The present invention discloses methods of applications of indole-3-propionic acid, L-carnitine and O-acetyl-L-carnitine in one or more different reactive steps of a sequencing-by-synthesis workflow. The reactive steps employing these compounds include, but are not limited to, cleaving, imaging, incorporating bases and washing. The use of these new compounds provides improved sequencing performance including, but not limited to, lower error rates, higher sequence outputs and/or longer read lengths.

The invention relates to improved methods of loading aqueous reagents into electrowetting devices which are often hydrophobic and therefore problematic to load. Disclosed is a method for moving an aqueous droplet from an inlet port onto an EWoD device by actuating a temporary inlet path.

The invention relates, in part, to methods and systems with which to combine methods of determining an activity of a gene of interest and the gene's sequence, thereby allowing the genotype and associated phenotype to be determined in a single sequencing step.

Described herein are methods, compositions, and systems derived from uncultivated microorganisms useful for gene editing.

Methods, compositions, systems and kits to introduce a controlled-number of molecular barcodes onto DNA fragments by reducing redundant molecular barcodes formed in template-dependent primer extension reactions, and to find variant frequencies from both strands of DNA. The methods, compositions, systems and kits described herein may include, or include the use of, one or more single-stranded DNA specific nucleases that cleave the single-stranded regions containing unmatched base pairs in amplification products.

Memory efficient methods determine corrected color values from image data acquired by a nucleic acid sequencer during a base calling cycle. Such methods may: (a) obtain an image of a substrate (e.g., a portion of a flow cell) including a plurality of sites where nucleic acid bases are read; (b) measure color values of the plurality of sites from the image of the substrate; (c) store the color values in a processor buffer of the sequencer's one or more processors; (d) retrieve partially phase-corrected color values of the plurality of sites, where the partially phase-corrected color values were stored in the sequencer's memory during an immediately preceding base calling cycle; (e) determine a prephasing correction; and (f) determine the corrected color values. In various implementations, these operations are all performed during a single base calling cycle. In certain embodiments, the methods additionally include using the corrected color values to make base calls for the plurality of sites. Sequencers may be designed or configured to implement such methods.

Disclosed are devices and methods to synthesize polynucleotides and libraries of polynucleotides such as libraries of oligonucleotides. In exemplary embodiments, the device includes a support having a plurality of features. Each feature contains a plurality of oligonucleotides. Within each feature, each of the plurality of oligonucleotides includes an identical predetermined subunit sequence of X nucleosides and a degenerate sequence of Y nucleosides. A predetermined combination of a subset of the features can be used to produce a polynucleotide having a predetermined sequence of Z nucleosides.

Provided herein are monoliths with attached recognition compounds which selectively bind ligands, methods of preparing such monoliths, arrays thereof and uses thereof. For example, monoliths provide herein can be used in columns and arrays thereof.

Provided herein are monoliths with attached recognition compounds which selectively bind ligands, methods of preparing such monoliths, arrays thereof and uses thereof. For example, monoliths provide herein can be used in columns and arrays thereof.

The present invention provides novel microfluidic substrates and methods that are useful for performing biological, chemical and diagnostic assays. The substrates can include a plurality of electrically addressable, channel bearing fluidic modules integrally arranged such that a continuous channel is provided for flow of immiscible fluids.