ライフサイエンスコーパス: revolutionize

1 chemical profiling of biological samples may revolutionize a myriad of pathways in clinical settings.

2 ce its invention, optical frequency comb has revolutionized a broad range of subjects from metrology

3 properties of transition-metal complexes are revolutionizing a wide range of technologies, particular

4 e these technologies offer great promise for revolutionizing AF detection and screening, several majo

5 New management regimes could revolutionize agricultural production, but require an ev

6 he genetic drivers underlying apomixis could revolutionize agriculture.

7 relentless increase in computer capacity is revolutionizing almost all existing sectors, and the wat

8 rogramming, these 'web apps' are starting to revolutionize and democratize scientific research, educa

9 tic leukaemia (ALL) or B cell lymphomas have revolutionized anticancer therapy, providing a potential

10 re expanding at a breath-taking pace and are revolutionizing approaches to gain a better understandin

11 pproval of engineered cellular therapies are revolutionizing approaches to treatment of diseases.

12 system for genome editing in eukaryotes has revolutionized basic biomedical research and translation

13 Aptamer technology has the potential to revolutionize biological diagnostics and therapeutics; h

14 High throughput DNA/RNA sequencing has revolutionized biological and clinical research.

15 Single-cell genomics has revolutionized biological science, enabling high-resolut

16 Single-cell RNA sequencing (scRNA-seq) has revolutionized biological sciences by revealing genome-w

17 Gene-editing techniques are currently revolutionizing biology, allowing far greater precision

18 l breakthrough and distinct model systems to revolutionize biomedical research and drug discovery by

19 Fluorescent proteins have revolutionized biomedical research as they are easy to u

20 CRISPR-Cas genome engineering has revolutionized biomedical research by enabling targeted

21 t-generation sequencing (NGS) techniques are revolutionizing biomedical research by providing powerfu

22 nterdisciplinary field of research currently revolutionizing biomedicine studies and the biotech indu

23 Electron-based fragmentation methods have revolutionized biomolecular mass spectrometry, in partic

24 ding decades, molecular characterization has revolutionized breast cancer (BC) research and therapeut

25 tant phenotype analysis of bacteria has been revolutionized by genome-scale screening procedures, but

26 , the field of cancer immunotherapy has been revolutionized by immune checkpoint blockade (ICB) techn

27 be one of the first disciplines that will be revolutionized by quantum computing.

28 ity in numerous biological contexts has been revolutionized by recent advances in single-cell technol

29 RNA biology is revolutionized by recent developments of diverse high-th

30 ed in human developmental disorders has been revolutionized by second-generation sequencing combined

31 chronic lymphocytic leukemia (CLL) has been revolutionized by targeted therapies that either inhibit

32 Prostate cancer surgery is currently being revolutionized by the use of prostate-specific membrane

33 le: Immune checkpoint inhibitors (ICIs) have revolutionized cancer care but are associated with uniqu

34 CRISPR-based genetic screening has revolutionized cancer drug target discovery, yet reliabl

35 Immune checkpoint blockade (ICB) has revolutionized cancer therapeutics.

36 nt with immune checkpoint blockade (ICB) has revolutionized cancer therapy.

37 Immunotherapies revolutionized cancer treatment by harnessing the immune

38 PD-1 blockade revolutionized cancer treatment, and although numerous p

39 Cancer immunotherapy has revolutionized cancer treatment, and it relies heavily o

40 immune checkpoint blockade (ICB) therapy has revolutionized cancer treatment, many patients do not re

41 Although immunotherapy has revolutionized cancer treatment, only a subset of patien

42 Immunotherapy has revolutionized cancer treatment, yet most patients do no

43 Checkpoint inhibitor (CPI) immunotherapy has revolutionized cancer treatment.

44 their receptor to eliminate cancer cells has revolutionized cancer treatment.

45 Checkpoint blockade immunotherapy (CBT) has revolutionized cancer treatment; however, the cellular a

46 ile clinical applications of IVM and OCT are revolutionizing cancer diagnosis and therapies.

47 CAR) or a classical T cell receptor (TCR) is revolutionizing cancer treatment, its adoption in infect

48 ies aimed at blocking these interactions are revolutionizing cancer treatments, albeit in an inadequa

49 Fluorescent proteins (FPs) have revolutionized cell biology by allowing genetic tagging

50 advances in single-cell RNA-seq (scRNA-seq) revolutionized cell type-specific gene expression analys

51 gs to construct C-C, C-O, and C-N bonds have revolutionized chemical science.

52 Machine learning promises to revolutionize clinical decision making and diagnosis.

53 This technology has the potential to revolutionize clinical practice by providing rapid and a

54 rocessing of these data has the potential to revolutionize clinical prognostics and decision support

55 ly culminating in new therapeutics that have revolutionized clinical oncology.

56 , plant cells free of their cell wall, could revolutionize crop improvement because it reduces regula

57 (Li) metal batteries hold great promise for revolutionizing current energy-storage technologies.

58 sequencing and novel long-range assays have revolutionized de novo genome assembly by automating the

59 ment and promote human-technology rapport to revolutionize dental practice.

60 Recently, the advent of metasurfaces has revolutionized design concepts in nanophotonics, enablin

61 Single cell biology is currently revolutionizing developmental and evolutionary biology,

62 ticulous control of blood glucose (BG) would revolutionize diabetes care.

63 cent advances in fluorescence nanoscopy have revolutionized direct investigation of presynaptic relea

64 rived kidney organoids have the potential to revolutionize discovery, but assessing their consistency

65 Organic light-emitting diodes (OLEDs) are revolutionizing display applications.

66 THSG-revolutionized DPSCs significantly shortened the regener

67 an pluripotent stem cells holds a promise to revolutionize drug discovery, but only if limitations re

68 ent paradigms: (1) nanotechnology, which has revolutionized drug delivery in desmoplastic tissues, ha

69 , or other combinations has the potential to revolutionize early cancer detection, especially for can

70 lithium-O(2) battery holds great promise for revolutionizing energy storage as it holds the highest t

71 tively simple engineering analysis tools can revolutionize everyday healthcare.

72 xcitonic intermediates, has the potential to revolutionize fields as diverse as biological imaging, p

73 d impart them with new functionalities could revolutionize fields like cell-based sensing and create

74 y shapes and structures has the potential to revolutionize functional materials, where independent co

75 CRISPR/Cas9 genome editing has revolutionized functional genomics in vertebrates.

76 years, advances in genomic technologies have revolutionized fungal systematics, ushering the field in

77 Over the past two decades SNAs have revolutionized gene regulation, drug delivery, gene ther

78 ndbreaking technological advances promise to revolutionize genetic therapy and, as I discuss, represe

79 R is a versatile gene editing tool which has revolutionized genetic research in the past few years.

80 ynthesis, assembly, and analysis of DNA have revolutionized genetics and molecular biology over the p

81 The advent of CRISPR-based technologies has revolutionized genetics over the past decade, and genome

82 CRISPR-Cas systems have revolutionized genome editing across a broad range of bi

83 ologies-particularly CRISPR-based tools-have revolutionized genome editing for many fungal species.

84 rand breaks (DSB) created by CRISPR/Cas9 has revolutionized genome engineering and has great potentia

85 CRISPR-Cas systems have revolutionized genome engineering by facilitating a wide

86 CRISPR proteins have revolutionized genome modification, yet the CRISPR-Cas9

87 eneration sequencing (NGS) technologies have revolutionized genomic medicine and, as these technologi

88 tine assembly of diploid genomes, which will revolutionize genomics by revealing the full spectrum of

89 es an opportunity for new actions that could revolutionize how society sustains biodiversity in a tim

90 illions of DNA fragments simultaneously, has revolutionized how we study genomics and molecular biolo

91 High-resolution retinal imaging is revolutionizing how scientists and clinicians study the

92 harges and spin of elementary particles, has revolutionized important technologies such as data stora

93 s to developing assays for lipolytic enzymes revolutionizes in vitro testing for the discovery of pot

94 Transgenic crops have revolutionized insect pest control, but their effectiven

95 Recent advances in nonlinear optics have revolutionized integrated photonics, providing on-chip s

96 atheter aortic valve implantation (TAVI) has revolutionized its treatment, thereby avoiding its life-

97 Photocontrollable proteins revolutionized life-science imaging due to their contrib

98 nome editing using programmable nucleases is revolutionizing life science and medicine.

99 more structurally complex nanostructures has revolutionized live-cell analysis.

100 that bioluminescence imaging (BLI) is set to revolutionize longitudinal and dynamic studies of gene c

101 Genome-wide CRISPR/Cas9 knockout screens are revolutionizing mammalian functional genomics.

102 tate-of-the-art metal 3D printers promise to revolutionize manufacturing, yet they have not reached o

103 Laser wakefield accelerators promise to revolutionize many areas of accelerator science.

104 of dynamic flat optics has the potential to revolutionize many emerging technologies that require ac

105 ip wavefront modulation has the potential to revolutionize many optical device technologies.

106 electronics integration has the potential to revolutionize many technologies, including biomedical di

107 ange fluorescence color upon excitation have revolutionized many applications of light such as tracki

108 l-organic frameworks and porous carbons have revolutionized many applications that rely on chemical a

109 ne checkpoint inhibitor (CPI) antibodies has revolutionized many aspects of cancer therapy, but the e

110 , the inference of nano-scaled materials has revolutionized many fields including the medicine and he

111 AI is becoming ubiquitous, revolutionizing many aspects of our lives.

112 l intelligence in particular has promised to revolutionize medical practice from the allocation of re

113 High-throughput technologies have revolutionized medical research.

114 Nanoengineering has the potential to revolutionize medicine by designing drug delivery system

115 odulating therapeutics have the potential to revolutionize medicine.

116 The rapid decrease in DNA sequencing cost is revolutionizing medicine and science.

117 is work established innovative strategies to revolutionize micro-PMFC performance to attain stable hi

118 ic microrobots have significant potential to revolutionize minimally invasive medical interventions i

119 tum information science has the potential to revolutionize modern technology by providing resource-ef

120 such as next-generation sequencing (NGS) are revolutionizing molecular diagnostics and clinical medic

121 r generating new models has the potential to revolutionize mouse modeling for melanoma.See related ar

122 eneration sequencing (NGS) technologies have revolutionized multiple areas in the field of infectious

123 y effective disease-modifying therapies have revolutionized multiple sclerosis (MS) care.

124 Optogenetics has revolutionized neuroscience in small laboratory animals,

125 lar diversity of a foundational synapse that revolutionized neuroscience.

126 armacological immune checkpoint blockade has revolutionized oncological therapies, and its remarkable

127 Structured light has revolutionized optical particle manipulation, nano-scale

128 sts (SACs) are bringing new opportunities to revolutionize ORR catalysis in terms of cost, activity a

129 frontiers of smart textiles, which will soon revolutionize our lives in the era of Internet of Things

130 K9 are now being harnessed and might further revolutionize our treatment of dyslipidaemia.

131 y with high frequency and in real time would revolutionize our understanding of biology and our capac

132 ssive metabolite spaces, and we expect it to revolutionize our understanding of plant chemoevolutiona

133 range of weak protein-SLiM interactions, and revolutionize our understanding of signaling networks.

134 n of small molecules in complex samples will revolutionize our understanding of the role of metabolit

135 in biological and environmental samples will revolutionize our understanding of the role these chemic

136 High-throughput sequencing of mRNAs has revolutionized our ability for transcripts reconstructio

137 Shotgun metagenomic sequencing has revolutionized our ability to detect and characterize th

138 CRISPR-Cas9 gene-editing strategies have revolutionized our ability to engineer the human genome

139 dies, followed by mass spectrometry (MS) has revolutionized our ability to identify the composition o

140 Optical imaging has revolutionized our ability to monitor brain activity, sp

141 Advances in DNA sequencing have revolutionized our ability to read genomes.

142 DNA recovery from ancient human remains has revolutionized our ability to reconstruct the genetic la

143 Technology has revolutionized our ability to track animals across the g

144 While synthetic biology has revolutionized our approaches to medicine, agriculture,

145 t decade, novel sequencing technologies have revolutionized our capacity to sequence the complete gen

146 The discovery of the PHD-HIF-pVHL system revolutionized our fundamental understanding of oxygen s

147 ications in the study of transcriptomes have revolutionized our understanding of alternative splicing

148 rface-based single-molecule experiments have revolutionized our understanding of biology and biomolec

149 Live-cell imaging has revolutionized our understanding of dynamic cellular pro

150 CRISPR/Cas9 technologies have revolutionized our understanding of gene function in com

151 red and modeled biogeographic patterns, have revolutionized our understanding of marine N(2) fixation

152 encing for monitoring ribosome activity, has revolutionized our understanding of protein translation

153 ally disordered, while being functional, has revolutionized our understanding of proteins and raised

154 tigraphy to diagnose cardiac amyloidosis has revolutionized our understanding of the disease, leading

155 Genome-wide association studies have revolutionized our understanding of the genetic underpin

156 Tom revolutionized our understanding of the mechanisms throu

157 an control cell excitability with light have revolutionized our understanding of the nervous system.

158 Studies have revolutionized our understanding of the post-transcripti

159 endothelial-derived growth factor (VEGF) has revolutionized our understanding of vasculogenesis and a

160 the molecular mechanisms of these neoplasms, revolutionizing our approach to their diagnosis, prognos

161 ent advances in single cell technologies are revolutionizing our mechanistic understanding of rare po

162 sequencing and computational approaches are revolutionizing our understanding of Archaea.

163 Measurements of single-cell methylation are revolutionizing our understanding of epigenetic control

164 The NIH BRAIN Initiative is aimed at revolutionizing our understanding of the human brain.

165 DAAs) targeting hepatitis C virus (HCV) have revolutionized outcomes in human immunodeficiency virus

166 amer-based nano-conjugates sensors have been revolutionized over the past few years.

167 tastatic renal cell carcinoma (RCC) has been revolutionized over the past two decades, bringing forth

168 These agents have revolutionized patient care, with cure rates of more tha

169 enomic sequencing have enormous potential to revolutionize personalized medicine, however distinguish

170 Hybrid organic/inorganic perovskites are revolutionizing photovoltaic research and are now impact

171 have resulted in it being widely adopted and revolutionizing precise modification of the genomes of m

172 lity factor optical transitions in atoms has revolutionized precision frequency metrology.

173 or trophoblast cells in maternal blood could revolutionize prenatal diagnosis.

174 In only four years, this screening test has revolutionized prenatal care globally and opened up new

175 stratification system with the potential to revolutionize prognostication and impact treatment.

176 Peptide ligation chemistry has revolutionized protein science by providing access to ho

177 akthrough in deep learning that has recently revolutionized protein structure prediction.

178 Computational modeling of behavior has revolutionized psychology and neuroscience.

179 CRISPR/Cas9 technology has revolutionized rapid and reliable gene editing in cells.

180 induced pluripotent stem cells (hiPSCs) have revolutionized research on human diseases, particularly

181 erythrocytic stages of Plasmodium falciparum revolutionized research on this important parasite.

182 Optical tissue clearing has revolutionized researchers' ability to perform fluoresce

183 Self-propelled particles are revolutionizing sensing applications thanks to a unique

184 In parallel, biologics are revolutionizing severe asthma management, mostly in T2 h

185 ombs to chip scale and have the potential to revolutionize spectroscopy, metrology and timing.

186 xic gallium alloys, show enormous promise to revolutionize stretchable electronics for next-generatio

187 alyses of mammalian and yeast complex I have revolutionized structural and mechanistic knowledge and

188 While cryo-EM is revolutionizing structural biology, its impact on enzymo

189 DNA sequence information, in particular, has revolutionized studies of protistan diversity.

190 h single-cell RNA sequencing (scRNA-seq) has revolutionized studies of transcriptional heterogeneity

191 or Precision Medicine) have the potential to revolutionize systems biology by enabling researchers to

192 is a versatile genome editing tool that has revolutionized targeted mutagenesis.

193 The evolution of winged insects revolutionized terrestrial ecosystems and led to the lar

194 n on GSEs represents a promising strategy to revolutionize the anode-electrolyte interface chemistry

195 ect nucleic acids and chemical molecules can revolutionize the diagnosis and treatment of diseases by

196 derived cardiomyocytes have the potential to revolutionize the discovery of new medicines for serious

197 trolysis using renewable energy input, would revolutionize the energy landscape.

198 s the wide-ranging potential of gas-fuels to revolutionize the energy sector and introduce the limita

199 g into new technologies that hold promise to revolutionize the everyday life.

200 ific aAPCs, that might have the potential to revolutionize the field of cancer vaccines, and provide

201 The proposed approach would revolutionize the field of conductive/electroactive poly

202 le genome sequencing technologies promise to revolutionize the field of human genetics by enabling co

203 f protein concentrations in proteomes, would revolutionize the field of proteomics, allowing a more f

204 sure (IOP) at any given time and promises to revolutionize the management of glaucoma patients.

205 ablation technologies with the potential to revolutionize the management of patients with atrial fib

206 tive scaffolds with significant potential to revolutionize the regeneration of bone.

207 s native expression levels and patterns will revolutionize the study of biological systems by enablin

208 y in recent years has shown the potential to revolutionize the treatment of cancer.

209 btilisin/kexin type 9 inhibitors) are set to revolutionize the treatment of hypercholesterolemia in t

210 rain stimulation tools have the potential to revolutionize the treatment of neuropsychiatric disorder

211 Although next-generation sequencing has revolutionized the ability to associate variants with hu

212 The Cre/loxP recombination system has revolutionized the ability to genetically manipulate ani

213 paper-based analytical devices (muPADs) has revolutionized the area of point-of-care (POC) testing t

214 Highly active antiretroviral therapy has revolutionized the battle against human immunodeficiency

215 commonly as 3D printing, this technology has revolutionized the biofabrication landscape and driven n

216 advancement of genome editing techniques has revolutionized the biological research fields.

217 opment of genome sequencing technologies has revolutionized the biological sciences in ways which cou

218 argeted and immune checkpoint therapies have revolutionized the clinical management of malignant mela

219 The use of recombinant proteins has revolutionized the development of biologic pharmaceutica

220 Solubilized fullerene derivatives have revolutionized the development of organic photovoltaic d

221 f fibroblast growth factor 23 (FGF23), which revolutionized the diagnosis and treatment of rare hered

222 Genomic sequencing revolutionized the epidemiological understanding of the

223 Genomic sequencing revolutionized the epidemiological understanding of the

224 o perform whole-body scanning, (18)F-FDG has revolutionized the evaluation of cancer and has stifled

225 magnetic resonance imaging (fMRI) in humans revolutionized the field and have been used extensively

226 s, but transcatheter heart valve therapy has revolutionized the field in the past 15 years.

227 l alphabeta CAR-T cell-based approaches have revolutionized the field of cancer immunotherapy, but hu

228 Next-generation sequencing has revolutionized the field of diagnosis of and research in

229 time technological advancements have heavily revolutionized the field of genomics, especially when it

230 Recently, deep learning has revolutionized the field of machine hearing and vision,

231 pments, particularly in the last decade have revolutionized the field of microbiology, redrawing the

232 (PDMS) and soft lithography in the 90's has revolutionized the field of microfluidics by almost elim

233 pled plasma mass spectrometry (SP-ICPMS) has revolutionized the field of nanometallomics.

234 y Milo, Alon and colleagues in 2002, quickly revolutionized the field, and it has had a huge impact i

235 Quantum cascade lasers (QCL) have revolutionized the generation of mid-infrared light.

236 ears, CRISPR-associated (Cas) nucleases have revolutionized the genome editing field.

237 Medical big data analytics has revolutionized the human healthcare system by introducin

238 n genomic technologies and data sharing have revolutionized the identification and diagnosis of RGDs,

239 s on a single chip, integrated photonics has revolutionized the interconnects and has shown its strik

240 dreds of defined glycan structures, and have revolutionized the investigations of protein-carbohydrat

241 ic repeat (CRISPR)-based biotechnologies has revolutionized the life sciences and introduced new ther

242 Optogenetics has revolutionized the neurosciences, increased our understa

243 Bioconjugation technologies have revolutionized the practice of biology and medicine by a

244 he boundaries of modern science but has also revolutionized the practice of medicine today.

245 Human phage display technology has revolutionized the process of identifying and optimizing

246 l thrombectomy of large artery occlusion has revolutionized the stroke treatment for most disabling s

247 e cellular DNA, RNA, and protein content has revolutionized the study of control networks that mediat

248 Genetically engineered mouse models have revolutionized the study of pancreatic cancer, but have

249 Optogenetic tools have revolutionized the study of receptor-mediated processes,

250 ombination anti-retroviral therapy (ART) has revolutionized the treatment and prevention of HIV-1 inf

251 Antiretroviral therapy has revolutionized the treatment of AIDS, turning a deadly d

252 Immune-modulating therapies have revolutionized the treatment of chronic diseases, partic

253 Although TA monotherapy has revolutionized the treatment of CLL, residual disease, a

254 delivery of antibody-based therapeutics has revolutionized the treatment of intraocular vascular dis

255 Small interfering RNAs (siRNAs) have revolutionized the treatment of liver diseases.

256 apy with anti-CTLA-4 and anti-PD-1/PD-L1 has revolutionized the treatment of many solid tumors.

257 stemically delivered targeted biologics have revolutionized the treatment of moderate-to-severe psori

258 l successes achieved with immunotherapy have revolutionized the treatment of multiple advanced-stage

259 Advances in immunotherapy have revolutionized the treatment of multiple cancers.

260 Artemisinins have revolutionized the treatment of Plasmodium falciparum ma

261 Endothelin receptor antagonists have revolutionized the treatment of pulmonary arterial hyper

262 atheter aortic valve implantation (TAVI) has revolutionized the treatment of symptomatic severe aorti

263 The Fontan procedure has revolutionized the treatment of univentricular hearts.

264 Two-photon excitation microscopy (TPEM) has revolutionized the understanding of adaptive immunity.

265 a programmable, RNA-guided endonuclease has revolutionized the utilization of gene technology.

266 ll RNA sequencing (scRNA-seq) technology has revolutionized the way research is done in biomedical sc

267 Nanoscience has revolutionized the world of catalysis since it was obser

268 and digital slide scanning show promise for revolutionizing the clinical parasitology laboratory by

269 gh structure-based virtual drug discovery is revolutionizing the conventional high-throughput cell-ba

270 Metagenomic sequencing is revolutionizing the detection and characterization of mi

271 and drug testing, shows great potential for revolutionizing the drug development pipeline.

272 rate retinal organoids and how organoids are revolutionizing the fields of developmental and cellular

273 apy as a prime approach to cancer treatment, revolutionizing the management of many types of cancer.

274 ssing volcanoes world-wide are now possible, revolutionizing the quantity and quality of magmatic deg

275 Halide perovskites are revolutionizing the renewable energy sector owing to the

276 Autologous CAR T-cell immunotherapies are revolutionizing the treatment of B-cell malignancies.

277 Immunotherapy is revolutionizing the treatment of cancer.

278 (4) Immunotherapy is revolutionizing the treatment of cancer.

279 Targeted therapy is revolutionizing the treatment of cancers, but resistance

280 Immunotherapy is revolutionizing the treatment of diseases in which dysre

281 als and Cerenkov radiation emitters has been revolutionizing the way nanomaterials are perceived in t

282 nt of immune checkpoint inhibitors (ICIs) is revolutionizing the way we think about cancer treatment.

283 potent tyrosine kinas inhibitors (TKIs) has revolutionized therapy.

284 (LVs) carrying a beta-globin-like gene have revolutionized this field by allowing effective HSC tran

285 y organize and dynamically interact has been revolutionized through the lens of long-chain polymer ph

286 or fusions across these field properties can revolutionize THz sensing allowing robustness, versatili

287 Single Plane Illumination Microscopy (SPIM) revolutionized time lapse imaging of live cells and orga

288 s over the past four decades have repeatedly revolutionized transcriptome profiling.

289 iently to result in immediate function could revolutionize transplantation by solving the chronic org

290 Ibrutinib has revolutionized treatment for several B-cell malignancies

291 erapies targeting tumor necrosis factor have revolutionized treatment of immune-mediated inflammatory

292 Targeted therapies have revolutionized treatment of several different types of c

293 Immunotherapy shows promising results and revolutionizes treatment of oral squamous cell carcinoma

294 samples have further refined, corrected and revolutionized understanding of the tree of life.

295 y Interspaced Short Palindromic Repeats) has revolutionized various fields of scientific research.

296 Horse domestication revolutionized warfare and accelerated travel, trade, an

297 VEGF-A antagonists have revolutionized wet AMD treatment.

298 Advances in sequencing technologies have revolutionized wildlife conservation genetics.

299 arch and commercial attention since it could revolutionize wireless communications.

300 The treatment of KIT-mutant GIST has been revolutionized with the advent of KIT-directed cancer th