Mixing component for dental glass ionomer cementsĭental cement containing poly(carboxylic acid), chelating agent and glass cement powderĬurable mixtures comprising epoxide compositions and divalent tin saltsĬuring polyepoxides with certain metal salts of inorganic acidsġ. Radiopaque, low visual opacity dental composites containing non-vitreous microparticlesīroad spectrum light curable dental compositionsĬalcium depleted aluminum fluorosilicate glass powder for use in dental or bone cements Method for making dental prosthetic device with oxygen barrier layer and visible light irradiation to cure polymerĭental restorative composition containing monofunctional monomer and diolefinically unsaturated monomer Orthodontic bracket adhesive and abrasive for removal thereof Stain-resistant no-mix orthodontic adhesive Microfilled dental composite and method for making it
Universal water-based medical and dental cementĬomposite dental cement composition containing titanium
#DELTAGRAPH CURVEFIT SERIES#
Method for treating fluoroaluminosilicate glassĬomposite dental cement composition containing a lanthanide series compound Primer composition and curable compositionĭental crowns and bridges from semi-thermoplastic molding compositions having heat-stable custom shape memory K m (MT) and the k cat were obtained by curve fitting with DeltaGraph with the following r values: GST-NOD320, 0.97 NOD DTW, 0.92 and NOD “DR2”, 0.96.Dental material based on polymerizable waxesīlended polycaprolactone thermoplastic molding compositionĭental crown liner composition and methods of preparing provisional applications Wild-type NOD-GST, NOD DTW, and NOD “DR2” are represented by filled circles, diamonds, and squares, respectively. (C) ATPase rates of various 50 nM GST-NOD fusions were measured and calculated as in B. The solid line was obtained from the curve-fitting procedure (r = 0.97). The microtubule dimer concentration that led to half-maximum ATPase activation K m (MT) and the k cat were obtained by curve fitting with DeltaGraph. (B) ATPase rates of 50 nM GST-NOD320 were determined in the presence of various levels of polymerized tubulin and 0.5 mM ATP. The inset shows an SDS-PAGE gel showing molecular weight standards and the first two elutions of GST-NOD320. The data was fit to the Michaelis-Menten kinetic model and the solid line was obtained from this curve-fitting procedure.
These values were plotted by DeltaGraph and K m values were obtained by curve fitting. (A) ATPase rate of 50 nM GST-NOD320 was measured in the presence of subsaturating levels of microtubules to determine the apparent K m for ATP. Determination of the K m (ATP), K m (MT) for the minimal catalytic core of NOD (GST-NOD320): biochemical characterization of two NOD mutant proteins.
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