1 Guided by multireference quantum chemical calculations,
2 Guided by triallelic genotype/haplotype configurations,
3 Guided by the 2(N + 1)2 electron-counting rule for spher
4 Guided by a translational approach, we: (
1) performed as
5 Guided by observations in other cephalopods,(
12)(,)(13)(
6 Guided by this design principle, 2,2-difluoroethyl ethyl
7 Guided by calculated ground state geometries, a library
8 Guided by experimental Phi-values, a putative transition
9 Guided by findings in linkage mapping, a genome-wide ass
10 Guided by structural information, a specific amino acid
11 Guided by structural simulation, a fused pol Sdbh with n
12 Guided by the experiment, a mathematical model for biofi
13 Guided by theory, a firm assignment of the angular momen
14 Guided by thermodynamic calculations, a deposition appro
15 Guided by these empirical equations, a highly porous Zr-
16 Guided by these hot spots, a library of drug-like macroc
17 Guided by these mechanistic findings, a simple computati
18 Guided by these results, a cultured retinal microglia mo
19 Guided by a computational docking analysis, about 30 Foo
20 Guided by structural models, active site engineering of
21 Guided by this structure, active-site engineering at 11
22 Guided by crystallography, activity assays and cellular
23 on the LASAGNA (Length-Aware Site Alignment
Guided by Nucleotide Association) algorithm.
24 Guided by the histopathologic map, all spectroscopy voxe
25 Guided by the structures, an optimized molecule was gene
26 Guided by these parameters, an arterial spin labeling MR
27 Guided by Census data, sociological surveys, and neural
28 Guided by computer modeling studies, and taking advantag
29 Guided by features of molecular, cellular, and circuit d
30 Guided by high-resolution ultrasound, optical, and photo
31 Guided by sight, scent, texture, and taste, animals inge
32 Guided by the Prp28*AMPPNP structure, and that of the Dr
33 Guided by this structure, and in combination with mutati
34 Guided by a computational modeling approach, appropriate
35 Guided by nuclear magnetic resonance (NMR) binding assay
36 Guided by nuclear magnetic resonance (NMR) binding assay
37 Guided by the data, calculations show that electron-hole
38 Guided by extensive theoretical analysis, cellular struc
39 Guided by structure based design, changes to P2' and P3
40 Guided by brain-like 'spiking' computational frameworks,
41 Guided by these findings, data mining of single-cell RNA
42 Guided by single guide (sg)RNAs, dCas9-AID-P182X (AIDx)
43 Guided by a conceptual framework (
developed in parallel
44 Guided by the clinical features, diagnostic tests and th
45 Guided by optical simulation, each of the active layer t
46 Guided by these data, electrophysiological analyses usin
47 Guided by numerical simulations, experiments are designe
48 Guided by cyclic voltammetry (CV) studies, fine-tuning t
49 Guided by bioinformatics, four diastereomers were synthe
50 Guided by X-ray cocrystal structures, fragment 1 was ela
51 Guided by comparative genomics, here we reverse-engineer
52 Guided by metabolomic analyses, here we employ a combina
53 Guided by structural analysis, here we introduced single
54 Guided by the model, here we choreograph a wide range of
55 Guided by MM results, high-resolution differential scann
56 Guided by gut sensory cues, humans and animals prefer nu
57 Guided by an implementation science framework, in Aim 3,
58 Guided by initial microarray analysis, in vitro studies
59 Guided by these interactions, in our current work, we us
60 Guided by an interpretive description approach, intervie
61 Guided by these studies, four open, inward-facing struct
62 Guided by our insight, ion mobility-mass spectrometry is
63 Guided by solution NMR experiments, it could be shown th
64 Guided by concepts from life history (
LH) theory, a larg
65 Guided by the geometrical analysis, linkers with differe
66 Guided by Flory-Huggins theory, liquid-state zwitterioni
67 Guided by efficacy and cost, management of constipation
68 Guided by X-ray crystallography, NMR, modeling, and mach
69 Guided by the corresponding crRNA arrays, MultiduBE is s
70 Guided by this structure, mutations were introduced into
71 Guided by this principle, N-fluorobis(phenylsulfonyl)ami
72 Guided by microscale X-ray CT, nanoscale X-ray CT is use
73 Guided by small RNAs (sRNAs) of 20-25 nt in length, RNA
74 Guided by the 'directionality' of cell development along
75 Guided by this data, optimal design parameters were esta
76 Guided by facilitators, participants identified their co
77 Guided by the computational models, reaction between 2,3
78 Guided by crRNAs, dRfxCas13d(FCPF) recruits a risdiplam-
79 Guided by the PET results, region of interest analysis w
80 Guided by biochemical data, rigid body modeling of subun
81 Guided by single-cell RNA sequencing (
scRNA-seq), we fou
82 Guided by molecular dynamics (MD) simulations combined w
83 Guided by the electrical recording data, single-cell RNA
84 Guided by a surface plasmon resonance (
SPR) binding assa
85 Guided by docking studies, steric constraints within the
86 Guided by the neutron reflectivity measurements, suitabl
87 Guided by the visual bioassay, Tannic acid was isolated
88 Guided by a calibration system, the model seeks optimal
89 Guided by a kinetic model, the oligomer dissociation rat
90 Guided by chemical network analysis, the core structure
91 Guided by computational selectivity predictions, the str
92 Guided by experimental observations, the simulations sug
93 Guided by expert insight, the priorities identified for
94 Guided by structural data, the monomeric peptides were c
95 Guided by structural-biology information, the binding-po
96 Guided by the computational predictions, the bipyridine-
97 Guided by the optimized calculated spectra, the tunabili
98 Guided by the simulation results, the corresponding expe
99 Guided by the theory, the addition of the electronic con
100 Guided by DFT calculations, these ligands were designed
101 Guided by molecular modeling, this series was evolved to
102 Guided by the biobehavioral synchrony frame, this pre-re
103 Guided by chromatin structure, through the use of Chromo
104 Guided by that strategy, triple catalysis has been studi
105 Guided by topology, two flexible isomeric MOFs, compound
106 Guided by these predictions, we demonstrated, via gain-
107 Guided by a "proximate determinants" approach, we focus
108 Guided by a computational model, we fabricated a patch c
109 Guided by a mean-field approach, we show in a spiking ne
110 Guided by a rigorous mathematical result, we have earlie
111 Guided by an unbiased profiling approach, we identified
112 Guided by atomic-resolution models, we develop fusions o
113 Guided by available evidence, we present an algorithm fo
114 Guided by bioinformatic analysis, we demonstrated that s
115 Guided by catalyst engineering, we adopted catalytic cyc
116 Guided by ChR2-EYFP fluorescence, we recorded systematic
117 Guided by clinical use, we demonstrate pan-allelic gener
118 Guided by CO-ED, we targeted an unannotated predicted Th
119 Guided by cocrystal structures, we elaborated arylsulfon
120 Guided by cocrystal structures, we reduced the P1' subst
121 Guided by cognitive deficits, we demonstrated that mutan
122 Guided by comparative sequence considerations, we have e
123 Guided by computational analysis, we designed variants o
124 Guided by computational design, we optimized the interfa
125 Guided by computational modeling, we performed a pharmac
126 Guided by computational studies, we have rationalized th
127 Guided by computational studies, we reveal a NADP(+)/NAD
128 Guided by density-functional theory, we selectively stab
129 Guided by detailed mechanistic analyses, we find that th
130 Guided by endonuclease restriction maps, we chose PCR pr
131 Guided by functional magnetic resonance studies, we expl
132 Guided by functional maps, we recorded neurons in the la
133 Guided by geometric analyses and experiments, we create
134 Guided by ion motion simulations, we designed elevator a
135 Guided by its ancestry, we predict and demonstrate in vi
136 Guided by its predictions, we hypothesized that any cond
137 Guided by mathematical modeling, we identified the prima
138 Guided by mathematical modeling, we incrementally increa
139 Guided by MD simulations, we identified that the N-termi
140 Guided by mechanistic studies, we disclose the selective
141 Guided by metabolism studies, we identified compounds wi
142 Guided by model predictions, we show that blocking gluta
143 Guided by molecular modeling, we investigated the molecu
144 Guided by molecular modeling, we synthesized and studied
145 Guided by multiple sequence alignments, we used site-dir
146 Guided by our analysis, we suggest how such models can b
147 Guided by our bioinformatic analysis, we identify and is
148 Guided by our in vivo observations, we modeled hibernati
149 Guided by our model, we perform synergistic numerical si
150 Guided by our phase diagram, we show that tau can be dri
151 Guided by our predictive theoretical model, we have syst
152 Guided by our results, we outline new diagnostic criteri
153 Guided by our simulations, we reveal both statistical an
154 Guided by phase-field simulations, we conceived and synt
155 Guided by phase-field simulations, we designed and fabri
156 Guided by power calculations, we used statistical infere
157 Guided by predictions of this model, we found that the d
158 Guided by predictive modelling, we enhanced the circuit'
159 Guided by previous experimental observations, we have st
160 Guided by previous hyperscanning studies, we focused on
161 Guided by previous structural studies, we hypothesized t
162 Guided by protein dimerization properties, we examined D
163 Guided by Rasch analysis, we constructed and validated a
164 Guided by recent experimental reports, we propose that t
165 Guided by recent neurophysiological observations, we att
166 Guided by restorative justice principles, we offer 10 re
167 Guided by results from transcriptional profiling, we ide
168 Guided by RNA sequencing expression profiling, we have d
169 Guided by scholarship on racial capitalism, we argue tha
170 Guided by Semantic Space Theory, we identify the concept
171 Guided by sequence alignment, we created IDL deletions i
172 Guided by simulations of separation processes, we numeri
173 Guided by single-cell transcriptome analysis, we demonst
174 Guided by single-molecule dynamics, we visualized initia
175 Guided by six central questions, we propose an integrati
176 Guided by structural and genomic analyses, we further id
177 Guided by structural docking modeling, we rationally des
178 Guided by structural information, we identified a unique
179 Guided by structure-based genomic analyses, we found DUF
180 Guided by structure-based mutagenesis, we identify amino
181 Guided by structure-based optimization, we were able to
182 Guided by synteny, we identified a highly divergent basa
183 Guided by the computational analysis results, we designe
184 Guided by the computational results, we used chemical pr
185 Guided by the crystal structures, we engineered a series
186 Guided by the disease phenotype, we investigated the rol
187 Guided by the Drosophila studies, we reasoned that a dow
188 Guided by the framework, we review examples of federal/s
189 Guided by the key principles, we describe evidence-based
190 Guided by the model, we developed two signatures consist
191 Guided by the model, we discuss possible strong ground-s
192 Guided by the model, we identify constraints on butyrate
193 Guided by the model, we tested the hypothesis that AIPL1
194 Guided by the models, we have carried out actual materia
195 Guided by the motif rotamer searches, we made improvemen
196 Guided by the mouse genetic analysis, we demonstrate tha
197 Guided by the native metabolomics results, we select and
198 Guided by the new structural knowledge, we have develope
199 Guided by the receptor docking model, we have mapped the
200 Guided by the RgNanOx structure, we identified catalytic
201 Guided by the strongest signal, we evaluate thousands of
202 Guided by the structural information, we generated a num
203 Guided by the structural insights, we engineer this enzy
204 Guided by the structure, we obtain engineered Cas13bt3 v
205 Guided by the structure, we synthesized gut-restricted b
206 Guided by the structures, we engineered disulfide cross-
207 Guided by the theoretical finding, we subsequently synth
208 Guided by the theory, we experimentally demonstrate spon
209 Guided by the theory, we successfully designed HEAs with
210 Guided by theoretical calculations, we reveal how a two-
211 Guided by theoretical considerations, we also develop a
212 Guided by theory, we interpret the results in terms of a
213 Guided by thermodynamics, we have synthesized two mixed-
214 Guided by these "knobs" and "holes", we designed variant
215 Guided by these criteria, we synthesized three promising
216 Guided by these data, we designed fluorogenic peptide su
217 Guided by these data, we discovered that PIGY upstream o
218 Guided by these findings, we developed a lysate-based TR
219 Guided by these findings, we were able to generate artif
220 Guided by these imaging findings, we undertook a focused
221 Guided by these insights, we designed Ni catalysts that
222 Guided by these insights, we engineer and characterize a
223 Guided by these insights, we engineered mutant strains o
224 Guided by these insights, we incorporate inner salts dur
225 Guided by these insights, we redesigned our vaccination
226 Guided by these observations, we present an alternative
227 Guided by these phenotypes, we discover that XopC2 repre
228 Guided by these phylogenetic analyses, we developed a ne
229 Guided by these predictions, we engineered separation-of
230 Guided by these results, we assessed the FOXP3 and EZH2
231 Guided by these results, we demonstrate that a subset of
232 Guided by these results, we developed a prime editor pro
233 Guided by these results, we devise best practices for ca
234 Guided by these results, we discover that bacterial sign
235 Guided by these rules, we designed sequences predicted t
236 Guided by these simulations, we perform experiments that
237 Guided by these structural models, we expressed and puri
238 Guided by these studies, we analyzed mouse placentas and
239 Guided by these studies, we identified a regulon of appr
240 Guided by these studies, we next sought to examine the t
241 Guided by these studies, we propose a revised ET/PT mech
242 Guided by this analysis, we developed a new pipeline, NL
243 Guided by this common principle, we established an ortho
244 Guided by this computationally determined mechanism, we
245 Guided by this data, we establish a library of microRNA
246 Guided by this dataset, we used vertebrate multiciliated
247 Guided by this design framework, we introduce optimal ar
248 Guided by this evolutionary genomic analysis, we generat
249 Guided by this finding, we determine the activation barr
250 Guided by this finding, we examined the chromosomally en
251 Guided by this finding, we have further interrogated the
252 Guided by this information, we identified KEAP1 (also kn
253 Guided by this information, we mutated Dbs to alter sign
254 Guided by this map, we investigated how differentiating
255 Guided by this model, we created a bivalent C6 peptide (
256 Guided by this model, we showed that 7-9 N-terminal amin
257 Guided by this paradigm, we present here a unified enant
258 Guided by this perspective, we examined in a multination
259 Guided by this prediction, we engineered MM-131, a bispe
260 Guided by this principle, we develop printable polydimet
261 Guided by this principle, we have developed electrolytes
262 Guided by this principle, we screened 500 microbial extr
263 Guided by this rationale, we set out to develop an immun
264 Guided by this scaling law, we then perform Monte Carlo
265 Guided by this screening excise, we showed that netropsi
266 Guided by this sequence, we computationally identified 1
267 Guided by this structural information, we design peptide
268 Guided by this structural information, we designed and d
269 Guided by this structure, we generated a chromosomal mut
270 Guided by this structure, we remodeled the surface of th
271 Guided by this structure, we use protein-engineering app
272 Guided by this structure, we used tryptophan-scanning mu
273 Guided by this, we devise an experimental protocol using
274 Guided by transcriptome data, we have addressed both tum
275 Guided by Y-chromosome sequence, we localized breakpoint
276 Guided by Zintl electron-counting predictions, we explor
277 Guided by first-principles calculations, X-ray absorptio