1 Collectively, our data support a diffusion retention model of
2 Collectively, our data support a model in which genetic varia
3 Collectively, our data support a model in which RecX binding
4 Collectively, our data support a model in which spastin pulls
5 Collectively, our data support a model where a late-acting ci
6 Collectively, our data support a model where Hox11 paralogs s
7 Collectively, our data support a model wherein cyclin D1 has
8 Collectively, our data support a model wherein the in vivo ro
9 Collectively, our data support a novel mechanism of RPE-retin
10 Collectively, our data support a role for 3'-nucleotidase act
11 Collectively, our data support a role for eosinophils in the
12 Collectively, our data support a role for IGF1 and other grow
13 Collectively, our data support a role for Jxc1 in controlling
14 Collectively, our data support a role for ZRANB3 in the repli
15 Collectively, our data support an important role for ROS in h
16 Collectively, our data support an important role for the KLF1
17 Collectively, our data support hypotheses invoking nutrient l
18 Collectively, our data support proposals that lentiviruses ma
19 Collectively, our data support somatic growth of this complet
20 Collectively, our data support that FREP1-mediated Plasmodium
21 Collectively, our data support that Plk1 is important for ear
22 Collectively, our data support the clinical relevance of this
23 Collectively, our data support the concept of a common mutati
24 Collectively, our data support the idea that opioid agonists
25 Collectively, our data support the model that, following the
26 Collectively, our data support the notion that contact of non
27 Collectively, our data support the notion that the p51 C term
28 Collectively, our data support the proposal that the glycosyl
29 Collectively, our data support the unique concept that naive
30 Collectively, our data support the use of bioimaging for leth