The present invention relates to a method for determining sensitivity to a simultaneous inhibitor against poly ADP ribose polymerase (PARP) and Tankyrase. According to the present invention, a colorectal treatment effect can be maximized by sorting patients having sensitivity to the simultaneous inhibitor against PARP and Tankyrase.

Disclosed herein are compositions, kits, methods, and systems for detecting a target molecule in a sample using a detection molecule.

Disclosed herein are novel processes for the production of oligonucleotides that are suitable for use in the production of chemically modified oligonucleotides, such as those for use in therapy.

Provided herein are compositions, systems, and methods using multiple ligases, wherein at least one of the ligases is an adenylation-deficient ATP-dependent ligase or an un-adenylated ATP-dependent ligase (e.g., present in an ATP free mixture). In certain embodiments, multiple ligases are used to ligate a pre-adenylated double stranded sequence to a non-adenylated double stranded sequence (e.g., the adenylation-deficient ATP-dependent ligase or un-adenylated ATP-dependent ligase ligates the first strand, and a second ligase ligates the second strand). In other embodiments, provided herein are mutant T4 ligases (e.g., K159S mutant or K159C mutant).

A method for establishing eukaryotic expression cell line of CD36 mutant gene that encodes CD36 deficiency, the method including: (1) extracting total RNA from a whole blood sample derived from a CD36-deficient individual, and amplifying a coding sequence (CDS) in CD36 mRNA, to obtain a cDNA sequence fragment of the mutant CD36 gene; (2) splicing and amplifying the mutant CD36 gene and the EGFP fluorescent gene by SOE-PCR (Gene Splicing By Overlap Extension PCR) using four forward and reverse primers, to obtain a mutant gene fragment of MT-CD36-EGFP; (3) constructing and amplifying a MT-CD36-EGFP-pLV4/StripII-HIS10 eukaryotic expression vector including the mutant CD36 gene and the EGFP fluorescent gene; (4) transfecting the MT-CD36-EGFP-pLV4/StripII-HIS10 eukaryotic expression vector into the CHO-K1 cell line by using virus-mediated transfection of eukaryotic cells.

The present invention relates, e.g., to in vitro method, using isolated protein reagents, for joining two double stranded (ds) DNA molecules of interest, wherein the distal region of the first DNA molecule and the proximal region of the second DNA molecule share a region of sequence identity, comprising contacting the two DNA molecules in a reaction mixture with (a) a non-processive 5 exonuclease; (b) a single stranded DNA binding protein (SSB) which accelerates nucleic acid annealing; (c) a non strand-displacing DNA polymerase; and (d) a ligase, under conditions effective to join the two DNA molecules to form an intact double stranded DNA molecule, in which a single copy of the region of sequence identity is retained. The method allows the joining of a number of DNA fragments, in a predetermined order and orientation, without the use of restriction enzymes.

The present invention relates to a method for determining sensitivity to a simultaneous inhibitor against poly ADP ribose polymerase (PARP) and Tankyrase. According to the present invention, a colorectal treatment effect can be maximized by sorting patients having sensitivity to the simultaneous inhibitor against PARP and Tankyrase.

The invention pertains to construction of next-generation DNA sequencing (NGS) libraries for whole genome sequencing, targeted resequencing, sequencing-based screening assays, metagenomics, or any other application requiring sample preparation for NGS.

The disclosure provides for methods, compositions, systems, devices, and kits for whole transcriptome amplification using stochastic barcodes.

The invention provides compositions and methods for ligating single stranded nucleic acids wherein the ligation is based on fast, efficient, and low-sequence bias hybridization of an acceptor molecule with a donor molecule. In one embodiment, the structure of the donor molecule comprises a stem-loop intramolecular nucleotide base pairing (i.e., hairpin) and a 3-overhang region such that the overhang is able to hybridize to nucleotides present in the 3 end of the acceptor molecule.