

13 These findings open the door to a novel approach for exploring the comp

14 tic transition from AFM to FM ordering would open the door to a plethora of new spintronics based dev

15 en bond donating catalyst in a WLA construct open the doors to a vast and rapidly growing catalogue o

16 Recent developments have opened the door to a new set of opportunities for microf

17 Such studies opened the door to a powerful new therapeutic approach n

18 The discovery of inteins in the early 1990s opened the door to a wide variety of new technologies.

19 te can easily be applied to other materials, opening the door to a greater understanding of crystalli

20 imal models and the study of human behavior, opening the door to a more comprehensive understanding o

21 aracterization and synthesis, these could be opening the door to a new era in the investigation of na

22 Advances in human genome research are opening the door to a new paradigm for practising medici

23 d by design in other nanocrystalline alloys, opening the door to a variety of nanostructured bulk mat

24 the field of microscopy and imaging, thereby opening the door to a wide range of applications, especi

25 for preparing well-defined oxide electrodes opens the door to a better understanding of the effect o

26 This work opens the door to a detailed atomistic understanding of

27 s from decades-old paraffin-embedded tissues opens the door to a detailed palaeovirological investiga

28 blication of the moth orchid genome sequence opens the door to a greater understanding of orchid morp

29 This facile approach opens the door to a large-scale analysis of the endogeno

30 This efficient protocol opens the door to a new area of research for the asymmet

31 The unusual stability of these trianions opens the door to a new class of super-pnictogens with p

32 or designing single-site solid catalysts and opens the door to a new class of two-dimensional coordin

33 mic-level accuracy and controllable assembly opens the door to a new generation of genetically progra

34 the merging-neutron-star interpretations and opens the door to a new GRB classification scheme that s

35 As demonstrated here, optogenetics opens the door to a new kind of informational analysis o

36 ped, combining in vitro and in vivo culture, opens the door to a new level of analysis of patterning

37 The OSAILS opens the door to a number of new optical sensor array s

38 This supramolecular mixing approach opens the door to a range of subtly distinct materials f

39 The ability to couple alkyl electrophiles opens the door to a stereochemical dimension-specificall

40 The gain in computational efficiency opens the door to a systematic investigation of the fold

41 The unprecedented throughput of CHiLiS opens the door to a systems-level understanding of green

42 This is a major breakthrough that opens the door to a whole field of research, already ful

43 t solvent, without affecting cell viability, opens the door to a wide range of biomedical application

44 ts in blinded studies and, most importantly, opens the doors to account for placebo effects in unblin

45 This study will open the door to achieving optimal grain refinement to n

46 velopments in covalent mechanochemistry have opened the door to activating otherwise inaccessible rea

47 of transportation fuels on human health and opening the door to advanced air dispersion modeling of

48 nterferometer Gravitational-wave Observatory opened the door to alternative probes of stellar and gal

49 ty of such small and sharp Ag nanocubes will open the door to an array of applications in plasmonics,

50 etic materials on a live bacterial platform, opening the door to an exciting new set of applications.

51 This work opens the door to angle insensitive manipulation of ligh

52 This knowledge has opened the door to antigen-specific immunization for can

53 rthwestern Gulf of Mexico, the present study opens the door to assess the universality of endolithic

54 sh functional differentiation of organelles, opening the door to better understanding of metabolic de

55 nstration of enormous pseudo-magnetic fields opens the door to both the study of charge carriers in p

56 nologically very important nanomaterial, and opens the door to carbon-nanotube-based applications in

57 This might open the door to chemical formulations being developed t

58 a relevant rodent model of CMV infection may open the door to clinical trials of safer and more immun

59 inhibitors of BCRP are now being developed, opening the door to clinical applications of BCRP inhibi

60 FNA sequencing opens the door to clinical trials in which patients unde

61 These results open the door to coherent manipulation of individual iso

62 Our results open the door to combining the power of psychophysics, c

63 mydomonas screens on an unprecedented scale, opening the door to comprehensive identification of gene

64 These observations open the door to correlated molecular motions and to cha

65 This approach opens the door to data-driven discovery of new synapse t

66 bosome structure determination by cryoEM has opened the door to defining structural differences betwe

67 observation of Bi-B double and triple bonds, opening the door to design main-group metal-boron comple

68 A with the NMR-active isotopes, 15N and 13C, opened the door to detailed analyses of macromolecular s

69 ression of carboxysomes in Escherichia coli, opening the door to detailed mechanistic analysis of the

70 ction for mechanical bond formation, finally opens the door to detailed investigation of these challe

71 This work opens the door to develop an array of methanotrophic bac

72 isms of GlcNAc addition and removal and have opened the door to developing key inhibitors towards thi

73 sical properties of objects, this experiment opens the door to developing other such secure proof-sys

74 of intravital imaging into the GC field has opened the door to direct investigation of certain key d

75 encapsulated within hexagonal boron nitride, opening the door to direct thermal imaging of nanoscale

76 f magnitude in artificial protein hydrogels, opening the door to diverse biomedical applications.

77 A similar response in mice has opened the door to elucidating the underlying neural mec

78 ween community structure and function, which opens the door to engineer communities with superior fun

79 tection, surface-based nanoplasmonic sensors open the door to enhanced, quantitative measurement capa

80 xpressed solely in the basal transfer region opens the door to epigenetic mechanisms operating in the

81 generate the designer azadipyrromethene that opens the door to exciting applications.

82 The genome sequence now opens the door to experimental manipulations designed to

83 Furthermore, it opens the door to explicit analysis of entity processes,

84 s accumulate in the pancreas of T1D patients opens the door to exploiting this noninvasive imaging me

85 neral and in the inner ear specifically, and open the door to exploration of the regulation of their

86 l(H2O2) adducts in chemistry and biology and opens the door to exploration of these species in oxidat

87 ut methods to measure gene expression levels open the door to explore transcriptional regulation usin

88 ul for studying fundamental spin behaviours, opening the door to exploring new applications such as u

89 Our work opens the door to exploring dynamical phases of matter a

90 ve measurement techniques for kinase studies opens the door to exploring the rich biochemistry and ph

91 A new study opens the door to exploring visual plasticity in entirel

92 This opens the door to fully realizing the promise of next-ge

93 ing the spectra of individual molecules thus opens the door to functional interrogations of intracell

94 These investigations open the door to further explorations of quantum many-bo

95 ood grasp of this singular functionality and open the door to further progress in this chemistry.

96 These observations have opened the door to further research into the role of cdk

97 esponsible for penis reduction in birds, and opens the door to further examination of this little und

98 d by room temperature feedback trapping, and opens the door to further studies of the binding of unmo

99 Furthermore, our findings open the door to future studies on curved crystals far f

100 These results are encouraging and open the doors to future clinical studies that will allo

101 odel that generates mature human astrocytes, opening the door to future studies of their function.

102 from single stripe to bubble domains, which opens the door to future applications based on magnetic

103 endogenous mRNA and restore protein function opens the door to future in vivo applications to treat R

104 The advent of electrospray ionization source opened the door to generation of multiply charged metal

105 Our results open the door to genetic dissection of mitochondrial Ca(

106 steps of the Human Genome Project, which has opened the door to genome research in farm animals.

107 Their approach opens the door to genotype-specific pharmacologic testin

108 the accuracy and quantity of sequence data, opening the door to greater opportunities in genomic res

109 obstacles associated with cryogenic analysis opens the door to greater utility of SIMS as a bioanalyt

110 nce times allowed, this approach potentially opens the door to ground-state cooling and coherent mani

111 roteins as reporters of gene expression, has opened the door to high-throughput in vivo studies that

112 Our work opens the door to high-precision measurements of various

113 ther optically/IR-transparent organisms, and opens the door to high-resolution systematic analyses of

114 nzyme and any substrate nucleotide, and thus opens the door to high-throughput screening for RNR inhi

115 y (LFM) enables sequence-specific detection, opening the door to highly multiplexed implementations f

116 ly invasive and percutaneous approaches have opened the doors to hybrid strategies, which may be the

117 Manipulation of the electroosmotic flow opens the door to hydrodynamic modulation (stopped-flow)

118 me or nucleotide sequence context bias would open the door to identify all putative drug resistance m

119 Our universally applicable method opens the door to identifying and exploring the specific

120 It opens the door to imaging complex cellular circuitries i

121 This type of precision dual-receptor circuit opens the door to immune recognition of a wider range of

122 citing post-processing analysis tools and to open the door to improving ab initio methods themselves

123 FlAsH-PALM opens the door to in vivo SR studies of microbial comple

124 amino acid selection are occasionally made, opening the door to inaccurate translation of the geneti

125 er, changes in population age structure have opened the door to increased prosperity.

126 In practical terms, this information has opened the door to increasingly targeted therapies as sp

127 derstanding the molecular basis of taste has opened the door to inferring taste abilities from geneti

128 apeutic intervention in metastatic melanoma, opening the door to innovative combinations that might e

129 The demonstrated flexible MgO-barrier MTJs opens the door to integrating high-performance spintroni

130 This work opens the door to integrating more complex H(+) channels

131 uch shorter than a series of XAS spectra and opens the door to kinetic analysis.

132 ritical thinking skills that it provides can open the door to many different careers.

133 the silicon-on-plastic (SOP) platform could open the door to many future applications, including tun

134 ach with purely inorganic systems, which may open the door to many types of applications.

135 to leverage diffusion selectivities, and has opened the door to many challenging and economically imp

136 an be controlled locally and non-invasively, opening the door to many other known therapies, such as

137 This study opens the door to mass production of correctly processed

138 More broadly, this study opens the door to mechanistic investigations of circuit

139 real-time analysis of single vesicle fusion opens the door to mechanistic studies of how SNARE and a

140 This observation opens the door to merging magnetoelectrics and magnetoel

141 Recent progress in nanorod growth opens the door to metallic sealing for these technologie

142 The sequenced genome opens the door to molecular analysis of single-cell rege

143 nd is compatible with biological conditions, opening the door to monitor remotely (i.e., via imaging)

144 nding of this nutrient-sensitive pathway may open the door to more intelligent, effective diet design

145 s value to be had from this approach, and it opens the door to more in-depth characterizations at the

146 Anatomical tumor-specific devascularization opens the door to more sophisticated partial nephrectomy

147 This methodology opens the door to much cheaper and increased capacity fo

148 easily executed in vivo SPME is now possible opening the door to near endless sampling opportunities.

149 s for handling the whole-brain data sets has opened the door to neuroanatomical studies at an unprece

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

151 arrays fabricated on plastic substrates and open the door to new applications for these important bi

152 sed to manipulate the behaviors of SLIPS and open the door to new applications of this emerging class

153 dimerization and biophysical coupling could open the door to new approaches and targets to treat and

154 This important discovery will open the door to new avenues of investigation and potent

155 Such observations open the door to new electrochemical applications of con

156 These findings open the door to new strategies for improving perfusion

157 These results open the door to new therapeutic applications for the us

158 id containing FXI-3'UTR.These results should open the door to new therapeutic targets for thrombosis

159 ded robust Weyl semimetal candidate but also open the door to new topological Weyl physics that is no

160 pic exchange in 5d and 4d oxides and halides open the door to new types of magnetic ground states and

161 These results open the door to new, potentially superior, approaches t

162 ctions of the myocardium and epicardium have opened the door to new approaches for healing the injure

163 he alternative pathway C3 convertase and has opened the door to new therapeutic approaches.

164 actual diploid genome sequence in a sample, opening the door to new approaches in genomic biology an

165 ancing a number of existing applications and opening the door to new developments.

166 pecies with half-life exceeding 50 mus, thus opening the door to new opportunities for hydride-transf

167 ss-couplings of alkyl electrophiles, thereby opening the door to new opportunities in asymmetric cata

168 gahertz response of metallic nanostructures, opening the door to new optomechanical device strategies

169 ds for solar cells and photodetectors, while opening the door to new possibilities in ionizing-radiat

170 ndidate genes in model organisms, our method opens the door to new models for studying diseases.

171 The highly convergent synthetic approach opens the door to new NP-based combination therapies for

172 ducible gene expression system to sugar cane opens the door to new opportunities for basic research a

173 ucturally novel vindoline analogues but also opens the door to new strategies for the synthesis of vi

174 This finding opens the door to new types of posttranslational modific

175 large amounts of lineage data accessible and opens the door to new types of statistical analysis of c

176 th of large-scale genome sequencing projects opens the doors to new approaches to study the relations

177 ugh such reconsolidation manipulations might open the door to novel treatment approaches for psychiat

178 This could open the door to novel treatments for numerous vagally m

179 w susceptibility to known kinase inhibitors, opening the door to novel specific therapeutic options f

180 Such precision opens the door to numerous applications of mass spectrom

181 biological findings, our developed protocols open the door to other applications of transition path s

182 Once we open the door to other forms of functional specializatio

183 ides and tuned directed organic vertices has opened the door to other types of novel materials.

184 of the samples with that in literature, this opens the door to other potential studies that can be ma

185 2-PEFA also opens the door to perform more rapid and reliable polari

186 he computation time for routine analyses, it opens the door to performing calculations that may have

187 w information on mechanisms of tolerance and opened the door to pilot clinical trials.

188 biliverdin and bilirubin, and ferritin, have opened the door to potential therapeutic and disease-mon

189 erve as anchors for water-soluble Au-NPs and opens the door to potential biomedical applications of N

190 s voluntarily signal their current location, opens the door to powerful studies on human movement.

191 heterozygosity of the C. albicans genome and open the door to produce microorganisms with genetic cod

192 ctivity declines with age, a change that may open the door to progression of neurodegenerative disord

193 l by diffusion through the septal junctions, opening the door to quantitative understanding of the me

194 Our technique opens the door to quantitative analysis of time-dependen

195 physiologically relevant concentrations and opens the door to quantitative studies of the cellular r

196 Digital fidelity opens the door to quantum dot architectures free of intr

197 slices and in somatosensory ganglia in vivo, opening the door to rapid optical mapping of neuronal ex

198 This architecture for artificial muscles opens the door to rapid design and low-cost fabrication

199 l is maintained by specific immune responses open the door to rational design of immunotherapeutic st

200 This work would open the door to real-time diagnostic assays for a wide

201 These results open the door to realizing integrated optical meta-circu

202 eld properties of localized SPhP resonances, opening the door to realizing narrow-band infrared sourc

203 pin-polarizations in the quantum Hall regime opens the door to realizing Majorana modes using two-dim

204 bility to include worn specimens in analyses opens the door to reconstructing the diets of many more

205 erimental evidence of recent predictions and open the door to room-temperature skyrmion spintronics i

206 This method opens the door to routine systematic studies of neuroana

207 ith spectral tunability and transferability, opens the door to scalable integration of high-quality q

208 ucleic acid sequencing and mass spectrometry open the door to screening plants by the sequences of th

209 lishes GFP as a multifunctional scaffold and opens the door to selective manipulation of diverse GFP-

210 rmed by whole-genome sequencing (WGS), which opens the door to serotype determination using WGS data.

211 ivate Si-H bonds through eta(1) coordination opened the door to several unique reduction processes.

212 endent of conventional clinical information, opening the door to similar advances in other solid tumo

213 This opens the door to similar separations for intact protein

214 e limitations of current technologies, while opening the door to solving significant challenges in pr

215 d a direct constraint on its composition and opened the door to spectroscopic investigations of extra

216 in Hall effect even at room temperature, and opens the door to spin field effect transistors.

217 ge-scale analysis of epistasis tractable and opens the door to statistically rigorous testing of inte

218 This opens the door to structure-function studies to identify

219 pand the current knowledge of HKR structure, opening the doors to studies on their widespread and pha

220 rsible ultrafast phenomena of materials, and opens the door to studies involving the single-frame cap

221 tion and optical readout of membrane voltage opens the door to studies of electrophysiology in a huge

222 e biologic underpinnings of the disease have opened the door to study investigational agents that tar

223 whole genome bisulfite sequencing (bis-seq) opens the door to study DNA methylation at single CpG si

224 This opens the door to sub-angstrom resolution structure solu

225 gy directly into a mechanical response, thus opening the door to surface-chemistry-driven actuator an

226 ethod that overcomes some of these problems, opening the door to systematic, reliable, and reproducib

227 Our resource opens the door to systematic analysis of regulatory prog

228 both wild-type and mutant egg chambers, and opens the door to testing of pharmacological inhibitors

229 Such observations should open the door to the application of new and powerful gen

230 tients with primary hyperparathyroidism, and open the door to the continued study of the endocrine ef

231 This could open the door to the design of chiral and membrane-speci

232 These dipeptide amide inhibitors open the door to the design of potent and highly selecti

233 It will also open the door to the development of novel molecular spin

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

235 ue to the lack of phase pure materials, will open the door to the fundamental studies of VO2 polymorp

236 These findings open the door to the identification of other members of

237 These findings open the door to the identification of proteins targeted

238 We believe that these results will open the door to the physics of FQHE and other collectiv

239 city of the examined synthetic adjuvant (2b) open the door to the pursuit of a new series of structur

240 silencing in a particular tissue, this will open the door to the rapid development of additional dru

241 The findings open the door to the testing of the thioredoxin system i

242 The above expansion and reorganization may open the doors to the discovery of related transposons i

243 of high-throughput genotyping technology has opened the door to the era of personal genetics, which b

244 complexity of molecular structures, has now opened the door to the longstanding goal of precisely co

245 population, and across multiple species, has opened the door to the possibility of answering some lon

246 lications for treatment of HCV infection and opened the door to the possibility of genetic marker-gui

247 nsed phase with unprecedented accuracy, thus opening the door to the long-sought "universal model" ca

248 miR-605, a miRNA identified only in primate, opening the door to the study of nonconserved miRNAs.

249 The array opens the door to the characterization of genetic divers

250 ilability of isolated receptor conformations opens the door to the concept of "reverse pharmacology"

251 ted using two different polymer systems, and opens the door to the construction of 2D hierarchical st

252 lles from the surface of inorganic particles opens the door to the construction of previously inacces

253 d homocrotylations of carbonyl compounds and opens the door to the development of catalytic asymmetri

254 g inflammation via modulation of DC function opens the door to the discovery of other nanoparticle ty

255 arrays, combined with their high resolution, opens the door to the functional restoration of sight in

256 The presence of Glu317 opens the door to the possibility of a double-displaceme

257 reasonable times of much bigger objects and opens the door to the possibility of clinical imaging wi

258 This opens the door to the possible discovery of high-perform

259 This discovery opens the door to the rational synthesis of triple-bonde

260 the rapid synthesis of the target oligomers, opens the door to the study of precision-engineered olig

261 The observation of such a time crystal opens the door to the study of systems with long-range s

262 This simple method opens the door to the synthesis of a variety of C-termin

263 The cloning of Sr35 opens the door to the use of biotechnological approaches

264 Our result opens the door to the use of DNA nanostructures as gener

265 This work opens the door to the use of molecules as a versatile qu

266 Moreover, the study opens the doors to the possibility of a joint treatment

267 rucial to understand their function and will open the door to therapies that prevent or correct micro

268 gence of high harmonic generation techniques opens the door to this possibility.

269 Our study has opened the door to treat Duchenne cardiomyopathy with De

270 The control of this system by DNA strands opens the door to trinary logic and to systems containin

271 This demonstration opens the door to ultra low sample consumption SFX using

272 Our study opens the door to understand the molecular mechanism of

273 umour marker specific for ovarian cancer and open the door to understanding the function of multiple

274 re we review recent evidence that is finally opening the doors to understanding the cellular and mole

275 proteins (RNABPs) interact with target RNAs opens the door to understanding the vast complexity of R

276 Overall, these analyses open the door to using the Arabidopsis trichome cell wal

277 an important pathway in an edible plant and opens the door to using metabolic engineering to systema

278 This observation opens the door to using polymer theory to clarify our ge

279 This paper opens the door to using sophisticated statistical models

280 techniques and ultrafast temporal response, opening the door to various applications in elemental an

281 This opens the door to various applications for non-invasive

282 nts permitted neuronal per transcription and opens the door to vastly simplified experiments in gener

283 e to the visible and the near infrared, thus opening the door to very low-threshold, highly unidirect

284 This may open the door to visual applications of ionospheric heat