Abstract: An electrochemical method is provided for in-vitro determination of the presence of bacteria producing lactamases, in a sample that may contain such bacteria.

Abstract: An electrochemical method is provided for in-vitro determination of the presence of bacteria producing lactamases, in a sample that may contain such bacteria.

Abstract: The invention relates to a method and a collection for the electrochemical detection of target nucleic acid sequences. According to the method, a biological sample that may contain a nucleic acid is provided, said nucleic acid being capable of containing a target sequence, said biological sample being mixed with an oxidizing agent, said target sequence comprising at least one nucleotide base that can be oxidized by said oxidizing agent; complementary means capable of coupling with said target sequence are provided; according to the invention, said complementary means comprise activatable amplification means suitable for replicating said target sequence, said amplification means comprising at least nucleotides which include said nucleotide base, wherein said nucleotides are able to be consumed during replication so as to constitute replicated nucleic acids; and the presence of said target sequence is determined by applying an electric field to said sample and recording the decrease in the electric current.

Abstract: The invention relates to a method and a collection for the electrochemical detection of target nucleic acid sequences. According to the method, a biological sample that may contain a nucleic acid is provided, said nucleic acid being capable of containing a target sequence, said biological sample being mixed with an oxidizing agent, said target sequence comprising at least one nucleotide base that can be oxidized by said oxidizing agent; complementary means capable of coupling with said target sequence are provided; according to the invention, said complementary means comprise activatable amplification means suitable for replicating said target sequence, said amplification means comprising at least nucleotides which include said nucleotide base, wherein said nucleotides are able to be consumed during replication so as to constitute replicated nucleic acids; and the presence of said target sequence is determined by applying an electric field to said sample and recording the decrease in the electric current.

Abstract: The invention concerns a method for detecting or quantifying a biological substance coupled with a colloidal metal particle by electrochemical detection, characterized in that it comprises a step which consists in dissolving by chemical treatment of said colloidal metal particle, prior to detection.

Abstract: Thin films of transition metal complex-based redox polymers are electrodeposited on electrodes. When hydrated, an electrodeposited film conducts electrons by electron exchange between backbone-bound, but mobile, functional segments of its redox polymer constituents. These functional segments, or redox complexes, have labile ligands in their inner coordination spheres. The backbones of the redox polymers have strongly coordinating ligands. Electrodeposition results from coordinative crosslinking by exchange of labile ligands and strongly coordinating ligands between polymer chains. When a biological macromolecule or protein, such as a redox enzyme, is added to the solution from which the redox polymer is electrodeposited, it is co-electrodeposited on the electrode surface. When the co-deposited film contains redox enzymes, for example, the modified electrode may be used to catalyze the electrooxidation or electroreduction of substrates of the enzymes.

Abstract: The invention concerns a method for detecting or quantifying a biological substance coupled with a colloidal metal particle by electrochemical detection, characterised in that it comprises a step which consists in dissolving by chemical treatment of said colloidal metal particle, prior to detection.

Abstract: The invention concerns a method for detecting or quantifying a biological substance coupled with a colloidal metal particle by electrochemical detection, characterised in that it comprises a step which consists in dissolving by chemical treatment of said colloidal metal particle, prior to detection.

Abstract: Thin films of transition metal complex-based redox polymers are electrodeposited on electrodes via application of fixed or cycled potential. When hydrated, an electrodeposited film conducts electrons by electron exchange between backbone-bound, but mobile, functional segments of its redox polymer constituents. These functional segments, or redox complexes, have labile ligands, such as chloride anions, for example, in their inner coordination spheres. The backbones of the redox polymers have strongly coordinating ligands, such as pyridine- or imidazole-containing functions, for example, which are generally not coordinated prior to deposition. Electrodeposition results from coordinative crosslinking by exchange of labile ligands and strongly coordinating ligands between polymer chains, provided sufficient functional segments of the redox polymers are present at the electrode surface.