Abstract: The present disclosure relates to compositions and methods of using triplex structures generated by a duplex of a polypurine tract and complementary polypyrimidine tract and a triplex-forming nucleobase polymer that hydrogen bonds to both the purine and pyrimidine bases of the polypurine-polypyrimidine duplex.

Abstract: The invention relates to a process and a device for the determination of the transfer of a sample substance in the production of biopolymer fields or biopolymer arrays onto the surface (4) of a specimen slide (3). The surface (4) of a specimen slide (3) comprises a conductive material (14) whose electrical connection to the feed device (1) via the sample liquid (12) serves as acknowledgement signal (8).

Abstract: Methods, compositions and kits are disclosed that utilize heteroconfigurational polynucleotide comprising a D-form polynucleotide sequence portion and an L-form polynucleotide sequence portion that is covalently linked to the D-form polynucleotide sequence portion.

Abstract: Methods, compositions and kits are disclosed that utilize heteroconfigurational polynucleotide comprising a D-form polynucleotide sequence portion and an L-form polynucleotide sequence portion that is covalently linked to the D-form polynucleotide sequence portion.

Abstract: Disclosed herein are nucleozymes and methods of use in the detection and analysis of target polynucleotide sequences.

Abstract: Simple and convenient methods for arranging molecules of interest in a pre-determined pattern are described. The methods use combinatorial hybridization based on interactions between complementary nucleic acid sequences to arrange the molecules of interest. The resulting arrangements, kits containing the components used in the methods, and methods of using the resulting arrangements are also disclosed.

Abstract: Apparatus comprising a plurality of channels and a plurality of deposition units and methods for depositing fluids on a support are disclosed.

Abstract: The present invention relates to a method for the photolithographic synthesis of biochips in which photolabile protective groups of the 2-(2-nitrophenyl)ethyl type are used, whereby the irradiation step that is common in the photolithographic chip synthesis is carried out in the presence of a base, preferably a secondary or uerriary base.

Abstract: The disclosed synthesis system is based on the idea of designing a synthesis and treatment procedure, substrates and anchor groups which enable biomolecules to be simultaneously produced in an entirely automatic manner. By using a pipetting robot to dispense the reagents, the reaction column can be arranged in a format suitable for subsequent treatment. For a pipetting robot to carry out even water-sensitive or air-sensitive synthesis protocols, certain structural measures must be taken. The operation principle of the automaton and the synthesis sequence are described below as an example of a possible solution. The automaton can work with conventional substrates and reagents. Handling, however, is simplified by new, specially adapted substrates and anchor groups. A special, simultaneous purification and aliquot portioning process improves product quality and makes the device easier to use.

Abstract: The invention relates to a process and an apparatus for producing biopolymer fields (15) on support substrates (4), (14), where the biopolymers to be applied can be taken from one or more different biopolymer stocks. A multidimensionally movable capillary tip (1) of a capillary tube (2) is, for the transfer of extremely small liquid quantities to substrate surfaces (14), addressed via a miniature valve (5) serving for filling and a miniature valve (7) serving for rinsing of the capillary tube (2).

Abstract: The invention relates to a process and an apparatus for the micrometering of extremely small quantities of liquid for the production of biopolymer arrays. The sample liquids to be analyzed are supplied by means of a supply device (1, 23), which can be connected to a stock of rinsing fluid (24). A reversible electric voltage (10) can be applied to the supply device (1, 23), enabling the electro-osmotic flow which arises to be used for the transport of the sample liquids onto a detection field (18).

Abstract: The invention relates to a process and a device for the determination of the transfer of a sample substance in the production of biopolymer fields or biopolymer arrays onto the surface (4) of a specimen slide (3). The surface (4) of a specimen slide (3) comprises a conductive material (14) whose electrical connection to the feed device (1) via the sample liquid (12) serves as acknowledgement signal (8).

Abstract: The disclosed synthesis system is based on the idea of designing a synthesis and treatment procedure, substrates and anchor groups which enable biomolecules to be simultaneously produced in an entirely automatic manner. By using a pipetting robot to dispense the reagents, the reaction column can be arranged in a format suitable for subsequent treatment. For a pipetting robot to carry out even water-sensitive or air-sensitive synthesis protocols, certain structural measures must be taken. The operation principle of the automated and the synthesis sequence are described below as an example of a possible solution. The automation can work with conventional substrates and reagents. Handling, however, is simplified by new, specially adapted substrates and anchor groups. A special, simultaneous purification and aliquot portioning process improves product quality and makes the device easier to use.