Measuring protein structure and stability of protein-nanoparticle systems with synchrotron radiation circular dichroism.

We measure the structural and stability changes of proteins at nanomolar concentration upon interaction with nanoparticles. Using synchrotron radiation circular dichroism (SRCD), we measure a decrease of 6 °C in the thermal unfolding of human serum albumin upon interaction with silver nanoparticles while this does not happen with gold. The use of SRCD allows measuring critical parameters on protein-nanoparticle interactions, and it will provide experimental data on the relative stability of key biological proteins for nanotoxicology.

Effect of native and NH3 plasma-functionalized polymeric membranes on the gene expression profiles of primary hepatocytes.

Little is known about how cells respond to different biomaterials at the molecular level. Biomaterials could stimulate specific cellular responses at the molecular level, such as activation of signalling pathways that control gene activity involved in the maintenance, growth and functional regeneration of liver tissue in vitro. This aspect is an important step in liver tissue engineering.

Rat embryonic liver cell expansion and differentiation on NH3 plasma-grafted PEEK-WC-PU membranes.

Biomaterials can potentially influence stem and progenitor cell proliferation and differentiation in both a positive and a negative way. Herein, we report on the expansion and differentiation of rat embryonic (E17) liver (RLC-18) cells on new bioactive membrane made of PEEK-WC-PU, whose surface was grafted with nitrogen functionalities by means of NH(3) glow discharges. The performance of the developed membrane was evaluated by analyzing the expression of the liver specific functions of cells cultured in a 6-well gas-permeable bioreactor.

Improved functions of human hepatocytes on NH3 plasma-grafted PEEK-WC-PU membranes.

PEEK-WC-PU membranes were modified with an NH(3) glow discharge process to graft N-containing functional groups at their surface in order to improve the maintenance of human hepatocytes. Native and modified membrane surfaces were characterized with XPS, ToF-SIMS and WCA measurements. We have investigated morphological behaviour and specific functions of primary human hepatocytes on native and modified PEEK-WC-PU membranes in a small-scale gas-permeable bioreactor.

Pd nanoparticles catalyzed stereospecific synthesis of beta-aryl cinnamic esters in ionic liquids.

Reaction of the catalyst 1 or Pd(OAc)(2) with tetrabutylammonium acetate, dissolved in tetrabutylammonium bromide, leads to a fast formation of Pd nanoparticles which efficiently catalyze the stereospecific reaction of cinnamates with aryl halides to give beta-aryl-substituted cinnamic esters. The role of tetrabutylammonium acetate is crucial in determining the formation of nanoparticles and stereospecificity of the C-C coupling process.