Chromogenic conjugates for color-based detection of targets are described. The conjugates comprise a chromogenic moiety such as a rhodamine, rhodol or fluorescein. The chromogenic moiety is linked to a peroxidase substrate. The chromogenic conjugates can be used in immunohistochemical analysis and in situ hybridization. The conjugates can be used to detect 1, 2, 3 or more targets in a sample by color.

Chromogenic conjugates for color-based detection of targets are described. The conjugates comprise a chromogenic moiety such as a rhodamine, rhodol or fluorescein. The chromogenic moiety is linked to a peroxidase substrate. The chromogenic conjugates can be used in immunohistochemical analysis and in situ hybridization. The conjugates can be used to detect 1, 2, 3 or more targets in a sample by color.

The present disclosure is based in part on probes, compositions, methods, and kits for simultaneous, multiplexed spatial detection and quantification of protein and/or nucleic acid expression in a user-defined region of a tissue, user-defined cell, and/or user-defined subcellular structure within a cell.--

The present disclosure is based in part on probes, compositions, methods, and kits for simultaneous, multiplexed spatial detection and quantification of protein and/or nucleic acid expression in a user-defined region of a tissue, user-defined cell, and/or user-defined subcellular structure within a cell.--

The present disclosure is based in part on probes, compositions, methods, and kits for simultaneous, multiplexed spatial detection and quantification of protein and/or nucleic acid expression in a user-defined region of a tissue, user-defined cell, and/or user-defined subcellular structure within a cell.--

A device for performing in situ genetic analyses, conformed so as to be transportable manually by a user, which comprises a casing defining an internal compartment and a plurality of analysis units arranged in the internal compartment, where each analysis unit is configured to perform a respective and independent genetic analysis of at least one sample; each analysis unit comprises a sample holder compartment accessible by the user and adapted to accommodate at least one sample; a command and control unit; at least one sensor selected among an optical, acceleration, temperature, pressure, motion, chemical sensor or a combination thereof, configured to detect a first physical quantity relative to the genetic analysis of the at least one sample and to transduce the first physical quantity into a first signal which is indicative of the state of progress of the genetic analysis, the command and control unit is in signal communication with the at least one sensor for receiving said first signal; the analysis unit further comprises a plurality of instruments, configured to perform the genetic analysis of the sample, comprising an amplification and optical detection device configured to detect at least a second physical quantity relative to the genetic analysis and to transduce the second physical quantity into at least a second signal which is indicative of the outcome of the genetic analysis, the command and control unit is in signal communication with the amplification and optical detection device for receiving said second signal; the device further comprises a processing unit, in signal communication with the command and control unit of each analysis unit for receiving the respective first signals and the respective second signals.

A device for performing in situ genetic analyses, conformed so as to be transportable manually by a user, which comprises a casing defining an internal compartment and a plurality of analysis units arranged in the internal compartment, where each analysis unit is configured to perform a respective and independent genetic analysis of at least one sample; each analysis unit comprises a sample holder compartment accessible by the user and adapted to accommodate at least one sample; a command and control unit; at least one sensor selected among an optical, acceleration, temperature, pressure, motion, chemical sensor or a combination thereof, configured to detect a first physical quantity relative to the genetic analysis of the at least one sample and to transduce the first physical quantity into a first signal which is indicative of the state of progress of the genetic analysis, the command and control unit is in signal communication with the at least one sensor for receiving said first signal; the analysis unit further comprises a plurality of instruments, configured to perform the genetic analysis of the sample, comprising an amplification and optical detection device configured to detect at least a second physical quantity relative to the genetic analysis and to transduce the second physical quantity into at least a second signal which is indicative of the outcome of the genetic analysis, the command and control unit is in signal communication with the amplification and optical detection device for receiving said second signal; the device further comprises a processing unit, in signal communication with the command and control unit of each analysis unit for receiving the respective first signals and the respective second signals.

The invention relates to methods of multiplex detection of a plurality of target nucleic acids by contacting a sample with an acid reagent to remove bound nucleic acid detection systems, thereby allowing the same detection systems to be used again to detect different target nucleic acids and to provide for higher levels of multiplexing. The invention also relates to kits containing an acid reagent and optionally probes for detection of target nucleic acids.

The invention relates to methods of multiplex detection of a plurality of target nucleic acids by contacting a sample with an acid reagent to remove bound nucleic acid detection systems, thereby allowing the same detection systems to be used again to detect different target nucleic acids and to provide for higher levels of multiplexing. The invention also relates to kits containing an acid reagent and optionally probes for detection of target nucleic acids.

The invention relates to methods of multiplex detection of a plurality of target nucleic acids by contacting a sample with an acid reagent to remove bound nucleic acid detection systems, thereby allowing the same detection systems to be used again to detect different target nucleic acids and to provide for higher levels of multiplexing. The invention also relates to kits containing an acid reagent and optionally probes for detection of target nucleic acids.