1 To test this empirically we transformed rice to possess highe
2 To test this hypothesis we analyzed ion-based signal transmis
3 To test this hypothesis we analyzed the performance of human
4 To test this hypothesis we assessed the impact of intrauterin
5 To test this hypothesis we characterized the proteins encoded
6 To test this hypothesis we combined two recently developed me
7 To test this hypothesis we compared long-term (2007-2012) obs
8 To test this hypothesis we compared neutrophil migration towa
9 To test this hypothesis we compared the expression of Egr-1 a
10 To test this hypothesis we constructed and rescued the first
11 To test this hypothesis we created a mathematical model that
12 To test this hypothesis we developed a compartmentalized biot
13 To test this hypothesis we employed electrical stimulation tr
14 To test this hypothesis we evaluated the effects of fetal dis
15 To test this hypothesis we evaluated the sterilizing activity
16 To test this hypothesis we exposed late-instar larvae of the
17 To test this hypothesis we expressed chimeric receptors conta
18 To test this hypothesis we extended in silico prediction of a
19 To test this hypothesis we first cloned and characterized ALO
20 To test this hypothesis we first produced an antibody against
21 To test this hypothesis we first used publicly available data
22 To test this hypothesis we focused on the evening primrose fa
23 To test this hypothesis we generated and analyzed dCK knockou
24 To test this hypothesis we generated p85alpha(-/-)/Nrl(-/-) d
25 To test this hypothesis we have introduced 11 pairs of cystei
26 To test this hypothesis we isolated proteins that interact wi
27 To test this hypothesis we looked for genes expressed in oste
28 To test this hypothesis we made dominant negative cDNAs for A
29 To test this hypothesis we measured cerebrospinal fluid level
30 To test this hypothesis we numerically calculate optimal spor
31 To test this hypothesis we obtained auditory brainstem respon
32 To test this hypothesis we performed a combined analysis of s
33 To test this hypothesis we performed diffusion tractography a
34 To test this hypothesis we performed the first examination of
35 To test this hypothesis we screened the potential enzymatic f
36 To test this hypothesis we studied R7BP palmitoylation and lo
37 To test this hypothesis we targeted proliferating PDGFRbeta(+
38 To test this hypothesis we used a culture-independent molecul
39 To test this hypothesis we used nondestructive energy-dispers
40 To test this hypothesis we used this model reaction to study
41 To begin
to test this hypothesis we utilised human cell-based assays,
42 To test this idea we examined brain activation using function
43 To test this idea we generated Fmr1 mutant mice with a 50% re
44 To test this idea we imaged the presynaptic calcium transient
45 To test this idea we use a fluorescence resonance energy tran
46 To test this model we developed a real-time fluorescence assa
47 To test this model we have examined the mechanism of CD28-med
48 To test this model we identified and characterized a dac cis-
49 To test this possibility we examined the progression of repli
50 To test this prediction we inserted the origin-proximal dusB-