DataSheet1_FFAR1/GPR40 Contributes to the Regulation of Striatal Monoamine Releases and Facilitation of Cocaine-Induced Locomotor Activity in Mice.doc by Yuko Sadamura (11304522)

“…Interestingly, local application of a FFAR1 agonist, GW9508, markedly augmented the striatal 5-HT release in FFAR1 wild-type (+/+) mice, whereas topical application of a FFAR1 antagonist, GW1100, significantly reduced the 5-HT release. …”

General laboratory tests and specific coagulation test in PCR SARS-CoV-2 negative and positive patients. by B. de Laat (12475632)

Liquid Crystalline Features in a Polyolefin of Poly(methylene-1,3-cyclopentane) by Naofumi Naga (2084077)

“…A liquid crystalline phase has been discovered in a polyolefin of poly(methylene-1,3-cyclopentane) (PMCP) having low molecular weight, which was obtained with cyclization polymerization of 1,5-hexadiene (HD) using a zirconocene catalyst in the presence of chain transfer reagents. …”

Spline curve of the annual bacillary index (BI) mean values in 12-dose MB-MDT Hansen disease patients. by José A. C. Nery (4220515)

Bridging Thermodynamics, Antimicrobial Activity, and pH Sensitivity of Cationic Membranolytic Heptapeptides–A Computational and Experimental Study by Suvankar Ghosh (812058)

“…Understanding the thermodynamics of peptide:membrane binding and the factors that alter the stability is the key to designing potent and selective small antimicrobial peptides. Here, we report the thermodynamics, antimicrobial activity, and mechanism of a de novo designed seven residue long cationic antimicrobial peptide (P4: NH₃⁺-LK­WLK­KL-CONH₂, Charge +4) and its analogs (P5: Lysine’s → Arginine’s; P6: Lysine’s → Uncharged-Histidine’s; P7: Tryptophan → Leucine) by combining computation and experiments. …”

Bridging Thermodynamics, Antimicrobial Activity, and pH Sensitivity of Cationic Membranolytic Heptapeptides–A Computational and Experimental Study by Suvankar Ghosh (812058)

“…Understanding the thermodynamics of peptide:membrane binding and the factors that alter the stability is the key to designing potent and selective small antimicrobial peptides. Here, we report the thermodynamics, antimicrobial activity, and mechanism of a de novo designed seven residue long cationic antimicrobial peptide (P4: NH₃⁺-LK­WLK­KL-CONH₂, Charge +4) and its analogs (P5: Lysine’s → Arginine’s; P6: Lysine’s → Uncharged-Histidine’s; P7: Tryptophan → Leucine) by combining computation and experiments. …”

Bridging Thermodynamics, Antimicrobial Activity, and pH Sensitivity of Cationic Membranolytic Heptapeptides–A Computational and Experimental Study by Suvankar Ghosh (812058)

“…Understanding the thermodynamics of peptide:membrane binding and the factors that alter the stability is the key to designing potent and selective small antimicrobial peptides. Here, we report the thermodynamics, antimicrobial activity, and mechanism of a de novo designed seven residue long cationic antimicrobial peptide (P4: NH₃⁺-LK­WLK­KL-CONH₂, Charge +4) and its analogs (P5: Lysine’s → Arginine’s; P6: Lysine’s → Uncharged-Histidine’s; P7: Tryptophan → Leucine) by combining computation and experiments. …”

Bridging Thermodynamics, Antimicrobial Activity, and pH Sensitivity of Cationic Membranolytic Heptapeptides–A Computational and Experimental Study by Suvankar Ghosh (812058)

“…Understanding the thermodynamics of peptide:membrane binding and the factors that alter the stability is the key to designing potent and selective small antimicrobial peptides. Here, we report the thermodynamics, antimicrobial activity, and mechanism of a de novo designed seven residue long cationic antimicrobial peptide (P4: NH₃⁺-LK­WLK­KL-CONH₂, Charge +4) and its analogs (P5: Lysine’s → Arginine’s; P6: Lysine’s → Uncharged-Histidine’s; P7: Tryptophan → Leucine) by combining computation and experiments. …”

Bridging Thermodynamics, Antimicrobial Activity, and pH Sensitivity of Cationic Membranolytic Heptapeptides–A Computational and Experimental Study by Suvankar Ghosh (812058)

“…Understanding the thermodynamics of peptide:membrane binding and the factors that alter the stability is the key to designing potent and selective small antimicrobial peptides. Here, we report the thermodynamics, antimicrobial activity, and mechanism of a de novo designed seven residue long cationic antimicrobial peptide (P4: NH₃⁺-LK­WLK­KL-CONH₂, Charge +4) and its analogs (P5: Lysine’s → Arginine’s; P6: Lysine’s → Uncharged-Histidine’s; P7: Tryptophan → Leucine) by combining computation and experiments. …”

Bridging Thermodynamics, Antimicrobial Activity, and pH Sensitivity of Cationic Membranolytic Heptapeptides–A Computational and Experimental Study by Suvankar Ghosh (812058)

“…Understanding the thermodynamics of peptide:membrane binding and the factors that alter the stability is the key to designing potent and selective small antimicrobial peptides. Here, we report the thermodynamics, antimicrobial activity, and mechanism of a de novo designed seven residue long cationic antimicrobial peptide (P4: NH₃⁺-LK­WLK­KL-CONH₂, Charge +4) and its analogs (P5: Lysine’s → Arginine’s; P6: Lysine’s → Uncharged-Histidine’s; P7: Tryptophan → Leucine) by combining computation and experiments. …”

Bridging Thermodynamics, Antimicrobial Activity, and pH Sensitivity of Cationic Membranolytic Heptapeptides–A Computational and Experimental Study by Suvankar Ghosh (812058)

“…Understanding the thermodynamics of peptide:membrane binding and the factors that alter the stability is the key to designing potent and selective small antimicrobial peptides. Here, we report the thermodynamics, antimicrobial activity, and mechanism of a de novo designed seven residue long cationic antimicrobial peptide (P4: NH₃⁺-LK­WLK­KL-CONH₂, Charge +4) and its analogs (P5: Lysine’s → Arginine’s; P6: Lysine’s → Uncharged-Histidine’s; P7: Tryptophan → Leucine) by combining computation and experiments. …”

Bridging Thermodynamics, Antimicrobial Activity, and pH Sensitivity of Cationic Membranolytic Heptapeptides–A Computational and Experimental Study by Suvankar Ghosh (812058)

“…Understanding the thermodynamics of peptide:membrane binding and the factors that alter the stability is the key to designing potent and selective small antimicrobial peptides. Here, we report the thermodynamics, antimicrobial activity, and mechanism of a de novo designed seven residue long cationic antimicrobial peptide (P4: NH₃⁺-LK­WLK­KL-CONH₂, Charge +4) and its analogs (P5: Lysine’s → Arginine’s; P6: Lysine’s → Uncharged-Histidine’s; P7: Tryptophan → Leucine) by combining computation and experiments. …”

Bridging Thermodynamics, Antimicrobial Activity, and pH Sensitivity of Cationic Membranolytic Heptapeptides–A Computational and Experimental Study by Suvankar Ghosh (812058)

“…Understanding the thermodynamics of peptide:membrane binding and the factors that alter the stability is the key to designing potent and selective small antimicrobial peptides. Here, we report the thermodynamics, antimicrobial activity, and mechanism of a de novo designed seven residue long cationic antimicrobial peptide (P4: NH₃⁺-LK­WLK­KL-CONH₂, Charge +4) and its analogs (P5: Lysine’s → Arginine’s; P6: Lysine’s → Uncharged-Histidine’s; P7: Tryptophan → Leucine) by combining computation and experiments. …”

Bridging Thermodynamics, Antimicrobial Activity, and pH Sensitivity of Cationic Membranolytic Heptapeptides–A Computational and Experimental Study by Suvankar Ghosh (812058)

“…Understanding the thermodynamics of peptide:membrane binding and the factors that alter the stability is the key to designing potent and selective small antimicrobial peptides. Here, we report the thermodynamics, antimicrobial activity, and mechanism of a de novo designed seven residue long cationic antimicrobial peptide (P4: NH₃⁺-LK­WLK­KL-CONH₂, Charge +4) and its analogs (P5: Lysine’s → Arginine’s; P6: Lysine’s → Uncharged-Histidine’s; P7: Tryptophan → Leucine) by combining computation and experiments. …”

Comparison of mitochondrial number at MF and SC presynaptic bouton profiles. by Sang Hun Lee (564624)

Image_2_Lung Neutrophilic Recruitment and IL-8/IL-17A Tissue Expression in COVID-19.tiff by Marina Luise Viola Azevedo (10503320)

“…However, the G allele (GG and GA) of rs3819025 was correlated with higher tissue expression of IL-17A in the COVID-19 group. SARS-CoV-2 virus evokes an exacerbated response of the host’s immune system but differs from that observed in the H1N1pdm09 infection since the IL-8/IL-17A tissue expression, and lung neutrophilic recruitment may be decreased. …”

Image_1_Lung Neutrophilic Recruitment and IL-8/IL-17A Tissue Expression in COVID-19.tiff by Marina Luise Viola Azevedo (10503320)

“…However, the G allele (GG and GA) of rs3819025 was correlated with higher tissue expression of IL-17A in the COVID-19 group. SARS-CoV-2 virus evokes an exacerbated response of the host’s immune system but differs from that observed in the H1N1pdm09 infection since the IL-8/IL-17A tissue expression, and lung neutrophilic recruitment may be decreased. …”

Table_1_Lung Neutrophilic Recruitment and IL-8/IL-17A Tissue Expression in COVID-19.docx by Marina Luise Viola Azevedo (10503320)

“…However, the G allele (GG and GA) of rs3819025 was correlated with higher tissue expression of IL-17A in the COVID-19 group. SARS-CoV-2 virus evokes an exacerbated response of the host’s immune system but differs from that observed in the H1N1pdm09 infection since the IL-8/IL-17A tissue expression, and lung neutrophilic recruitment may be decreased. …”

Data_Sheet_1_Diagnostic value of cardiac miR-126-5p, miR-134-5p, and miR-499a-5p in coronary artery disease-induced sudden cardiac death.docx by Linfeng Li (281571)

“…The expressions of cardiac miR-126-5p, miR-134-5p, and miR-499a-5p were analyzed by real-time quantitative polymerase chain reaction (RT-qPCR).…”

YM201636 decreased IL-10 production induced by CpG but increased that induced by LPS in mouse peritoneal macrophages. by Kaoru Hazeki (340967)