Provided are compositions and methods for preparing and identifying antibodies having CDR3s that vary in sequence and in length from very short to very long which in certain embodiments may bind to a carbohydrate moiety or the active site of an enzyme. Libraries coding for antibodies with the CDR3s are also provided. The libraries can be provided by modifying a pre-existing nucleic acid library.

Provided are compositions and methods for preparing and identifying antibodies having CDR3s that vary in sequence and in length from very short to very long which in certain embodiments may bind to a carbohydrate moiety or the active site of an enzyme. Libraries coding for antibodies with the CDR3s are also provided. The libraries can be provided by modifying a pre-existing nucleic acid library.

Provided are a cAMP receptor protein variant and coding sequence, a microorganism including the same, and a method of producing a L-amino acid using the same.

Aspects of the present disclosure include methods of producing modified polypeptides and modified polypeptide-ribosome or polypeptide-mRNA complexes, and methods of screening polynucleotide and polypeptide libraries. The present disclosure also provides polypeptide libraries useful in screening for single molecule phenotypes. Also provided are kits useful for producing polypeptides capable of being modified using methods disclosed herein.

Aspects of the present disclosure include methods of producing modified polypeptides and modified polypeptide-ribosome or polypeptide-mRNA complexes, and methods of screening polynucleotide and polypeptide libraries. The present disclosure also provides polypeptide libraries useful in screening for single molecule phenotypes. Also provided are kits useful for producing polypeptides capable of being modified using methods disclosed herein.

Provided herein are methods that enable parallel evaluation of multiple functional nucleic acids in individual cells or subpopulations of cells, in the context of incubation with other types of single cells. The key insight is concurrent measurement of polynucleic acids derived from small populations of at least two different cell types, such that function in one cell type is linked to the clonal identity of another cell. These methods simultaneously process thousands, millions, or more single cells or small populations of cells. The method integrates molecular, algorithmic, and engineering approaches. This invention has broad and useful application in a number of biological and medical fields, including immunology and drug discovery.

Provided herein are methods that enable parallel evaluation of multiple functional nucleic acids in individual cells or subpopulations of cells, in the context of incubation with other types of single cells. The key insight is concurrent measurement of polynucleic acids derived from small populations of at least two different cell types, such that function in one cell type is linked to the clonal identity of another cell. These methods simultaneously process thousands, millions, or more single cells or small populations of cells. The method integrates molecular, algorithmic, and engineering approaches. This invention has broad and useful application in a number of biological and medical fields, including immunology and drug discovery.

The purpose of the present invention is to provide a method of producing a library including two or more cyclic peptides, wherein at least one of the cyclic peptides included in the library has a structure composed of 4 to 30 amino acids or derivatives thereof and contains, in the structure, at least one selected from cyclic β-, γ-, and δ-amino acids (cAAs), including a step of preparing an mRNA library encoding a peptide having a sequence represented by the formula (1); —(Xaa).sub.n1- [in the formula (1), Xaas are each an arbitrary amino acid or derivative thereof, at least one Xaa is one selected from cyclic β-, γ-, and δ-amino acids (cAAs) and n1 is an integer of 2 to 28] and a step of using the mRNA library to express the peptide in a cell-free translation system and produce a library.

The present invention provides a novel anti-integrin α11 monoclonal antibody that may treat a fibrotic disease. An aspect of the present invention is an anti-integrin α11 monoclonal antibody which inhibits binding between an integrin α11 and collagen.

Disclosed in the present application is a method for constructing an antigen-specific binding polypeptide gene display vector. The method comprises processing by using a restriction endonuclease that specifically recognizes a restriction site to obtain four nucleic acid fragments having specific sticky ends, and then enabling the nucleic acid fragments to directionally ligate. Further disclosed in the present application are an antigen-specific binding polypeptide gene display vector produced according to the method and a bacterial library. The method described in the present application can be used for effectively screening antigen-specific antigen-binding polypeptides or fragments thereof.