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1  which have been at the center of the 'green revolution'.
2 s of Ne that has been fueled by the genomics revolution.
3 issed before the beginning of the Industrial Revolution.
4 e Kariko paradigm) has been pivotal for this revolution.
5 ich has been heralded as the next industrial revolution.
6 a, approximately 240 y before the Industrial Revolution.
7 nformation being generated by the microbiome revolution.
8 e past decade, spurred on by the optogenetic revolution.
9 erienced dramatic growth since the Neolithic revolution.
10 (Delphinapterus leucas) since the industrial revolution.
11  will help "connect the dots" of the genomic revolution.
12      Therapy for hepatitis C is undergoing a revolution.
13 a 100 Mya, during the Cretaceous terrestrial revolution.
14 o commercial crop cultivars during the Green Revolution.
15 we are still at the dawn of this therapeutic revolution.
16 e been repurposed to enable a genome editing revolution.
17 ychology is the second wave of the cognitive revolution.
18 ke dimers, spherocylinders and ellipsoids of revolution.
19 dy 20 k years ago, well before the Neolithic revolution.
20 growth since the beginning of the industrial revolution.
21 ly become synonymous with the genome-editing revolution.
22 harges since the beginning of the Industrial Revolution.
23 er its control, to help catalyze a new green revolution.
24  (Triticum aestivum) yields during the Green Revolution.
25  more than 40 years after the plate tectonic revolution.
26 its, threatening to end the microelectronics revolution.
27 hropogenic-driven regime with the Industrial Revolution.
28 y an order of magnitude since the Industrial Revolution.
29  rapid population growth since the Neolithic revolution.
30 fresh and sustain the information technology revolution.
31 een lost to agriculture since the Industrial Revolution.
32 m ice core measurements since the industrial revolution.
33 uses are not adapted for the ongoing genomic revolution.
34  p.p.b.v. at the beginning of the industrial revolution.
35 nd their propagation at the scale of a comet revolution.
36  driving force of the information-technology revolution.
37 pulations as a strategy for the second green revolution.
38 ) competition are on the front lines of this revolution.
39 energy carrier promises a sustainable energy revolution.
40 r its sequence had undergone a technological revolution.
41 ystems and awaiting the fruits of a big data revolution.
42 cation that began during the Mesozoic marine revolution.
43 er, by the end of the Cretaceous terrestrial revolution.
44 emperature after the start of the Industrial Revolution.
45 ssing these questions: Was there a Darwinian revolution?
46             Core policy directions for Green Revolution 2.0 that enhance the spread and sustainable a
47 s of our societies is emerging from the data revolution, a number of questions concerning the reliabi
48  over 9,300 phrases recorded during two song revolutions across the South Pacific Ocean, allowing fin
49                                  The digital revolution affects the environment on several levels.
50 s with A. mellifera predates post-industrial-revolution agriculture, as evidenced by the widespread p
51 s been the workhorse of the microelectronics revolution and a key enabler of the information age.
52               The convergence of the genomic revolution and biobanking with rapid progress in stem ce
53 portant roles for the Cretaceous Terrestrial Revolution and Cretaceous-Paleogene (KPg) mass extinctio
54 ere, we focus on the ongoing single filament revolution and discuss how these techniques have greatly
55 key to realizing the benefits of the genomic revolution and refining our understanding and treatment
56                      Previously proposed DNA revolution and rolling motions inside the connector chan
57 uch as the 18th- and 19th-century industrial revolution and the information revolution today.
58 d of surgery, as it existed when the medical revolution and the process of specialization were just b
59 t of the motor, and specifically the one-way revolution and the push-roll model.
60 ave already witnessed multiple technological revolutions and a growth in scale from a few kilobases t
61 ng in the wake of the environmental genomics revolution, and such models rarely incorporate explicit
62 ecies, the Darwinian era up to the Cladistic Revolution, and the Hennigian era leading to today.
63                         Although the genomic revolution appears to have had little impact on this pro
64 n industrialization and future technological revolution are always at high expense of energy consumpt
65 idification since the dawn of the industrial revolution are not clear.
66   The technological advances that drove this revolution are now poised to transform genetic studies i
67 ental impacts of a prospective African Green Revolution are potentially ambiguous.
68 uman populations exposed to the agricultural revolution are still affected by Darwinian selection rem
69 oural economics, mobile health, and the data revolution, are changing health systems and ushering in
70 ctional data obtained during a single gantry revolution as a bolus of contrast material flows through
71  This trend has accelerated with the genetic revolution, as genomic sequences and genetic tools becam
72                                    The Green Revolution associated with the pioneering work of Norman
73 ammatory bowel disease (IBD) has undergone a revolution, based in large part on novel genotyping and
74 merical weather prediction represent a quiet revolution because they have resulted from a steady accu
75                         After the Industrial Revolution both bogs registered an independent, abrupt a
76                                The Neolithic Revolution brought about the transition from hunting and
77               Microbiology is experiencing a revolution brought on by recent developments in sequenci
78 pecially relative to Libyans who favored the revolution but did not join battalions.
79           Coal was central to the industrial revolution, but in the 20th century it increasingly was
80 ica fibers has enabled the telecommunication revolution, but single-mode fiber-optic communication sy
81 f As and S since the onset of the Industrial Revolution, but the effect of S deposition on the fate o
82 onal policy and leadership, an African Green Revolution can be a reality.
83 y completed, the next goal of the sequencing revolution can be sequencing sensors--miniaturized seque
84  In the early years of the molecular biology revolution, cancer research was mainly focused on geneti
85  of this self-organizing system by the Green Revolution caused chaos in irrigation and devastating lo
86                        During the Industrial Revolution, Chinese breeds were imported to Europe to im
87       We consider how the precision medicine revolution, coupled with the advances made in genomics,
88 ing a people-powered research science (PPRS) revolution, creating a global community of "new experts"
89                        Thanks to the digital revolution, digital signal processing and control has be
90 in coupled receptors (GPCRs) is undergoing a revolution due to increased information about their sign
91 ing force of the current information display revolution due to their low power consumption and potent
92 ve sequences is correlated with katatrepsis (revolution) during mid-embryogenesis, a 180 degrees rota
93 metamorphosis nor the Cretaceous Terrestrial Revolution environmental changes induced immediate chang
94 rk work by Kuhn, The Structure of Scientific Revolutions, first published 50 years ago.
95 rlattice periods, reversals of the cyclotron revolution for successive minibands, and breakdown of cy
96 ion often described as the home of the green revolution for wheat, tracing changes in the functions o
97 logy has been at the heart of the 'big data' revolution from its very beginning, and the need for acc
98 ian Basin is being transformed by the "shale revolution" from a major conventional play to the world'
99                                The Darwinian revolution gave us a new form of explanation; two levels
100 QTLs, including a region near the rice Green Revolution gene SEMIDWARF1.
101            Materials science is undergoing a revolution, generating valuable new materials such as fl
102               However, well before the Green Revolution, generations of North American farmers overca
103 lications concerning the action of the Green Revolution genes in future environmental conditions.
104 olog of rice SD1 and barley Sdw1/Denso green revolution genes, this study illustrates the occurrence
105                           This technological revolution has also affected understanding of the epigen
106                                         This revolution has been sparked by technological advances th
107                        Concurrently, another revolution has been underway-the diversity of species ut
108 rs, however, the very notion of a scientific revolution has come under attack, and in the specific ca
109                                  The digital revolution has contributed to very large data sets (ie,
110                   Second, Asia's supermarket revolution has exhibited unique pathways of retail diffu
111                                    The Green Revolution has fuelled an exponential growth in human po
112                           Although the Green Revolution has greatly increased the yield of commercial
113                                  The genomic revolution has identified therapeutic targets for a plet
114                           This technological revolution has led way to nanomedicine, which spurred th
115                            The mouse genetic revolution has shown repeatedly that most organs have mo
116                               A "supermarket revolution" has occurred in developing countries in the
117 rating human activities since the Industrial Revolution have changed the acoustic landscape of many t
118 nthropogenic activities since the industrial revolution have increased atmospheric CO2 concentrations
119                       Results from the omics revolution have upset this vision to varying degrees by
120      A series of industrial and agricultural revolutions have allowed an increasing fraction of the w
121                                        These revolutions have now been combined, together with advanc
122  and speed of computers, with the "big data" revolution having already happened in genomics and envir
123 arily exciting time when the recombinant DNA revolution hit yeast genetics.
124 zer that is applied in support of the 'Green Revolution.' However, much of this fertilizer eventually
125  repeated bombardments, dictatorships, and a revolution, I managed nonetheless to engage in scientifi
126 ed technologies are experiencing a potential revolution ignited by the new deep learning methods.
127 s, and how their convergence is leading to a revolution in 4D nanomanufacturing.
128        Biosensors will contribute to the 4th revolution in agriculture by incorporating innovative te
129                               The electronic revolution in analytical instrumentation began when we f
130 conjugates, respectively, represent a second revolution in antibody-mediated cancer therapy.
131 fluorescent proteins (FPs) has spearheaded a revolution in applications for imaging of live cells.
132 torical analysis demonstrates that the Green Revolution in Asia, Latin America, and the Middle East w
133 ling and electromagnetic traps have led to a revolution in atomic physics, yielding dramatic discover
134                     We are on the verge of a revolution in atomic timekeeping, where optical clocks p
135                            The technological revolution in biological research, and in particular the
136  the last half of the twentieth century: the revolution in biology that advanced the field of protein
137                               The meta'omics revolution in both sequencing and its analytic pipelines
138 ularly checkpoint inhibitors, have set off a revolution in cancer therapy by releasing the power of t
139                     We are on the brink of a revolution in cardiac research, one in which computation
140 anoid derivation from stem cells represent a revolution in cell biology.
141           However, we are now experiencing a revolution in cellular characterization resulting from t
142                                            A revolution in cellular measurement technology is under w
143                                          The revolution in CRISPR-mediated genome editing has enabled
144                                          The revolution in culture-independent microbiology has provi
145 science field is steaming ahead, fueled by a revolution in cutting-edge technologies.
146 s in the inflammatory neuropathies heralds a revolution in diagnosis, and has already begun to inform
147                                 Although the revolution in DNA sequencing has provided an abundance o
148                                          The revolution in DNA sequencing technologies has now made i
149 s (genomics, proteomics, etc.) has sparked a revolution in drug design, with many industrial and acad
150 ferroelectric single crystals have triggered revolution in electromechanical systems due to their sup
151 brid in nature is propelling a technological revolution in energy, touching many fundamental aspects
152 rediction, two factors that are propelling a revolution in engineering.
153                                          The revolution in genetic technologies has allowed interroga
154      I propose that at this exciting time of revolution in genetics and device technologies, neurosci
155                                  The ongoing revolution in high-throughput sequencing continues to de
156    If so, what is arguably the greatest ever revolution in human livelihoods is readily explained.
157                               The technology revolution in image acquisition, instrumentation, and me
158 encing technology have created a data-driven revolution in immunology.
159 ical and thermal stability, have generated a revolution in industrial catalysis.
160 half of the 20th century in particular saw a revolution in medical diagnostic techniques with the dev
161                                          The revolution in meso-scale study of circuits in non-human
162 adapted CRISPR/Cas9 platform, could prompt a revolution in mitochondrial genome engineering and biolo
163 t that multidimensional imaging has driven a revolution in modern biology.
164 loping mechanistic, insights from the modern revolution in nanoparticle science to the synthesis of s
165 ic and mechanistic insights, from the modern revolution in nanoparticle synthesis and characterizatio
166  mechanistic insights gained from the modern revolution in nanoparticle synthesis, characterization,
167   Dentistry and orthopedics are undergoing a revolution in order to provide more reliable, comfortabl
168                                         This revolution in our thinking about the pathophysiology of
169 cated computational methods are catalyzing a revolution in our understanding of immunology.
170            The past fifteen years has seen a revolution in our understanding of ionotropic glutamate
171 iscovery of the Sry gene in 1990 triggered a revolution in our understanding of sex determination.
172                Recent years have witnessed a revolution in our understanding of signaling in neuronal
173                The past 60 years have seen a revolution in our understanding of the molecular genetic
174 logs with various radionuclides has led to a revolution in patient management and established a found
175 ast two decades and will certainly lead to a revolution in peoples' lives in the future.
176 thermocrystals herald the next technological revolution in phononics.
177           We now stand on the brink of a new revolution in post-genomic personalised medicine, with p
178 terial technologies of the Fourth Industrial Revolution in progress.
179 ably the most successful drug spawned by the revolution in recombinant DNA technology".
180 phase-contrast imaging has recently led to a revolution in resolving power and tissue contrast in bio
181  computing is driving what many would call a revolution in scientific visualization.
182                                   The recent revolution in sequencing technologies has led to an expo
183                                            A revolution in sequencing technologies in recent years ha
184                                   The recent revolution in sequencing technology has helped to reveal
185  in sequencing technologies have catalyzed a revolution in studying human-associated microbes: bacter
186  nanoparticles and contributed to the recent revolution in super-resolution localization microscopy t
187 lytical procedures, proteomics may produce a revolution in systematics such as that achieved by genom
188                         After the scientific revolution in the 17th century, early medical physicists
189 ere among the first successes of the genetic revolution in the 1980s.
190                                   There is a revolution in the ability to analyze gene expression of
191 this important group is rapid and promises a revolution in the classification of these wasps in the n
192        Over the past decade there has been a revolution in the field of G protein-coupled receptor (G
193                    Realizing that the recent revolution in the field of ultrafast enantioselective ch
194 tions, and recent developments have caused a revolution in the field.
195 and computational biophysics has undergone a revolution in the last 10 years.
196                                The Neolithic Revolution in the Levant was a watershed in this domain
197                       There has been a major revolution in the management of patients with myeloproli
198                                            A revolution in the science of emotion has emerged in rece
199              As this development unfolded, a revolution in the speed and cost of genetic sequencing o
200 Currently, we are witnessing a translational revolution in the treatment and management of psoriasis.
201                  Although still incurable, a revolution in the treatment of MM is currently ongoing,
202 y of extant sexual cycles reveal an on-going revolution in the understanding of fungal asexuality.
203 w tools for functional genomics will drive a revolution in the understanding of Salmonellae in many d
204  and image-processing software have led to a revolution in the use of electron cryo-microscopy to det
205 e foresee the absolute need for and expect a revolution in the use of microbes as a source of protein
206       Mobile, social, real-time: the ongoing revolution in the way people communicate has given rise
207                                 This call to revolution in theories of visual search does not go far
208             The last two decades have seen a revolution in these prevailing dogmas, with a significan
209         In recent years, we have witnessed a revolution in this field, sparked by the discovery of th
210 g the gene." However, over the past decade a revolution in this thinking has occurred, culminating in
211 r the past decade, there has been an optical revolution in time keeping and microwave generation that
212 ic organ transplantation reflect an emergent revolution in understanding and treating disordered gut
213                    The past decade brought a revolution in understanding of the structure, topology a
214 erahertz and sub-terahertz phonons promise a revolution in various technical applications related to
215           Now with access to genomic data, a revolution in which molecular information is being used
216                                              Revolutions in genomics and fluorescence microscopy have
217 a spatial organization, driven by coincident revolutions in imaging and sequencing technologies, is r
218                               Therefore, new revolutions in the field require the development of tool
219 ed allele surfing, is thought to have caused revolutions in the gene pool of many species, most evide
220 roved global food security during the 'green revolution' in the 1960-1970s (2) .
221 pportunities for the evolution (and at times revolution) in chemical synthesis.
222       The current high-throughput sequencing revolution, in addition to advances in mass spectrometry
223 he intensification of agriculture (the Green Revolution, in which much greater crop yield per unit ar
224 te a tightly coupled mechanism in which each revolution is driven by a fixed number of energizing ion
225                               A second green revolution is required to ensure food and nutritional se
226                       Underlying the current revolution is the theoretical assumption that the insens
227                     The optical neuroscience revolution is transforming how we study neural circuits.
228                                      A quiet revolution is under way in technologies used for nanosca
229        A detailed retrospective of the Green Revolution, its achievement and limits in terms of agric
230                        The molecular biology revolution led to an intense focus on the study of inter
231                  However, although the Green Revolution led to increased grain production in the 1960
232 re likened its ideals to those of the French revolution--Liberte, Egalite, Fraternite--and called it
233 can medicine found itself in the middle of a revolution marked by fundamental economic, scientific, a
234  women with a sexual debut before the sexual revolution may be masking an age-related increase in HPV
235  a muscle spins a rotor at an average 11,500 revolutions/minute or delivers 3% tensile contraction at
236 ations support the recently proposed one-way revolution model and suggest in structural terms how the
237 uced apomictic lines, and heralds a breeding revolution needed to increase food production for the gr
238            The agent of change was neither a revolution nor the advent of a new species of human.
239 -cell techniques, coupled with the molecular revolution of biology's recent half-century, to continue
240                We are witnessing an exciting revolution of scale, wherein technical progresses allow
241 ious groups of animals during the Cretaceous revolution of terrestrial ecosystems.
242 een regarded as a trigger for the Cretaceous revolution of terrestrial ecosystems.
243  biology, facilitating the molecular biology revolution of the last century.
244 many other cancers, we have yet to witness a revolution of the same magnitude in SCLC treatment.
245 ria): the replacement, during the Industrial Revolution, of the common pale typica form by a previous
246  changes, such as the Cretaceous Terrestrial Revolution, or the development of major key innovations,
247 cific issues that reflect the impact of this revolution, particularly in Asia: continuity in transfor
248 g the evolutionary consequences of the green revolution, particularly in wild populations, is an impo
249  pump speed from a maximum of 10,480 +/- 315 revolutions per minute to a minimum of 8500 +/- 380 revo
250 ady-state responses to step changes (200-400 revolutions per minute) in continuous-flow left ventricu
251 ions per minute to a minimum of 8500 +/- 380 revolutions per minute.
252 hically decorated gourd, dated to the French Revolution period, has been alleged to contain a handker
253 more dilute than proposed for Pre-Industrial Revolution (PIR) conditions has important ecological, bi
254                      The role that the Green Revolution played in drought evolution was also studied.
255  helicity of structures, while the wavefront revolution plays a dominant role in reducing the group v
256 r, we review the technologies that made this revolution possible and demonstrate how intravital imagi
257 eginning to be appreciated, and the genomics revolution promises more reliable and less expensive mol
258                             This therapeutic revolution raises the possibility of eliminating HCV fro
259                        Before the industrial revolution, rates of peat accumulation in all cores were
260 or stagnating as the approaches of the Green Revolution reach their biological limits.
261        Fulfilling the promise of the genetic revolution requires the analysis of large datasets conta
262  ago was a cultural as well as technological revolution, requiring a new system of property rights.
263 ted in a single model of the impact of Green Revolution research (and subsequent advances in yields f
264 s with a maximal rotation rate (Vmax) of 107 revolutions/s and a Michaelis constant (Km) of 154 muM a
265 acic surgeons have led the outcome reporting revolution seen over the last 20 years.
266                                   The second revolution, separation from the American Lung Associatio
267 2+) entry in non-excitable cells underwent a revolution some 5 years ago with the discovery of the Or
268 ties of grinding balls, the filling ratio or revolution speed.
269 elebratory event, I highlight the conceptual revolution spurred by his work, which continues to inspi
270 inoids, the predation-driven Mesozoic marine revolution started earlier than in other groups, perhaps
271 ied to other technological and institutional revolutions such as the 18th- and 19th-century industria
272  the past decade, often termed "the genomics revolution," such advancements as the emergence of genom
273 occurring at the beginning of the Industrial Revolution suggests coal combustion as a main source of
274       We are in the midst of a technological revolution that is providing new insights into human bio
275            These discoveries set in motion a revolution that shaped the landscape of the molecular sc
276 , practically coinciding with the Industrial Revolution, the First World War and HIV epidemics.
277                                    The first revolution, the formation of Scientific Assemblies, got
278 t infrastructure, the information technology revolution, the growth of the global population, and eve
279                           With the molecular revolution, the number of known monogenic determinants u
280 rganic synthesis played a major role in this revolution through its ability to construct the molecule
281 ng in oncology has been undergoing a "quiet" revolution to treat images as data, not as pictures.
282 al with the Holocene, through the Industrial Revolution, to the mid-20th century when unprecedented h
283 ry industrial revolution and the information revolution today.
284 ests evolved in an orderly fashion, but two "revolutions" took place that should be remembered.
285  of women with sexual debut after the sexual revolution transition to menopause, the implications of
286                              The Asian green revolution trebled grain yields through agrochemical int
287 , the region has faced unrest as a result of revolutions, wars, and the so-called Arab uprisings.
288                                This Holocene revolution was not sparked by a superior technology.
289 ed with the tools emerging from the genomics revolution, we are now in a position to link molecular s
290 arbuscule formation in monocots, and a Green Revolution wheat variety carrying dominant DELLA alleles
291 ose the engine of the information technology revolution, whereas complexity--the antithesis of algori
292 l likely be distinct from those of the Green Revolution, which had relatively little impact in sub-Sa
293         The next stage of this technological revolution will be the development of active, controllab
294 f B-cell ALL, it is hoped that the molecular revolution will enhance our understanding of the pathoge
295 tained for several decades, an African Green Revolution will eventually become land sparing.
296 Overall, we are optimistic that the big-data revolution will vastly improve the granularity and timel
297  is preparing a "redux" version of the Green Revolution with more integrative environmental and socia
298   Electron microscopy (EM) is experiencing a revolution with the advent of a new generation of Direct
299 iomedical research, we are in the midst of a revolution with the generation of new data and scientifi
300  bacteriophage phi29 uses a third mechanism: revolution without rotation.

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