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1 oscopic surgery (NOTES) currently remains an experimental technique.
2 ted as a factor limiting the utility of this experimental technique.
3 , and is a more efficient and cost-effective experimental technique.
4 Device fabrication is applicable via current experimental techniques.
5 as studied using surface- and bulk-sensitive experimental techniques.
6 iverse databases, growing rapidly due to new experimental techniques.
7 look at them individually using conventional experimental techniques.
8 time scales that are inaccessible to current experimental techniques.
9 estigate these assemblies using conventional experimental techniques.
10 ly useful and is within the reach of current experimental techniques.
11 tional modelling and screening with advanced experimental techniques.
12 intensive investigation using many different experimental techniques.
13 lysis of NGS data from different sources and experimental techniques.
14 lex, are becoming increasingly accessible to experimental techniques.
15 rons is only now becoming tractable with new experimental techniques.
16 ly studied these interactions using powerful experimental techniques.
17 e 150 degrees C, as characterized by various experimental techniques.
18 cs that can provide a valuable complement to experimental techniques.
19 cellular identities can be manipulated using experimental techniques.
20 greater detail than currently possible using experimental techniques.
21 ave solved tertiary structures determined by experimental techniques.
22 the advancements in theoretical methods and experimental techniques.
23 in silico and have been studied by different experimental techniques.
24 ructure is available using computational and experimental techniques.
25 sferase (3)-IIIb (AAC) is studied by several experimental techniques.
26 ) reconstruction combining computational and experimental techniques.
27 as been incomplete due to a lack of suitable experimental techniques.
28 d application of novel high-throughput (HTP) experimental techniques.
29 tors that are not readily obtainable through experimental techniques.
30 difficult to structurally characterize using experimental techniques.
31 icles and in the development of the required experimental techniques.
32 d time, are now routinely assayed by various experimental techniques.
33 re the datasets were obtained with different experimental techniques.
34 Rcs pathway using phylogenetic analysis and experimental techniques.
35 t on the synergism between computational and experimental techniques.
36 ments and extends that attainable by current experimental techniques.
37 are difficult to characterize using current experimental techniques.
38 gands are poorly understood due to a lack of experimental techniques.
39 embrane which is challenging to elucidate by experimental techniques.
40 llenging due to the limitations of available experimental techniques.
41 nd one or more datasets from five accessible experimental techniques: a small-angle X-ray scattering
42 t subfemtosecond pulses, the introduction of experimental techniques able to follow in time the elect
44 Given the development of high-throughput experimental techniques, an increasing number of whole g
45 re snapshots of data acquired using a single experimental technique and often require manual populati
46 ivated by the mechanism of HIV entry but the experimental technique and the model framework can be ex
47 nitiated in 2014, has the goal of developing experimental techniques and a Knowledge Management Cente
49 gy based on new results obtained using novel experimental techniques and analysis to improve sonopora
51 ractions, many groups working with different experimental techniques and assays have generated a vast
52 Their formation often requires elaborate experimental techniques and attempts to obtain giant ves
53 photophysical properties were examined with experimental techniques and compared with the results ob
57 light the promises and challenges that novel experimental techniques and data will bring to the field
58 In this review, we examine these available experimental techniques and illustrate how they have pro
59 In this study, we employ a combination of experimental techniques and in silico molecular simulati
62 n of the TS has become a major challenge for experimental techniques and molecular simulations approa
65 ocesses which are being elucidated by modern experimental techniques, and also incorporate the inhere
66 m, the key optical properties, the principal experimental techniques, and important recent results ar
67 uences, genes and gene regions disrupted and experimental techniques applied to discover/analyze the
68 sed are amenable to testing with noninvasive experimental techniques appropriate for the study of hum
69 iquid samples; (ii) availability of accurate experimental techniques, appropriate for the measurement
71 ences, which is of timely relevance as novel experimental techniques are generating increasingly larg
73 a mutational analyses, while high-throughput experimental techniques are often unable to distinguish
75 rt remains, however, unknown because current experimental techniques are unable to evaluate three-dim
77 hese differences result from deficiencies of experimental techniques, artifacts of tissue damage, or
78 switching was probed using a wide variety of experimental techniques as well as quantum-mechanical in
80 uman, resulting from various high-throughput experimental techniques, as well as from curated databas
87 shear wave velocities in the laboratory with experimental techniques based on physical acoustics.
88 the current, unprecedented blossoming of new experimental techniques built on second-generation seque
89 infection are not all directly measurable by experimental techniques but can be inferred through math
90 application of the current state-of-the-art experimental techniques by using ultrasonic interferomet
98 resonance (NMR) spin relaxation is the only experimental technique capable of probing local protein
99 lack of information is due to the dearth of experimental techniques capable of addressing elementary
103 osahedral Ag-In-Yb quasicrystal, and various experimental techniques combined with theoretical calcul
104 ondria are not possible in vivo with current experimental techniques, computational models can be use
106 n ratios and demonstrated the ability of the experimental techniques described here to generate SAM-b
107 amed fluorescence assay by gas expansion, an experimental technique designed for the quantification o
108 ton transfer reaction and that complementary experimental techniques develop understanding of how loc
109 is review aims to provide an overview of the experimental techniques developed with the purpose of at
111 ccharides that are difficult to address with experimental techniques due to the conformational flexib
112 s otherwise challenging to investigate using experimental techniques due to the difficulty in crystal
115 e expanded via improvements in equipment and experimental techniques, enabling new capabilities and s
116 luorescence in situ hybridization (FISH), an experimental technique especially well suited to charact
117 seen very rapid development of quantitative experimental techniques, especially at the single-molecu
119 on energies strongly depend on the choice of experimental technique: even the relative trends provide
120 suitability of both the model system and the experimental technique for additional work on the mechan
121 h provides an additional and straightforward experimental technique for determining energy band value
124 at this 2D spectroscopy will be an excellent experimental technique for observing slow hydrogen-bond
126 onal phonon Raman spectroscopy is a powerful experimental technique for the study of crystalline soli
128 y, it highlights the capabilities of various experimental techniques for characterization of these ma
129 sent, for such compounds fast and consistent experimental techniques for determining sorption coeffic
130 study provides a thorough comparison of two experimental techniques for direct temperature measureme
134 ons in the density of states enable powerful experimental techniques for measuring a metal's Fermi su
136 oelectricity at the nanoscale, we review the experimental techniques for measuring the thermopower in
137 organism partly because it is well suited to experimental techniques for monitoring and manipulating
139 physical adsorption with other complementary experimental techniques for obtaining a reliable and com
141 s data from a variety of fast and accessible experimental techniques for rapid and accurate structure
142 using finite element analysis are promising experimental techniques for studying shaken baby syndrom
143 simultaneous multidisciplinary explosions in experimental techniques for synthesizing new materials,
144 iments is currently limited by the available experimental techniques for the generation and character
146 mbly of functional molecular DSP systems and experimental techniques for their evaluation are explain
148 tations of current mathematical modeling and experimental techniques hamper our ability to provide in
150 r, neither electron microscopy nor any other experimental technique has yet been able to resolve and
151 ry structure of transmembrane proteins using experimental techniques has led to a surge of interest i
162 Over the past 18 months, these advances in experimental techniques have been used to further confir
165 sequences and the advent of high-throughput experimental techniques have motivated the development o
166 ism of PPIases is still lacking, and current experimental techniques have not been able to provide a
167 n and highly debated, but recent advances in experimental techniques have presented evidence of more
171 ially useful for drug design, limitations of experimental techniques have restricted their practical
174 ractions remain largely invisible to current experimental techniques, however, due to the sparse popu
175 ule has been studied through a wide array of experimental techniques; however, the exact molecular me
176 munoprecipitation (ChIP) serves as a central experimental technique in epigenetics research, yet ther
177 tion data, suggesting that it can complement experimental techniques in characterizing protein-DNA in
178 availability of increasingly high-resolution experimental techniques in the cognitive neurosciences a
180 mblies on betaCD surfaces using a variety of experimental techniques including microcontact printing
182 ar zwitterions is investigated using several experimental techniques, including concentration-depende
183 Additionally, we highlight cutting-edge experimental techniques, including conditional expressio
184 perturbations were observed by a variety of experimental techniques, including differential scanning
185 ecular dynamics studies are complementary to experimental techniques, including glycan microarray, to
191 vant acetyl-Abeta(21-30)-amide peptide using experimental techniques (limited proteolysis, thermal de
192 cing coarse-grained computer simulations and experimental techniques, mechanistic insights were gaine
199 thermodynamic integration (TI)] with several experimental techniques of fluorescence spectroscopy.
200 les has been investigated using the combined experimental techniques of negative ion photoelectron sp
202 cesses--which has not possible using present experimental techniques or traditional simulations based
206 able to reconcile the results from all four experimental techniques quantitatively, to obtain a comp
207 aborately modifying the existing in situ TEM experimental technique, rapid lithium-ion diffusion thro
210 itional methods, including computational and experimental techniques remain vital in promoting our un
216 ly here the combination of two complementary experimental techniques, simulations, and theory to the
217 s expensive and time consuming based only on experimental technique, so new computational methods are
219 ning structural constraints from a series of experimental techniques spanning five orders of magnitud
220 erials has been routinely characterized with experimental techniques such as cryo-electron microscopy
222 Despite the existence of well-established experimental techniques such as photoconductivity time-o
225 s gap is now being bridged by using emerging experimental techniques, such as mass spectrometry of co
226 inding motifs is corroborated by a number of experimental techniques, such as NMR, absorption, fluore
227 sically disordered proteins: A wide range of experimental techniques suggest that polypeptide chains
231 e that Jacobson identified one detail in our experimental technique that places an additional constra
232 inherent size limitations present in current experimental techniques that aim to directly assess the
233 curring in microdroplet environments require experimental techniques that allow a reaction to be init
234 ignments from random matches and complements experimental techniques that are optimal for glycopeptid
236 oted to a detailed revision of the different experimental techniques that can be used for the magneti
238 ast half century, the number and accuracy of experimental techniques that can deliver values of obser
239 cs, where there is a severe lack of suitable experimental techniques that can yield depth-resolved in
240 ing bioinformatics, computational design and experimental techniques that identifies and stabilizes m
244 ation have been carried out with a number of experimental techniques, that is, kinetics, electrochemi
246 Though our power was adequate using this experimental technique, the ability to differentiate cau
248 e availability of sequence data and advanced experimental techniques, the focus of attention has shif
249 en studied with a variety of theoretical and experimental techniques, the minute details of the very
252 h-throughput analyses, we used a 50-year-old experimental technique to selectively stain for synapses
253 photobleaching (FRAP) is a well-established experimental technique to study binding and diffusion of
256 e complexity of the system requires advanced experimental techniques to evaluate the performance.
257 use a combination of molecular modeling and experimental techniques to examine the structure of the
259 d often require expensive and time-consuming experimental techniques to generate the underlying data.
260 We use a combination of mathematical and experimental techniques to identify key factors on both
261 rough an interdisciplinary ensemble of novel experimental techniques to investigate the impacts of 14
264 d provides an example for how to use various experimental techniques to rapidly learn significant por
265 e strategic combination of computational and experimental techniques to reveal conformational feature
266 lecules, nowadays investigated with advanced experimental techniques to unveil their molecular mechan
267 ehavior of lipid bilayers using a variety of experimental techniques together with atomic-scale molec
268 The MEDICC algorithms are independent of the experimental techniques used and are applicable to both
270 ules, while simultaneously complementing new experimental techniques used for deciphering the structu
274 pollutant, and we describe and contrast some experimental techniques used to explore and characterize
276 een made possible through recently developed experimental techniques using intravital microscopy that
277 By use of a combination of mathematical and experimental techniques we have recently shown that the
279 Through a combination of bioinformatics and experimental techniques we identified a novel variant of
283 nation of molecular dynamics simulations and experimental techniques, we investigate the solublizatio
284 roach based on computational, synthetic, and experimental techniques, we show that the best potential
285 re, using a combination of computational and experimental techniques, we show that the intracellular
289 city, can be the intrinsic limitation of the experimental techniques, which cannot take into account
290 e report key advances in our fabrication and experimental techniques, which have enabled diffraction
291 mosome conformation capture (3C) and related experimental techniques, which measure the probabilities
294 ces provided by isotope exchange endows this experimental technique with a unique importance for dock
299 t combined measurement systems have involved experimental techniques with similar probing volumes, wh
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