Abstract: The invention relates to an aptamer, the structure thereof comprising at least one nucleotide sequence 5?-GGCA(A/G)GGA-3?, that can specifically bind to the poly(A) hairpin of the 5?UTR region of the genome of the human immunodeficiency virus type 1 (HIV-1), providing the method for producing aptamers with said sequence by means of a combination of experimental techniques of in vitro selection of nucleic acids with computational techniques of sequence optimization. The invention also relates to a DNA gene structure for synthesizing said aptamers, preferably RNA. The invention further relates to the different uses of the above-mentioned aptamer, including the use thereof as a biosensor molecule for detecting and/or quantifying HIV-1, as an inhibitor of the production of viral particles of HIV-1, and to the application thereof in medicine, the invention also relating to a method for treating a disease caused by HIV-1, and to a pharmaceutical composition comprising said aptamer.

Abstract: The invention relates to an aptamer, the structure thereof comprising at least one nucleotide sequence 5?-GGCA(A/G)GGA-3?, that can specifically bind to the poly(A) hairpin of the 5?UTR region of the genome of the human immunodeficiency virus type 1 (HIV-1), providing the method for producing aptamers with said sequence by means of a combination of experimental techniques of in vitro selection of nucleic acids with computational techniques of sequence optimization. The invention also relates to a DNA gene structure for synthesizing said aptamers, preferably RNA. The invention further relates to the different uses of the above-mentioned aptamer, including the use thereof as a biosensor molecule for detecting and/or quantifying HIV-1, as an inhibitor of the production of viral particles of HIV-1, and to the application thereof in medicine, the invention also relating to a method for treating a disease caused by HIV-1, and to a pharmaceutical composition comprising said aptamer.

Abstract: The present invention refers to a method for detecting molecules and/or substances within a sample based on the use of a microcantilever system. The method comprises the variation of a certain condition such as humidity so as the mechanical feature analyzed varies with a characteristic pattern while the target molecule is bound to the detector. The invention also refers to the system used to carry out such method.

Abstract: The invention relates to the field of biosensors and, more specifically, to nanoparticle biosensors comprising: a magnetic core, a silica layer, one or more outer metal layers which can be of different types and deposited in an alternating manner and immobilized on the outer surface, and a layer of synthetic or natural organic or inorganic biosensor molecules that can bind to biomolecules. The invention also relates to a method of obtaining the nanoparticle biosensors as well as to the different uses thereof.

Abstract: The invention relates to the field of biosensors and, more specifically, to nanoparticle biosensors comprising: a magnetic core, a silica layer, one or more outer metal layers which can be of different types and deposited in an alternating manner and immobilized on the outer surface, and a layer of synthetic or natural organic or inorganic biosensor molecules that can bind to biomolecules. The invention also relates to a method of obtaining the nanoparticle biosensors as well as to the different uses thereof.

Abstract: The invention relates to a method and apparatus for detecting substances or analytes form the analysis of one or several samples. The method comprises mixing the sample with a suitable liquid buffer, homogenizing said sample, adding reagents thereto, filtering it, injecting the sample into the incubation chamber, allowing the sample to react with a biosensor, washing the non-reacted sample excess and detecting the sample retained in the biosensor. The apparatus includes a sample homogenizer module with an ultrasonic piezoelectric device formed by a converter (49) and a horn (16); a sample processing module including a homogenization container (6) and a moving frame (17); a reagent and solution management module including a motorized syringe (60), a reaction module consisting of a support (50) forming a reaction chamber (51) and a data reading module including a laser diode (66) and a CCD camera (67).

Abstract: The present invention refers to a method for detecting molecules and/or substances within a sample based on the use of a microcantilever system. The method comprises the variation of a certain condition such as humidity so as the mechanical feature analysed varies with a characteristic pattern while the target molecule is bound to the detector. The invention also refers to the system used to carry out such method.

Abstract: The invention relates to a method and apparatus for detecting substances or analytes form the analysis of one or several samples. The method comprises mixing the sample with a suitable liquid buffer, homogenizing said sample, adding reagents thereto, filtering it, injecting the sample into the incubation chamber, allowing the sample to react with a biosensor, washing the non-reacted sample excess and detecting the sample retained in the biosensor. The apparatus includes a sample homogenizer module with an ultrasonic piezoelectric device formed by a converter (49) and a horn (16); a sample processing module including a homogenization container (6) and a moving frame (17); a reagent and solution management module including a motorized syringe (60), a reaction module consisting of a support (50) forming a reaction chamber (51) and a data reading module including a laser diode (66) and a CCD camera (67).

Abstract: A method for the detection of minority genomes in virus quasispecies using DNA microchips. The method makes it possible to detect minority genomes, more particularly minority memory genomes, in a nucleic acids population of a virus quasispecie, which are present in a population of less than 50%, containing at least one mutation relative to the majority genomes of the quasispecie. The method involves the following steps: a) extracting the nucleic acid of the virus quasispecie form a sample susceptible of containing the virus quasispecie; b) amplifying at least one fragment of the nucleic acid of the virus quasispecie, and c) detecting and analyzing the existence of minority genomes using DNA microchip-base techniques. The method can be used in genetic diagnosis of viral diseases.