SLE decreases risk for hormonal cancers. by Deborah K. Johnson (10001156)

“…(b) Prostate cancer incidence in male SLE cohort is significantly decreased by SLE status (OR 0.23, 95% CI 0.089, 0.50, p = 0.0053).…”

Protein identities, in decreasing abundance, in immunodominant bands 1W and 2W in Western blots with EE as antigen. by Katalina Cruz (10428679)

<i>In vivo</i> expression of EAC3I decreases s/mEPSC frequency in dorsal lateral striatum MSNs. by Jason R. Klug (132807)

Regions of significantly decreased ACM of SP-MS relative to RR-MS patients. by Mark Lyksborg (583318)

Kinematic analyses including finite helical axes of drop jump landings demonstrate decreased knee control long after anterior cruciate ligament injury - Fig 4 by Helena Grip (7610468)

Cell adhesion to fibronectin is decreased with 50 µM 4N1K treatment. by Pascal Leclair (566971)

Predator phylogenetic diversity decreases predation rate via antagonistic interactions by Andrew MacDonald (421949)

Comparison of the ISIs that caused 0%, 50% and 100% decreases in response magnitudes (AI spikes, AI fEPSP and MGBv spikes) to succeeding tone. by Colin Xiong (9182695)

List of genes demonstrating changes in transcript level [fold-increase or decrease (indicated by minus symbol)] in response to the presence of chloroquine in the blood meal of non-infected (<i>Chl 50</i>) and <i>P. berghei-</i>infected (<i>Chl 50Pb</i>) mosquitoes. by Patrícia Abrantes (96056)

Decrease of autoantibody levels in highly inflammatory NSG mice. by Henrika Jodeleit (4722312)

Time allocation may not decrease with price for a non-linear microscopic utility of leisure. by Ritwik K. Niyogi (427932)

“…A small and a high reward intensity are shown. Reward rate decreases hyperbolically with price, eventually asymptoting. …”

An increase in MOI decreases neuronal dendrite numbers. by Emily Z. Tabaie (16630841)

Rg3 decreases HDAC3 expression. by Xiu Shan (62157)

Model for regulation of <i>Drosophila</i> katanin by its non-catalytic domains. by Kyle D. Grode (725568)

PNs, ORNs and LNs response to a short (50 ms) pulse, similar results of Fig 4. by Mario Pannunzi (553941)

Decreased 5-hmC expression was associated with <i>TET2</i> downregulation. by Xuejiao Shi (1684186)

The p.I126S mutation decreases FOXC1 DNA-binding. by Cristina Medina-Trillo (705087)

An association between decreasing incidence of invasive non-typhoidal salmonellosis and increased use of antiretroviral therapy, Gauteng Province, South Africa, 2003–2013 by Karen H. Keddy (833179)

“…</p><p>Results</p><p>From 2003–2013, the incidence of iNTS per 100,000 population per year decreased from 5.0 to 2.2 (p < .001). From 2004 to 2013, the incidence per 100,000 population of HIV viral load testing increased from 75.2 to 3,620.3 (p < .001). …”

The <i>P[syt^P-L]</i> mutation decreases the Ca²⁺ affinity of release and vesicular release probability, but the readily releasable pool is unchanged. by Mallory C. Shields (4474210)

“…Left, representative traces of responses stimulated with a 20 ms interpulse interval. Scale bar 5 mV, 40 ms. Right, in <i>P[syt^P-L]</i> heterozygotes, the paired pulse ratio is significantly increased (<i>+/-;P[syt^WT]/+</i> = 1.02 ± 0.02, <i>+/-;P[syt^P-L]/+</i> = 1.27 ± 0.06, *p = 0.0008, student t-test). …”

The Non-Catalytic Domains of <i>Drosophila</i> Katanin Regulate Its Abundance and Microtubule-Disassembly Activity by Kyle D. Grode (725568)

“…Katanin is a conserved heterodimeric ATPase that severs and disassembles microtubules, but the molecular determinants for regulation of microtubule severing by katanin remain poorly defined. Here we show that the non-catalytic domains of <i>Drosophila</i> katanin regulate its abundance and activity in living cells. …”