ライフサイエンスコーパス: great promise

1 oducts in biofluids and living tissues holds great promise.

2 rget proximally in disease pathogenesis hold great promise.

3 molecular environment are emerging and show great promise.

4 tics for cancer-associated lymphoedema holds great promise.

5 very to specific cells within the lung holds great promise.

6 eceived considerable attention, as they hold great promise and potential as a powerful tool for cance

7 , advances in penile tissue engineering show great promise and, in combination with gene therapy and

8 ABSTRACT: Hmox1 protein holds great promise as a biomarker of in vivo stress responses

9 The proposed biosensor showed great promise as a complementary tool for real sample de

10 Untargeted metabolomic approaches hold a great promise as a diagnostic tool for inborn errors of

11 Pdots hold great promise as a luminescent probe to diagnose cancer

12 BV serology assay platform we designed shows great promise as a more accessible alternative for HBV s

13 L-Carnosine has shown great promise as a neuroprotective agent in experimental

14 This aptasensor holds great promise as a new point-of-care diagnostic tool for

15 ping genetically engineered probiotics holds great promise as a new therapeutic paradigm to promote h

16 Circulating cell-free mRNA (cf-mRNA) holds great promise as a non-invasive diagnostic biomarker.

17 Circulating tumor DNA (ctDNA) holds great promise as a noninvasive diagnostic tool to guide

18 PLD-MNA holds great promise as a novel, safe, effective, and self-appl

19 We believe PKM2 shows great promise as a PET reporter gene and to date is the

20 r-intense laser plasma interaction has shown great promise as a platform for next generation particle

21 These TPE arrays containing ePADs show great promise as a rapid, sensitive, and low-cost sensor

22 erformance atomic Fe PGM-free catalyst holds great promise as a replacement for Pt in future PEMFCs.

23 success of nusinersen, antisense drugs hold great promise as a therapeutic platform for the treatmen

24 results suggest that oral vaccination holds great promise as a tool for the conservation of apes and

25 Since its discovery, graphene has held great promise as a two-dimensional (2D) metal with massl

26 Resource rationality holds great promise as a unifying principle across theories in

27 Ecoinformatics methods hold great promise as a vehicle for capitalizing on the explo

28 new lead-free inorganic perovskite may offer great promise as an alternative, highly efficient solar

29 teria are photosynthetic prokaryotes showing great promise as biocatalysts for the direct conversion

30 MicroRNAs hold great promise as biomarkers of disease.

31 De novo-designed proteins(1-3) hold great promise as building blocks for synthetic circuits,

32 These materials have shown great promise as catalysts for methane oxidation and sim

33 Transition metal oxides show great promise as Earth-abundant catalysts for the oxygen

34 Cobalt complexes have shown great promise as electrocatalysts in applications rangin

35 Ferroelectric domain walls hold great promise as functional two-dimensional materials be

36 The results show that these structures hold great promise as high load bearing and impact-resistant

37 Bispecific antibodies show great promise as intrinsic combination therapies, but of

38 Although bacteriophages hold great promise as medical tools, clinical applications ha

39 range of cancers in clinical trials and show great promise as new additions to the cancer armamentari

40 Plasmonic nanoparticles hold great promise as photon handling elements and as channel

41 The 2D van der Waals crystals have shown great promise as potential future electronic materials d

42 ogether, the co-delivery system demonstrated great promise as potential treatment for MDR-related tum

43 lectivity, monoclonal antibodies (mAbs) hold great promise as research tools and therapeutic agents.

44 Complex liquid colloids hold great promise as transducers in sensing applications as

45 group participants concluded that VCA holds great promise as treatment for patients with particular

46 of nanomaterials within hydrogels has shown great promise, as a simple one-step approach, to generat

47 eterostructures of insulating materials hold great promise, as confirmed by perovskite oxide superlat

48 ical impedance spectroscopy (EIS) have shown great promise because of their label-free operation and

49 NAs for protein replacement therapies offers great promise but remains challenging.

50 chniques based upon deep-learning have shown great promise, but enthusiasm for applying these techniq

51 Techniques in deep learning hold great promise, but further prospective research is requi

52 Genomic testing carries great promise, but several ethical issues must be consid

53 erging neuromodulation approaches have shown great promise, but their refinement has been slow and fu

54 ferroelectric (AFE) compounds, however, show great promise due to their atypical polarization-versus-

55 se new types of hybrid electric devices show great promise especially for the design of self-powered

56 (DASAs) are negative photochromes that hold great promise for a variety of applications.

57 c-based conductive framework materials holds great promise for achieving efficient CO(2) reduction th

58 cancer immunotherapy and future agents show great promise for achieving potent immune activation whi

59 Liquid biopsies hold great promise for achieving precision medicine.

60 costly, generating genome-edited pigs holds great promise for agricultural, biomedical, and pharmace

61 ated plasmonic and catalytic activities hold great promise for analyzing chemical reactions by in sit

62 une systems by genetic engineering has shown great promise for antibody discovery, tolerance studies

63 rasensitive all-textile airflow sensor holds great promise for applications in smart textiles and wea

64 mentally benign lead-free oxides, which hold great promise for applications ranging from non-volatile

65 Unmixing algorithms have shown great promise for applications where samples contain man

66 This model offers great promise for basic understanding of how HIV-1 infec

67 This deep learning approach holds great promise for better understanding the global condit

68 at gold electrode surfaces, which have shown great promise for bioanalysis in complex milieu such as

69 NIR-II fluorophores have shown great promise for biomedical applications with superior

70 edle-injectable microcomposite cryogels show great promise for biomedical applications, especially in

71 Overall, this therapeutic strategy holds great promise for calmodulinopathy patients as it repres

72 ells (CTCs) at single-cell resolution offers great promise for cancer diagnostics and therapeutics fr

73 optive transfer of allogeneic NK cells holds great promise for cancer immunotherapy.

74 r of genetically modified immune cells holds great promise for cancer immunotherapy.

75 hese results suggest that the CDPGM NPs hold great promise for cancer theranostics.

76 Therapeutic enzymes hold great promise for cancer therapy; however, in vivo remot

77 Photodynamic therapy (PDT) holds great promise for cancer therapy; however, its efficacy

78 s indicate that several target pairings hold great promise for CAR therapy of AML.

79 nd human induced pluripotent stem cells hold great promise for cell-based therapies and drug discover

80 ssion of master transcription factors, holds great promise for cellular therapy.

81 Electronic health records hold great promise for clinical and epidemiologic research.

82 DNA detection with high sensitivity, showing great promise for clinical application and biomedical di

83 nsor exhibited high sensitivity and it holds great promise for clinical application and provides a ne

84 the defect of the present materials and hold great promise for clinical application.

85 (HSCs) is a rapidly advancing field showing great promise for clinical applications.

86 This holds great promise for compact accelerator building blocks an

87 d females with multiple sclerosis (MS) holds great promise for deciphering immunopathogenic disease m

88 limit of detection of 10pM and thereby shows great promise for detection of DA levels for early diagn

89 Therefore, MURs hold great promise for detection of kidney function in both p

90 ardiography, have emerged as techniques with great promise for determination of coronary microvascula

91 in the assessment of the human face, holding great promise for development as an objective tool for s

92 ctive loss-of-function (LoF) mutations holds great promise for devising novel therapeutic interventio

93 Our proposed approach holds great promise for discovering novel serum autoantibody b

94 m cell-derived cardiomyocytes (PSC-CMs) hold great promise for disease modeling and drug discovery.

95 Single-atom catalysts (SACs) show great promise for electrochemical CO(2) reduction reacti

96 atomically precise graphene nanoribbons hold great promise for electronic and optoelectronic applicat

97 om layered van der Waals (vdW) crystals hold great promise for electronic, optoelectronic, and quantu

98 , and other machine learning approaches hold great promise for elucidating the functional impact of b

99 Single cell RNA-Seq analysis holds great promise for elucidating the networks and pathways

100 On-chip photonic networks hold great promise for enabling next-generation high speed co

101 Hollow nanostructures have shown great promise for energy storage, conversion, and produc

102 Precision medicine holds great promise for establishing more accurate diagnoses,

103 catalyst demonstrated for CNT growth, holds great promise for expanding the understanding of nanocar

104 nic electrochemical transistors (OECTs) show great promise for flexible, low-cost, and low-voltage se

105 As such, our method holds great promise for future biological and clinical AP-MS a

106 intracellular drug-release systems, holding great promise for future cancer therapy.

107 ity and highlight burgeoning areas that hold great promise for future discoveries.

108 o achieve solar-to-chemical conversion is of great promise for future energy demands, but often limit

109 transition metal dichalcogenides (TMDs) hold great promise for future information processing applicat

110 In grapevine, GCN analysis has shown great promise for gene function prediction, however, mea

111 is viral vector and this delivery route hold great promise for gene therapy applications in both coch

112 ed into an adeno-associated virus (AAV) hold great promise for gene therapy.

113 3D morphometrics hold great promise for GSSCP classification.

114 serum.Therefore, the present electrode holds great promise for identification and quantification of d

115 Genome-wide association studies (GWAS) have great promise for identifying the loci that contribute t

116 x-ray free-electron laser (XFEL) pulses hold great promise for imaging function in nanoscale and biol

117 Cancer vaccines hold great promise for improved cancer treatment.

118 validated medical diagnostic AI systems hold great promise for improving access to care, increasing a

119 This approach holds great promise for improving delivery of therapeutics to

120 e shortcomings, and how new initiatives hold great promise for improving gender equality in academia

121 differentiated disease stratification holds great promise for improving individualized diagnosis and

122 P/HW Raman diagnostic platform developed has great promise for improving real-time in vivo detection

123 erapy (PTT) to treat many diseases, and hold great promise for improving the diagnosis and treatment

124 These new 3D RVC-Au electrodes showed great promise for improving the power generation of EFC

125 Plasmonic photoconductive antennas have great promise for increasing responsivity and detection

126 CTL)-based cancer immunotherapies have shown great promise for inducing clinical regressions by targe

127 grade transneuronal spread of AAV1 generates great promise for its application as a unique tool for m

128 ble functionalization of this material holds great promise for its potential diverse applications.

129 While sodium-ion batteries (SIBs) hold great promise for large-scale electric energy storage an

130 geable zinc-manganese dioxide batteries show great promise for large-scale energy storage due to thei

131 skyrmions in TI-based heterostructures with great promise for low-energy spintronic devices.

132 This framework holds great promise for lowering the detection threshold while

133 f extracellular cGAMP levels therefore holds great promise for managing cancer.

134 eversible switching of plasmonic color holds great promise for many applications, while its realizati

135 itive-content addressable memory (CAM)-shows great promise for mapping a diverse range of computation

136 ed II (NIR-II) imaging at 1100-1700 nm shows great promise for medical diagnosis related to blood ves

137 They hold great promise for metabolic engineering, but the behavio

138 Intestinal organoids offer great promise for modeling intestinal diseases; however,

139 The instrument holds great promise for monitoring the dynamics of heat evolut

140 d using the mono-exponential model has shown great promise for monitoring treatment response in prost

141 m, SN-38-encapsulated photonic micelles show great promise for multimodal cancer therapy.

142 nstration in swab samples, this system holds great promise for multiplexed detection in other clinica

143 ics, their monolayer 2D analogues have shown great promise for next-generation electronic materials a

144 noscale topological spin structures offering great promise for next-generation information storage te

145 the fast carrier dynamics in crystals holds great promise for next-generation petahertz electronics

146 ent and sample inputs and consequently shows great promise for next-generation point-of-care devices

147 t is becoming understood that microRNAs hold great promise for noninvasive liquid biopsies for screen

148 Understanding of this phenomenon offers great promise for novel treatment and detection strategi

149 icity and sensitivity, which in turn, offers great promise for numerous applications, spanning from b

150 l nonequilibrium macromolecular systems hold great promise for on-demand transformations, which resul

151 As such, the technique holds great promise for optimization of new composite electrod

152 hibit emergent physical phenomena and are of great promise for optoelectronic applications.

153 At the same time, there is great promise for penicillin allergy evaluation and de-l

154 printed hydrogels with angiogenic cells hold great promise for penile reconstruction to restore repro

155 tituents present in the human body and holds great promise for personalized health monitoring owing t

156 ation tests (NAATs)integrated on a chip hold great promise for point-of-care diagnostics.

157 smission electron microscopy (TEM) and holds great promise for potential applications in optoelectron

158 benefits in a small-volume reagent and holds great promise for practical medical use of DNA amplifica

159 Thus, DD-SRM holds great promise for precisely measuring extremely low abun

160 Molecular imaging holds great promise for precision oncology, complementing tiss

161 he examples investigated, our approach shows great promise for predicting in vivo anti-androgenicity

162 est in vitro-in vivo extrapolation and holds great promise for predicting toxicokinetics of per- and

163 Bead-based immunoassays have shown great promise for rapid and sensitive protein quantifica

164 Among these strategies, biosensors hold great promise for rapid detection of arsenic, in particu

165 Direct cardiac reprogramming holds great promise for regenerative medicine.

166 are needed, and machine learning (ML) shows great promise for research fields such as materials scie

167 settings, and while these technologies offer great promise for revolutionizing AF detection and scree

168 chargeable lithium (Li) metal batteries hold great promise for revolutionizing current energy-storage

169 ealization of the lithium-O(2) battery holds great promise for revolutionizing energy storage as it h

170 s such as capacitive deionization have shown great promise for salt removal and nutrient recovery, bu

171 Organic semiconductors hold great promise for SHC in an economical and environmental

172 tacking Na(0.67) MnO(2) materials have shown great promise for sodium-ion batteries.

173 spin-orbit coupling these materials may show great promise for spintronic applications.

174 -structured solid-state electrolyte exhibits great promise for SSLiBs owing to its high Li-ion conduc

175 thanide (Ln(3+)) doping in alumina has shown great promise for stabilizing and promoting desirable ph

176 The design shows great promise for structural probing of proteins up to 1

177 This methodology holds great promise for structured wavefront shaping, vortex g

178 it been realized that this system also holds great promise for studying the developmental genetics an

179 mprised of phototrophs and heterotrophs hold great promise for sustainable biotechnology.

180 arbon-based porous thin film materials holds great promise for sustainable, energy-efficient desalina

181 ed covalent inhibitors are currently showing great promise for systems that are normally difficult to

182 Small-molecule inhibitors offer great promise for targeting pathways that are specifical

183 analysis of large microbiome data sets holds great promise for the delineation of the biological and

184 y trigger distinct signaling pathways, holds great promise for the design of safer and more effective

185 The developed DNA biosensor shows great promise for the detection of gene biomarkers.

186 The presented VHH-based technology holds great promise for the development of bunyavirus antivira

187 The field of microfluidics holds great promise for the development of simple and portable

188 These findings hold great promise for the discovery of previously unknown tu

189 rane permeability and selectivity; they hold great promise for the enormous challenging separations i

190 Engineered nanomaterials hold great promise for the future development of innovative p

191 f cardiac gene therapy development that hold great promise for the future.

192 a of microbe discovery, now under way, holds great promise for the improvement of global health via t

193 Large-scale genome sequencing holds great promise for the interpretation of protein structur

194 induced pluripotent stem cells (hiPSCs) hold great promise for the modelling of genetic disorders.

195 f the shell of nano- and microcapsules holds great promise for the tailor-made design of new function

196 botropic glutamate receptor 5 (mGlu(5)) hold great promise for the treatment of a variety of central

197 r poly(3,4-ethylenedioxythiophene) has shown great promise for thermoelectric generators, however, th

198 ctionalization is highly adaptable and shows great promise for tonic DA detection with high spatial a

199 Antibody-based immunotherapies hold great promise for treating a variety of diseases in huma

200 Protein therapy holds great promise for treating a variety of diseases.

201 are a class of bioactive lipids, which show great promise for treating diabetes and inflammatory dis

202 eutic proteins of wide-ranging function hold great promise for treating disease, but immune surveilla

203 Upregulation of endogenous utrophin offers great promise for treating DMD, as it can functionally c

204 ng adeno-associated viral (AAV) vectors hold great promise for treating Duchenne muscular dystrophy (

205 coding and neuromodulation technologies hold great promise for treating mood and other brain disorder

206 s of specific receptor populations, but hold great promise for treating numerous CNS disorders.

207 canonical Wnt receptors such as LRP5/6 holds great promise for treatment of such cancer subsets.

208 smart glucose-responsive Ex4 delivery holds great promise for type 2 diabetes therapy by providing s

209 d mechanistic research in other animals hold great promise for understanding and treating mental heal

210 omyocytes as an in vitro research tool holds great promise for understanding drug-induced cardiotoxic

211 rived xenografts, and in vitro systems holds great promise for understanding the hierarchical structu

212 fore, this strain of Synechocystis sp. shows great promise for use in phycoremediation, with potentia

213 he Nd(1-x)Sr(x)MnO(3) photocatalysts possess great promise for visible light driven photodegradation

214 These contrast agents have shown great promise for visualizing several biochemical proces

215 state of nanostructured Mott insulators hold great promises for emerging quantum technologies while p

216 nophores (mechanoresponsive molecules) offer great promises for the development of smart force-respon

217 In spite of their great promise, however, metamaterials have been slow to

218 rated into portable instrumentation, holding great promise in a myriad of clinical, environmental, or

219 py that target immune checkpoints have shown great promise in a variety of cancers, including metasta

220 The sharing of genomic data holds great promise in advancing precision medicine and provid

221 eneration sequencing-based assays have shown great promise in allowing multi-"omic" characterization

222 MicroRNAs (miRNAs) hold great promise in cancer research.

223 ically modified autologous T cells has shown great promise in cancer therapy.

224 d nitrogen-containing heterocycles that hold great promise in current medicinal chemistry due to thei

225 store or improve the clearance function hold great promise in delaying or preventing the onset of AD.

226 hermal-stimuli responsive nanomaterials hold great promise in designing multifunctional intelligent d

227 Alzheimer's amyloidosis event and provides a great promise in developing ELP-based model systems to b

228 Halide perovskites have shown great promise in device applications owing to their rema

229 (ILs) and deep eutectic solvents have shown great promise in drug delivery applications.

230 st that other metallene materials could show great promise in energy electrocatalysis.

231 rpretation, structural MRI continues to have great promise in furthering our understanding of how the

232 nanofluidic ion transporting membranes show great promise in harvesting the "blue" osmotic energy be

233 fer of tumor-targeting lymphocytes has shown great promise in hematological malignancies, but clinica

234 inst human immunodeficiency virus (HIV) show great promise in HIV prevention as they are capable of p

235 with Convolutional Neural Networks has shown great promise in image-based classification and enhancem

236 f nanotechnology over the last decade offers great promise in improving the bioavailability of oral i

237 n via electrocatalytic water splitting holds great promise in modern energy devices.

238 rication cost, metal halide perovskites hold great promise in numerous aspects of optoelectronic appl

239 at this novel borylation approach could show great promise in organoboron synthesis and inspire more

240 ecently, deep learning algorithms have shown great promise in pathology image analysis, such as in tu

241 Synthetic TLR4 ligands thus show great promise in potentiating the conjugate vaccine plat

242 Deep learning models have shown great promise in predicting regulatory effects from DNA

243 rated electrochemical detection schemes hold great promise in qLAMP.

244 nd hosts optically active color centers with great promise in quantum computation, networking, and se

245 maging using the PDs is demonstrated to show great promise in real-life application.

246 ed diagnostic and therapeutic functions show great promise in terms of personalized nanomedicine for

247 of endogenous H2S in living cells, thus hold great promise in the analytical aspects of H2S.

248 The field of DNA nanotechnology has shown great promise in the creation of novel microRNA biosenso

249 xponentially over the past decades and holds great promise in the diagnosis and treatment of metastat

250 ons of enzymes for a desired substrate holds great promise in the field of biocatalysis.

251 Genetically encoded voltage indicators hold great promise in the study of neural circuitry, but real

252 Targeted antineoplastic agents show great promise in the treatment of cancer, having the abi

253 he BRAF-MEK-ERK signaling pathway have shown great promise in the treatment of malignant melanoma in

254 Hollow-structured materials (HSMs) show a great promise in thermal insulation since the existence

255 orks containing triazine rings (t-COFs) hold great promise in this regard, whilst the synthesis of si

256 Retinal gene therapy has shown great promise in treating retinitis pigmentosa (RP), a p

257 This pathway has great promise in treatment of depression and suicidality

258 Therefore, this method offers great promises in providing a universal and efficient so

259 ctionality via a TE-EK approach, which holds great promises in translating the use of cultured CEnCs

260 ymal stem cell (MSC)-based therapy has shown great promises in various animal disease models.

261 Several novel channel combinations showed great promise, in terms of prediction error and interpho

262 This great promise is already justified in some early reports

263 Although TSPO imaging demonstrates great promise, its signal exhibits substantial interindi

264 Despite its great promise, neuroimaging has yet to substantially imp

265 Although these technologies show great promise, none are ready for widespread rollout for

266 of enzymes within porous materials has shown great promise, not only in protecting the enzymes from d

267 trodes at similar loadings, highlighting the great promise of block copolymers for designing PCF supp

268 Despite the great promise of the CRISPR-Cas9 technology, several cha

269 Given the great promise of this research line, we scrutinized thos

270 enomena and applications where osmosis shows great promises: osmotic phenomena in membrane science (w

271 Despite the great promise, the majority of the past demonstrations a

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

273 photoelectrochemical (PEC) cells, which hold great promise to address global energy and environmental

274 st-translational modification that has shown great promise to address these issues: improving half-li

275 th context and analytics, these signals hold great promise to advance neuroscience via real-world dat

276 -vivo applications, and the technology holds great promise to advance the growing field of synthetic

277 f ectopic lymph node structures (ELNs) holds great promise to augment immunotherapy against multiple

278 nsitive detection of multiple analytes holds great promise to be a practical tool.

279 Additionally, the fabricated thin film shows great promise to be integrated with the flexible electro

280 nt, the synergistic gene-nano strategy holds great promise to boost the MRI effects of a wide variety

281 t such RBD subunit vaccine formulations hold great promise to combat COVID-19.

282 As such, it shows great promise to complement and potentially replace SRID

283 This nanoparticle system showed great promise to deliver therapeutic agents to aHSC to t

284 nity in patients with critical illness holds great promise to develop targeted host-directed immunoth

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

286 Functional human-on-a-chip systems hold great promise to enable quantitative translation to in v

287 ng with chitosan and DC programming may hold great promise to enhance efficacy of DC-based vaccinatio

288 n, and how novel integrative approaches hold great promise to fill this gap in our knowledge.

289 n-volatile memory crossbar arrays have shown great promise to implement parallel computations in arti

290 re at an early stage of development but have great promise to improve MM treatment.

291 with improved (micro)nutrient contents hold great promise to meet the increasing demand of nutrition

292 erimental approaches, chemoinformatics holds great promise to predict new catalyst structures, ration

293 Cancer vaccines hold great promise to produce antigen-specific T cell immunit

294 s that require little starting material show great promise to provide an understanding of the heterog

295 munisation, concluding that the latter shows great promise to reduce the burden of gonorrhoea, even i

296 hat LDLs reconstructed with fatty acids hold great promise to serve as effective and versatile nanoca

297 s have been recently introduced and showed a great promise to the biological separation and encapsula

298 These innovations in drug development hold great promise to yield agents with unique properties tha

299 thin film waveguides and microfluidics shows great promise toward highly integrated and robust detect

300 Although this system has great promise, we note that the well-established biochem