Abstract: Disclosed are methods for identifying one or more amino acid molecules and nucleic acid molecules encoding such amino acid molecules of at least two proteomes that are conserved, unique or express at higher or lower levels in at least one of the proteomes. Expression libraries are used that produce the proteome, and in one embodiment, may produce the proteome from at least one cDNA expression library in one to five reactions. Anti-proteome antibodies are prepared that selectively bind to one of the proteomes and binding with at least one second proteome compared.

Abstract: An object of the present invention is to provide a method of stably introducing a heterocycle into a substrate peptide by using an azoline backbone introducing enzyme. The present invention provides a method of introducing a heterocycle into a leader-sequence-free substrate peptide by using an azoline backbone introducing enzyme to which a leader sequence of the substrate has been bound.

Abstract: The present disclosure provides a method for generating an affinity reagent library against a target protein which interacts with a ligand, which comprises the following steps; •i) determining one or more structural element(s) of the ligand which are involved in ligand: target protein interaction; •ii) producing a library of peptides which retain these structural element(s); and •iii) grafting each peptide from the library of peptides into a portion of the affinity reagent molecule such that it may interact with the target protein, in order to produce an affinity reagent library.

Abstract: Disclosed herewith is drug repurposing efforts that lead to the discovery of prior non-antibiotic drugs can be used in clinical applicable ranges to treat patients of bacterial infection. These repurposed drug can be used either alone or in combination with traditional antibiotic drugs to treat bacterial strains that may develop or already have developed drug resistance.

Abstract: Multiplexing microparticles by measurement of particle length and dye. Utilization of length-based measurements in combination with dye concentrations to attain multiplexing for bioassays.

Abstract: A convenient method for nucleic acid analysis is provided, which enables 1000 or more types of nucleic acid to be analyzed collectively with high comprehensiveness and with a dynamic range of at least four digits. In particular, provided is a very effective analytical method especially for untranslated RNAs and microRNAs, of which the types of target nucleic acids is 10000 or lower. Nucleic acids can be analyzed conveniently and rapidly with high comprehensiveness and quantitative performance at single-molecule sensitivity and resolution by following the steps of: preparing a group of target nucleic acid fragments one molecule at a time and hybridizing the nucleic acid molecules, which have known base sequences and have been labeled with the fluorescence substances, with the group of the target nucleic acid fragments to detect the fluorescence substances labeling the hybridized nucleic acid molecules.

Abstract: DNA taggants in which the nucleotide sequences are defined according to combinatorial mathematical principles. Methods of defining nucleotide sequences of the combinatorial DNA taggants, and using such taggants for authentication and tracking and tracing an object or process are also disclosed.

Abstract: The present disclosure provides polynucleotide conjugates, methods, and assay systems for use in detecting the presence, absence, and/or amount of an analyte in a sample. Various polynucleotide conjugates, conjugate pairs, sets, libraries, and assay systems comprising the same are disclosed. In particular, methods and assay systems for antibody detection and analysis are provided. For example, assays capable of high levels of multiplexing are used for antibody detection and analysis in a biological sample, e.g., Lyme disease patient samples. The presently disclosed polynucleotide conjugates, methods, and assay systems can be used to provide sensitive and reliable diagnosis, even at early stages of a disease or condition. Use for monitoring disease progression and prognosis is also disclosed.

Abstract: Disclosed is a method for obtaining a bifunctional complex comprising a molecule linked to a single stranded identifier oligonucleotide, wherein a nascent bifunctional complex comprising a chemical reaction site and a priming site for enzymatic addition of a tag is a) reacted at the chemical reaction site with one or more reactants, and b) reacted enzymatically at the priming site with one or more tag(s) identifying the reactant(s).

Abstract: This application discloses methods for cDN?A synthesis with improved reverse transcription, template switching and preamplification to increase both yield and average length of cDNA libraries generated from individual cells. The new methods include exchanging a single nucleoside residue for a locked nucleic acid (INA) at the TSO 3? end, using a methyl group donor, and/or a MgCb concentration higher than conventionally used. Single-cell transcriptome analyses incorporating these differences have full-length coverage, improved sensitivity and accuracy, have less bias and are more amendable to cost-effective automation. The invention also provides cDNA molecules comprising a locked nucleic acid at the 3?-end, compositions and cDNA libraries comprising these cDNA molecules, and methods for single-cell transcriptome profiling.

Abstract: There is disclosed a microarray having base cleavable linkers and a process of making the microarray. The microarray has a solid surface with known locations, each having reactive hydroxyl groups. The density of the known locations is greater than approximately 100 locations per square centimeter. Optionally, oligomers are synthesized in situ onto the cleavable linkers and subsequently cleaved using a cleaving base. Optionally, the oligomers are cleaved and recovered as a pool of oligomers.

Abstract: An object of the present invention is to provide a peptide excellent in resistance against metabolism, having a stable structure in vivo, and capable of penetrating a cell membrane and reaching in cells. The present invention provides a macrocyclic peptide having a macrocyclic structure comprised of four or more amino acids. At least two amino acids not adjacent to each other have a hydrophobic side chain and the hydrophobic side chains interact with each other inside the ring of the macrocyclic peptide in a hydrophilic environment.

Abstract: High-throughput methods for screening large populations of variant proteins are provided. The methods utilize large-scale arrays of microcapillaries, where each microcapillary comprises a solution containing a variant protein, an immobilized target molecule, and a reporter element. Immobilized target molecules may include any molecule of interest, including proteins, nucleic acids, carbohydrates, and other biomolecules. The association of a variant protein with a molecular target is assessed by measuring a signal from the reporter element. The contents of microcapillaries identified in the assays as containing variant proteins of interest can be isolated, and cells expressing the variant proteins of interest can be characterized. Also provided are systems for performing the disclosed screening methods.

Abstract: Disclosed are methods and compositions for preparing a DNA library from slide-mounted FFPE tissue samples for downstream next-generation sequencing. In one embodiment, a method of preparing the DNA library is disclosed. The method can comprise applying a droplet of a reagent mixture onto a slide-mounted FFPE tissue sample. The reagent mixture can comprise one or more buffer solutions, a cofactor, a nonionic surfactant, a glycerol solution, a gelatin solution, dNTPs, a DNA polymerase, and a primer pool comprising a plurality of forward primers and reverse primers. The method can also comprise stirring the droplet in a circular motion on the slide while scraping portions of the FFPE tissue sample mounted on the slide to yield a reaction mixture. The method can further comprise aspirating the reaction mixture from the slide directly into a pipette tip and dispensing the reaction mixture into a reaction vessel for further amplification.

Abstract: This disclosure provides methods for preparing a sequencing library including the steps of providing a template nucleic acid sequence, dNTPs, dUTP, a primer, a polymerase, a dUTP excising enzyme, and a plurality of beads including oligonucleotide adapter sequence segments; amplifying the template nucleic acid with the polymerase, dNTPs, dUTP and random hexamer to provide a complementary nucleic acid sequence including occasional dUTPs; and excising the incorporated dUTPs with the dUTP excising enzyme to provide nicks in the complementary nucleic acid sequence to provide a sequencing library.

Abstract: The current invention pertains to stabilized peptoids or peptoid-peptide hybrids. The peptoids or peptoid-peptide hybrids are stabilized by side chain-side to side chain linkages and/or backbone cyclization. The current invention also provides a positional library scanning method for identification of peptoids or peptoid-peptide hybrids having a desired biological activity.

Abstract: A method of creating a mask on a surface of a substrate is disclosed. The substrate comprises a plurality of spaced heating elements on or proximal to the surface. The method comprises applying a layer of masking material to the surface and employing the heating elements to apply energy to a phase change in the masking material at the selected sites such that it adheres to the surface or can be displaced from the surface to mask or unmask the selected sites respectively. A method of synthesising an array of molecules, an apparatus for selectively masking one or more sites on a surface and a semi-conductor chip that uses micro-heaters to modulate a masking layer on areas of the chip surface.

Abstract: An object of the present invention is to provide a method of efficiently constructing a library abundant in diversity and also usable for screening of a compound that binds to a target substance having protease activity. The present invention provides a method of constructing an azoline compound library containing two or more azoline compounds having an azoline backbone introduced into at least one of Cys, Ser, Thr, and 2,3-diamino acid, and analogs thereof of Xaa0 of a peptide represented by the following formula (I): A-(Xaa0)n-B??(I) [wherein, m numbers of Xaa0s respectively represent arbitrary amino acids, at least one of which is an amino acid selected from the group consisting of Cys, Ser, Thr, and 2,3-diamino acid, and analogs thereof, m represents an inter selected from 2 to 40, and A and B each independently represent a peptide composed of from 0 to 100 amino acids].

Abstract: The present invention relates to a method for screening a sol composition for sol-gel biochips, which is used to immobilize a probe on a surface-untreated substrate, also relates to a sol composition screened by said method and a sol-gel biochip comprising said sol composition immobilized thereon. The sol composition screened by the disclosed method can be mixed with a probe, and the sol mixture can be integrated on 96-well plates, which are widely used in existing bioassays, without surface treatment. Also, the biochip can provide a sensitive and specific good analysis results because this immobilization methods of probe maintain the nature of probes without modification.

Abstract: In various embodiments, provided are methods for selecting and formulating compositions for treating and maintaining the quality of skin in a select population, wherein a composition is selected for use in a personal care product based on its demonstrated biological effect to improve skin quality in the population as evidenced by one or more biomarker changes that correlate with improvement as evidenced by one or more objective measurements of skin health in the population.