Abstract: The present invention relates to a probe compound that can comprise any substrate or metabolite of an enzymatic reaction in addition to an indicator component, such as, for example, a fluorescence dye, or the like. Moreover, the present invention relates to means for detecting enzymes in form of an array, which comprises any number of probe compounds of the invention which each comprise a different metabolite of interconnected metabolites representing the central pathways in all forms of life. Moreover, the present invention relates to a method for detecting enzymes involving the application of cell extracts or the like to the array of the invention which leads to reproducible enzymatic reactions with the substrates. These specific enzymatic reactions trigger the indicator (e.g. a fluorescence signal) and bind the enzymes to the respective cognate substrates. Moreover, the invention relates to means for isolating enzymes in form of nanoparticles coated with the probe compound of the invention.
Type:
Application
Filed:
March 19, 2010
Publication date:
September 13, 2012
Inventors:
Peter N. Golyshin, Olga V. Golyshina, Kenneth N. Timmis, Tatyana Chernikova, Agnes Waliczek, Manuel Ferrer, Ana Beloqul, Maria E. Guazzaroni, Jose M. Vieltes, Florencio Pazos, Antonio Lopez De Lacey, Victor M. Fernandez
Abstract: A method of manipulating a living cell is disclosed. The method comprises, directing a pulsed optical field to at least one conductive nanoparticle present in the vicinity of the cell, so as to generate cavitations at or near the conductive nanoparticle at sufficient amount to effect at least one cell modification selected from the group consisting of cell-damage and cell-fusion.
Type:
Application
Filed:
January 19, 2012
Publication date:
July 26, 2012
Applicant:
Technion Research & Development Foundation Ltd.
Abstract: A nanostructure composed of a plurality of peptides, each peptide containing at least one aromatic amino acid, whereby one or more of these peptides is end-capping modified, is disclosed. The nanostructure can take a tubular, fibrillar, planar or spherical shape, and can encapsulate, entrap or be coated by other materials. Methods of preparing the nanostructure, and devices and methods utilizing same are also disclosed.
Abstract: The present invention is directed to nanoparticulate active agent compositions comprising lysozyme as a surface stabilizer. Also encompassed by the invention are pharmaceutical compositions comprising a nanoparticulate active agent composition of the invention and methods of making and using such nanoparticulate and pharmaceutical compositions.