Frictional Effects on RNA Folding: Speed Limit and Kramers Turnover by Naoto Hori (767562)

“…In the high-friction regime (η ≳ 10^–5 Pa·s), for both HP and PK, <i>k</i>_F values decrease as 1/η, whereas in the low friction regime, <i>k</i>_F values increase as η increases, leading to a maximum folding rate at a moderate viscosity (∼10^–6 Pa·s), which is the Kramers turnover. …”

Decreased responsivity to mechanical stimuli during DRN 5-HT neurons photostimulation. by Guillaume P. Dugué (620333)

Improved Cell-Free RNA and Protein Synthesis System by Jun Li (6494)

“…In this study, using firefly luciferase synthesis as a reporter system, we improved PURE system productivity up to 5 fold by adding or adjusting a variety of factors that affect transcription and translation, including Elongation factors (EF-Ts, EF-Tu, EF-G, and EF4), ribosome recycling factor (RRF), release factors (RF1, RF2, RF3), chaperones (GroEL/ES), BSA and tRNAs. …”

Microscopic Movement of Slow-Diffusing Nanoparticles in Cylindrical Nanopores Studied with Three-Dimensional Tracking by Luyang Zhao (1903252)

“…Under two model conditions, particles are retained much longer inside the pores: (1) increased solvent viscosity, which slows down the particle throughout the whole pore, and (2) increased pore wall affinity, which slows down the particle only at the wall. …”

Microscopic Movement of Slow-Diffusing Nanoparticles in Cylindrical Nanopores Studied with Three-Dimensional Tracking by Luyang Zhao (1903252)

“…Under two model conditions, particles are retained much longer inside the pores: (1) increased solvent viscosity, which slows down the particle throughout the whole pore, and (2) increased pore wall affinity, which slows down the particle only at the wall. …”

Microscopic Movement of Slow-Diffusing Nanoparticles in Cylindrical Nanopores Studied with Three-Dimensional Tracking by Luyang Zhao (1903252)

“…Under two model conditions, particles are retained much longer inside the pores: (1) increased solvent viscosity, which slows down the particle throughout the whole pore, and (2) increased pore wall affinity, which slows down the particle only at the wall. …”

Microscopic Movement of Slow-Diffusing Nanoparticles in Cylindrical Nanopores Studied with Three-Dimensional Tracking by Luyang Zhao (1903252)

“…Under two model conditions, particles are retained much longer inside the pores: (1) increased solvent viscosity, which slows down the particle throughout the whole pore, and (2) increased pore wall affinity, which slows down the particle only at the wall. …”

Microscopic Movement of Slow-Diffusing Nanoparticles in Cylindrical Nanopores Studied with Three-Dimensional Tracking by Luyang Zhao (1903252)

“…Under two model conditions, particles are retained much longer inside the pores: (1) increased solvent viscosity, which slows down the particle throughout the whole pore, and (2) increased pore wall affinity, which slows down the particle only at the wall. …”

Microscopic Movement of Slow-Diffusing Nanoparticles in Cylindrical Nanopores Studied with Three-Dimensional Tracking by Luyang Zhao (1903252)

“…Under two model conditions, particles are retained much longer inside the pores: (1) increased solvent viscosity, which slows down the particle throughout the whole pore, and (2) increased pore wall affinity, which slows down the particle only at the wall. …”

Microscopic Movement of Slow-Diffusing Nanoparticles in Cylindrical Nanopores Studied with Three-Dimensional Tracking by Luyang Zhao (1903252)

“…Under two model conditions, particles are retained much longer inside the pores: (1) increased solvent viscosity, which slows down the particle throughout the whole pore, and (2) increased pore wall affinity, which slows down the particle only at the wall. …”

Microscopic Movement of Slow-Diffusing Nanoparticles in Cylindrical Nanopores Studied with Three-Dimensional Tracking by Luyang Zhao (1903252)

“…Under two model conditions, particles are retained much longer inside the pores: (1) increased solvent viscosity, which slows down the particle throughout the whole pore, and (2) increased pore wall affinity, which slows down the particle only at the wall. …”

Crystal structures of Triosephosphate Isomerases from <i>Taenia solium</i> and <i>Schistosoma mansoni</i> provide insights for vaccine rationale and drug design against helminth pa... by Pedro Jimenez-Sandoval (831603)

“…This is due to the dependence of parasitic helminths on glycolysis and because those proteins elicit an immune response, presumably due to their surface localization. Here we report the crystal structures of TsTPI and SmTPI in complex with 2-phosphoglyceric acid (2-PGA). …”

Serves as the data source for Fig 5. by Shuai Huang (60512)

“…Using a high-throughput quantitative PCR array, we analyzed differences in ARG expression between these two types of manure. …”

Fli-1 directly activates miR-17-92 promoter and contributes to miR-17 and miR-20a expression in NN10#5 cells. by Samer Kayali (133888)

“…<p>A: NN10#5 cells have been cultured for two days in absence or presence of Dox used to induce Fli-1 knock-down before analysis. …”

P-Rex is required for a late phase of stimulus-evoked cerebellar LTP. by Claire Jackson (362873)

Decreased Pre-existing Ad5 Capsid and Ad35 Neutralizing Antibodies Increase HIV-1 Infection Risk in the Step Trial Independent of Vaccination by Cheng Cheng (68821)

“…Thus, understanding Ad seropositivity in humans is important to the development of an AIDS vaccine. Here, we analyze the impact of different Ad5-specific neutralizing antibodies on immune function and clinical outcome.…”

A Hierarchical Contact–Electrification Interface Based on Gradient Micro-/Nanostructured Hydrogel for Cardiovascular Disease Monitoring by Zhenqiu Gao (2564362)

“…Consequently, the gradient micro-/nanostructured hydrogel, fabricated via electric field induction, enables the sensor’s high-sensitivity region to reach 1.1–52.2 kPa, a 5-fold improvement over that of comparable sensors. …”

A Hierarchical Contact–Electrification Interface Based on Gradient Micro-/Nanostructured Hydrogel for Cardiovascular Disease Monitoring by Zhenqiu Gao (2564362)

“…Consequently, the gradient micro-/nanostructured hydrogel, fabricated via electric field induction, enables the sensor’s high-sensitivity region to reach 1.1–52.2 kPa, a 5-fold improvement over that of comparable sensors. …”

The effect of amiloride in decreasing albuminuria in patients with diabetic kidney diseases: a prospective, crossover, open-label study by Ruizhao Li (417128)

Cdk5 inhibition by olomoucine prevents the fragmentation of the Golgi and decreases Tau secretion. by Nguyen-Vi Mohamed (323606)