ライフサイエンスコーパス: promise to

1 Machine learning approaches promise to accelerate and improve success rates in medic

2 Integrative analyses using LIGER promise to accelerate investigations of cell-type defini

3 gical approaches have no equivalent to date, promise to accelerate our understanding of musculotendin

4 Genomic selection holds a great promise to accelerate plant breeding via early selection

5 KI mice expressing functional human BCRs promise to accelerate the development of vaccines for HI

6 Our tool promises to accelerate and improve the quantification of

7 neration RNAi pathway-based therapeutics and promises to accelerate our search for novel and effectiv

8 aking it accessible to nonexperts, and fast, promising to accelerate glycan research.

9 materials and organic semiconductors offers promise to achieve high spin injection efficiency.

10 Deep neural networks hold promise to achieve similar or even better performance, b

11 lectrochemical (PEC) cells, which hold great promise to address global energy and environmental issue

12 d with photonic crystal (PC) structures hold promise to address many of the aforementioned challenges

13 nslational modification that has shown great promise to address these issues: improving half-life, re

14 These properties give LFMs promise to address two significant issues in conventiona

15 Carbon nanotubes (CNTs) promise to advance a number of real-world technologies.

16 address multiple delivery barriers and hold promise to advance efficacy of therapeutics for diseases

17 text and analytics, these signals hold great promise to advance neuroscience via real-world data.

18 , Cancer Systems Immunology holds incredible promise to advance our ability to fight this disease.

19 Personalized medicine promises to advance and improve health by targeting the

20 R technology, and high-throughput approaches promises to advance our scientific knowledge and acceler

21 cular genetics and traditional animal models promises to advance our understanding of birth defect et

22 Research that uses stem cell-based chimeras promises to advance our understanding of human developme

23 ciation for these mechanisms of deliberation promises to advance our understanding of intertemporal d

24 of the genetic regulation of gene expression promises to advance our understanding of the genetic bas

25 This systems-based framework promises to advance understanding of the circadian timek

26 e key molecules involved during this process promises to aid in efforts to block the metastatic casca

27 In addition, it promises to also provide intraprostatic tumor localizati

28 rage both fetal brain and organoid resources promise to answer major questions of brain biology and p

29 These results are promising to apply in potato breeding programs with the

30 Herein, a new strategy that promises to approach the physical limit of flow boiling

31 h in this field and outline a framework that promises to assess the contribution of both ecological a

32 The proposed method promises to augment performance without abandoning curre

33 Electrochemical CO reduction holds the promise to be a cornerstone for sustainable production o

34 mpounds for challenging targets, which holds promise to be a general approach for the development of

35 long-coherence-time magnons, such polaritons promise to be a potential candidate for quantum informat

36 e detection of multiple analytes holds great promise to be a practical tool.

37 by a factor of 4-6 compared to SCS and holds promise to be beneficial for vascularized composite allo

38 these increasingly comprehensive assessments promise to be central tools for sustainable development

39 These methods promise to be especially important for longitudinal stud

40 onally, the fabricated thin film shows great promise to be integrated with the flexible electronic de

41 SC-Ads therefore hold promise to be more potent vectors and vaccines than curr

42 Although CNT shows the promise to be used as reinforcement in a high modulus/st

43 onse to MPO oxidative machinery and hold the promise to be used as self-calibrating carbon nanomateri

44 What promised to be a refreshing addition to cumulative cultu

45 s rising time-temperature indicators (TTIs), promised to be an alternative to unsatisfactory roasting

46 DNA promises to be a high density data storage medium, but p

47 hanism could be rather nonspecific The assay promises to be a powerful tool for the classification of

48 It promises to be a powerful tool to mimic the complex mult

49 The solar thermochemical route also promises to be an attractive means of achieving this obj

50 d the BOLD signal's faster response function promises to be beneficial for rapid event-related (rER)

51 ing the tumor immune microenvironment (TIME) promises to be key for optimal cancer therapy, especiall

52 dem photochemical, beta-fragmentation method promises to be useful for site-specific production of dA

53 of selecting the protein sequences that are promising to be crystallized.

54 The technique is promising to be further applied to other complicated hig

55 enhance neutron scattering contrast, has the promise to become a powerful tool for characterizing the

56 Simulations promise to become an effective tool to predict hemodynam

57 More generally, the methods promise to become valuable tools for polymorphic screeni

58 Crohn disease are now available and have the promise to better control sepsis and maintain fecal cont

59 mprovements in MRI technology contribute and promise to better define the typical features of multipl

60 e synergistic gene-nano strategy holds great promise to boost the MRI effects of a wide variety of co

61 olic pathways, computational models hold the promise to bridge this gap between data and biological f

62 The human enteroid model promises to bridge some of the gaps between traditional

63 ping a better understanding of consciousness promises to bring, for instance in diagnosing disorders

64 ated by advances in genomics and proteomics, promises to broaden the responder patient population.

65 RNA sequencing (scRNA-seq) leading the way, promises to change this.

66 In vivo mRNA display libraries promise to circumvent the limitations of mass spectromet

67 atheterization protocol described here holds promise to clarify the diagnosis and clustering of pulmo

68 RBD subunit vaccine formulations hold great promise to combat COVID-19.

69 As such, it shows great promise to complement and potentially replace SRID in a

70 Furthermore, recent breakthroughs promise to connect ultrasound to neurons at the genetic

71 lticomponent supramolecular copolymerization promises to construct complex nanostructures with emerge

72 ietic stem and progenitor cells (HSPCs) hold promise to cure a wide array of hematological diseases,

73 CRISPR-mediated gene editing shows promise to cure genetic pathologies, although hitherto i

74 n dynamics below diffraction limits, showing promise to decipher intermolecular interactions of biomo

75 dataset from the NIH LINCS program holds the promise to deconvolute a wide range of biological questi

76 aging (MALDI MSI) technologies offers a high promise to deeper understand PL metabolism and isomer-sp

77 (FXI) is a prominent drug target as it holds promise to deliver efficacious anticoagulation without a

78 tic details of catalytic reactions and holds promise to deliver practical strategies to enable the ra

79 This nanoparticle system showed great promise to deliver therapeutic agents to aHSC to treat l

80 Clarity on these matters promises to deliver modelers with a tractable and reliab

81 gue challenge studies, one of these vaccines promises to deliver solid, long-lasting immunity after a

82 onfinement of guests inside nanoporous hosts promises to deliver unusual catalytic or opto-electronic

83 ascent axial organic heterostructures, which promises to deliver useful applications in energy conver

84 sed for any DLC-based organic semiconductor, promising to deliver a good balance between mobility and

85 y and meat products can provide considerable promise to develop food products with lower saturated an

86 rations inherent to these smart lenses holds promise to develop highly versatile new components for a

87 n patients with critical illness holds great promise to develop targeted host-directed immunotherapy

88 The present study underscores that MOFs are promising to develop artificial LHCs, but that to achiev

89 f solid electrolyte separators is especially promising to develop well-performing lithium metal anode

90 with some key goals for future research that promise to direct the field of halide photoredox chemist

91 TACs) has gained tremendous momentum for its promise to discover and develop new therapies.

92 Subcellular RNAseq promises to dissect transcriptional dynamics but is not

93 Precision medicine promises to dramatically improve patient outcomes and re

94 position and entanglement, quantum computers promise to efficiently deliver accurate results for many

95 Computational error correction promises to eliminate sequencing errors, but the relativ

96 We argue that, despite its promise to elucidate the evolution of reproductive isola

97 excluded evolution and the environment, but promised to embrace the entire living world and the whol

98 This method promises to empower scholars with a quantitative and dat

99 pin current, invokes interesting physics and promises to empower transformative, energy-efficient mem

100 Lithium metal anodes hold great promise to enable high-energy battery systems.

101 ll, the method and data presented here holds promise to enable important leads in developmental biolo

102 unctional human-on-a-chip systems hold great promise to enable quantitative translation to in vivo ou

103 This methodology promises to enable new medicinal chemistry programs aime

104 This strategy promises to enable selective targeting of bacteria based

105 a combination of tools and approaches holds promise to end M leprae transmission.

106 h chitosan and DC programming may hold great promise to enhance efficacy of DC-based vaccination to t

107 mbine hard and soft magnetic phases are very promising to enhance the effective magnetic anisotropy w

108 ioluminescence-based imaging approaches that promise to enlighten our understanding of in vivo gene a

109 pigenetic processes, sex and the environment promise to enlighten the multitude of pathways that lead

110 inflammatory kidney diseases, these studies promise to enormously expand our understanding of renal

111 systemically available immunostimulatory NCP promises to enter clinical testing as an immunotherapy a

112 ts on the human corneal stroma post CXL, and promises to establish optimized treatment modalities in

113 nd novel approaches for the use of this data promise to expand the use of pressure-guided heart failu

114 -component flavin-dependent hydroxylases and promises to expand our understanding of their catalytic

115 of novel immune-priming approaches holds key promises to expand the pool of responders to immunothera

116 iency, specificity and scalability, E-Golic+ promises to expedite development of additional sophistic

117 The new language and algorithms promise to facilitate the precise determination and desc

118 d material, based on a design principle that promises to facilitate spin and charge transport.

119 This discipline promises to facilitate the advent of microbiome-based pr

120 ndicate where population change is occurring promises to facilitate the monitoring of difficult-to-st

121 how novel integrative approaches hold great promise to fill this gap in our knowledge.

122 velopment of new sequencing applications and promise to flood current databases with raw data.

123 learning based on electronic health records promises to forecast acute kidney injury up to 48 hours

124 maging (MRI) and other imaging modalities is promising to furnish complementary information for accur

125 GluCEST methodology thus shows promise to further elucidate the progression of the psyc

126 vel approaches to drug development hold much promise to further enhance SLE outcomes.

127 tion for developing artificial granules that promise to further our mechanistic understanding of thei

128 BALF of children with chILD, and these hold promise to further our understanding of chILD.

129 ne subset, whose functional characterization promises to further harness the potential of MSCs for ca

130 Consequently, genomic analyses promise to generate important new insights into the effe

131 Wrinkled pea showed promise to generate new pea flours with distinct functio

132 of surgical data recording technology shows promise to generate robust qualitative and quantitative

133 Thus, epigenomics promises to generate a significant amount of new knowled

134 ic and patient-specific in vivo environment, promising to generate more effective and safe therapies

135 Consensus-based methods like ConsensusDriver promise to harness the strengths of different driver pre

136 calation to the tumor bed, capabilities that promise to hasten the translation of this groundbreaking

137 Neuromorphic engineering promises to have a revolutionary impact in our societies

138 Our findings promise to help develop novel target-specific interventi

139 plication of anti-inflammatory interventions promises to help us achieve a more precise and personali

140 g the anticancer properties of vitamin C are promising to help identify patient populations that may

141 These techniques promise to identify functional phenotypes associated wit

142 This approach thus holds promise to identify other transient protein-protein inte

143 Federation echocardiographic criteria holds promise to identify patients earlier, when prophylaxis i

144 almonella surveillance and outbreak response promises to identify and stop outbreaks in the future.

145 Elucidation of these pathways promises to identify targets for specific inhibition of

146 mutation status in NSCLC patients, which is promising to identify NSCLC patients sensitive to EGFR-T

147 evelopment of new electrosynthetic chemistry promises to impact the efficiency and sustainability of

148 esults indicate the video was acceptable and promising to impact IRD knowledge among AA and non-AA ki

149 tile memory crossbar arrays have shown great promise to implement parallel computations in artificial

150 The expression of SWEETs promises to implement insights into many other cellular

151 tailored to symptom area of choice may hold promise to improve associated burden.

152 on in kidney transplant recipients holds the promise to improve clinical outcomes.

153 Such approaches promise to improve drug specificity by reducing off-targ

154 Methods for controlling enzyme properties promise to improve existing applications and enable new

155 trials using intranasal oxytocin (OXT) show promise to improve feeding deficits in infants with PWS.

156 Quantum-enhanced measurements hold the promise to improve high-precision sensing ranging from t

157 an early stage of development but have great promise to improve MM treatment.

158 p people ask more and better moral questions promise to improve moral reasoning.

159 ore, position-wise pairing patterns have the promise to improve target prediction if incorporated int

160 Emerging long-read sequencing technologies promise to improve the balance between these factors but

161 (CCK2R) targeting peptide probes holds high promise to improve the clinical management of patients w

162 controlled and sustained paclitaxel delivery promise to improve the clinical outcomes of first-genera

163 ation and analysis techniques, however, show promise to improve the clinical utility of extracellular

164 ) variants with increased activity offer the promise to improve the treatment of bleeding episodes in

165 Multifunctional nanocarriers (MNCs) promise to improve therapeutic outcomes by combining mul

166 tely predict fluoroquinolone (FQ) resistance promise to improve treatment outcomes for individuals wi

167 The ARHMD system promises to improve accuracy and to eliminate focus shif

168 ng catalysis is a fundamental challenge that promises to improve catalytic properties.

169 l modeling and metabolic engineering efforts promises to improve industrially relevant strain design.

170 Though artificial intelligence (AI) promises to improve the access and quality of healthcare

171 ion of this method into the clinical setting promises to improve the management of patients by avoidi

172 h high-resolution mass spectrometry appeared promising to improve the sensibility and allow sulfopept

173 or diagnosis and treatment, holds tremendous promise to increase access to broadly specialty care.

174 t-specific synthetic metabolic pathways hold promise to increase crop yield and nutritional value.

175 , and Rif2, the Mre11 complex, and Tel1(ATM) promise to increase our insight into the coordination be

176 g of engineered T-cell immunotherapies holds promise to increase the effectiveness of adoptively tran

177 prevalence of such coherence effects holds a promise to increase the efficiency and robustness of tra

178 ENO in the renal preservation solution holds promise to increase the number and quality of kidneys av

179 100, 200, and 300 ms, and holds significant promise to increase the scope and applicability of GC in

180 This dynamical model promises to increase our quantitative understanding of m

181 and improve efficacy of other vaccines also promises to increase patients' health and quality of lif

182 they create additional electron-hole pairs, promising to increase cell efficiencies from the single-

183 its of agreement (95% confidence intervals), promising to indicate reliably the clinical need for ant

184 Preschool-based interventions offer promise to instill healthy behaviors in children, which

185 Inhibition of 15-LOX-1 holds promise to interfere with regulated cell death in inflam

186 residual disease, clonal heterogeneity, and promise to make clinical trials more innovative and info

187 roadly accessible mental health programs are promising to make a difference in the field of adolescen

188 rrent state of the art imaging systems while promising to make spectral scanning even faster.

189 to probe tissue microstructure in vivo holds promise to map reactive microglia using MRI scanners.

190 of genomics resources for the target group, promise to maximize the effect of future RRBS studies.

191 improved (micro)nutrient contents hold great promise to meet the increasing demand of nutritionally l

192 Immunotherapy holds the promise to meet this need, because it does not rely on t

193 control of incorporated growth factors which promises to minimize complications from the supraphysiol

194 ONs) for magnetic levitation (MagLev), which promises to more precisely measure the density of protei

195 While fluorescence imaging seems promising to non-intrusively interrogate AKI-related bio

196 y mortality reviews, network structures show promise to objectively elucidate survivability from comp

197 ic circuits and neuronal subpopulations that promise to offer a refined view of the circuit mechanism

198 The genetically encoded photo-cross-linkers promise to offer a temporally controlled tool to map tra

199 rication have been long sought after as they promise to offer substantial improvements of performance

200 eering apparatus that harness quantum theory promises to offer practical advantages over current tech

201 The concept holds promise to open new frontiers in many branches of fundam

202 ade every aspect of daily life, our findings promise to open the way to a deeper comprehension of the

203 tumors, PET imaging using (89)Zr-Df-ALT-836 promises to open new avenues for improving future diagno

204 tive in this new capillary configuration and promises to open new avenues in tuning LC separations.

205 ses of whole-slide, multimarker data, and it promises to open new possibilities in many research and

206 ed profiling of markers within a single cell promise to overcome barriers to T-cell discovery in huma

207 es and organic semiconductors highlights its promise to overcome energy barriers at the hard-soft mat

208 Nanoparticles hold tremendous promise to overcome the pharmacokinetic challenges and o

209 ate neuroscience, but optogenetics holds the promise to overcome this hurdle.

210 ms sidesteps the need for tissue culture and promises to overcome a bottleneck in plant gene editing.

211 ged as a novel pharmacological modality that promises to overcome small molecule limitations whilst r

212 particles (NPs) that permit active targeting promise to play a key role in cancer therapy moving forw

213 tal approaches, chemoinformatics holds great promise to predict new catalyst structures, rationalize

214 ., regenerative and nanomedicine) have shown promise to prevent HF postmyocardial infarction in anima

215 milarity with biological nervous systems are promising to process spatiotemporal information and can

216 Cancer vaccines hold great promise to produce antigen-specific T cell immunity for

217 rons in laser wakefield accelerators has the promise to produce high quality images.

218 require little starting material show great promise to provide an understanding of the heterogeneity

219 emerging as important therapeutic tools that promise to provide better corticosteroid sparing effects

220 ccelerating knowledge and continued research promise to provide further progress in combating this co

221 Genetic studies promise to provide insight into the molecular mechanisms

222 on with translational NHP models such as AT, promise to provide insights into the brain systems under

223 Such integrative proteogenomics approaches promise to provide insights into the functions of the al

224 This also promises to provide a general approach for the character

225 The model promises to provide a robust platform for studies of ALI

226 es that exploits these endogenous approaches promises to provide better solutions for site-specific d

227 s, and that further work in nonmodel systems promises to provide exciting insights in the years to co

228 formation in relation to emotional variables promises to provide important insights into the pathophy

229 As such, our study promises to provide insight into universal mechanisms th

230 the actual distribution of orientations and promises to provide key molecular insights into the topo

231 We also review novel research, which promises to provide more detailed understanding of indiv

232 x greater than any terrestrial peat bog, and promises to provide new insight into environmental chang

233 ral resolution of light control, optobiology promises to provide new insights into the coordination o

234 Optogenetic stimulation promises to provide new ways to test the functional sign

235 Understanding the regulation of condensates promises to provide novel insights into how organization

236 ibody (bnAb) infusion and active vaccination promises to provide protection of infants against MTCT f

237 gene therapy appears promising for the GSDs, promising to provide more efficacious therapy for these

238 keeps the interdental papilla intact, seems promising to provide optimal biomaterial protection and

239 esolution beyond the diffraction limit, thus promising to provide structural and functional insights

240 ng iPSC-based technologies hold considerable promise to push forward efforts to combat Alzheimer's di

241 with ultrasound particle manipulation holds promise to push the limits of conventional Raman spectro

242 This approach promises to rapidly reduce IgE-dependent mast cell activ

243 -inspired computing for machine intelligence-promises to realize artificial intelligence while reduci

244 nt of immunity for most RNA viruses and have promise to reduce infection or disease during major epid

245 signs are an underused intervention and hold promise to reduce malaria transmission in sub-Saharan Af

246 in a non-invasive manner offers significant promise to reduce severe side effects caused by systemic

247 tion, concluding that the latter shows great promise to reduce the burden of gonorrhoea, even if the

248 c and treatment strategies holds significant promise to reduce the burden of thrombotic complications

249 rkets, or almost half of what EU governments promised to reduce under their Kyoto Protocol commitment

250 target cells transitioning to proliferation promises to reduce risk of recurrence.

251 namics, and propose new directions that hold promise to resolve competing hypotheses and contrasting

252 ingle-cell DNA sequencing (SCS) technologies promise to resolve ITH to a single-cell level.

253 rsonalized approach to psychopathology holds promise to resolve thorny diagnostic issues, generate no

254 er landscape spatial scales (>/=1000s of ha) promises to resolve these limitations, consistent with t

255 Single-cell gene expression studies promise to reveal rare cell types and cryptic states, bu

256 ve (examining standing variation) approaches promises to reveal how natural selection shapes quantita

257 ms underlying stress responses in beta-cells promises to reveal new therapeutic opportunities for typ

258 generated tremendous interest with the bold promise to revolutionize clinical practice in psychiatry

259 ed from human pluripotent stem cells holds a promise to revolutionize drug discovery, but only if lim

260 These groundbreaking technological advances promise to revolutionize genetic therapy and, as I discu

261 State-of-the-art metal 3D printers promise to revolutionize manufacturing, yet they have no

262 Laser wakefield accelerators promise to revolutionize many areas of accelerator scien

263 ch as nontoxic gallium alloys, show enormous promise to revolutionize stretchable electronics for nex

264 aterializing into new technologies that hold promise to revolutionize the everyday life.

265 Affordable genome sequencing technologies promise to revolutionize the field of human genetics by

266 nd artificial intelligence in particular has promised to revolutionize medical practice from the allo

267 the IEDDA reaction is interdisciplinary and promises to revolutionize chemical biology, radiochemist

268 Machine learning promises to revolutionize clinical decision making and d

269 aocular pressure (IOP) at any given time and promises to revolutionize the management of glaucoma pat

270 ilient to climate change, and whose benefits promise to scale from physiology to breeding and to deli

271 ular doping of organic electronics has shown promise to sensitively modulate important device metrics

272 These tools hold promise to shed light on both lipid trafficking pathways

273 ctrocatalysts but at a fraction of the cost, promising to significantly reduce overall fuel-cell tech

274 e scale of the devices shortens, the devices promise to spatially disperse the temporal width of X-ra

275 Participants promised to spend money over the next 4 weeks either on

276 recently developed automated software tools promise to standardize the analysis and interpretation o

277 Locus coeruleus imaging also holds the promise to stratify patients into clinical trials accord

278 These advances promise to streamline the development of GPCR-targeted m

279 Deep learning analyses have shown much promise to study disease heterogeneity.

280 bO) and deoxygenated (HbR) hemoglobin, holds promise to study functional activity from motor, visual,

281 Although machine learning (ML) models promise to substantially accelerate the discovery of nov

282 FFR(angio) has the promise to substantially increase physiological coronary

283 diffraction, and crystalline MD simulations promises to substantially advance modeling of biomolecul

284 Singlet fission promises to surpass the Shockley-Queisser limit for sing

285 This higher-throughput analysis is promising to systematically interrogate and perturb aber

286 Rapid and portable diagnostics hold the promise to tackle the spreading of diseases and decentra

287 been recently introduced and showed a great promise to the biological separation and encapsulation d

288 dditive manufacturing by an electron beam is promising to this end, but there is a formidable obstacl

289 These technologies promise to transform basic biological research, the phar

290 These highly desirable attributes promise to transform current light-emitting devices, pho

291 uantum mechanical embedding methods hold the promise to transform not just the way calculations are p

292 Advances in precision molecular imaging promise to transform our ability to detect, diagnose and

293 nd understanding recovery from acute illness promise to transform the methods of pulmonary and critic

294 red during cardiovascular magnetic resonance promises to transform clinical care by advancing pathoph

295 l melatonin-tamoxifen drug conjugates may be promising to treat BC and may help offset the adverse ef

296 ta science has attracted a lot of attention, promising to turn vast amounts of data into useful predi

297 tools through which the ISR can be modulated promises to uncover new avenues to diminish pathologies

298 tor patients less invasively posttransplant, promises to usher in the era of precision medicine.

299 Review we address compounds that have shown promise to various degrees in interfering with the filov

300 e innovations in drug development hold great promise to yield agents with unique properties that are