Abstract: The present invention provides a formulation to link protein to a solid support that comprises one or more proteins, Oligo-dT and one or more non-volatile, water-soluble protein solvents, solutes or combination thereof in an aqueous solution. Further provided is a method of attaching a protein to a surface of a substrate. The formulations provided herein are contacted onto the substrate surface, printed thereon and air dried. The substrate surface is irradiated with UV light to induce thymidine photochemical crosslinking via the thymidine moieties of the Oligo-dT.

Abstract: A method for producing a ribosome display complex includes obtaining a ribosome complex including an unmodified polypeptide chain, an mRNA molecule and a ribosome by initiating translation of the mRNA molecule in a cell-free peptide synthesis system including the ribosome, and modifying the unmodified polypeptide chain by reacting a side chain reactive functional group in the unmodified polypeptide chain with a modifying reagent to produce a ribosome display complex including a modified polypeptide chain, the mRNA molecule and the ribosome. The unmodified polypeptide chain includes at least one reactive amino acid residue selected from the group consisting of a cysteine residue, a lysine residue, a histidine residue and a tryptophan residue. The at least one reactive amino acid residue includes the side chain reactive functional group, and the mRNA molecule includes a base sequence encoding an amino acid sequence of the polypeptide chain.

Abstract: The present invention relates to a buffer system comprising a dicarboxylic acid or tricarboxylic acid or a salt thereof for synthesizing RNA molecules as well as a method of RNA in vitro transcription using this buffer system. The present invention also provides the use of this buffer system in RNA in vitro transcription and in the reduction or prevention of precipitates during RNA in vitro transcription.

Abstract: A method of identifying a lead or candidate compound that modulates the activity of GTPase-Activating Protein SH3 Domain-Binding Proteins (G3BP) is provided, which includes determining whether a compound modulates the interaction between the N-terminal Nuclear Transport Factor 2-like (NTF2L) domain of G3BP and FGDF peptide of ubiquitin specific protease 10 (USP10) or non-structural protein 3 (nsP3).

Abstract: Process for in vitro diagnosis and/or monitoring and/or prognosis and/or theranosis of hepatic disorders from a biological sample originating from a subject, in which process the presence and/or the concentration of the marker ADH1B (SEQ ID NO.2) and/or the presence and/or the concentration of the combination of the markers ADH1B (SEQ ID NO.2) and ADH1A (SEQ ID NO.1) is determined.

Abstract: The present application includes biomarkers, methods, devices, reagents, systems, and kits for the detection and diagnosis of lung cancer. In one aspect, the application provides biomarkers that can be used alone or in various combinations to diagnose lung cancer or permit the differential diagnosis of pulmonary nodules as benign or malignant. In another aspect, methods are provided for diagnosing lung cancer in an individual, where the methods include detecting, in a biological sample from an individual, at least one biomarker value corresponding to at least one biomarker selected from the group of biomarkers provided in Table 18, Table 20, or Table 21, wherein the individual is classified as having lung cancer, or the likelihood of the individual having lung cancer is determined, based on the at least one biomarker value.

Abstract: Provided are a microfluidic biosensors that are suitable for continuously monitoring toxin levels in water supplies.

Abstract: Disclosed herein is a method of determining whether a subject has or is at risk of developing a cancer. The method comprises, obtaining a sample from the subject; determining the levels of at least two target polypeptides, which are selected from the group consisting of, ANXA2, HSPA5, KNG1 and MMP1; and assessing whether the subject has or is at risk of developing the cancer based on the levels of target polypeptides. The present method provides a potential means to diagnose and predict the occurrence of oral squamous cell carcinoma, and accordingly, the subject in need thereof could receive a suitable therapeutic regimen in time.

Abstract: Systems, methods, and compositions provided herein relate to preparation of beads encapsulating long DNA fragments for high-throughput spatial indexing. Some embodiments include preparation of nucleic acid libraries within the bead, wherein the bead includes pores that allow diffusion of reagents while retaining genetic material.

Abstract: A process for removing lead from a liquid is provided. The liquid is brought into contact with PbrD proteins having an amino acid sequence which has at least 80% identity to SEQ ID NO: 2, and these proteins bind to lead ions present in the liquid, thus removing the lead ions from the liquid. The bound lead ions are subsequently recovered, such as in the form of an insoluble salt or compound or by cation exchange chromatography, and can then be recycled. The PbrD protein can be immobilized before being brought into contact with the liquid. The proteins are typically immobilized in a matrix of nanoparticles. The PbrD proteins can be recombinantly expressed, such as in a bacterial system (e.g. E. coli) or a yeast expression system.

Abstract: The present invention features a number of methods for identifying one or more compounds that bind to a biological target. The methods include synthesizing a library of compounds, wherein the compounds contain a functional moiety having one or more diversity positions. The functional moiety of the compounds is operatively linked to an initiator oligonucleotide that identifies the structure of the functional moiety.

Abstract: Methods of uniquely labeling or barcoding molecules within a cell, a plurality of cells, and/or a tissue are provided. Kits for uniquely labeling or barcoding molecules within a cell, a plurality of cells, and/or a tissue are also provided. The molecules to be labeled may include, but are not limited to, RNAs, cDNAs, DNAs, proteins, peptides, and/or antigens.

Abstract: Metagenomic data are increasingly useful for detecting microbes, such as viruses and other microorganisms in a wide range of sample types. Methods and systems for isolating, detecting, and characterizing microbes in biological samples using metagenomic data are provided. Also disclosed are methods for identifying microbes in nucleic acid libraries.

Abstract: The present invention discloses a method for rapidly constructing amplicon library including the following steps: 1. Synthesizing a primer combination for constructing an amplicon library of a DNA sample, the primer combination of the amplicon library used to construct the DNA sample includes: a forward fusion primer designed according to the target amplicon, a reverse fusion primer designed according to the target amplicon, a forward universal primer and a reverse universal primer; 2. Constructing a PCR reaction system for the DNA sample; 3. Performing PCR. The method according to the present invention can be used to construct an amplicon library in a simple and rapid manner, and since a barcode is introduced before the start of PCR, the possibility of cross-contamination between the sample and the library is greatly reduced.

Abstract: Embodiments described herein are related to a one-step surface modification method with 3-aminopropyl trimethoxysilane (APTMS), which was developed and applied for DNA immobilization on a paper-based device via the ionic adsorption.

Abstract: Methods of sequencing and assembling a nucleic acid sequence from a nucleic acid sample containing repetitive or low-information regions, which are typically difficult to sequence and/or assemble are provided. The methods of sequencing and assembling introduce mutations into the sample to increase sequence diversity between various repetitive regions present in the nucleic acid sample. This sequence diversity allows various segments to assemble independently of different, but similar sequences present in the nucleic acid sample.

Abstract: A method for evaluating and screening a mutant inducing the high-efficiency formation of heterodimers from a human antibody heavy chain constant region mutant pair combination library in order to increase the yield of formation of human antibody heterodimeric heavy chain constant regions. A heterodimeric heavy chain constant region (heterodimeric F) library is obtained by the method. A CH3 domain mutant pair, in which the formation of the heterodimeric heavy chain constant regions is preferred in the library, forms heterodimeric heavy chain constant regions at a high yield of at least 80-90%, and also has excellent thermal stability and retains binding ability to the heavy chain constant region receptor (FcRn).

Abstract: A sequencing capture array for identifying mutations in Multiple Myeloma is disclosed. Also disclosed are targeted next generation sequencing methods for identifying SNV, CNV, and translocation mutations in Multiple Myeloma tumor cells. A capture array representing fewer than 500 genes implicated in Multiple Myeloma can be used to analyze tumor mutations and create a personalized treatment plan for a Multiple Myeloma patient. Analytical methods are presented that allow tumor mutations to be elucidated with coverage at a sequencing depth of no more than 500×, or as low as 100×, with optimal efficiency achieved at a sequencing depth of about 300×.

Abstract: Novel methods for making high resolution oligonucleotide paints are provided. Novel, high resolution oligonucleotide paints are also provided.

Abstract: Disclosed are methods and systems that uses GlycA concentration in biosamples to evaluate risks of CRC incidence and mortality.