Abstract: A microarray carrier assembly including a scan tray and a plurality of microarray blocks detachably disposed on the scan tray is provided. The scan tray includes a frame including an opening and a slot, and a transparent substrate covering the opening of the frame. Each of the microarray blocks includes a main body, a probe array distributed on the main body and facing towards the transparent substrate of the scan tray, and a plurality of guiding pins disposed on the main body and surrounding the probe array, wherein a top surface area of the guiding pin opposite to the main body is less than a bottom surface area of the guiding pin connected to the main body, and the guiding pins are detachably inserted into the slot of the frame of the scan tray.

Abstract: The present invention relates generally to methods of sequencing of polynucleotides and compounds, compositions and kits useful for sequencing of polynucleotides. The chemical compounds include nucleotide and nucleoside analogs which possess a blocking group covalently attached to the 3? hydroxyl of the sugar moiety. The blocking group may optionally be additionally covalently attached to a linker and/or detectable label. The nucleotide analogs may be ribonucleotide or deoxyribonucleotide analogs. Methods include incorporation of the reversible terminator molecules into growing polynucleotide strands by polymerase enzymes, such as in single base sequencing methodologies utilizing sequential reversible termination techniques.

Abstract: The present invention relates generally to methods of sequencing of polynucleotides and compounds, compositions and kits useful for sequencing of polynucleotides. The chemical compounds include nucleotide and nucleoside analogs which possess a blocking group covalently attached to the 3? hydroxyl of the sugar moiety. The blocking group may optionally be additionally covalently attached to a linker and/or detectable label. The nucleotide analogs may be ribonucleotide or deoxyribonucleotide analogs. Methods include incorporation of the reversible terminator molecules into growing polynucleotide strands by polymerase enzymes, such as in single base sequencing methodologies utilizing sequential reversible termination techniques.

Abstract: The present invention relates generally to methods of sequencing of polynucleotides and compounds, compositions and kits useful for sequencing of polynucleotides. The chemical compounds include nucleotide and nucleoside analogs which possess a blocking group covalently attached to the 3? hydroxyl of the sugar moiety. The blocking group may optionally be additionally covalently attached to a linker and/or detectable label. The nucleotide analogs may be ribonucleotide or deoxyribonucleotide analogs. Methods include incorporation of the reversible terminator molecules into growing polynucleotide strands by polymerase enzymes, such as in single base sequencing methodologies utilizing sequential reversible termination techniques.

Abstract: The present disclosure relates to processes for inverting oligonucleotide probes in an in situ synthesized array. These processes can be used to reverse the orientation of probes with respect to the substrate from 3?-bound to 5?-bound. These processes can also be used to reduce or eliminate the presence of truncated probe sequences from an in situ synthesized array.

Abstract: The present disclosure relates to processes for inverting oligonucleotide probes in an in situ synthesized array. These processes can be used to reverse the orientation of probes with respect to the substrate from 3?-bound to 5?-bound. These processes can also be used to reduce or eliminate the presence of truncated probe sequences from an in situ synthesized array.

Abstract: Provided herein are methods and compositions for the sequencing of long nucleic acids, such as DNA. The methods and compositions are suited for the spatial labeling and sequencing of long nucleic acid molecules.

Abstract: The present disclosure provides methods, device, and system for wafer processing. The wafer processing apparatus uses lid dispenser to disperse at least one reagent to the surface of the wafer. Further, the wafer is positioned on top of a rotatable vacuum chuck configured to spread at least one reagent over the surface of the wafer via a centrifugal force or surface tension, thereby permitting the at least one reagent to react with an additional reagent. Further, when dispensing the at least one reagent, a separation gap between the lid dispenser and the wafer is at a predetermined distance, for example, from 50 ?m to 2 mm.

Abstract: Provided herein are methods and compositions for the sequencing of long nucleic acids, such as DNA. The methods and compositions are suited for the spatial labeling and sequencing of long nucleic acid molecules.

Abstract: The present disclosure provides methods of sequencing polynucleotides and compounds, compositions useful for sequencing of polynucleotides. The chemical compounds include nucleotides and their analogs which possess a sugar moiety comprising a cleavable chemical group capping the 3?-OH group and a base that is attached to a detectable label through a cleavable linker comprising a disulfide bond. In addition, both the disulfide bond and the cleavable chemical group are cleavable by a chemical reagent. Furthermore, after the disulfide bond is cleaved by the chemical reagent, there is no free thiol group linked to the base of the nucleotides.

Abstract: Provided herein are methods and compositions for the fabrication of patterned arrays, such as nucleotide arrays. The methods and compositions are suited for the transfer and reorientation of array components.

Abstract: Provided herein are methods and compositions for coating surfaces with polymers. The methods and compositions are suited for conducting biological reactions.

Abstract: The present invention relates generally to methods of sequencing of polynucleotides and compounds, compositions and kits useful for sequencing of polynucleotides. The chemical compounds include nucleotide and nucleoside analogs which possess a blocking group covalently attached to the 3? hydroxyl of the sugar moiety. The blocking group may optionally be additionally covalently attached to a linker and/or detectable label. The nucleotide analogs may be ribonucleotide or deoxyribonucleotide analogs. Methods include incorporation of the reversible terminator molecules into growing polynucleotide strands by polymerase enzymes, such as in single base sequencing methodologies utilizing sequential reversible termination techniques.

Abstract: The present invention provide several methods of derivatizing a surface of a support with one or more linkers thus providing a suitable platform for synthesis of a polymer array, particular a nucleic acid array. Some methods derivatize a surface with a self-assembled monolayer (SAM) of a linker. The SAM confers advantages of hydrolytic stability, broad compatibility with synthesis and detection chemistries, and reduced emergence of latent functional groups during polymer array synthesis. Substrates can also be derivatized with multi-layers of SAMs providing greater hydrolytic stability. Substrates can also be derivatized by synthesizing a linker in situ on the substrate by atom transfer radical polymerization of functional and functional monomers. Appropriate selection of monomers reduces emergence of latent functional groups in subsequent array synthesis.

Abstract: The present invention provides novel processes for the large scale preparation of arrays of polymer sequences wherein each array includes a plurality of different, positionally distinct polymer sequences having known monomer sequences. The methods of the invention combine high throughput process steps with high resolution photolithographic techniques in the manufacture of polymer arrays.

Abstract: Nucleic acid labeling compounds are disclosed. The compounds are synthesized by condensing a heterocyclic derivative with a cyclic group (e.g. a ribofuranose derivative). The labeling compounds are suitable for enzymatic attachment to a nucleic acid, either terminally or internally, to provide a mechanism of nucleic acid detection.

Abstract: Nucleic acid labeling compounds are disclosed. The compounds are synthesized by condensing a heterocyclic derivative with a cyclic group (e.g. a ribofuranose derivative). The labeling compounds are suitable for enzymatic attachment to a nucleic acid, either terminally or internally, to provide a mechanism of nucleic acid detection.

Abstract: The present invention provides novel processes for the large scale preparation of arrays of polymer sequences wherein each array includes a plurality of different, positionally distinct polymer sequences having known monomer sequences. The methods of the invention combine high throughput process steps with high resolution photolithographic techniques in the manufacture of polymer arrays.

Abstract: The present invention provides novel processes for the large scale preparation of arrays of polymer sequences wherein each array includes a plurality of different, positionally distinct polymer sequences having known monomer sequences. The methods of the invention combine high throughput process steps with high resolution photolithographic techniques in the manufacture of polymer arrays.

Abstract: Nucleic acid labeling compounds containing heterocyclic derivatives are disclosed. The heterocyclic derivative containing compounds are synthesized by condensing a heterocyclic derivative with a cyclic group (e.g. a ribofuranose derivative). The labeling compounds are suitable for enzymatic attachment to a nucleic acid, either terminally or internally, to provide a mechanism of nucleic acid detection.