Modafinil decreased EEG amplitude in the synchronized model. by Chang-Rui Chen (467755)

5-HT supplementation induces mitochondrial damage. by Li Gao (131516)

Increased body fat, glucose and PAI-1 and decreased adiponectin levels in 6 wk old WT offspring exposed to HF IU/L. by Patricia M. Vuguin (587226)

Simultaneous ablation of Syt1 and Syt7 decreases the RRP size at inhibitory synapses: Rescue by WT but not mutant Syt1 or Syt7. by Taulant Bacaj (803415)

“…Recordings were performed in the presence of 1 μM tetrodotoxin, 20 μM CNQX, and 50 μM AP5 to isolate inhibitory currents. <b>B.</b> Simultaneous ablation of Syt1 and Syt7 decreases the RRP size of inhibitory synapses in a manner that is rescued by WT Syt7 (Syt1^WT) but not Syt7 with mutations in the top C2 domain sequences containing the Syt7 Ca²⁺ binding sites (Syt7^C2A*^B*). …”

Panel (a) shows ensemble mean global mean near-surface air temperature in historical and RCP simulations from CanESM2 by Nathan P Gillett (557010)

“…All values shown are five-member ensemble means.</p> <p><strong>Abstract</strong></p> <p>The representative concentration pathway (RCP) scenarios all assume stringent emissions controls on aerosols and their precursors, and hence include progressive decreases in aerosol and aerosol precursor emissions through the 21st century. …”

Biologic activity of LY5 in sarcoma cell lines. by Peter Y. Yu (4281448)

Decrease of CXCL1 message and neutrophil counts in TLR4 deficient liver and after antibiotic treatment. by Amélie E. Bigorgne (2579386)

HDM-specific IgE levels decreased in response to TSLPR ablation in chronic model of asthma mice. by Latifa Koussih (326043)

Gal-9 treatment decreases levels of MMP-9, MMP-2 and TIMP-1 but not neutrophil chemoattractants in BALF. by Yuko Horio (4243405)

Open-field (OF) analysis of mice at 3–5 months of age (young adult). by Huiying Wu (1587136)

Increased body weight and decreased expansion of pro-inflammatory CD4+ T-cells from blood in Tg-HD5 rats. by Osiris Marroquin Belaunzaran (224031)

Laser scanning confocal microscopy images (a and b) and quantification (c and d) of the relative levels of <i>Dnmt1</i> in early embryos at the pronuclear and blastocyst stage, wit... by Shuang Liang (211832)

Subjects:

Effect of treatment with Scriptaid at various concentrations (a and b) and for various amounts of time (c, d, and e) on the development of porcine somatic cell nuclear transfer emb... by Shuang Liang (211832)

Subjects:

Relative mRNA expression levels (a) and laser scanning confocal microscopy images of immunostaining (b, c) for POU5F1 and CDX2 in porcine blastocysts after 7 days of in vitro cultu... by Shuang Liang (211832)

Subjects:

Laser scanning confocal microscopy images of nuclei and fragmented DNA (×400, a and b) and relative mRNA expression levels of <i>Bcl-xL</i>, <i>Bax</i>, and <i>Caspase3</i> (<i>Cas... by Shuang Liang (211832)

Subjects:

Relative mRNA levels of DNA methyltransferases (<i>Dnmt1</i>, <i>Dnmt3a</i>, and <i>Dnmt3b</i>; a) and microRNAs (<i>mir-29b</i>, <i>mir-148a</i>, and <i>mir-152</i>; b) in porcine... by Shuang Liang (211832)

Subjects:

Laser scanning confocal microscopy images and quantification of levels of histone H3 acetylated at K9 (H3-acK9, a and b) and histone H3 trimethylated at K9 (H3-m3K9, c and d) in em... by Shuang Liang (211832)

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Functional Plasmonic Microscope: Characterizing the Metabolic Activity of Single Cells via Sub-nm Membrane Fluctuations by Suraj D. Khochare (18288990)

“…The FPM can accurately image and quantify the subnanometer membrane fluctuations with a spatial resolution of 0.5 μm in real time. These active cell membrane fluctuations are caused by metabolic activities across the cell membrane. …”

Functional Plasmonic Microscope: Characterizing the Metabolic Activity of Single Cells via Sub-nm Membrane Fluctuations by Suraj D. Khochare (18288990)

“…The FPM can accurately image and quantify the subnanometer membrane fluctuations with a spatial resolution of 0.5 μm in real time. These active cell membrane fluctuations are caused by metabolic activities across the cell membrane. …”

Functional Plasmonic Microscope: Characterizing the Metabolic Activity of Single Cells via Sub-nm Membrane Fluctuations by Suraj D. Khochare (18288990)

“…The FPM can accurately image and quantify the subnanometer membrane fluctuations with a spatial resolution of 0.5 μm in real time. These active cell membrane fluctuations are caused by metabolic activities across the cell membrane. …”