1 To do so we combined in vivo electrophysiology and morphologi
2 To do so, we compared two division rules: geometrical (new pl
3 To do so, we computed 1 million EFMs for each energetic amino
4 To do so, we conducted a genome-wide survey of multiple spati
5 To do so, we conducted the most comprehensive phylogenetic an
6 To do so, we coupled LCA methodologies on freshwater consumpt
7 To do so, we coupled structural equation modelling with 20 ye
8 ions have on fitness-related traits in Arabidopsis thaliana
To do so, we created a unique series of 56 cytolines resultin
9 To do so, we created mice harboring liver parenchymal cell-sp
10 To do so, we designed a dockerin-fused variant of a recently
11 To do so, we designed an experimental set-up for the synchron
12 To do so, we designed liposomes targeted for the CD163 recept
13 To do so, we develop a compartmental model composed of a two-
14 To do so, we developed Fractionation iCLIP (Fr-iCLIP), in whi
15 To do so, we established a panel of iPSCs from 58 well-studie
16 To do so, we estimated 12-month mortality risk in simulated p
17 To do so, we estimated the genetic correlations between each
18 To do so, we examined the effects of early and limited exposu
19 To do so, we examined the effects of the addition of FGF2 dur
20 To do so, we exploited the stability of implanted multielectr
21 To do so, we explore the utility of a highly biologically rel
22 In order
to do so, we generalize the QuSAGE gene set analysis algorith
23 To do so, we generated lipin 1 that contained the PBD of lipi
24 To do so we have departed from standard practice by identifyi
25 To do so, we have employed both bulk and single-molecule fluo
26 To do so, we have first to estimate piecewise constant incarc
27 To do so, we have structurally and biophysically characterize
28 To do so, we infer a hiHMM distribution from sequence data us
29 To do so, we infused a selective GABAB(1a) receptor antagonis
30 To do so, we investigated FCD mediating a key executing funct
31 To do so, we investigated the associations of prediabetes, T2
32 To do so, we laser-ablate single k-fibers at different spindl
33 To do so, we measured a panel of 12 inflammatory, angiogenic,
34 To do so, we perform comparative sequence analysis for the si
35 To do so, we present complete sets of basis functions learned
36 To do so, we processed three C1 replicates from three human i
37 To do so, we propose augmented Markov models (AMMs), an appro
38 To do so, we quantified Now/Later choice behavior in naturall
39 To do so, we quantified pancreatic islet and exocrine sympath
40 To do so we separate the processes of fascicle generation and
41 To do so, we studied five key resurrected ancestral enzymes a
42 To do so, we targeted the CD163+ population, which to a low b
43 To do so, we tested how AMG655 affected apoptosis induction b
44 To do so, we turned to a grid-based version of this method, G
45 To do so, we used a purified rat retinal ganglion cell cultur
46 To do so, we used an established H2BGFP label retaining syste
47 To do so, we used data from 25 demographic and health surveys
48 To do so, we used in vivo single-cell labeling approaches to
49 To do so, we used long-lived female Drosophila melanogaster t
50 To do so, we used the vignette-based method.