The effect of MSC blocker GsMTx-4 on photoresponses from <i>Xenopus</i> rods. by Ulisse Bocchero (9128127)

CK8 knockdown and ROCK1 inhibitor suppressed rTsSPc-induced disruption of the Caco-2 monolayer and blocked rTsSPc-promoted IIL invasion. by Wen Wen Zheng (17721404)

Meta data to S1 Fig. by Xiaowen Jiang (8291814)

“…From FLIM measurements of a Förster Resonance Energy Transfer (FRET)-based K⁺ sensor, we observed coordinated decreases in intracellular K⁺ levels during bud growth, and overexpression of K⁺-leak channels in vivo coordinately increased bud proportions. …”

Meta data to Fig 1. by Xiaowen Jiang (8291814)

“…From FLIM measurements of a Förster Resonance Energy Transfer (FRET)-based K⁺ sensor, we observed coordinated decreases in intracellular K⁺ levels during bud growth, and overexpression of K⁺-leak channels in vivo coordinately increased bud proportions. …”

Meta data to S9 Fig. by Xiaowen Jiang (8291814)

“…From FLIM measurements of a Förster Resonance Energy Transfer (FRET)-based K⁺ sensor, we observed coordinated decreases in intracellular K⁺ levels during bud growth, and overexpression of K⁺-leak channels in vivo coordinately increased bud proportions. …”

Materials table. by Xiaowen Jiang (8291814)

“…From FLIM measurements of a Förster Resonance Energy Transfer (FRET)-based K⁺ sensor, we observed coordinated decreases in intracellular K⁺ levels during bud growth, and overexpression of K⁺-leak channels in vivo coordinately increased bud proportions. …”

Meta data to S5 Fig. by Xiaowen Jiang (8291814)

“…From FLIM measurements of a Förster Resonance Energy Transfer (FRET)-based K⁺ sensor, we observed coordinated decreases in intracellular K⁺ levels during bud growth, and overexpression of K⁺-leak channels in vivo coordinately increased bud proportions. …”

Meta data to Fig 5. by Xiaowen Jiang (8291814)

“…From FLIM measurements of a Förster Resonance Energy Transfer (FRET)-based K⁺ sensor, we observed coordinated decreases in intracellular K⁺ levels during bud growth, and overexpression of K⁺-leak channels in vivo coordinately increased bud proportions. …”

Meta data to S8 Fig. by Xiaowen Jiang (8291814)

“…From FLIM measurements of a Förster Resonance Energy Transfer (FRET)-based K⁺ sensor, we observed coordinated decreases in intracellular K⁺ levels during bud growth, and overexpression of K⁺-leak channels in vivo coordinately increased bud proportions. …”

Meta data to Fig 2. by Xiaowen Jiang (8291814)

“…From FLIM measurements of a Förster Resonance Energy Transfer (FRET)-based K⁺ sensor, we observed coordinated decreases in intracellular K⁺ levels during bud growth, and overexpression of K⁺-leak channels in vivo coordinately increased bud proportions. …”

Meta data to Fig 3. by Xiaowen Jiang (8291814)

“…From FLIM measurements of a Förster Resonance Energy Transfer (FRET)-based K⁺ sensor, we observed coordinated decreases in intracellular K⁺ levels during bud growth, and overexpression of K⁺-leak channels in vivo coordinately increased bud proportions. …”

Meta data to Fig 7. by Xiaowen Jiang (8291814)

“…From FLIM measurements of a Förster Resonance Energy Transfer (FRET)-based K⁺ sensor, we observed coordinated decreases in intracellular K⁺ levels during bud growth, and overexpression of K⁺-leak channels in vivo coordinately increased bud proportions. …”

Meta data to S2 Fig. by Xiaowen Jiang (8291814)

“…From FLIM measurements of a Förster Resonance Energy Transfer (FRET)-based K⁺ sensor, we observed coordinated decreases in intracellular K⁺ levels during bud growth, and overexpression of K⁺-leak channels in vivo coordinately increased bud proportions. …”

Meta data to S3 Fig. by Xiaowen Jiang (8291814)

“…From FLIM measurements of a Förster Resonance Energy Transfer (FRET)-based K⁺ sensor, we observed coordinated decreases in intracellular K⁺ levels during bud growth, and overexpression of K⁺-leak channels in vivo coordinately increased bud proportions. …”

Meta data to S4 Fig. by Xiaowen Jiang (8291814)

“…From FLIM measurements of a Förster Resonance Energy Transfer (FRET)-based K⁺ sensor, we observed coordinated decreases in intracellular K⁺ levels during bud growth, and overexpression of K⁺-leak channels in vivo coordinately increased bud proportions. …”

Meta data to Fig 4. by Xiaowen Jiang (8291814)

“…From FLIM measurements of a Förster Resonance Energy Transfer (FRET)-based K⁺ sensor, we observed coordinated decreases in intracellular K⁺ levels during bud growth, and overexpression of K⁺-leak channels in vivo coordinately increased bud proportions. …”

Meta data to Fig 6. by Xiaowen Jiang (8291814)

“…From FLIM measurements of a Förster Resonance Energy Transfer (FRET)-based K⁺ sensor, we observed coordinated decreases in intracellular K⁺ levels during bud growth, and overexpression of K⁺-leak channels in vivo coordinately increased bud proportions. …”

DataSheet1_Effect of CYP3A4 Inhibitors and Inducers on Pharmacokinetics and Pharmacodynamics of Saxagliptin and Active Metabolite M2 in Humans Using Physiological-Based Pharmacokin... by Gang Li (34549)

“…<p>We aimed to develop a physiological-based pharmacokinetic and dipepidyl peptidase 4 (DPP-4) occupancy model (PBPK-DO) characterized by two simultaneous simulations to predict pharmacokinetic (PK) and pharmacodynamic changes of saxagliptin and metabolite M2 in humans when coadministered with CYP3A4 inhibitors or inducers. …”

Image_5_A Novel Chloroplast Protein RNA Processing 8 Is Required for the Expression of Chloroplast Genes and Chloroplast Development in Arabidopsis thaliana.TIF by Mengmeng Kong (11815760)

“…Disruption of the RP8 gene led to a defect in the accumulation of the rpoA mature transcript, which reduced the level of the RpoA protein, and affected the transcription of PEP-dependent genes. …”

Image_3_A Novel Chloroplast Protein RNA Processing 8 Is Required for the Expression of Chloroplast Genes and Chloroplast Development in Arabidopsis thaliana.TIF by Mengmeng Kong (11815760)

“…Disruption of the RP8 gene led to a defect in the accumulation of the rpoA mature transcript, which reduced the level of the RpoA protein, and affected the transcription of PEP-dependent genes. …”