Ligand activation of ELIC. by Iwan Zimmermann (117942)

“…Macroscopic currents from a membrane patch in the outside-out configuration were recorded at −60 mV in response to a fast exchange into solutions containing 5 mM cysteamine. …”

Double knockdown of <i>Gli1/Gli2</i> in XY gonads. by Kathryn S. McClelland (687254)

“…<p>(A–D) Knockdown of GLI1/GLI2 in the gonad: qRT-PCR showed that treatment with Gli1/Gli2MO (<i>n</i> = 6, 5, 5, 8) resulted in no significant downregulation in steroidogenic regulator <i>Sf1/Nr5a1</i> (A) but a significant downregulation in expression of steroidogenic pathway enzymes <i>Hsd3β</i> (B), <i>Cyp11a1</i> (C) and <i>Star</i> (D). …”

DataSheet1_Isothermal crystallization kinetics in bulk of olefin-based multiblock copolymers.pdf by Gaia Urciuoli (11725469)

“…The crystallization half time of the samples increases with increase of M_n and, for each sample, its logarithm increases linearly with a decrease of the undercooling by a factor of -0.155/°C, for the samples 1–4 and −0.031/°C, for the sample 5. …”

MiMICS computational performance. by Tracy J. Kuper (18452180)

“…<p>(A) MiMICS simulation runtime decreased with High Performance Computing (HPC) that split GENRE calculations for each agent across multiple central processing units (CPUs) using parallel processing. …”

THE PARTICIPATION OF PRIVATE HIGHER EDUCATION INSTITUTIONS IN HEALTH TRAINING IN BRAZIL by Thais de Andrade Vidaurre Franco (5762528)

Random Forest analysis of cohort 2 sample data using 25 metabolites selected from cohort. by Bryan M. Wittmann (679157)

Western blot analysis for Nephrin and TRPC6 in rats injected with <i>shamporter</i> and siRNA. by Peter V. Hauser (252431)

EEG-fMRI results. by Anna E. Vaudano (261239)

“…Summary of results for all EEG-fMRI sessions: number and duration of GSW epochs, regions of BOLD signal change labelled in accordance with direction of HRF loading, vmPFC: Ventromedial Prefrontal Cortex;</p><p><b>(i)</b> BOLD signal increase;</p><p><b>(d)</b> BOLD signal decrease; B: bilateral, L: left, R: right. All SPMs corrected for multiple comparisons using random field theory (p<0.001, patients 2a, 7, 9a, 18; p<0.05, patients 5, 11, 21a).…”

Changes in the functional capacity of T cells isolated from the peripheral blood of transplant patients between the time of transplantation (T0) and the start of tacrolimus withdra... by Ellen Kreijveld (87731)

“…<p>A positive value indicates an increase and a negative value indicates a decrease of the value in time. …”

Gene inactivations that promote somatic longevity. by Meng C. Wang (256025)

“…<p>(A–C) RNAi inactivation of <i>daf-2</i>, <i>R07H5.9</i> and <i>C05E11.6</i> decrease RoA by 48%, 15% and 14%, respectively, without a significant effect on IMR. …”

Improved positional acuity with video-game experience. by Roger W. Li (167488)

“…SB2: TvN function shifts downward (increase in efficiency). SA5: The knee point of TvN function shifts downward and to the left (decrease in internal noise). …”

Effect of RON on GCL cell count in vehicle or CS-injected eyes. by Nicolás Belforte (328093)

“…In sham operated eyes, CS induced a significant decrease in the GCL cell and in Thy-1, NeuN and Brn3a positive ganglion cell number, whereas in hypertensive eyes submitted to RON at 3 or 6 weeks, a significant preservation of GCL cells was observed. …”

Changes of protein localization upon starvation-induced stress. by Matthias Rieckher (222923)

“…Decrease of fluorescence for both reporters p_<i>ife-2</i>IFE-2::GFP and p_{<i>dcap-1</i>}DCAP-1::dsRED from day 1 to day 3 are visible, while the signal persists in some tissues, including pharynx, canal cells, muscles and the developing embryos (see <a href="http://www.plosone.org/article/info:doi/10.1371/journal.pone.0127869#pone.0127869.s009" target="_blank">S5 Video</a>). …”

Kinase activity. by James W. Bruce (10204626)

“…<p>Kinase activities from the phosphorylation log2 fold changes at 5 min using PhosFate Profiler. PhosFate Profiler computes an enrichment score for kinases using the Kolmogorov–Smirnov statistical test, a p-value, and a kinase activity, where a positive score indicates an increase and a negative score a decrease in kinase activity.…”

Post-mortem confirmation of <i>in vivo</i> MRI signal changes. by Anthony C. Vernon (229125)

“…<p>(A) Cavalieri estimator probe measurement of corpus striatum volume post-mortem in saline and lactacystin-injected animals reveals a significant decrease in the volume of the ipsilateral striatum in lesioned animals, (***p<0.01). …”

Nuclear progestin receptor is up-regulated by estrogen in both the developing and adult brain. by Nicolas Diotel (338556)

“…In A, the aromatase inhibitor (ATD) leads to a significant decrease of <i>pgr</i> expression in individual brains of adult zebrafish (n = 4). …”

Model discriminability and likelihood. by Holly E. Gerhard (286685)

“…The group data contain more trials and show a clear decrease in discriminability with increased likelihood. …”

The alternative splicing of some transcripts is affected in Myo-CELFΔ muscle. by Dara S. Berger (223413)

“…(<b>C</b>) C10orf97 exon 5 showed a trend towards decreased inclusion in pectoral muscle. …”

Theoretical optimization method of tunnel lining in fractured rock mass based on surrounding rock classification and Hoek-Brown criterion by Zhikang Zeng (18263563)

“…Case analysis validates the lining design's safety in the study section, identifying optimal parameters: support at 9 mm of tunnel wall deformation and a reduced lining thickness of 47 cm, achieving a 36.5% decrease from the initial design. …”

Schematic model of darkness-responsive proteins in chloroplasts of <i>Arabidopsis</i> leaves. by Jing Wang (1228470)

“…The solid line means one step. The dot line means multiple steps. A, Photosynthesis and chlororespiration; B, Chlorophyll synthesis; C, Calvin cycle; D, Transcription; E, Protein synthesis, folding and degradation; F, Fransportation; G, JA signaling; Abbreviations: ADPGlu, ADPglucose; AOC4, allene oxide cyclase 4; AOS, allene oxide synthase; CCL, CCR-like; Chlide, chlorophyllide; CP26, chlorophyll a-b binding protein; CPOX, Coproporphyrinogen-III oxidase 1; CRD1, Magnesium-protoporphyrin IX monomethyl ester [oxidative] cyclase; CYP20-3, cyclophilin 20–3; Cytb6f, cytochrome b6/f; DEG8, Protease DEG 8; DHAP, dihydroxyacetone phosphate; 12,13-EOT, 12,13-epoxy-octadecatrienoic acid; F6P, fructose-6-phosphate; F1,6BP, fructose-1,6-bisphosphate; FBA, fructose-bisphosphate aldolase; FBA3, probable fructose-bisphosphate aldolase 3; Fd, sulfite reductase [ferredoxin]; FKBP16-1, peptidyl-prolylcis-trans isomerase FKBP16-1; FKBP16-4, peptidyl-prolylcis-trans isomerase FKBP16-4; FKBP19, peptidyl-prolylcis-trans isomerase FKBP19; FNR, Fd:NADP⁺ oxidoreductase; FtsH, FtsH extracellular protease family protein; FUG1 Translation initiation factor IF-2; Glu6P, Glucose-6-phosphate; GSH, glutathione; KEA3, K+ efflux antiporter 3; LHCA2, Photosystem I light harvesting complex gene2 protein; LHCB1, light-harvesting chlorophyll protein complex II subunit B1; Mg-Proto, Mg-protoporphyrin; OPDA, (+)-12-oxophytodienoic acid; Pchlide, protochlorophyllide; PDE322, chloroplast RNA-binding protein 33; PEP, phosphoenolpyruvic acid; PEPCK, phosphoenolpyruvate carboxylase family protein; 1,3PGA, 1,3-bisphospoglycerate; 3PGA, 3-phosphoglycerate; PGRL1, PGR5-like protein 1; PHT2;1, inorganic phosphate transporter 2–1; PKP1, Plastidial pyruvate kinase 1; POR, Protochlorophyllide reductase like protein; PQ, plastoquinone pool; Proto-IX, protoporphyrin-IX; PSAA, photosystem I P700 chlorophyll a apoprotein A1; PSB33, Rieske (2Fe-2S) domain-containing protein; PsbP, photosystem II subunit P; PsbQ, photosystem II subunit Q; PSRP2, RNA-binding (RRM/RBD/RNP motifs) family protein; pTAC5, plastid transcriptionally active 5; PTOX, plastid terminal oxidase; R5P, ribulose-5-phosphate; RBP31, 31-kDa RNA binding protein; RRF, ribosome-recycling factor; RuBisCO, ribulose bisphosphate carboxylase; RuBP, Ribulose-1,5-bisphosphate; SBPase, sedoheptulose-1,7-bisphosphatase; SCY1, preprotein translocase subunit SCY1; Sd7P, sedoheptulose-7-phosphate; Sd1,7bP, sedoheptulose-1,7-bisphosphate; STN7, serine/threonine-protein kinase STN7; STN8, serine/threonine-protein kinase STN8; TAL, transaldolase-like protein; TGA, transcription factors; Toc64, Outer envelope protein 64; TPI, triosephosphate isomerase; TPT, triose phosphate/phosphate translocator; Triose P, Glyceraldehyde 3-phosphate; TROL, thylakoid rhodanese-like protein; TRX, thioredoxins; Xy5P, xylulose-5-phosphate.…”