bis-ANS binding to <i>M</i>. <i>leprae</i> HSP18. by Sandip Kumar Nandi (713237)

Antiferromagnetic Ordering in the Single-Component Molecular Conductor [Pd(tmdt)₂] by Satomi Ogura (2880509)

“…The NMR relaxation rate gradually increased below 100 K and formed a broad peak at approximately 50 K, followed by a gradual decrease down to the lowest temperature. …”

Antiferromagnetic Ordering in the Single-Component Molecular Conductor [Pd(tmdt)₂] by Satomi Ogura (2880509)

“…The NMR relaxation rate gradually increased below 100 K and formed a broad peak at approximately 50 K, followed by a gradual decrease down to the lowest temperature. …”

Antiferromagnetic Ordering in the Single-Component Molecular Conductor [Pd(tmdt)₂] by Satomi Ogura (2880509)

“…The NMR relaxation rate gradually increased below 100 K and formed a broad peak at approximately 50 K, followed by a gradual decrease down to the lowest temperature. …”

Antiferromagnetic Ordering in the Single-Component Molecular Conductor [Pd(tmdt)₂] by Satomi Ogura (2880509)

“…The NMR relaxation rate gradually increased below 100 K and formed a broad peak at approximately 50 K, followed by a gradual decrease down to the lowest temperature. …”

Antiferromagnetic Ordering in the Single-Component Molecular Conductor [Pd(tmdt)₂] by Satomi Ogura (2880509)

“…The NMR relaxation rate gradually increased below 100 K and formed a broad peak at approximately 50 K, followed by a gradual decrease down to the lowest temperature. …”

Antiferromagnetic Ordering in the Single-Component Molecular Conductor [Pd(tmdt)₂] by Satomi Ogura (2880509)

“…The NMR relaxation rate gradually increased below 100 K and formed a broad peak at approximately 50 K, followed by a gradual decrease down to the lowest temperature. …”

Antiferromagnetic Ordering in the Single-Component Molecular Conductor [Pd(tmdt)₂] by Satomi Ogura (2880509)

“…The NMR relaxation rate gradually increased below 100 K and formed a broad peak at approximately 50 K, followed by a gradual decrease down to the lowest temperature. …”

PCR primers. by Iriawati Iriawati (18966731)

“…Moreover, LPS-induced RAW 264.7 cells treated with papaya PDENs showed a decrease in NO production and downregulation mRNA expression of pro-inflammatory cytokine genes (IL-1B and IL-6) and an upregulation in mRNA expression of anti-inflammatory cytokine gene (IL-10). …”

IL-1Ra ASO treatment effect on adipose tissue. by Niclas Franck (632562)

<i>C</i>. <i>sinensis</i> induced prominently expressed TLR2 in mouse BECs. by Yuru Wang (846969)

Effect of NaCl on subunit exchange rate of <i>M</i>. <i>leprae</i> HSP18. by Sandip Kumar Nandi (713237)

High levels of IFNγ partially restores <i>C</i>. <i>trachomatis</i> development in HeLa cells. by Shardulendra P. Sherchand (3133677)

Nakasone. AJP supple Table1, 2, 3 by Toru Aizawa (9001298)

“…<em>Hazard ratio and 95%CI of HGI and HbA1c to incident CKD</em></p> <p>  </p> <p>The data was obtained in Aizawa cohort, in which QR of HGI and HbA1c was almost the same as 0.48 and 0.50 (Table 1) so that scaling was omitted. …”

Evaluating competitive inhibition by gcn5-F221A using a synthetic pPHO5-yECitrine construct. by Amanda M. Lanza (168454)

“…Increasing expression of <i>gcn5-F221A</i> resulted in decreased mean fluorescence. …”

Homoleptic Cyclometalated Iridium Complexes with Highly Efficient Red Phosphorescence and Application to Organic Light-Emitting Diode by Akira Tsuboyama (1921528)

“…However, Φ_p of the red emissive complexes (λ_max > 600 nm) becomes small, caused by a significant decrease of the radiative rate constant, <i>k</i>_r. …”

The spot coupling analysis. by Sergei Kopanchuk (6406085)

<i>C</i>. <i>sinensis</i> promoted the expressions of cytokines in liver and BECs through TLR2 pathway. by Yuru Wang (846969)

Hatchability and heart rate between two groups. by Yali Ge (417371)

Image_1_Exploring the potential of pheophorbide A, a chlorophyll-derived compound in modulating GLUT for maintaining glucose homeostasis.pdf by Saptadipa Paul (18132904)

“…To assess how pheophorbide A mechanistically acts on GLUT1 in pancreatic β cell, we transfected INS-1 cells with GLUT1–enhanced green fluorescent protein and checked how the treatment of pheophorbide A (0.50 µM) modulates GLUT1 trafficking using live-cell imaging. …”