Compositions, methods, and systems are provided for fluorescent polymerase enzyme substrates comprising protein shields for improving enzyme photostability in single molecule real time sequencing. Fluorescent polymerase enzyme substrates of the invention have a protein shield between the fluorescent dye moieties and nucleotide moieties of the polymerase enzyme substrate. The polymerase enzyme substrates have a nucleotide component and a dye component, each attached to a protein. The attachments can be covalent. The protein can, for example, prevent the direct interaction of the fluorescent dye moiety with the enzyme when carrying out nucleotide synthesis, preventing photodamage to the enzyme. The polymerase enzyme substrates of the invention can have multiple dyes and multiple nucleotide moieties.

Compositions, methods, and systems are provided for fluorescent polymerase enzyme substrates comprising protein shields for improving enzyme photostability in single molecule real time sequencing. Fluorescent polymerase enzyme substrates of the invention have a protein shield between the fluorescent dye moieties and nucleotide moieties of the polymerase enzyme substrate. The polymerase enzyme substrates have a nucleotide component and a dye component, each attached to a protein. The attachments can be covalent. The protein can, for example, prevent the direct interaction of the fluorescent dye moiety with the enzyme when carrying out nucleotide synthesis, preventing photodamage to the enzyme. The polymerase enzyme substrates of the invention can have multiple dyes and multiple nucleotide moieties.

Embodiments of the present disclosure relate to compositions and methods for improving the intensity of the fluorescent signals during nucleic acid sequencing. In particular, at least one biotin-binding site of the labeled streptavidin is blocked to reduce fluorescent signal deflation.

Embodiments of the present disclosure relate to compositions and methods for improving the intensity of the fluorescent signals during nucleic acid sequencing. In particular, at least one biotin-binding site of the labeled streptavidin is blocked to reduce fluorescent signal deflation.

Disclosed herein are a recombinant Streptomyces S27S5 hemagglutinin (SHA), and homologues thereof, and a fusion protein of a fluorescent protein (such as GFP and mCherry1) and SHA or a homologue thereof, which specifically bind to carbohydrates, including oligomeric sugars that terminate in L-rhamnose or D-galactose. The SHA, SHA homologues, and fusion proteins can be used to detect a variety of microorganisms or cancer or tumor antigens.

Disclosed herein are a recombinant Streptomyces S27S5 hemagglutinin (SHA), and homologues thereof, and a fusion protein of a fluorescent protein (such as GFP and mCherry1) and SHA or a homologue thereof, which specifically bind to carbohydrates, including oligomeric sugars that terminate in L-rhamnose or D-galactose. The SHA, SHA homologues, and fusion proteins can be used to detect a variety of microorganisms or cancer or tumor antigens.

The purpose of the present invention is to provide a peptide that is capable of efficiently delivering an antigen to dendritic cells and improving the vaccine effects of the antigen. A peptide that has at least one motif sequence comprising the amino acid sequence of sequence listing 1, or an amino acid sequence comprising the aforementioned amino acid sequence, but in which a mutation has been induced in the amino acid residue at the first and/or second position of the amino acid sequence, is bound to an antigen protein or an antigen peptide to efficiently deliver the antigen protein or antigen peptide to dendritic cells, allowing for significantly superior vaccine effects to be exhibited.

The purpose of the present invention is to provide a peptide that is capable of efficiently delivering an antigen to dendritic cells and improving the vaccine effects of the antigen. A peptide that has at least one motif sequence comprising the amino acid sequence of sequence listing 1, or an amino acid sequence comprising the aforementioned amino acid sequence, but in which a mutation has been induced in the amino acid residue at the first and/or second position of the amino acid sequence, is bound to an antigen protein or an antigen peptide to efficiently deliver the antigen protein or antigen peptide to dendritic cells, allowing for significantly superior vaccine effects to be exhibited.

Recombinant poly-IgA oligomers that form high-order oligomers resembling poly-IgA of IgA nephropathy are provided. Injection of recombinant IgA oligomers in an animal model produces prominent renal glomerular mesangial deposition of recombinant poly IgA oligomer, as in IgA nephropathy patients. Thus, producing a model of IgAN pathology that is able to provide screening and evaluation of therapeutic drugs and diagnostic tests.

Recombinant poly-IgA oligomers that form high-order oligomers resembling poly-IgA of IgA nephropathy are provided. Injection of recombinant IgA oligomers in an animal model produces prominent renal glomerular mesangial deposition of recombinant poly IgA oligomer, as in IgA nephropathy patients. Thus, producing a model of IgAN pathology that is able to provide screening and evaluation of therapeutic drugs and diagnostic tests.