Abstract: The present invention relates to a cell which is genetically modified with respect to its wild type and which comprises a gene sequence coding for a fluorescent protein, wherein the expression of the fluorescent protein depends on the amount of protein that is secreted across the cytoplasmic membrane into the extracytosolic space.

Abstract: The present invention relates to a cell which is genetically modified with respect to its wild type and which comprises a gene sequence coding for a fluorescent protein, wherein the expression of the fluorescent protein depends on the amount of protein that is secreted across the cytoplasmic membrane into the extracytosolic space.

Abstract: Proteins having a cofactor can be secreted in an improved manner in a microorganism belonging to the genus Corynebacterium provided that the microorganism contains a nucleic acid sequence which is not naturally present in it and which comprises at least the following sequence sections: a) nucleic acid sequence coding for a protein which contains a cofactor, and b) a nucleic acid sequence which is at least 20% identical to the sequence given in SEQ ID NO. 1 or a nucleic acid sequence which is a structural homologue to this sequence, wherein the amino acid sequence which is encoded by the nucleic acid sequence b) functionally interacts with the amino acid sequence encoded by the nucleic acid sequence a) in such a manner that at least the amino acid sequence encoded by the nucleic acid sequence a) is excreted by the microorganism.

Abstract: The invention relates to bacteria that have increased levels of protein secretion due to genetic modification, to nucleotide sequences and gene structures containing at least one gene coding for a SecA protein having increased levels of protein secretion, to a SecA having increased levels of protein secretion, and to a method for producing desired proteins using the inventive bacteria. The invention also relates to nucleic acids coding for a SecA protein having increased levels of protein secretion, containing a SecA gene sequence or allele, a SecA homologue or derivative, or nucleotide sequences hybridising therewith and comprising at least one mutation. Surprisingly, just one mutation in a nucleotide of a SecA gene leads to increased levels of protein secretion or to protein secretion for the first time.

Abstract: The invention relates to bacteria that have increased levels of protein secretion due to genetic modification, to nucleotide sequences and gene structures containing at least one gene coding for a SecA protein having increased levels of protein secretion, to a SecA having increased levels of protein secretion, and to a method for producing desired proteins using the inventive bacteria. The invention also relates to nucleic acids coding for a SecA protein having increased levels of protein secretion and containing a gene sequence SecA or an allele, homologue or derivative of said nucleotide sequences or nucleotide sequences hybridising therewith and comprising at least one mutation. Surprisingly, just one mutation in a nucleotide of a SecA gene leads to increased levels of protein secretion or to protein secretion for the first time.

Abstract: The invention relates to bacteria that have increased levels of protein secretion due to genetic modification, to nucleotide sequences and gene structures containing at least one gene coding for a SecA protein having increased levels of protein secretion, to a SecA having increased levels of protein secretion, and to a method for producing desired proteins using the inventive bacteria. The invention also relates to nucleic acids coding for a SecA protein having increased levels of protein secretion, containing a SecA gene sequence or allele, a SecA homologue or derivative, or nucleotide sequences hybridising therewith and comprising at least one mutation. Surprisingly, just one mutation in a nucleotide of a SecA gene leads to increased levels of protein secretion or to protein secretion for the first time.

Abstract: The invention relates to bacteria that have increased levels of protein secretion due to genetic modification, to nucleotide sequences and gene structures containing at least one gene coding for a SecA protein having increased levels of protein secretion, to a SecA having increased levels of protein secretion, and to a method for producing desired proteins using the inventive bacteria. The invention also relates to nucleic acids coding for a SecA protein having increased levels of protein secretion and containing a gene sequence SecA<i> </i> or an allele, homologue or derivative of said nucleotide sequences or nucleotide sequences hybridising therewith and comprising at least one mutation. Surprisingly, just one mutation in a nucleotide of a SecA gene leads to increased levels of protein secretion or to protein secretion for the first time.

Abstract: The subject of the present invention is a selection system for microorganisms, which is based on the inactivation of an essential translocating enzyme and the curing of this inactivation by means of an indentically acting factor which is made available to the cells concerned by means of a vector. One important area of application for this system is includes processses for protein production by culturing cells of a microorganism strain that are characterized by this selection system, particularly such that the transgene of interest is located on the same vector performing the cure. Appropriate microorganisms, possible uses for genes of translocation enzymes and vectors are likewise presented, including in particular the use of the gene secA from gram-negative or gram-positive bacteria such as B. licheniformis.

Abstract: The invention relates to a process for producing outer membrane proteins of gram-negative bacteria by gram-positive host cells. To this end, a gene structure containing a gene coded for an outer membrane protein is constructed; in front of this gene there is a pro-gene sequence which codes for a propeptide of an export protein of a gram-positive bacterium. In front of the pro-gene sequence there is a pre-gene sequence which codes for a signal peptide of an export protein of a gram-positive bacterium. After the cloning of a gene structure thus constructed into a vector and transformation into a gram-positive bacterium, the outer membrane protein is expressed with a signal peptide and propeptide, transported through the membrane of the gram-positive host cell and released into the test of the culture.