1 We
applied CHANGE-seq to 110 single guide RNA targets acros
2 We
apply MGEfinder to 12,374 sequenced isolates of 9 preval
3 We
applied scoring systems to (
123)I-MIBG scanning and (18)
4 We
applied IBDmix to 2,504 individuals from geographically
5 As an illustration, we
applied the approach to 20 commonly studied species in t
6 Applying T-GEN to 207 complex traits, we were able to id
7 DIFAT was developed and
applied retrospectively to 29 ischemic cardiomyopathy pa
8 Applying PRAM to 30 human ENCODE RNA-seq data sets ident
9 Applying our approach to 301 amphibian populations, we f
10 We
apply FastSMC to 487,409 UK Biobank samples and detect ~
11 bility and reproducibility of the method and
applied it to 500 cell lines(1,2) spanning 21 types of s
12 As a proof-of-principle, we
apply MutSpace to 560 breast cancer patient samples and
13 diseases, and observe similar outcomes when
applying FC to 66 additional pairs of related diseases.
14 (control), and 75%, 50% and 25% of control,
applied from 27 to 77 days after planting (DAP).
15 Periodic driving can couple an
applied "source" strain to a "target" strain over a path
16 mediated reduction of receptors, and then we
applied it to a previously reported mouse model of passi
17 We then
applied Known-GRRF to a real-world study to identify pro
18 We then
applied our method to a simple computational model of mi
19 We have successfully
applied the method to a trifurcating organic reaction, a
20 To demonstrate its practical use, we
applied this approach to a cellular reaction of multidru
21 We
applied this to a well-characterised population with an
22 rt here a custom electrochemical cell, which
applies tensile strain to a flexible working electrode,
23 We
apply cardelino to a published cancer dataset and to new
24 We
apply each method to a mesocosm experiment, in which we
25 We
apply GxEMM to a range of human and model organism datas
26 c reconstruction to predict auxotrophies and
apply it to a series of available genome sequences of ov
27 rporating iterative subtractive binning, and
apply it to a time series of 100 metagenomic datasets fr
28 Here, we
apply MHRA to a population of long-tailed tits Aegithalo
29 We then
apply our framework to a stochastic model of the rocky i
30 We
apply our method to a working memory task by synthesizin
31 able bacterium Acinetobacter baylyi ADP1 and
apply them to a genome streamlining project.
32 We
apply this index to a curated set of recurrent mutations
33 We
apply this strategy to a palladium-catalyzed carboetheri
34 We further
apply this to a breast cancer model to evaluate differen
35 As a proof of principle, we
apply torsional forces to a coarse-grained continuum mod
36 decoherence-protected subspace, obtained by
applying microwave dressing to a clock transition of the
37 Inverse probability weighting was
applied to DS1 to account for positive radiograph enrich
38 We develop a mechanistic phenology model and
apply it to Aedes aegypti, an invasive mosquito vector f
39 merged as a model system to directly address
applied questions related to algal aquaculture.
40 We
applied the method to an AD dataset consisting of histon
41 of gene function to detect candidate genes,
applied the method to an AD dataset, and identified seve
42 We then
applied these scores to an independent, prospective, nat
43 We
applied this framework to an acute ischemic stroke micro
44 We then
apply the strategy to an integral membrane protein by co
45 ategy to characterize virulence plasmids and
applied it to analyze hundreds of strains collected betw
46 Finally, we
applied MCC-SP to analyze one real dataset from the Reli
47 We
applied the method to analyze paired chromatin accessibi
48 We then
apply DBSLMM to analyze 25 traits in UK Biobank.
49 We
apply our system to analyze the turnover of rRNA during
50 ch a method within the Bayesian paradigm and
apply it to anonymized mobile call detail records (CDRs)
51 We
applied this system to ascertain that after a dry-down/r
52 at single-cell resolution at scale, we have
applied these approaches to assess the cellular and tran
53 We
apply the framework to assess final energy and emission
54 We
apply this method to assess the effects of starting stru
55 Our findings encourage larger efforts to
apply chemoproteomic methods to assist in target identif
56 ally revisited stroke outcome predictions by
applying strategies to avoid confounds and fitting hiera
57 Furthermore,
applying this chemistry to bacteriophage allows facile c
58 ults showed the high potential of this novel
applied metabolite agent to be used in a well-fulfilled
59 Here we
apply modeling tools to better understand adaptive diver
60 phylogenize
applies broadly to both host-associated and environmenta
61 imulated diversification scenarios, and then
apply them to both a macroevolutionary and an epidemiolo
62 d for the assessment of synaptic changes and
apply the method to brain homogenates from an Alzheimer'
63 te, which can otherwise only be estimated by
applying deconvolution methods to bulk RNA-Seq estimates
64 We
applied the technology to calcium imaging of entire dend
65 icle, we review the main approaches that are
applied clinically to calculate the absorbed dose.
66 We then
applied this method to calculate climate-adjusted water
67 By
applying this framework to case studies in ecology and b
68 We then
applied the workflow to characterize a 40 kDa 8-arm poly
69 We
apply PRISM 4 to chart secondary metabolite biosynthesis
70 We
apply the model to Chinese labor migration data at the c
71 One significant challenge to
applying this method to commercial cells has been that t
72 D to achieve stable sparse feature selection
applied it to complicated class-imbalanced data.
73 We also
apply bootstrapping to construct a variability index for
74 We
apply these techniques to construct and explore a quanti
75 We
applied PULSE to control immune responses in plant leave
76 Further, we
applied this device to control the cell division process
77 o protonated/ammoniated adduct ion ratios of
applied internal standards to correct for these interfer
78 We
applied this scheme to credible set variants for 380 ass
79 r patient stratification in COPD.Methods: We
applied SuStaIn to cross-sectional computed tomography i
80 at reach to 1.7 mA cm(-2) with an optimized,
applied bias photon-to-
current efficiency of 1.5%.
81 As proof of concept, we
applied FLEXIQuant-LF to data-independent-acquisition (D
82 Prior efforts have
applied such algorithms to data measuring protein phosph
83 We
applied the model to data on risk factor distribution fr
84 larly for estimating contamination, and have
applied EukCC to datasets derived from two different env
85 Applying this model to decision times revealed asymmetri
86 We demonstrate a new approach
applying machine learning to DEL selection data by ident
87 e demonstrate these newly developed tools by
applying them to design and analysis of a range of DNA/R
88 s that our fungal heterokaryon system can be
applied effectively to determine whether a gene of inter
89 ics to predict the kinetics as a function of
applied potential (U) to determine faradic efficiency, t
90 We
applied the assay to determine the kinetic parameters of
91 We
applied the methods to determine HIV prevalence in men h
92 Mastering relational concepts and
applying them to different contexts presupposes abstract
93 target that moved across its sonar field and
applied mathematical models to differentiate between non
94 ecause caspase-8 mediates CD95 signaling, we
applied genetic approaches to dissect the roles of caspa
95 on the basis of proximity biotinylation, and
applied it to distinct chromatin modifications in mouse
96 ied to new or established taxonomies and was
applied herein to diverse cell type datasets derived fro
97 We
apply these methods to diverse datasets from over 20 spe
98 ent an improved version of Poly-Ribo-Seq and
apply it to Drosophila melanogaster embryos to extend th
99 Finally,
applying YIGSR to E13.5 EdnrB(NCC-/-) colon explants res
100 nalyzing double-strand breaks (DSBs) that we
apply in parallel to eight Cas9 variants across 59 targe
101 We
applied this procedure to electrodes implanted in human
102 We first
applied DBSCAN algorithm to eliminate outliers, and then
103 Herein, we
applied genomic approaches to elucidate the origin of th
104 We
apply SURF to ENCODE RBP compendium and carry out downst
105 Here we
apply rational design to engineer a complete set of mono
106 We
apply this model to epidermal growth factor receptor (EG
107 We
apply NPDR to eQTL data to identify potentially interact
108 We
apply the approach to Escherichia coli by successively a
109 itive, motor and physiological processes, we
applied computational modeling to estimate best-fitting
110 Finally, we
applied the program to estimate gametic variance for hun
111 rventions in exposed populations.Objectives:
Apply G-computation to estimate hypothetical effects of
112 We then
applied this model to evaluation set subjects (n = 12,11
113 We
applied this approach to examine how a fungal pathogen a
114 odel's performance in a simulation study and
apply it to experimental data.
115 We
applied machine learning to explain how specific interac
116 We then
apply the method to explore the relationship between BCS
117 or proteins to show single piconewton forces
applied solely to F-actin enhance binding by the human v
118 We
applied H-MAGMA to five psychiatric disorders and four n
119 We
applied this approach to five benchmark FCH(4) datasets
120 We
apply nCATS to four cell lines, to a cell-line-derived x
121 We
applied this model to future climate projections for 208
122 We
apply our approach to gene expression data from both syn
123 ning multi-SNP models of gene expression and
applied this framework to generate expression models for
124 Here we
apply machine learning to generate a spatial embedding (
125 Applying our framework to Germany as a proof of concept,
126 Applying these parameterizations to global model output,
127 Applying this technology to GPe parvalbumin-expressing n
128 azine biosynthesis and biodegradation genes,
applying it to &
gt;800 soil and plant-associated shotgun-me
129 AS); relative improvements were similar when
applying BOLT-LMM to GWAS, GWAX and LT-FH phenotypes.
130 brated to source data (1982 to 2004); (2) to
apply the models to historical (1960s, 1970s) and monito
131 ar programs and their molecular drivers, and
apply it to HIV infection.
132 We
apply the method to Honolulu's primary urban center base
133 elf-renewal in the bone marrow niche; how to
apply this process to HSC maintenance and expansion has
134 We
apply 3D-EMISH to human lymphoblastoid cells at a 1.7 Mb
135 Applying OligoFISSEQ to human diploid fibroblast cells,
136 Finally, we
applied BRAID analysis to identify a clear pattern of co
137 We
applied computational methods to identify sex-biased and
138 We
applied ncRNA profiling to identify rod and cone photore
139 We
applied SIFT to identify a set of ultraprecise synthetic
140 We
applied TraDIS-Xpress to identify responses to the bioci
141 We then
apply EIG to identify A1CF as a key regulator of liver-s
142 e based on a covalent inhibitor scaffold and
apply this probe to identify and quantify target protein
143 rationale must be critically evaluated when
applying nanotechnology to immuno-oncology challenges.
144 magnetic field to orient the cells along the
applied field to impart different shapes without any mec
145 We
applied this method to IMPC data and compared the result
146 Future work will
apply this method to in vivo data, potentially providing
147 We further
applied BWG-TWAS to individual-level GWAS data (N = ~3.3
148 The ability to
apply controlled forces to individual molecules has been
149 Applying this transform to individual fusion events yiel
150 We
apply PIC-seq to interrogate diverse interactions includ
151 First, we
applied hierarchical clustering to intrinsically define
152 samples under anaerobic conditions and then
applied native MS to investigate the molecular mechanism
153 We
applied this approach to investigate dsRNA dissipation (
154 identification and isolation technique, and
apply it to investigate drug sensitivity.
155 eneration was the intervention most commonly
applied simultaneously to IR (74.1%).
156 Applying our approach to knockout mice revealed that Pie
157 Finally, we
apply this model to large-scale multielectrode recording
158 tion, highlight some important challenges to
applying these methods to large data sets, and discuss w
159 work estimation methods in this context, and
apply it to learn network similarity and shared pathway
160 We
apply MBIL to learn risk factors for 5 year breast cance
161 Further,
applying this approach to less well-studied species coul
162 Applying our observations to life-cycle analyses, we fou
163 We also
applied it to light microscopy images of cytoskeletal an
164 nd split" approach have been demonstrated by
applying it to literature known cross-coupling reactions
165 iomaterials are discussed with the vision of
applying these principles to localized, biomaterial-base
166 Here, we
apply mechanical loads to locally manipulate the vortice
167 We
apply our results to malaria parasites and find that ord
168 Applying SECCM to map electrocatalytic activity-specific
169 We
applied the model to marine mammal blubber extracted wit
170 We
apply this formula to marine snow formation following a
171 For further validation, we
apply ANNCEST to measure the PCr concentrations in exerc
172 We
apply our method to measure the force dependence of the
173 We
apply this method to measure the wind speeds on the brow
174 mple questions, the answers of which require
applying these theories to metabolomics.
175 We then
applied decRiPPter to mine 1,295 Streptomyces genomes, w
176 s contribution establishes the importance of
applying SOMC to MOF chemistry to get well-defined singl
177 By
applying uniaxial strain to monolayer MoS(2), we observe
178 We
apply the theory to myosin VI, a motor that takes freque
179 Applying this approach to neural cell-surface molecules,
180 tments used for one histological type may be
applied effectively to other tumors sharing similar prot
181 provements, and how this intervention can be
applied or exported to other health care organizations.
182 ed whole exome sequencing on this cohort and
applied 2 hypotheses to our variant filtering.
183 We
applied the method to our production analysis pipeline t
184 Applying glutamate to outside-out patches containing a s
185 Here we
apply NMR spectroscopy to patient-derived samples of alp
186 In addition,
applying Transcompp to patient-derived cells showed that
187 nically viable drug delivery strategy can be
applied not only to peptide activators of p53 for cancer
188 o model complex coevolutionary processes and
apply it to pollination networks.
189 We then
applied DroNc-seq to postmortem heart tissue to test its
190 We then
applied AcRanker to predict candidate anti-CRISPRs from
191 We
apply this framework to predict chromatin loops in 56 Hi
192 An anti-JUN therapy that could be
applied intra-operatively to prevent adhesion formation
193 (MS/MS) for peptide quantification and then
apply the method to profile the complex human brain prot
194 We
applied our approach to publicly available in vitro data
195 We
applied this method to published single-cell RNA sequenc
196 Applying this relation to published estimates of equator
197 st time to extract MX, whereas UHPLC-DAD was
applied in order to quantify MX.
198 We
apply this definition to quantify complexity of various
199 We also successfully
applied the system to real groundwater samples where tra
200 ad, development and promulgation of tools to
apply randomization to real-world data are needed to bui
201 Applying DRAMS to real data from the PsychENCODE BrainGV
202 in the differential analysis of ATAC-seq by
applying them to real data.
203 hods are flexible and we demonstrate this by
applying them to receptor clustering in platelets, nucle
204 We
apply this system to recover missing content from genome
205 Depending on soil, appropriate SOFs
applied were able to reduce N(2)O production and maintai
206 We
apply our method to regions associated with spontaneous
207 visories on the basis of Se:Hg ratios or for
applying Se amendments to remediate Hg-contaminated ecos
208 Applying Cyclum to removing cell-cycle effects substanti
209 ptimization, the SAR transfer concept can be
applied attempting to replace a lead compound with anoth
210 Applying PAIRADISE to replicate RNA-seq data of a single
211 We
applied PRISM to resolve two developmentally important,
212 Here, we revise this hypothesis,
applying fluctuation analysis to resolve Ca(2+) signals
213 We
apply this package to reveal associations between functi
214 We highlight several studies that
apply these methods to samples of youths and discuss iss
215 We first
apply Reel-seq to screen a library containing 4316 breas
216 We further
applied our approach to scRNA-seq transformed by kNN smo
217 We
applied the PDXGEM to several cytotoxic chemotherapies a
218 mprehensive supplementary online manual that
applies the concepts to several datasets, demonstrates t
219 We
apply this approach to several other zeolite systems and
220 We
apply TimeMeter to several datasets, and show that TimeM
221 Applying our method to several real networks we observed
222 We
applied our framework to simulated datasets and to a rea
223 We
applied SBMClone to single-cell whole-genome sequencing
224 Applying this approach to single cell mRNA counts across
225 We
apply the model to six datasets and demonstrate consiste
226 ams on rivers and their connected reservoirs
applies predominantly to smaller structures (< 2.5 m).
227 We hypothesize that this pattern will
apply broadly to species that have extensive carbohydrat
228 ated from an inappropriate artificial drying
applied on beans to speeding up the post-harvest process
229 Applying NERDSS to steps in clathrin-mediated endocytosi
230 Lastly, we show that ESM can be
applied also to structures without atomic coordinates su
231 Finally, we
applied DC tsMSQ to study the assembly of the linker of
232 We also
apply this approach to study the causal pathway from smo
233 We then
apply the method to subunits Rpb1-Rpb2 of yeast RNA poly
234 hifted mean-segmented Q (tsMSQ) analysis and
applied it to successfully characterize protein homo-oli
235 we demonstrate the use of recovered plasma,
applied via "stamping", to successfully conduct a commer
236 We
applied mtCOJO to summary statistics for five psychiatri
237 acteristics of successful epidemic recovery,
applying these metrics to support preincident planning f
238 ce, which determines how close manure may be
applied in relation to surface water, on the transport o
239 We
applied CHISEL to ten single-cell sequencing datasets of
240 Applying circular statistics to test for changes in year
241 (19)F NMR was
applied anaerobically to the two-component monooxygenase
242 We
applied CARPID to the nuclear lncRNA XIST, and it captur
243 We
applied CNApp to the TCGA pan-cancer dataset of 10,635 g
244 identifying D genes in mammalian genomes and
applied it to the recently completed Vertebrate Genomes
245 We
applied our approaches to the UK Biobank data of 488 366
246 A maximum-entropy bias is then
applied post hoc to the resulting ensemble such that ave
247 To further analyze novel monomers, we
applied SD to the set of recently generated long accurat
248 We
applied SP-CUP to the spatiotemporal characterization of
249 We pragmatically
applied the technology to the production of human neutra
250 As a proof of principle, we
applied this approach to the malaria-causing parasite Pl
251 thylgermanyl)phenyl groups on phosphorus and
applied this ligand to the challenging problem of enanti
252 We
applied this protocol to the model membrane protein bact
253 We
applied this system to the crucial question of how intra
254 the velocity of moving tissue.Objectives: We
applied this technique to the diaphragm to assess the ve
255 In brief, GPress
applies transformations to the data which are then compr
256 We
apply it to the detection of E.Coli using a faster and i
257 approach to elucidate such mechanisms and we
apply it to the HCN4 ion channel, whose cAMP-binding dom
258 We provide a synthesis of how to
apply macroecological approaches to the study of ecoimmu
259 We
apply our approach to the actin cross-linker alpha-actin
260 Finally, we
apply the DroMiCo to the analysis of phase diagrams of m
261 We
apply the method to the uniquely spatio-temporally detai
262 We
apply this method to the specific cases of molybdenum di
263 ons of interest and individual cells, and we
apply this pipeline to the regenerating humerus.
264 Here we
apply this technique to the cold case of DB Cooper's mon
265 Here, we
apply this technique to the context of acute inflammatio
266 Applying BRICseq to the mouse neocortex, we find that re
267 re also served as a conductive electrode for
applying electricity to the adhesive, while a platinum (
268 critically appraise an approach to doing so,
applying it to the substantial CVD mortality gap between
269 By
applying modifications to the linker structure, insight
270 By
applying our framework to the most diverse vertebrate co
271 By
applying our methodology to the city of Singapore we dis
272 Applying PhyteByte to the human PPARG gene, we identifie
273 Applying SSIF to the October 3, 2018 release of GO sugge
274 Applying this method to the alpha-globin gene locus in t
275 When
applying this methodology to the study of HCPs in NIST m
276 fferent subtypes for each of the symptoms by
applying unsupervised clustering to the feature weights
277 Researchers can
apply bigPint graphics to their data by following recomm
278 By
applying external perturbation to these control nodes, i
279 whole-organ antibody labelling, which can be
applied even to thick human tissues.
280 By
applying graph convolutions to this explicit molecular r
281 While
applying only SIP to three HoTPs that comes with distanc
282 We
applied the framework to two representative neurodegener
283 Secondly we
apply our method to two empirical datasets containing la
284 We
apply the tfLDA to two cell lines with a rich collection
285 genetic influences on cortical thickness and
apply these methods to two large, independent samples.
286 We
apply this approach to two real data applications to hig
287 By
applying AD-AE to two distinct gene expression datasets,
288 logical manipulation of nAChRs by reversibly
applying antagonists to two receptor types, alpha7 and a
289 h to structure-based activity prediction and
applies it to uncover the putative bioactivity of food c
290 Specifically, we
apply our models to understand elephant movement decisio
291 We
apply this model to understand the health consequences o
292 Few studies have
applied this knowledge to vaccine trials.
293 We
apply this strategy to various substrates-including sili
294 To
apply this system to various mammalian cell lines includ
295 We developed an approach to
apply proteome analysis to very small samples of purifie
296 and Kriging interpolation methods have been
applied in order to visualize shoreline variations from
297 The method was
applied in triplicate to wastewater samples from Quebec
298 We
applied our method to whole-exome sequencing data from 1
299 era sampling, and sampling from trapping) by
applying them to wild pigs (Sus scrofa) across three hab
300 lowed by a critical review of the literature
applying these techniques to yield crucial insights into