Provided herein are libraries containing polynucleotides, where one of the polynucleotides encodes an antibody heavy chain with specific hypervariable regions HVR-H1 and HVR-H2. Further provided herein are libraries containing polynucleotides encoding a plurality of unique antibodies, wherein each antibody comprises a heavy chain variable region and a light chain variable region. Also provided are antibodies, polypeptide libraries, vector libraries, cells, non-human animals, antibody heavy chains, methods of making an antibody library, kits, and methods of generating a bispecific antibody related thereto.

Provided herein are libraries containing polynucleotides, where one of the polynucleotides encodes an antibody heavy chain with specific hypervariable regions HVR-H1 and HVR-H2. Further provided herein are libraries containing polynucleotides encoding a plurality of unique antibodies, wherein each antibody comprises a heavy chain variable region and a light chain variable region. Also provided are antibodies, polypeptide libraries, vector libraries, cells, non-human animals, antibody heavy chains, methods of making an antibody library, kits, and methods of generating a bispecific antibody related thereto.

Provided are efficient catalyst of engineered enzymes and an economical enzymatic reaction solution to solve the problems in the current production process of L-tyrosine and its derivatives. The method of the invention has the advantages of high product concentration, mild reaction conditions, simple purification process, simple operation, environmental friendliness, and easy industrial scale-up. Thus, it has good industrial application prospects.

Disclosed herein are methods for making a transcriptome-wide expression profile of a biological sample and identifying biomarkers that can be used to diagnose, monitor the onset, monitor the progression, and assess the recovery of a disease in a subject. The biomarkers can also be used to establish and evaluate treatment regimens.

Disclosed herein are methods of high-throughput mapping of viral neutralizing antibody epitopes. Also disclosed are in vitro immunoprecipitation-based adeno-associated virus Barcode-Seq-based methods of mapping viral neutralizing antibody epitopes. In some embodiments, a method of high-throughput mapping of viral NtAb conformational epitopes can be utilized, which may comprise HP scanning of mutant viral libraries, immunoprecipitation (IP), and/or next-generation sequencing (NGS) technology. In some embodiments, a method of identifying one or more dominant epitopes in a viral vector may comprise contacting a mutant capsid of a virus with serum from a subject previously exposed to the virus and immunoprecipitating serum immunoglobulins from the serum. In various embodiments, the viral vector may be an AAV vector.

Disclosed herein are methods of high-throughput mapping of viral neutralizing antibody epitopes. Also disclosed are in vitro immunoprecipitation-based adeno-associated virus Barcode-Seq-based methods of mapping viral neutralizing antibody epitopes. In some embodiments, a method of high-throughput mapping of viral NtAb conformational epitopes can be utilized, which may comprise HP scanning of mutant viral libraries, immunoprecipitation (IP), and/or next-generation sequencing (NGS) technology. In some embodiments, a method of identifying one or more dominant epitopes in a viral vector may comprise contacting a mutant capsid of a virus with serum from a subject previously exposed to the virus and immunoprecipitating serum immunoglobulins from the serum. In various embodiments, the viral vector may be an AAV vector.

The present invention features, inter alia, compositions and methods for preparing, from a plurality of original, nucleic acid-containing samples, a unified library of linear, non-selectively amplified DNA fragments in which the proportional representation of the fragments from each of the plurality of original samples is normalized and the library is created in a highly parallelized, pool-based fashion. The invention is particularly useful for preparing libraries in which specific information is encoded that allows shorter sequencing reads derived from high-throughput sequencing of the library to be analyzed or assembled into longer scale sequences that are fully traceable to an original, nucleic acid-containing sample within a potentially very large collection of samples. The compositions of the invention encompass the various constructs described herein, which may be variously packaged with one or more additional reagents useful in the present methods and instructions for use.

An object of the present invention is to provide a microorganism that efficiently produces EPA and a method for producing EPA using the microorganism. The present invention relates to a microorganism having an ability to produce docosahexaenoic acid (DHA), wherein the microorganism contains a protein composed of an amino acid sequence in which at least one of the amino acid residues at positions 6, 65, 230, 231, and 275 in the amino acid sequence represented by SEQ ID NO: 2 has been substituted with another amino acid residue (mutated OrfB), and is capable of producing eicosapentaenoic acid (EPA), and the like.

Disclosed are an IL-5 binding molecule, and a preparation method and use thereof. The binding molecule includes the following complementarity determining regions: an amino acid sequence of CDR1 selected from any one of sequences as set forth in SEQ ID NOs. 43-49; an amino acid sequence of CDR2 selected from any one of sequences as set forth in SEQ ID NOs. 50-56; and an amino acid sequence of CDR3 selected from any one of sequences as set forth in SEQ ID NOs. 57-62. The binding molecule is capable of specifically binding to IL-5, and effectively blocking the cell proliferation induced by IL-5.

The invention relates to methods for purifying and isolating at least one RNA molecule which interacts with an RNA-binding protein (RBP). The invention also provides nucleic acid adaptors and primers for use in such methods.