Effect of H5 (20 mg/kg, p.o.) on paw edema induced by histamine in mice. by Maria Alice Miranda Bezerra Medeiros (11752002)

Change in foldability during evolution for subsets of chain size: Distribution of domain length for domains appearing a) 3.8-1.5 Gya and b) 1.5-0 Gya. by Cédric Debès (102067)

Cytokine co-expression of SARS-CoV-2 specific T cells differs between PASC and RC. by Katherine M. Littlefield (12647420)

SCD1 dynamics are altered in response to RSV. by Cristina Rojas (667363)

“…<b>A</b>) SCD1 gene expression levels. The results are shown as the mean of the fold change ± SD of three independent experiments. …”

The significant decrease in GLT-1 levels observed in the nucleus accumbens of rats that had consumed morphine for fifty-six days was completely reversed by the co-administration of... by María Elena Quintanilla (8068691)

Image_1_The Cds.71 on TMS5 May Act as a Mutation Hotspot to Originate a TGMS Trait in Indica Rice Cultivars.jpeg by Yanning Tan (3934751)

“…In T98S, the candidate gene TMS5 (LOC_Os02g12290.1) mutated at cds.71 with a transversion from cytosine (C) to adenine (A), as also observed in AnS and ZhS. …”

Table_1_The Cds.71 on TMS5 May Act as a Mutation Hotspot to Originate a TGMS Trait in Indica Rice Cultivars.doc by Yanning Tan (3934751)

“…In T98S, the candidate gene TMS5 (LOC_Os02g12290.1) mutated at cds.71 with a transversion from cytosine (C) to adenine (A), as also observed in AnS and ZhS. …”

Effect of inhibitors on the growth of <i>P. falciparum</i> and <i>P. berghei</i> blood stage parasites. by Aastha Varshney (22601181)

Overexpression <i>TRIM37</i> promotes myelin repair and inhibits cell apoptosis by upregulating PEX5. by Lai Jiang (2401513)

“…<p><b>(a, b)</b> Western blot (n = 3) showed a significant increase in PEX5 protein levels in the OE-TRIM37 group compared to the LPC group. …”

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)

Migration rate in human corneal epithelial cell line (HCE-T) (n = 3), human corneal fibroblast (HCF) (n = 5) and human keratoconus fibroblast (KC-HCF) (n = 5) cell cultures, 24 hou... by Ning Chai (394956)

“…The experiments using primary human corneal fibroblasts (HCF, KC-HCF) were repeated five times (from five different donors), while the experiments using a commercial corneal epithelial cell line (HCE-T) were repeated three times.…”

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. …”

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. …”