1 To this end, we apply a microscopic model to capture the dyna
2 To this end, we characterized the transcriptional network ini
3 To this end, we combined double-blind, placebo-controlled pha
4 To this end, we compared innate and adaptive immune responses
5 To this end, we compared the following outcomes between contr
6 To this end, we compute the spectral properties of the microc
7 To this end, we created MARRVEL (model organism aggregated re
8 To this end, we demonstrate electron beam-induced current mea
9 To this end, we describe the synthesis of reduced iron-hydrid
10 To this end, we designed a general framework, BeWith, for ide
11 To this end, we designed a minigene (M), and in combination w
12 To this end, we determined the X-ray crystal structure of the
13 To this end, we developed a novel hydrosoluble zwitterionic M
14 To this end, we developed a soft-lithography method of growin
15 To this end, we established transwell cocultures of rat hippo
16 To this end, we examined the frequency of Th1/Tc1, Th2/Tc2, T
17 To this end, we examined the proportion of female authors in
18 To this end, we examined threat-potentiated performance on an
19 To this end, we excite two FRET donors mTFP1 and LSSmOrange w
20 To this end, we expressed Atf1 phosphorylation mutants from a
21 To this end, we first established that MRgFUS is capable of s
22 To this end, we generated Apc(Min/+) mice with loss of insuli
23 To this end, we generated retinal-specific Tmem30a-knockout m
24 To this end, we have developed a mathematical model that inco
25 To this end, we have explored a facile way for the successful
26 To this end, we have generated a mouse line with an optimized
27 To this end, we have measured the compliance of nuclei by app
28 To this end, we have simulated hundreds of spontaneous subuni
29 To this end, we have used well-tempered bias exchange metadyn
30 To this end, we identify four properties of dose-response fun
31 To this end, we investigated possible involvement of keratino
32 To this end, we investigated the conformational dynamics of t
33 To this end, we linked measures of sap flux within lateral an
34 To this end, we mined our previously published pseudopodium-e
35 To this end, we paired a sensory interference paradigm with a
36 To this end, we parameterize a well-supported mathematical mo
37 To this end, we perform a network analysis of 951 experimenta
38 To this end, we performed a comparative expression profiling
39 To this end, we performed a series of retrograde neuronal tra
40 To this end, we present a combined hydrodynamic approach for
41 To this end, we present here iFrag, a sequence-based computat
42 To this end, we report a crystal structure of the Sec71-Sec72
43 To this end, we set out to investigate the metabolic effects
44 To this end, we show how intelligent sampling of the design s
45 To this end, we showed that removing the LC3-interacting regi
46 To this end, we test a cocktail of three virulent phages in t
47 To this end, we tested the effect of a newly developed molecu
48 To this end, we used genetically encoded probes consisting of
49 To this end, we used steered molecular dynamics, electrophysi
50 To this end, we wanted to report the utility of an unexplored