Abstract: The present disclosure is generally related to compositions and methods for constructing and obtaining Bacillus sp. host cells (strains) having enhanced protein production phenotypes. Certain embodiments of the disclosure are therefore related to genetically modified Bacillus sp. cells derived (obtained) from parental Bacillus sp. cells (e.g., such as parental Bacillus cells expressing/producing a protein of interest). Thus, certain embodiments are directed to modified Bacillus sp. cells expressing/producing an endogenous protein of interest, or a heterologous protein of interest, wherein the modified Bacillus sp. cell comprises a genetic modification of a yitMOP operon, a combined genetic modification of a yitMOP operon and a sdpABC operon, a genetic modification of a yitM gene and the like, wherein the modified Bacillus sp. cells produce an increased amount of the POI relative the parental cells from which they were derived (i.e., when grown/cultivated/fermented under identical conditions).

Abstract: The instant disclosure is generally related to novel engineered (hybrid) promoters. In certain embodiments, the instant disclosure is directed to one or more nucleic acid compositions comprising engineered promoters operably linked to nucleic acids encoding proteins of interest. Thus, the disclosure set forth herein described methods and compositions for the production of proteins of interest using one or more novel engineered (hybrid) promoters of the disclosure.

Abstract: The instant disclosure is generally related to novel Bacillus sp. mutants capable of producing increased amounts of industrially relevant proteins of interest. Certain embodiments of the disclosure are related to modified Bacillus sp. cells comprising an introduced polynucleotide encoding a variant GlcT protein. Other embodiments are related to methods and compositions for producing endogenous and/or heterologous proteins of interest in the modified Bacillus sp. (daughter) cells, whereas certain other embodiments are directed to nucleic acid sequences, particularly polynucleotide open reading frame (ORF) sequences, vectors thereof and DNA expression constructs thereof, encoding variant GlcT proteins of the disclosure.

Abstract: The instant disclosure is generally related to novel Bacillus sp. mutants capable of producing increased amounts of industrially relevant proteins of interest. Certain embodiments of the disclosure are related to modified Bacillus sp. cells comprising an introduced polynucleotide encoding a variant GlcT protein. Other embodiments are related to methods and compositions for producing endogenous and/or heterologous proteins of interest in the modified Bacillus sp. (daughter) cells, whereas certain other embodiments are directed to nucleic acid sequences, particularly polynucleotide open reading frame (ORF) sequences, vectors thereof and DNA expression constructs thereof, encoding variant GlcT proteins of the disclosure.

Abstract: The present invention relates in general to bacterial cells having genetic alterations that result in increased expression of a protein of interest and methods of making and using such cells. Aspects of the present invention include altered Gram positive microorganisms having one or more a genetic alterations that reduce the expression of a gene in the sin operon, thereby resulting in the enhanced expression of one or more proteins of interest.

Abstract: The present invention relates in general to bacterial cells having a genetic alteration that results in increased expression of a protein of interest and methods of making and using such cells. Aspects of the present invention include Gram positive microorganisms, such as Bacillus species, having a genetic alteration that modifies activity of a protein encoded by the ykf operon and results in enhanced expression of a protein of interest.

Abstract: The instant disclosure is generally related to novel engineered (hybrid) promoters. In certain embodiments, the instant disclosure is directed to one or more nucleic acid compositions comprising engineered promoters operably linked to nucleic acids encoding proteins of interest. Thus, the disclosure set forth herein described methods and compositions for the production of proteins of interest using one or more novel engineered (hybrid) promoters of the disclosure.

Abstract: The present invention relates in general to bacterial cells having a genetic alteration that results in increased expression of a protein of interest and methods of making and using such cells. Aspects of the present invention include Gram positive microorganisms, such as Bacillus species, having a genetic alteration that reduces the expression of a gene in the pdh operon and results in enhanced expression of a protein of interest.

Abstract: The present disclosure is generally related to modified Gram-positive bacterial cells producing increased amounts of one or more protein(s) of interest. Certain embodiments of the instant disclosure are therefore directed to modified Gram-positive bacterial cells expressing an increased amount of a POI relative to unmodified (i.e., parental) Gram-positive bacterial cells, wherein the modified (i.e., daughter) bacterial cells comprise a modification which increases rasP gene expression. In certain other embodiments, the disclosure pertains to methods of modifying bacterial cells such that the modified (daughter) cells produce an increased level of a protein of interest. In other embodiments, the disclosure pertains to a protein of interest produced by fermenting a modified bacterial cell of the instant disclosure. Certain other embodiments of the disclosure are directed to one or more proteinaceous compositions comprising one or more protein(s) of interest thus made.

Abstract: The present invention relates in general to bacterial cells having a genetic alteration that results in increased expression of a protein of interest and methods of making and using such cells. Aspects of the present invention include Grampositive microorganisms, such as members of the Bacillus genus having a genetic alteration that delays, reduces, or blocks the expression or activation of genes for sporulation, thereby resulting in enhanced expression of a protein of interest. The genetic alteration is one that reduces expression of a kinA gene, a phrA gene or a phrE gene.

Abstract: The present invention relates in general to bacterial cells having genetic alterations that result in increased expression of a protein of interest and methods of making and using such cells. Aspects of the present invention include altered Gram positive microorganismshaving one or more a genetic alterations that reduce the expression of a gene in the sin operon, thereby resulting in the enhanced expression of one or more proteins of interest.

Abstract: The present invention provides methods and compositions for the production of mature proteases in bacterial host cells. The compositions include modified polynucleotides that encode modified proteases, which have at least one mutation in the pro region; the modified serine proteases encoded by the modified polynucleotides; expression cassettes, DNA constructs, and vectors comprising the modified polynucleotides that encode the modified proteases; and the bacterial host cells transformed with the vectors of the invention. The methods include methods for enhancing the production of mature proteases in bacterial host cells e.g. Bacillus sp. host cells. The produced proteases find use in the industrial production of enzymes, suitable for use in various industries, including but not limited to the cleaning, animal feed and textile processing industry.

Abstract: The present invention relates in general to bacterial cells having a genetic alteration that results in increased expression of a protein of interest and methods of making and using such cells. Aspects of the present invention include Gram positive microorganisms, such as Bacillus species, having a genetic alteration that modifies activity of a protein encoded by the ykf operon and results in enhanced expression of a protein of interest.

Abstract: The present invention provides methods and compositions for the production of mature proteases in bacterial host cells. The compositions include modified polynucleotides that encode modified proteases, which have at least one mutation in the pro region; the modified serine proteases encoded by the modified polynucleotides; expression cassettes, DNA constructs, and vectors comprising the modified polynucleotides that encode the modified proteases; and the bacterial host cells transformed with the vectors of the invention. The methods include methods for enhancing the production of mature proteases in bacterial host cells e.g. Bacillus sp. host cells. The produced proteases find use in the industrial production of enzymes, suitable for use in various industries, including but not limited to the cleaning, animal feed and textile processing industry.

Abstract: The present invention provides methods and compositions for the production of mature proteases in bacterial host cells. The compositions include modified polynucleotides that encode modified proteases, which have at least one mutation in the pro region; the modified serine proteases encoded by the modified polynucleotides; expression cassettes, DNA constructs, and vectors comprising the modified polynucleotides that encode the modified proteases; and the bacterial host cells transformed with the vectors of the invention. The methods include methods for enhancing the production of mature proteases in bacterial host cells e.g. Bacillus sp. host cells. The produced proteases find use in the industrial production of enzymes, suitable for use in various industries, including but not limited to the cleaning, animal feed and textile processing industry.

Abstract: The present invention provides peptides and supported peptides for treating various diseases and conditions. In particularly preferred embodiments, the present invention provides compositions and methods for personal care. In some embodiments the present invention provides compositions for use in skin and/or hair care, as well as cosmetic compositions. IN alternative particularly preferred embodiments, the present invention provides peptides and supported peptides for treating diseases of the skin, such as rosacea. In some particularly preferred embodiments, the supported peptides of the present invention are anti-VEGF peptides. In alternative particularly preferred embodiments, the anti-VEGF peptides are expressed on a scaffold protein. In some most preferred embodiments, the scaffold protein comprises BBI.

Abstract: The present invention provides methods and compositions of improved expression systems in microorganisms. The methods and compositions comprise a ribosomal promoter derived from a Bacillus species microorganism, such a ribosomal RNA or a ribosomal protein promoter.

Abstract: The present invention provides methods and compositions for the production of mature proteases in bacterial host cells. The compositions include modified polynucleotides that encode modified proteases, which have at least one mutation in the pro region; the modified serine proteases encoded by the modified polynucleotides; expression cassettes, DNA constructs, and vectors comprising the modified polynucleotides that encode the modified proteases; and the bacterial host cells transformed with the vectors of the invention. The methods include methods for enhancing the production of mature proteases in bacterial host cells e.g. Bacillus sp. host cells. The produced proteases find use in the industrial production of enzymes, suitable for use in various industries, including but not limited to the cleaning, animal feed and textile processing industry.

Abstract: The present invention provides methods of altering the production of desired polypeptides in a host cell. In particular, the present invention provides polynucleotides encoding truncated SecG proteins capable of facilitating the secretion of desired proteases by a bacterial host cell, such as Bacillus species, as well as expression vectors and a host cell containing the polynucleotides.

Abstract: The present invention provides methods and compositions for the production of mature proteases in bacterial host cells. The compositions include modified polynucleotides that encode modified proteases, which have at least one mutation in the pro region; the modified serine proteases encoded by the modified polynucleotides; expression cassettes, DNA constructs, and vectors comprising the modified polynucleotides that encode the modified proteases; and the bacterial host cells transformed with the vectors of the invention. The methods include methods for enhancing the production of mature proteases in bacterial host cells e.g. Bacillus sp. host cells. The produced proteases find use in the industrial production of enzymes, suitable for use in various industries, including but not limited to the cleaning, animal feed and textile processing industry.