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1 ment of patients with these cancers has been revolutionized.
2 es the potential for evolutionary methods to revolutionize a wide range of manufacturing, medical, an
5 T In recent years, functional MRI (fMRI) has revolutionized all fields of neuroscience, enabling iden
7 rogramming, these 'web apps' are starting to revolutionize and democratize scientific research, educa
8 (VEGF) agents, the treatment of DME has been revolutionized, and the indication for laser therapy has
9 re expanding at a breath-taking pace and are revolutionizing approaches to gain a better understandin
11 at the macrolevel in the fifth century, was revolutionized at the meso- and microlevels by Cajal and
22 Nanostructured systems have the potential to revolutionize both preventive and therapeutic approaches
23 structure of eukaryotic chromosomes has been revolutionized by development of a suite of genome-wide
24 terogeneous developmental disorders has been revolutionized by exome analysis of large cohorts of phe
26 ed infections (STI) such as Chlamydia can be revolutionized by highly sensitive nucleic acid testing
30 crystalline microporous solids that has been revolutionized by the engineering of multilevel pore arc
31 alence and function of gene fusions has been revolutionized by the rise of next-generation sequencing
33 ogens in complex sample backgrounds has been revolutionized by wide access to next-generation sequenc
41 Monoclonal antibody (mAb) therapeutics are revolutionizing cancer treatment; however, not all tumor
42 development of cardiac imaging technologies revolutionized cardiology practice by allowing routine,
44 direct-acting antiviral (DAA) treatment has revolutionized care of patients with chronic hepatitis C
45 tly developed optogenetic methods promise to revolutionize cell biology by allowing signaling perturb
48 eaction is interdisciplinary and promises to revolutionize chemical biology, radiochemistry and mater
49 nsional chains of polymers have been used to revolutionize chemical synthesis and the selection of fu
51 tremendous interest with the bold promise to revolutionize clinical practice in psychiatry parallelin
53 atriuretic peptide measurements have clearly revolutionized clinical care for patients with heart fai
54 flight mass spectrometry (MALDI-TOF MS) has revolutionized clinical microbiology for isolate identif
59 Long-read single-molecule sequencing has revolutionized de novo genome assembly and enabled the a
61 e oxide (GO) hold the tantalizing promise of revolutionizing desalination and water filtration if sel
63 othelial growth factor (VEGF) medicines have revolutionized diabetic macular edema (DME) treatment.
66 Abdominal wall transplantation (AWTX) has revolutionized difficult abdominal closure after intesti
70 ies, including non-model organisms, which is revolutionizing ecological, evolutionary and conservatio
77 R is a versatile gene editing tool which has revolutionized genetic research in the past few years.
79 ollowed by sequencing (ChIP-seq) experiments revolutionized genome-wide profiling of transcription fa
80 eneration Sequencing (NGS) technologies have revolutionized genomic research by reducing the cost of
81 eneration sequencing (NGS) technologies have revolutionized genomic research by reducing the cost of
83 t-versus-host disease (GVHD) prophylaxis has revolutionized haploidentical hematopoietic stem cell tr
89 otochemical control by Woodward and Hoffmann revolutionized how we understand chemical reactivity.
91 st over half a century plastic products have revolutionized human society and have infiltrated terres
100 Recent advances in neuro-technologies have revolutionized knowledge of brain structure and function
104 catheter aortic valve replacement (TAVR) has revolutionized management of high-risk patients with sev
105 electronics integration has the potential to revolutionize many technologies, including biomedical di
106 f slow dynamic processes in living cells has revolutionized many aspects of in vitro cellular studies
110 advances in cardiac modelling are poised to revolutionize medical treatment and prevention of arrhyt
112 transcription factors have the potential to revolutionize medicine but have had limited clinical suc
114 nly provide powerful imaging tools that have revolutionized medicine, but they have a wide spectrum o
116 the past decade, meta-omics approaches have revolutionized microbiology, allowing for a cultivation-
117 id low-cost whole-genome sequencing (WGS) is revolutionizing microbiology; however, complementary adv
122 allosteric modulation and biased agonism are revolutionizing modern approaches to drug discovery, par
123 viruses) by David Baltimore and Howard Temin revolutionized molecular biology and laid the foundation
124 escent and plasmonic labels and sensors have revolutionized molecular biology, helping visualize cell
125 genome sequencing technologies have begun to revolutionize neurogenetics, allowing the full spectrum
126 ell resolution, optical imaging methods have revolutionized neuroscience by enabling systematic recor
128 d devices in photonics have the potential to revolutionize optical information processing, beyond con
131 sulators, in particular, hold the promise to revolutionize our ability to control sound, allowing for
133 cribe the shape of chromosomes have begun to revolutionize our understanding of genome organization a
134 own effects of cognition on perception would revolutionize our understanding of how the mind is organ
135 ncestral lemur condition, an idea that could revolutionize our understanding of the ancient socioecol
136 oupled with high-throughput sequencing could revolutionize our understanding of the role of RNA struc
137 with ultra-deep coverage, thus promising to revolutionize our understanding of the underlying divers
138 Redox flow batteries have the potential to revolutionize our use of intermittent sustainable energy
139 luorescein and indocyanine green angiography revolutionized our ability to assess the integrity of th
141 riptomic- and proteomic-based approaches has revolutionized our ability to describe marine microbial
142 Short-read massively parallel sequencing has revolutionized our ability to discover genetic variation
144 n (iN) transdifferentiation technologies has revolutionized our ability to generate human neurons in
145 )-catalysed azide-alkyne cycloaddition, have revolutionized our ability to label and manipulate biomo
146 9 (SpCas9), a CRISPR-associated protein, has revolutionized our ability to probe and edit the human g
148 ased, massively parallel genetic assays have revolutionized our ability to quantify the relationship
149 Next generation sequencing technologies have revolutionized our ability to rapidly and affordably gen
150 The recent developments in cryo-EM have revolutionized our access to previously refractory struc
151 ic medicine and technologic developments has revolutionized our approach to common complex disorders
152 bospondin type 1 motif, member 13 (ADAMTS13) revolutionized our approach to thrombotic thrombocytopen
154 f important palaeobotanical discoveries have revolutionized our understanding of angiosperm diversifi
155 discovery of topological photonic states has revolutionized our understanding of electromagnetic prop
157 stem and activate innate immune pathways has revolutionized our understanding of how crystals cause i
158 iron-regulatory hormone hepcidin in 2001 has revolutionized our understanding of iron disorders, and
160 eir recognition in the geological record has revolutionized our understanding of palaeoclimate dynami
161 ransplantation into immunodeficient mice has revolutionized our understanding of regeneration, stem c
163 ies of the central nervous system (CNS) have revolutionized our understanding of the biology of these
164 sequencing analysis of large ALL cohorts has revolutionized our understanding of the genetic basis of
167 nnels and secondary active transporters, has revolutionized our understanding of their function.
168 ory with protein biophysics, have completely revolutionized our view of the forces that shape sequenc
170 dvancements in genomic and genetic tools are revolutionizing our ability to document the occurrence o
171 lar control of brain synchronization and are revolutionizing our understanding and treatment of the d
172 or living organisms and cell lines have been revolutionizing our understanding of the spatial and tem
174 f biomarker tests and targeted therapies has revolutionized patient care in a variety of serious diso
178 in the visible and near infrared range have revolutionized photonic technologies, the systems operat
179 Halide perovskite (HaP) semiconductors are revolutionizing photovoltaic (PV) solar energy conversio
181 In only four years, this screening test has revolutionized prenatal care globally and opened up new
182 spectroscopy (SM-SERS) has the potential to revolutionize quantitative analysis at ultralow concentr
183 ul means to estimate key parameters and have revolutionized quantitative genetic analyses of wild pop
184 we anticipate that in vivo reprogramming may revolutionize regenerative medicine by using a patient's
186 ngiogenic therapies, such as sunitinib, have revolutionized renal cell carcinoma (RCC) treatment.
189 targeted disruption of protein function have revolutionized science and greatly expedited the systema
190 ementation of quantum computation (QC) would revolutionize scientific fields ranging from encryption
191 lthough next-generation sequencing (NGS) has revolutionized sequencing strategies, it suffers from se
193 hardware and image-processing software have revolutionized single particle cryo-electron microscopy
194 (MALDI-TOF MS) in clinical microbiology has revolutionized species identification of bacteria, yeast
195 pluripotent stem cells (iPSCs) are poised to revolutionize stem cell biology and regenerative medicin
197 significant attention for their potential to revolutionize technologies in the material fields (engin
200 and exhibit protein-like functionality would revolutionize the development of biomimetic membranes.
201 ifically analyze nucleic acid sequences will revolutionize the diagnosis and treatment of disease by
203 any microbial systems, and it is expected to revolutionize the field of functional genomics in Dictyo
204 y, MMME has the potential to systematize and revolutionize the field of metabolic engineering and ind
208 e of CRISPR/Cas9 has unrealized potential to revolutionize the practice of molecular biology well bey
209 demonstrated on the prototypical MOF-5, may revolutionize the production of MOFs for enantioselectiv
211 d robotic automation, which are promising to revolutionize the study of both human and plant pathogen
212 A potent rifamycin-sparing regimen could revolutionize the treatment of adults and children requi
214 nventional device fabrication strategies may revolutionize the way electronic devices are integrated
215 aerial vehicles (UAVs) have the potential to revolutionize the way research is conducted in many scie
216 ment of serologic markers specific to CD has revolutionized the ability both to diagnose and monitor
217 Although next-generation sequencing has revolutionized the ability to associate variants with hu
219 ospray ionization and mass spectrometry have revolutionized the chemical analysis of biological molec
220 n magnetic microbead microwell array formats revolutionized the development of digital bioassays.
221 scintigraphy with (111)In-pentetreotide has revolutionized the diagnosis and staging of NETs and the
224 ats (CRISPR)-associated protein 9 (Cas9) has revolutionized the field because of its versatility and
225 -generation sequencing-based approaches have revolutionized the field by introducing a unified platfo
228 and replacements in the mammalian genome has revolutionized the field of genome engineering and re-in
230 gies for forming new carbon-carbon bonds has revolutionized the field of organic chemistry, enabling
231 l tool for model building and refinement has revolutionized the field of structure determination for
234 RISPR)-associated (Cas)9 genomic editing has revolutionized the generation of mutant animals by simpl
235 light (MALDI-TOF) mass spectrometry (MS) has revolutionized the identification of clinical bacterial
236 f the molecular and genetic basis of RCC has revolutionized the management of advanced RCC; 10 novel
239 High-volume hydraulic fracturing (HVHF) has revolutionized the oil and gas industry worldwide but ha
240 nti-HER2 monoclonal antibody trastuzumab has revolutionized the outcome of patients with this aggress
241 e the same diagnostic imaging tools that had revolutionized the practice of medicine to guide the rea
243 and high-throughput genotyping platforms has revolutionized the pursuit of genetic variants that cont
245 e or to a subset, such as a whole exome, has revolutionized the search for pathogenic mutations in he
246 to mass spectrometry (MS) has unquestionably revolutionized the speed and efficacy at which complex m
249 om human pluripotent stem cells (hPSCs) have revolutionized the study of gastrointestinal development
250 ms.IMPORTANCE Next-generation sequencing has revolutionized the study of genetically variable RNA vir
251 of biochemical processes in living cells has revolutionized the study of intracellular signaling.
252 ational field of reinforcement learning have revolutionized the study of learning in the brain, famou
253 tivity to detection by more than 10(4)-fold, revolutionized the study of metabolism using magnetic re
254 ALPPS), a 2-stage hepatectomy procedure, has revolutionized the surgical management of large hepatic
257 bodies targeting coinhibitory receptors have revolutionized the treatment of cancer by inducing durab
259 nd artemisinin, respectively, therapies that revolutionized the treatment of devastating parasite dis
260 herapies, especially kinase inhibitors, have revolutionized the treatment of many cancers and have dr
261 hat act against these driver alterations has revolutionized the treatment of many human cancers.
263 hus, the development of VEGF antagonists has revolutionized the treatment of nAMD, diabetic retinopat
264 argeting somatically activated oncogenes has revolutionized the treatment of non-small cell lung canc
265 uroimmunology over the last two decades have revolutionized the treatment of relapsing forms of multi
266 ry and autoimmune diseases, biologicals have revolutionized the treatment of several immune-mediated
268 2 weeks of daily, well-tolerated therapy has revolutionized the treatment of this insidious disease.
269 ary-Claire King, a pioneer and visionary who revolutionized the use of genetics to identify disease g
271 in the medical microbiological practice has revolutionized the way microbial species identification
272 use of next-generation sequencing (NGS) has revolutionized the way phenotypic traits are assigned to
273 ipotent stem cell (iPSC)-derived neurons has revolutionized the way we model neurological disease in
277 nd new methods for training them are rapidly revolutionizing the application of machine learning in d
278 and, in particular, (3) how QDs are steadily revolutionizing the development of new biosensors along
279 eing developed with the exciting prospect of revolutionizing the healthcare industry by generating va
281 high-throughput, cost-effective methods are revolutionizing the study of within-host viral diversity
282 ation of CRISPR/Cas9 to mammalian systems is revolutionizing the utilization of genome editing techno
287 ve ABL-tyrosine kinase inhibitors (TKIs) has revolutionized therapy for chronic myeloid leukemia (CML
288 scoveries of Avermectin and Artemisinin have revolutionized therapy for patients suffering from devas
289 neration direct-acting antiviral agents have revolutionized therapy, with sustained virologic respons
294 ct of the Philadelphia (Ph) chromosome, have revolutionized treatment of patients with chronic myeloi
295 s (thoracic endovascular aortic repair) have revolutionized treatment of thoracic aortic disease.
296 cing and genome-wide association studies are revolutionizing understanding of the genetic bases of ot
297 ating vaccine efficacy, has the potential to revolutionize vaccine development for respiratory infect
299 romising proof of concept work can lead to a revolutionizing way of testing water at point of use, wh
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