The present invention relates to Actinomycetales strains for the improved formation of acarbose. Provided are Actinomycetales strains which are engineered to overexpress dTDP-D-glucose-4,6-dehydratase (AcbB) and/or uridyltransferase (GtaB). Also provided are Actinomycetales strains which are engineered to have a reduced or absent expression of the small carbohydrate binding protein (Cgt) and/or a reduced or absent expression of genes which are essential for carotenoid synthesis. Also provided are tools, methods and means to generate these strains.

The present invention describes the DNA-sequence of the wild type genome as well as all genetic modifications which were introduced into the wild type—and further developed strains, based thereon. Thereby the first genotypic characterization of the developed strains, including the latest production strain, has been accomplished, accounting for the major part of the invention. Furthermore, on the basis of the determined DNA-sequences, potential genes were identified and account, combined with their functional annotation, for another part of the invention. In particular, the gene- and DNA-sequences, as well as protein-sequences derived there out, contribute to the invention which were affected by mutagenic modifications throughout the strain development process, potentially contributing to the increased production yield.

The present invention describes the DNA-sequence of the wild type genome as well as all genetic modifications which were introduced into the wild type—and further developed strains, based thereon. Thereby the first genotypic characterization of the developed strains, including the latest production strain, has been accomplished, accounting for the major part of the invention. Furthermore, on the basis of the determined DNA-sequences, potential genes were identified and account, combined with their functional annotation, for another part of the invention. In particular, the gene- and DNA-sequences, as well as protein-sequences derived there out, contribute to the invention which were affected by mutagenic modifications throughout the strain development process, potentially contributing to the increased production yield.

The present invention concerns novel lantipeptide (lanthionine-containing peptide) compounds having general formula (I), a process for their preparation, the key intermediates in said processes, their pharmaceutical acceptable salts and pharmaceutical compositions containing them, as well as their use in the treatment of pain.

The present invention concerns novel lantipeptide (lanthionine-containing peptide) compounds having general formula (I), a process for their preparation, the key intermediates in said processes, their pharmaceutical acceptable salts and pharmaceutical compositions containing them, as well as their use in the treatment of pain.

The present invention is directed to an innate DNA sequence within the complete genome sequence of Actinoplanes sp. SE50/110 which resembles the structure of an actinomycete integrative and conjugative element (AICE). Related AICEs were used for establishing genetic manipulation tools for other bacteria in the past. In this document, we describe the unique features of the specific AICE found in Actinoplanes sp. SE50/110 which are clearly distinct from any other known AICE as a whole, but share minor parts with varying sequence similarity with other characterized AICEs from other species.

The present invention is directed to an innate DNA sequence within the complete genome sequence of Actinoplanes sp. SE50/110 which resembles the structure of an actinomycete integrative and conjugative element (AICE). Related AICEs were used for establishing genetic manipulation tools for other bacteria in the past. In this document, we describe the unique features of the specific AICE found in Actinoplanes sp. SE50/110 which are clearly distinct from any other known AICE as a whole, but share minor parts with varying sequence similarity with other characterized AICEs from other species.