In traditional plant breeding approaches, chemical mutagenesis may be utilized to introduce nucleotide substitutions at random in the genome of a plant, i.e. without possibilities to control the sites of nucleotide changes. Because of genome complexities, the statistical probability is extremely little when it comes to finding a predetermined nucleotide substitution. The present invention, however, demonstrates how a novel, alternative use of digital polymerase chain reaction (dPCR), preferably droplet dPCR (ddPCR), is developed to exploit finding of specific nucleotide substitutions in mutated genes. The entire platform comprises a screening method with a library of mutagenized organisms, digital PCR-based systems and a set-up to propagate and analyze identified, mutated organisms.

The present invention is directed to novel methods, kits and uses to be employed for the generation of tagged DNA fragments of a target DNA and nucleic acid molecules associated therewith

Compositions and methods determines post-transfusion survival of platelets and the suitability of platelet units for transfusion by measuring the levels of one or more markers in a platelet sample. A method determines post-transfusion survival of platelets (PL T) prior to transfusion, the method comprising the steps of: a) measuring the levels of one or more markers in a PL T sample selected from the group consisting of adenine, 13-HODE/9-HODE, Caprylate, Laurate, C-glycosyltryptophan, andro steroid monsulfate 2, and Unelucidated Compounds (UC) 1-4; b) comparing the level of the one or more markers in the PLT sample with the level of the one or more markers present in a control sample, wherein a higher or lower level of the one or more markers in the PL T sample is indicative of post-transfusion survival of platelets.

In traditional plant breeding approaches, chemical mutagenesis may be utilized to introduce nucleotide substitutions at random in the genome of a plant, i.e. without possibilities to control the sites of nucleotide changes. Because of genome complexities, the statistical probability is extremely little when it comes to finding a predetermined nucleotide substitution. The present invention, however, demonstrates how a novel, alternative use of digital polymerase chain reaction (dPCR), preferably droplet dPCR (ddPCR), is developed to exploit finding of specific nucleotide substitutions in mutated genes. The entire platform comprises a screening method with a library of mutagenized organisms, digital PCRbased systems and a set-up to propagate and analyze identified, mutated organisms.

Systems, methods, and compositions provided herein relate to preparation of beads encapsulating biomolecules for performing sequential reactions on the biomolecules. Some embodiments include preparation of nucleic acid reactions within the bead, wherein the bead includes pores that allow diffusion of molecules into or out of the beads while retaining other molecules of interest.

Systems, methods, and compositions provided herein relate to preparation of beads encapsulating biomolecules for performing sequential reactions on the biomolecules. Some embodiments include preparation of nucleic acid reactions within the bead, wherein the bead includes pores that allow diffusion of molecules into or out of the beads while retaining other molecules of interest.

An apparatus for analyzing individual cell composition in a heterogeneous cell population may include, in one embodiment, a deposition plate having an array of microwells disposed therein, and a cover plate substantially overlying the deposition plate. A pair of electrodes may be associated with one or more of the microwells, and may be configured to generate an electric field within the associated microwell.

Methods relating to obtaining libraries of YY1-binding long non-coding RNAs, libraries obtained thereby, and methods of use thereof.

The invention describes a method for the identification of compounds which bind to a target component of a biochemical system or modulate the activity of the target, by compartmentalizing the compounds into microcapsules together with the target, such that only a subset of the repertoire is represented in multiple copies in any one microcapsules; and identifying the compound which binds to or modulates the activity of the target. The invention enables the screening of large repertoires of molecules which can serve as leads for drug development.

Compositions which are fragrant and contain at least a member set culled from a library of compositions, each being comprised of sub-combinations of selected terpenes. Fragrances that mimic that of various states of organic and synthetic aromatics including products, processes and those from non-combusted plant products, among other things, uniquitous products, processes, medicinals, and related moieties leverage databases of all known terpene groupings are offered for consideration, and have been provided, according to the instant teachings.