Dataset of effect of Wogonin, a natural flavonoid, on the viability and activation of NF-κB and MAPKs in IL-1β-stimulated human OA chondrocytes.

This article contains data related to the article "Wogonin, a plant derived small molecule exerts potent anti-inflammatory and chondroprotective effects through activation of ROS/ERK/Nrf2 signaling pathways in human Osteoarthritis chondrocytes" (Khan et al. 2017) [1]. The data are related to effects of Wogonin on the viability and IL-1β-stimulated activation of NF-κB and ERK1/2, JNK1/2 and p38 MAPKs in human OA chondrocytes.

Wogonin, a plant derived small molecule, exerts potent anti-inflammatory and chondroprotective effects through the activation of ROS/ERK/Nrf2 signaling pathways in human Osteoarthritis chondrocytes.

Osteoarthritis (OA), characterized by progressive destruction of articular cartilage, is the most common form of human arthritis. Here, we evaluated the potential chondroprotective and anti-inflammatory effects of Wogonin, a naturally occurring flavonoid, in IL-1β-stimulated human OA chondrocytes and cartilage explants. Wogonin completely suppressed the expression and production of inflammatory mediators including IL-6, COX-2, PGE, iNOS and NO in IL-1β-stimulated OA chondrocytes.

Inflammatory markers associated with osteoarthritis after destabilization surgery in young mice with and without Receptor for Advanced Glycation End-products (RAGE).

HtrA1, Ddr-2, and Mmp-13 are reliable biomarkers for osteoarthritis (OA), yet the exact mechanism for the upregulation of HtrA-1 is unknown. Some have shown that chondrocyte hypertrophy is associated with early indicators of inflammation including TGF-β and the Receptor for Advanced Glycation End-products (RAGE). To examine the correlation of inflammation with the expression of biomarkers in OA, we performed right knee destabilization surgery on 4-week-old-wild type and RAGE knock-out (KO) mice.

Reflections on the journey: six short stories.

One of the goals of the 2011 International Year of Chemistry is to celebrate the contributions of women to science. A question that has been frequently asked in this regard is..

Calcium alginate bead immobilization of cells containing tyrosine ammonia lyase activity for use in the production of p-hydroxycinnamic acid.

An Escherichia coli catalyst with tyrosine ammonia lyase activity (TAL) has been stabilized for repeated use in batch conversions of high tyrosine solids to p-hydroxycinnamic acid (pHCA). The TAL biocatalyst was stabilized by controlling the reaction pH to 9.8 +/- 0.

Functional expression of prokaryotic and eukaryotic genes in Escherichia coli for conversion of glucose to p-hydroxystyrene.

The chemical monomer p-hydroxystyrene (pHS) is used for producing a number of important industrial polymers from petroleum-based feedstocks. In an alternative approach, the microbial production of pHS can be envisioned by linking together a number of different metabolic pathways, of which those based on using glucose for carbon and energy are currently the most economical. The biological process conserves petroleum when glucose is converted to the aromatic amino acid L-tyrosine, which is deaminated by a tyrosine/phenylalanine ammonia-lyase (PAL/TAL) enzyme to yield p-hydroxycinnamic acid (pHCA).

Potential of an antibacterial ultraviolet-irradiated nylon film.

The antibacterial effectiveness of an ultraviolet-irradiated nylon 6, 6 film was investigated for potential use as a food-packaging material to reduce the surface microbial contamination of foods. The film-surface analyses showed that UV irradiation induced conversion of surface amide groups to amines. Irradiation also increased the dimensional scale of the film surface topography (depth of valleys) approximately 5-fold on the scale of nanometers.

Antimicrobial activities of amphiphilic peptides covalently bonded to a water-insoluble resin.

A series of polymer-bound antimicrobial peptides was prepared, and the peptides were tested for their antimicrobial activities. The immobilized peptides were prepared by a strategy that used solid-phase peptide synthesis that linked the carboxy-terminal amino acid with an ethylenediamine-modified polyamide resin (PepsynK). The acid-stable, permanent amide bond between the support and the nascent peptide renders the peptide resistant to cleavage from the support during the final acid-catalyzed deprotection step in the synthesis.

Peptide, protein, and cellular interactions with self-assembled monolayer model surfaces.

Model biomaterial surfaces with well defined chemistry were prepared from close-packed alkyltrichlorosilane monolayers on polished silicon and glass. The outermost molecular groups which come in direct contact with the biological environment were varied across a wide range of oxidation states by employing -CF3, -CH3, -CO2CH3, and -CH2OH terminal functionalities. Characterization by contact angles, surface spectroscopy, and ellipsometry verified that these model surfaces could be repeatedly prepared with good consistency for routine use to study biomolecule adsorption onto model surfaces.

Preparation of a mixture of nucleoside triphosphates suitable for use in synthesis of nucleotide phosphate sugars from ribonucleic acid using nuclease P1, a mixture of nucleoside monophosphokinases and acetate kinase.

This paper (1) describes the enzymatic synthesis of a mixture of adenosine, guanosine, cytidine, and uridine triphosphates (ATP, GTP, CTP, and UTP) from ribonucleic acid (RNA). RNA was hydrolyzed by nuclease P1 to a mixture of 5'-nucleoside monophosphates. This mixture was converted to the nucleoside triphosphates using a mixture of nucleoside monophosphate kinases and acetate kinase, with acetyl phosphate as the ultimate phosphoryl donor.

Enzyme-catalyzed organic synthesis of sucrose and trehalose with in situ regeneration of UDP-glucose.

This paper describes cell-free enzymatic syntheses of sucrose and trehalose using partially-purified preparations of sucrose and trehalose synthetase. The coupling of the regeneration of uridine-5'-diphosphoglucose (UDP-Glc) with synthesis of the disaccharide offers a practical route to millimol quantities of these carbohydrates. The syntheses used pyruvate kinase, UDP-Glc pyrophosphorylase, and inorganic pyrophosphatase, and the regenerated UDP-Glc was cycled approximately 10 times.