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1 ciences) and new phenomena (largely from the biological sciences).
2 distance metric has been widely used in the biological science.
3 tion that are essential tools in the rest of biological science.
4 ingly more and more important part of modern biological science.
5 tems are common in all areas of physical and biological science.
6 uidic technologies have become widespread in biological science.
7 discovery and the ubiquitous digitization of biological science.
8 d patterns in microorganisms, the bedrock of biological science.
9 es for diverse applications in materials and biological science.
10 ology and parallel advances in all fields of biological science.
11 ntial applications of S-UEM in materials and biological science.
12 media throughout the physical, chemical and biological sciences.
13 look on future applications in materials and biological sciences.
14 to the establishment of key concepts in the biological sciences.
15 tive data visualization is imperative in the biological sciences.
16 el system for several disciplines within the biological sciences.
17 ses is one of the most important aims of the biological sciences.
18 hem for graduate and professional careers in biological sciences.
19 robes have become indispensable tools in the biological sciences.
20 ally intelligent' service customized for the biological sciences.
21 rainees) at a private research institute for biological sciences.
22 ement of methods that are widely used in the biological sciences.
23 bricated systems for use in the chemical and biological sciences.
24 that can be carried out in the chemical and biological sciences.
25 at have had a profound impact on research in biological sciences.
26 t research tool for the advancement of basic biological sciences.
27 laboratory approaches in many fields of the biological sciences.
28 mpler formalism is the underlying impetus of biological sciences.
29 f temperature are needed in the chemical and biological sciences.
30 few years have seen a profound revolution in biological sciences.
31 olutionary role in areas of the physical and biological sciences.
32 y an exciting time in the development of the biological sciences.
33 in scientific research, particularly in the biological sciences.
34 Engineered plasmids are widely used in the biological sciences.
35 or applications in Earth, environmental, and biological sciences.
36 ed to make effective caged compounds for the biological sciences.
37 d as a powerful characterization tool in the biological sciences.
38 erging analytical tools for the chemical and biological sciences.
39 ds, from diagnostic imaging to materials and biological sciences.
40 rse scientific domains, including social and biological sciences.
41 potential to enable broad discoveries in the biological sciences.
42 e of protein folds pose central questions in biological sciences.
43 Observation is at the center of all biological sciences.
44 many complex systems across the chemical and biological sciences.
45 l control is highly demanded in material and biological sciences.
46 itions find diverse uses in the chemical and biological sciences.
47 ge interest in every aspect of medicinal and biological sciences.
48 d as a ligation tool throughout chemical and biological sciences.
49 essity for structural biology and many other biological sciences.
50 e protein characterization challenges in the biological sciences.
51 omplex experimental interrogation across the biological sciences.
52 d to quantify morphology in a broad range of biological sciences.
53 nnean shortfall) hampers research across the biological sciences.
54 led substantial advances in the chemical and biological sciences.
55 erging of insights across different areas of biological sciences.
56 luding in the geosciences and the burgeoning biological sciences.
57 nally meets with some of the requirements of biological sciences.
58 amolecular chemistry, materials science, and biological sciences.
59 omplexes are widely used in the physical and biological sciences.
60 ve already made a substantial imprint in the biological sciences.
61 sical chemistry, materials sciences, and the biological sciences.
62 found application in nearly every branch of biological sciences.
63 ing widespread applications in materials and biological sciences.
64 ications for research communities across the biological sciences.
65 in research on low-rank matrix completion in biological sciences.
66 tions of biomolecules are fundamental to the biological sciences.
67 g the questions and scope of research in the biological sciences.
68 ntial as a universal tool for DNA writing in biological sciences.
69 hroughput sequencing data have re-shaped the biological sciences.
70 of the most widely utilized processes in the biological sciences.
71 (PPGs) are extensively used in chemical and biological sciences.
72 ore novel methods at the leading edge of the biological sciences.
73 ly played a vital role in the advancement of biological sciences.
74 s has important implications in physical and biological sciences.
75 by integrating both population and molecular biological sciences.
76 and thereby may lead to advances across the biological sciences.
77 e a useful tool in numerous areas across the biological sciences.
78 erformed by instructors with basic skills in biological sciences.
79 roader curricular transformation in teaching biological sciences.
80 of zoos as public engagement centres for the biological sciences.
81 component in the area of pharmaceutical and biological sciences.
82 st change but may now hamper progress in the biological sciences.
83 ospects for application in environmental and biological sciences 5 have been utilized to detect Hg(2+
84 Latin name but now it comes as a new day for biological science-a welcome era in which a phenomenon a
85 ntaries from academics across the social and biological sciences, addressing their insights on the im
86 en separately developed in both physical and biological science, although they share some basic conce
93 photoswitchable compounds for application in biological sciences and components of next-generation op
95 e ethics education and its evaluation in the biological sciences and medicine and describe the previo
98 ciences and medicine, and the changes in the biological sciences and TEMCP (technology, engineering,
99 with the greatest likely impact on both the biological sciences and the biotechnology industry will
100 University of California, Irvine's School of Biological Sciences and while the long-term impact remai
102 for compatibility with the 'big data' era in biological science, and it primarily focuses on protein
104 ng Twitter to convey our excitement with the biological sciences, and discovered a new means to contr
105 mensional data have become ubiquitous in the biological sciences, and it is often desirable to compar
106 lated use of machine learning methods in the biological sciences, and strongly advocate the need for
109 creased attention as more researchers in the biological sciences are turning to non-invasive imaging
110 lity and relevance in chemical, physical and biological sciences, are a subclass of polyoxometalates
111 uarely at the intersection of the social and biological sciences as well as at the intersection of kn
112 cial for repeated measurement data common in biological sciences, as both an accurate classifier and
113 ty would create great opportunity within the biological sciences, as high-resolution structural infor
116 ins and culminating in a faculty position in biological sciences at the University of Southern Califo
117 a interactions has become a central topic in biological sciences because of its relevance to basic ec
119 s science and has found many applications in biological sciences but has been limited in use in visio
120 " and "omics" as the hottest buzzword in the biological sciences, but is there any substance behind t
122 ide ions are of ubiquitous importance in the biological sciences, but typically need sensitization fr
123 o reactions have revolutionized chemical and biological science by facilitating selective, high yield
124 to traverse the hurdle of both physical and biological sciences by implementing nanostructures indis
125 be designed and built-is helping to advance biological sciences by motivating and equipping efforts
126 NA sequencing (scRNA-seq) has revolutionized biological sciences by revealing genome-wide gene expres
127 pus, PsycINFO, CINAHL, ProQuest Natural, and Biological Science Collections), reference lists, and ci
128 aws upon services developed specifically for biological sciences, collectively referred to as 'taxono
130 e engineering, the majority of life sciences/biological sciences courses continue to rely on the trad
131 ion of chemistry, materials science, and the biological sciences developing COEs and their polymer an
132 across a wide range of disciplines, from the biological sciences, device engineering, and materials p
134 vey of 704 National Science Foundation (NSF) Biological Sciences Directorate principal investigators
136 opy is a pivotal instrument in materials and biological sciences due to its ability to provide local
137 Single-cell genomics has revolutionized biological science, enabling high-resolution analysis of
138 ication to the archaeological, forensic, and biological sciences, enabling the mapping of "unseen" co
140 es continue to have a major impact on modern biological sciences, especially with the growth of multi
143 es offer excellent potential applications in biological sciences for drug delivery, cell manipulation
144 for structural analysis in both physical and biological sciences for many decades, in which 3D object
146 medicine and healthcare to the physical and biological sciences, from the social sciences to enginee
148 uld be of broad significance to physical and biological sciences given the popularity of fluorescence
152 led to deal realistically with one huge gap; biological sciences have never been given high priority.
154 ion has strongly impacted how evolution (and biological science in general) is thought of, taught, an
155 hrenia and specialists in other areas of the biological sciences in a workshop aimed at promoting the
156 only used in computer science, could aid the biological sciences in accurate and comprehensive quanti
157 tacts are ubiquitous across the physical and biological sciences in connecting organic molecules to s
158 Columbia disaster, flight opportunities for biological sciences in shuttle spacelabs and in Space St
159 quencing technologies has revolutionized the biological sciences in ways which could not have been im
160 vivo applications of DAs in the chemical and biological sciences, including riboswitches and riboregu
161 radical anions in the chemical, physical and biological sciences, including sulfur-based batteries' b
162 ess naive interpretations of race across the biological sciences, including those related to ancestry
163 ociety prizes the rapid translation of basic biological science into ways to prevent human illness.
164 gous to the "systems approaches" used in the biological sciences is a necessary step in this evolutio
166 rns underlying PNAS research articles in the Biological Sciences is only slightly larger than the num
168 NMR is hugely important in the physical and biological sciences, it also plays a vital role in medic
169 LC participation also increased retention in biological science majors one-year post-intervention com
170 Here we use peer review data from 312,740 biological sciences manuscripts across 31 studies to (1)
172 ecific dataset to date across the sports and biological sciences (N = 2765 fights), we examined how d
173 of a living learning community (LLC) in the biological sciences on FG students in their first year o
174 -enhanced fluorescence in the analytical and biological sciences, our findings will serve as a useful
176 ent) essay from last year, "Diversifying the Biological Sciences: Past Efforts and Future Challenges"
177 t and promising prospects for application in biological sciences probe 1 has been utilized to detect
178 atural selection, the unifying theory of all biological sciences, provides a basis for understanding
179 uld be of broad significance in physical and biological science research that involves photon/matter
180 Chief Scientist Office, Biotechnology and Biological Sciences Research Council (UK), Medical Resea
181 a Gates Foundation and the Biotechnology and Biological Sciences Research Council Institute Strategic
182 d Social Research Council, Biotechnology and Biological Sciences Research Council, Conselho Nacional
184 Medical Research Council, Biotechnology and Biological Sciences Research Council, National Institute
185 allenges Research Fund and Biotechnology and Biological Sciences Research Council, UK Medical Researc
186 h Council, Wellcome Trust, Biotechnology and Biological Sciences Research Council, UK National Instit
189 igrid Juselius Foundation, Biotechnology and Biological Sciences Research Council; Wellcome Trust, Me
190 ortant developments had a profound impact in biological sciences since they triggered the development
191 on has entered the limelight of chemical and biological sciences, since, by appending small molecules
192 ield classifications into physical sciences, biological sciences, social sciences, and further subtop
195 considering the requirements of physical and biological sciences that have a tangible impact on the p
196 ion for use in the physical, information and biological sciences that is stable at room temperature a
198 ce of conceptual debates in the 20th century biological sciences, the poles of each pair came to be s
199 pite advances in chemical, computational and biological sciences, the rate of attrition of drug candi
201 iad functional and structural aspects of the biological sciences, their behavior is largely descripti
204 fundamental principles from the physical and biological sciences to explain certain cancer behaviors
205 tu hybridization methods are used across the biological sciences to map mRNA expression within intact
208 ding, integrating social, psychological, and biological sciences, to map the constituents of healthy
209 f the framework to be outlined integrate the biological science underlying modern genetics and the po
211 Motivated by applications in physical and biological sciences, we developed a Frequency Modulated
213 rians, through a technique borrowed from the biological sciences: We reenacted an ancient anatomical
214 finding applications in various physical and biological sciences where 3D image segmentation is cruci
215 al for understanding cellular behaviours for biological sciences, where is used to image and track or
216 ng unknown trait values is ubiquitous across biological sciences-whether for reconstructing the past,
217 oft" to "hard" sciences or from "social" to "biological" sciences, which allow us to quantitatively g
218 a robust method for imaging in materials and biological science, while its single-shot capability wil
219 ted to discuss the state of diversity in the biological sciences with some recommendations for moving
220 f fluorescence has become commonplace in the biological sciences, with many studies utilizing probes