A genetically modified phototrophic cell for in-vivo production of hydrogen. The phototrophic cell has been genetically modified to the effect that a) at least one of the native photosystem I components has been deleted, b) the native hydrogenase has been deleted, and c) at least one fusion protein is expressed, comprising i. a hydrogenase or hydrogenase component and ii. at least one PSI component, with the proviso that the PSI is complemented by expression of the at least one fusion protein, and the hydrogenase component itself, or together with at least one further hydrogenase component expressibly introduced into the cell, has hydrogenase activity.

A genetically modified phototrophic cell for in-vivo production of hydrogen. The phototrophic cell has been genetically modified to the effect that a) at least one of the native photosystem I components has been deleted, b) the native hydrogenase has been deleted, and c) at least one fusion protein is expressed, comprising i. a hydrogenase or hydrogenase component and ii. at least one PSI component, with the proviso that the PSI is complemented by expression of the at least one fusion protein, and the hydrogenase component itself, or together with at least one further hydrogenase component expressibly introduced into the cell, has hydrogenase activity.

Methods and systems are provided for generating and utilizing a bacterial composition that comprises at least one genetically engineered bacterial strain that fixes atmospheric nitrogen in an agricultural system that has been fertilized with more than 20 lbs of Nitrogen per acre.

In certain embodiments, the present invention provides a poultry vaccine comprising an antigenic protein comprising a PlcC protein unit that is operably linked to a peptide linker that is operably linked to a NetB protein unit, where the vaccine is effective in stimulating a protective cellular and/or humoral immune response to C. perfringens. Methods are also provided for making the vaccine and for vaccinating poultry by administering such a vaccine.

In certain embodiments, the present invention provides a poultry vaccine comprising an antigenic protein comprising a PlcC protein unit that is operably linked to a peptide linker that is operably linked to a NetB protein unit, where the vaccine is effective in stimulating a protective cellular and/or humoral immune response to C. perfringens. Methods are also provided for making the vaccine and for vaccinating poultry by administering such a vaccine.

A DNA fragment to encode a nitrogen fixation enzyme includes a base sequence of SEQ ID NO:1 or a base sequence having not less than 50% identity with the SEQ ID NO:1.

A DNA fragment to encode a nitrogen fixation enzyme includes a base sequence of SEQ ID NO:1 or a base sequence having not less than 50% identity with the SEQ ID NO:1.

Genetically programmed microorganisms, such as bacteria or virus, pharmaceutical compositions thereof, and methods of modulating and treating cancers are disclosed.

Genetically programmed microorganisms, such as bacteria or virus, pharmaceutical compositions thereof, and methods of modulating and treating cancers are disclosed.

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.