Differentially expressed genes in <i>Tnfr</i>-deficient glomeruli compared to wildtype after TNF stimulation. by Anela Taubitz (433585)

“…<p>Expression profiling by microarrays was performed on isolated glomeruli from wildtype, <i>Tnfr1,2</i>−/−, <i>Tnfr1</i>−/− and <i>Tnfr2</i>−/− mice after stimulation with 50 ng/ml TNF for 12 hours ex vivo. <b>A:</b> Significance analysis using SAM detected differential regulation of 290 unique genes in <i>Tnfr1,2</i>−/− glomeruli with at least 1.5-fold difference compared to wildtype (black data points). 219 genes were down-regulated (upper left), and 71 genes were up-regulated (lower right). …”

Dataset S1 from King- and queen-specific degradation of uric acid contributes to reproduction in termites by Takao Konishi (14211924)

Effect of Fe3+ Doping in the Photocatalytic Properties of BaSnO3 Perovskite by Kleber Figueiredo Moura (5112503)

R code S1 from King- and queen-specific degradation of uric acid contributes to reproduction in termites by Takao Konishi (14211924)

Data_Sheet_1_Downregulation of let-7 by Electrical Acupuncture Increases Protein Synthesis in Mice.pdf by Ying Huang (53474)

“…MicroRNA-deep sequencing demonstrated that four members of the Let-7 miRNA family were significantly decreased in serum exosomes. Real time qPCR further verified Acu/LFES-mediated decreases of let-7c-5p in serum exosomes and skeletal muscles. …”

Overview pictures of the different labeling strategies. by Julia von Knoerzer-Suckow (22339771)

“…<p><b>(A)</b> Field of view (FOV) obtained with a membrane nonpermeable dye before the invasion, as illustrated in <a href="http://www.plosbiology.org/article/info:doi/10.1371/journal.pbio.3003415#pbio.3003415.g002" target="_blank">Fig 2A</a> Top. …”

Comparing the performance of different confocal light detectors across multiple instruments. by Dirk Dormann (480234)

“…<p>(A) Effect of frame averaging on the signal-to-noise ratio of the five detectors on a Leica confocal microscope. …”

DataSheet1_Modulation of hepatic amyloid precursor protein and lipoprotein receptor-related protein 1 by chronic alcohol intake: Potential link between liver steatosis and amyloid-... by Jerome Garcia (13797397)

Protein Kinase D regulates several aspects of development in -4 by Dieter Maier (33097)

Sketch of network connectivity reflecting lifelong structural plasticity. by Andreas Knoblauch (568277)

“…<p>During development anatomical connectivity (thick solid) quickly increases reaching a peak level (around 2–3y in humans), where the initial increase is followed by a short period of stable connectivity (until age 5y in humans), a phase of significant decrease of connectivity until puberty, and finally a phase of stable connectivity during adulthood <a href="http://www.plosone.org/article/info:doi/10.1371/journal.pone.0096485#pone.0096485-Huttenlocher1" target="_blank">[14]</a>, <a href="http://www.plosone.org/article/info:doi/10.1371/journal.pone.0096485#pone.0096485-Elston1" target="_blank">[51]</a>, <a href="http://www.plosone.org/article/info:doi/10.1371/journal.pone.0096485#pone.0096485-Huttenlocher2" target="_blank">[77]</a>. …”

Plot of power for the adjusted test versus the unadjusted test at varying genetic risk levels by Laila M Poisson (73600)

The development of Panstrongylus herreri under fluctuating environmental conditions by Edson Franzim Junior (4680838)

Validation of network analysis predictions. by Noura S. Abul-Husn (202299)

Fig files for contractility paper by Kieran Boniface (18291901)

Morphology and cytoarchitectural defects of Nde1Lis1 progenitors underlie the abnormal fate control by Ashley S. Pawlisz (52227)

Figure S3 by Kyongbum Lee (8455212)

Impact of gut-peripheral nervous system axis on the development of diabetic neuropathy by Thalita Mázala-de-Oliveira (14820634)

marova_et_al.xlsx by Vladimir Ivanitskii (20288364)

Table2_Epigenetic associations with adolescent grey matter maturation and cognitive development.docx by Dawn Jensen (16555368)

“…This data, from three time points roughly 1 year apart, was used to explore the relationships between seven cytosine–phosphate–guanine (CpG) sites in genes highly expressed in brain tissues (GRIN2D, GABRB3, KCNC1, SLC12A9, CHD5, STXBP5, and NFASC), seven networks of grey matter (GM) volume change, and scores from seven cognitive tests.…”

Table1_Epigenetic associations with adolescent grey matter maturation and cognitive development.DOCX by Dawn Jensen (16555368)

“…This data, from three time points roughly 1 year apart, was used to explore the relationships between seven cytosine–phosphate–guanine (CpG) sites in genes highly expressed in brain tissues (GRIN2D, GABRB3, KCNC1, SLC12A9, CHD5, STXBP5, and NFASC), seven networks of grey matter (GM) volume change, and scores from seven cognitive tests.…”