1 We therefore used a 'mummification' technique to manipulate w
2 We therefore used a combination of single-molecule long-read
3 We therefore used a combination of slice electrophysiology, i
4 We therefore used a Cre-Lox strategy to generate 11betaHSD2 b
5 We therefore used a genetic titration technique in cultured m
6 The settlement history remains contentious;
we therefore used a grid-based approach to sample at high res
7 We therefore used a high-throughput screen to identify compou
8 We therefore used a large-scale enhanced yeast one-hybrid ass
9 We therefore used a molecular genetic approach and found that
10 We therefore used a population based province wide HIV drug r
11 We therefore used a SILAC-based quantitative mass spectrometr
12 In this study,
we therefore used a well-established mouse model of inflammat
13 We therefore used a wide range of manipulations to investigat
14 We therefore used ADAM17 hypomorphic mice, which only express
15 We therefore used an emerging technique, X-ray scattering int
16 We therefore used an ex vivo latency reactivation assay that
17 We therefore used antifibrotic therapy in simian immunodefici
18 We therefore used chained microRNAs in rat organotypic hippoc
19 We therefore used chemical fingerprinting of skin swabs and g
20 We therefore used chemical inhibition of ATR kinase activity
21 We therefore used comprehensive DNA methylation profiling of
22 ting which molecular forces govern the nuclear positioning;
we therefore used computational screening to reverse-engineer
23 We therefore used CRISPR-Cas9-mediated mutation of klf9 and R
24 We therefore used different combinations of maternal and embr
25 only one widely expressed reticulon orthologue, Rtnl1, and
we therefore used Drosophila to test its importance for ER or
26 We therefore used FACS sorting to show that, in mixed neuron
27 y I:C and ISCOMs can alter Ag uptake and/or processing, and
we therefore used fluorescently labeled HIV Gag and DQ-OVA to
28 We therefore used fMRI in humans to test two neural predictio
29 We therefore used functional magnetic resonance imaging to ex
30 We therefore used intersectional genetics to manipulate the c
31 We therefore used LAD2 cells as a model to study C5a/C5aR2-in
32 We therefore used mass spectrometry to determine how Pkc1 mod
33 We therefore used molecular, biochemical, and electrophysiolo
34 We therefore used multisite extracellular recordings to defin
35 We therefore used our novel biomimetic microfluidic assay (bM
36 We therefore used RAD sequencing to study the great scallop P
37 We therefore used real-time EEG-triggered single- and paired-
38 We therefore used restriction site associated DNA (RAD) seque
39 We therefore used selective inhibitors of PKC isoforms.
40 We therefore used sensitive molecular imaging, supported by m
41 We therefore used small interfering RNA (siRNA) to knock down
42 We therefore used standard techniques from human experimental
43 We therefore used structured expert judgment to quantify the
44 We therefore used targeted noninvasive electromagnetic stimul
45 We therefore used the 3D genome information along with an ens
46 We therefore used the beta-binomial distribution to model the
47 We therefore used the CAT animal model to obtain mechanistic
48 We therefore used the model filamentous fungus Neurospora cra
49 We therefore used transposon-directed insertion site sequenci
50 We therefore used whole-cell recordings in rat midbrain slice