Additionally, 451 proteins were identified from lumican-downregulated PANC-1 cells and AZD5363 control cells. As a result of semi-quantification based on spectral counting, 174 differentially expressed proteins were identified by lumican upregulation, and 143 differentially expressed proteins were identified by lumican downregulation. The expression levels of 24 proteins, including apoptosis-and invasion-related proteins correlated with lumican expression levels. It is likely that the expression of these proteins is

regulated by lumican, and that they are involved in apoptosis and invasion in PDAC. These findings suggest that lumican may be involved in cell growth and invasion through the regulation of these 24 proteins expressed in PDAC.”
“Density functional theory is used to click here evaluate activity and stability properties of shell-anchor-core structures. The structures consist of a Pt surface monolayer and a composite core having an anchor bilayer where C atoms

in the interstitial sites lock 3d metals in their locations, thus avoiding their surface segregation and posterior dissolution. The modified subsurface geometry induces less strain on the top surface, thus exerting a favorable effect on the surface catalytic activity where the adsorption strength of the oxygenated species becomes more moderate: weaker than on pure Pt (111 ) but stronger than on a Pt monolayer having a 3d metal subsurface. Here we analyze the effect of changing the nature of the 3d metal in the

subsurface anchor bilayer, and we also test the use of a Pd monolayer instead of Pt on the surface. It is found that a subsurface constituted by two layers with an approximate composition of M2C (M=Fe, Ni, and Co) provides a barrier for the migration of subsurface core metal atoms to the surface. Consequently, an enhanced resistance against dissolution in parallel to improved oxygen reduction activity is expected, Selleckchem Blasticidin S as given by the values of adsorption energies of reaction intermediates, delayed onset of water oxidation, and/or low coverage of oxygenated species at surface oxidation potentials. (C) 2010 American Institute of Physics. [doi: 10.1063/1.3481482]“
“The organic phosphazene superbase, 1-tert-butyl-4,4,4-tris(dimethylamino)-2,2-bis[tris(dimethylamino) phosphoranylid-enamino]-2 lambda(5),4 lambda(5)-catenadi(phosphazene) (t-Bu-P-4), is found to directly initiate highspeed polymerization of the biomass-derived renewable gamma-methyl-alpha-methylene-gamma-butyrolactone (MMBL), in contrast to other polymerization systems using t-Bu-P-4 which typically require addition of an organic acid or a nucleophile as a co-initiating component. This MMBL polymerization by t-Bu-P-4 alone is extremely rapid; even with a low t-Bu-P-4 loading of 0.1 mol% or 0.02 mol%, quantitative monomer conversion is achieved in 20 s or 1 min, respectively, affording medium to high molecular weight PMMBL bioplastics in a catalytic fashion.