Abstract: The invention provides methods and compositions for hybridizing at least one molecule to a target. The invention may, for example, eliminate the use of, or reduce the dependence on formamide in hybridization. Compositions for use in the invention include an aqueous composition comprising at least one nucleic acid sequence and at least one polar aprotic solvent in an Camount effective to denature double-stranded nucleotide sequences.

Abstract: The invention provides methods and compositions for hybridizing at least one molecule to a target. The invention may, for example, utilize a of cyclic and/or non-cyclic solvent that is non-toxic and may eliminate or reduce the amount of formamide in the hybridization composition.

Abstract: The invention provides methods and compositions for hybridizing at least one molecule to a target. The invention may, for example, eliminate the use of, or reduce the dependence on formamide in hybridization. Compositions for use in the invention include an aqueous composition comprising at least one nucleic acid sequence and at least one polar aprotic solvent in an amount effective to denature double-stranded nucleotide sequences.

Abstract: The invention provides methods and compositions for separately denaturing a probe and target in hybridization applications. The invention may, for example, eliminate the use of, or reduce the dependence on formamide in hybridization applications. Compositions for use in the invention include an aqueous composition comprising at least one polar aprotic solvent in an amount effective to denature double-stranded nucleotide sequences.

Abstract: Method and apparatus are provided for processing a sample on a slide. A capillary processing module has a crank to raise and lower a slide, and/or a side inlet to apply a fluid to the slide. A capillary gap is formed between the slide and a chamber floor of the capillary processing module when the crank has lowered the slide. Capillary action causes the fluid to spread through the capillary space across a processing area and to contact the sample. When the crank raises the slide, the fluid is withdrawn from the processing area of the slide because the capillary gap is eliminated.

Abstract: A sample test cassette includes an inlet configured to introduce a sample liquid into the sample test cassette; an elongate channel configured to receive an elongate lateral flow test strip and configured with a first end that is configured to be in liquid communication with the inlet; and a mechanical transport system that is an integral part of the sample test cassette and is configured to generate a flow of the sample liquid from outside of the inlet and towards the first end of the elongate channel.

Abstract: The invention provides methods and compositions for separately denaturing a probe and target in hybridization applications. The invention may, for example, eliminate the use of, or reduce the dependence on formamide in hybridization applications. Compositions for use in the invention include an aqueous composition comprising at least one polar aprotic solvent in an amount effective to denature double-stranded nucleotide sequences.

Abstract: The invention provides methods and compositions for hybridizing at least one molecule to a target. The invention may, for example, eliminate the use of, or reduce the dependence on formamide in hybridization. Compositions for use in the invention include an aqueous composition comprising at least one nucleic acid sequence and at least one polar aprotic solvent in an amount effective to denature double-stranded nucleotide sequences.

Abstract: The invention provides methods and compositions for hybridizing at least one molecule to a target. The invention may, for example, eliminate the use of or reduce the dependence on formamide in hybridization. Compositions for use in the invention include an aqueous composition comprising at least one nucleic acid sequence and at least one polar aprotic solvent in an amount effective to denature double-stranded nucleotide sequences.

Abstract: The invention provides methods and compositions for hybridizing at least one molecule to a target. The invention may, for example, utilize a of cyclic and/or non-cyclic solvent that is non-toxic and may eliminate or reduce the amount of formamide in the hybridization composition.

Abstract: An apparatus (100) for processing a biological sample (101). The biological sample being arranged on a first planar surface (102) of a carrier (103). The apparatus comprises a second planar surface (104) arranged substantially parallel to said first planar surface and at a first distance from said first planar surface, said first planar surface and said second planar surface are arranged at an angle (A) greater than zero degree from the horizontal plane (HP); supply mean (126, 131, 220) for supplying an amount (105) of a liquid that is to be applied to said biological sample. The first planar surface and said second planar surface are configured to be arranged at a second distance from each other, said second distance being such that said supplied amount of liquid is distributed over said biological sample when said first planar surface and said second planar surface are brought to said second distance from each other.

Abstract: The invention provides methods and compositions for hybridizing at least one molecule to a target. The invention may, for example, utilize a of cyclic and/or non-cyclic solvent that is non-toxic and may eliminate or reduce the amount of formamide in the hybridization composition.

Abstract: The invention provides methods and compositions for hybridizing at least one molecule to a target. The composition comprises at least one nucleic acid sequence, formamide, and a hybridization solution, wherein the concentration of formamide is less than or equal to 25%.

Abstract: The invention provides methods and compositions for hybridizing at least one molecule to a target. The composition comprises at least one nucleic acid sequence, formamide, and a hybridization solution, wherein the concentration of formamide is less than or equal to 25%.

Abstract: The invention provides methods and compositions for hybridizing at least one molecule to a target. The invention may, for example, utilize a of cyclic and/or non-cyclic solvent that is non-toxic and may eliminate or reduce the amount of formamide in the hybridization composition.

Abstract: An apparatus (100) for processing a biological sample (101). The biological sample being arranged on a first planar surface (102) of a carrier (103). The apparatus comprises a second planar surface (104) arranged substantially parallel to said first planar surface and at a first distance from said first planar surface, said first planar surface and said second planar surface are arranged at an angle (A) greater than zero degree from the horizontal plane (HP); supply mean (126, 131, 220) for supplying an amount (105) of a liquid that is to be applied to said biological sample. The first planar surface and said second planar surface are configured to be arranged at a second distance from each other, said second distance being such that said supplied amount of liquid is distributed over said biological sample when said first planar surface and said second planar surface are brought to said second distance from each other.

Abstract: An apparatus (100) for processing a biological sample (101). The biological sample being arranged on a first planar surface (102) of a carrier (103). The apparatus comprises a second planar surface (104) arranged substantially parallel to said first planar surface and at a first distance from said first planar surface, said first planar surface and said second planar surface are arranged at an angle (A) greater than zero degree from the horizontal plane (HP); supply means (126, 131, 220) for supplying an amount (105) of a liquid that is to be applied to said biological sample. The first planar surface and second planar surface are configured to be arranged at a second distance from each other, said second distance being such that said supplied amount of liquid is distributed over said biological sample when said first planar surface and said second planar surface are brought to said second distance from each other.

Abstract: The invention provides methods and compositions for separately denaturing a probe and target in hybridization applications. The invention may, for example, eliminate the use of, or reduce the dependence on formamide in hybridization applications. Compositions for use in the invention include an aqueous composition comprising at least one polar aprotic solvent in an amount effective to denature double-stranded nucleotide sequences.

Abstract: The present application provides a two phase immiscible system for the pretreatment of embedded biological samples comprising placing at least one support having an embedded biological sample on its surface into a pretreatment container, adding to the pretreatment container at least one reagent forming a layer, adding a carrier composition to the pretreatment container, such that reagent forming layer is formed on the top of the carrier composition, and in an amount such that the at least one reagent forming layer contacts at least a portion of the embedded biological sample. Pretreatment of the embedded biological samples can include removal of embedding medium from embedded biological, target retrieval and enzyme blocking samples before staining histochemical analysis or other processes. The system also includes an apparatus and processes of automation of the pretreatment methods.

Abstract: The invention provides methods and compositions for separately denaturing a probe and target in hybridization applications. The invention may, for example, eliminate the use of or reduce the dependence on formamide in hybridization applications. Compositions for use in the invention include an aqueous composition comprising at least one polar aprotic solvent in an amount effective to denature double-stranded nucleotide sequences.