Provided herein are Mycobacterium smegmatis porin nanopores, systems that comprise these nanopores, and methods of using and making these nanopores. Such nanopores may be wild-type MspA porins, mutant MspA porins, wild-type MspA paralog porins, wild-type MspA homolog porins, mutant MspA paralog porins, mutant MspA homolog porins, or single-chain Msp porins. Also provided are bacterial strains capable of inducible Msp porin expression.

The present invention relates to a carrier conjugate comprising at least one dodecin protein unit conjugated with at least one hapten and/or immunogenic and/or enzymatically active moiety. Further, the invention relates to a method for producing said conjugate and a method for producing antibodies that specifically binds to a hapten and/or immunogenic moiety of the conjugate, and to a method for performing enzymatic or diagnostic assays in vitro using said conjugate. Moreover, the invention relates to the use of said conjugate for producing antibodies that specifically bind to the epitope or epitopes contained in the moiety of said conjugate and use of said conjugate for performing enzymatic or diagnostic assays in vitro.

The present invention relates to a carrier conjugate comprising at least one dodecin protein unit conjugated with at least one hapten and/or immunogenic and/or enzymatically active moiety. Further, the invention relates to a method for producing said conjugate and a method for producing antibodies that specifically binds to a hapten and/or immunogenic moiety of the conjugate, and to a method for performing enzymatic or diagnostic assays in vitro using said conjugate. Moreover, the invention relates to the use of said conjugate for producing antibodies that specifically bind to the epitope or epitopes contained in the moiety of said conjugate and use of said conjugate for performing enzymatic or diagnostic assays in vitro.

Described herein is a Mycobacterium mutant, comprising at least one mutation in at least one gene sequence encoding global gene regulators (GGRs) selected from the group consisting of sigH, sigL, sigE, ECF-1, and mixtures thereof, wherein the GGR gene is at least partially inactivated. Described herein also is a vaccine based on the mutant and a method of differentiating between subjects that have been infected with Mycobacterium and subjects that have not been infected with Mycobacterium or have been vaccinated with a Mycobacterium vaccine.

Described herein is a Mycobacterium mutant, comprising at least one mutation in at least one gene sequence encoding global gene regulators (GGRs) selected from the group consisting of sigH, sigL, sigE, ECF-1, and mixtures thereof, wherein the GGR gene is at least partially inactivated. Described herein also is a vaccine based on the mutant and a method of differentiating between subjects that have been infected with Mycobacterium and subjects that have not been infected with Mycobacterium or have been vaccinated with a Mycobacterium vaccine.

The present disclosure provides fusion proteins comprising Mycobacterium tuberculosis (Mtb) antigens, nucleic acid molecules encoding the same, vectors comprising nucleic acid molecules, compositions comprising the same, and methods of eliciting an immune response against tuberculosis.

The present disclosure provides fusion proteins comprising Mycobacterium tuberculosis (Mtb) antigens, nucleic acid molecules encoding the same, vectors comprising nucleic acid molecules, compositions comprising the same, and methods of eliciting an immune response against tuberculosis.

Provided is an Rv3364c-derived peptide capable of directly binding to a BAR domain of SNX9. The Rv3364c-derived peptide of the present disclosure may regulate a TLR4-mediated inflammatory response depending on SNX9, and thus can be effectively applied to not only the use for the prevention and treatment of Mycobacterium tuberculosis infectious disease, but also the use for the prevention and treatment of sepsis and sepsis shock.

Provided is an Rv3364c-derived peptide capable of directly binding to a BAR domain of SNX9. The Rv3364c-derived peptide of the present disclosure may regulate a TLR4-mediated inflammatory response depending on SNX9, and thus can be effectively applied to not only the use for the prevention and treatment of Mycobacterium tuberculosis infectious disease, but also the use for the prevention and treatment of sepsis and sepsis shock.

Chimeric antigen receptors for use in treating malignant melanoma and other cancers expressing CS1 are described.