Abstract: The invention relates to the ADH3 promoter; polynucleotide sequences, vectors and expression cassettes including DNA regions responsible for the regulation of the ADH3 promoter; the host cells, including these vectors and expression cassettes, and, the recombinant proteins performed with the developed cells. In the scope of the invention, deletion analyzes in the ADH3 promoter were performed to identify regions that affect promoter strength and significant data was obtained in the formation of mutant ADH3 promoters. Deletion of the nucleotides between 539 and 638 (?361 to ?262) in SEQ ID NO: 1 resulted in a 63% increase in ADH3 promoter activity. Five different synthetic promoters were created using positive regulatory regions identified and approximately 165% to 200% promoter activities were achieved with these promoters.

Abstract: A battery system (10) for use on a vehicle electrical system (50) of a motor vehicle, comprising a negative pole (21), a positive pole (22), a battery module (5) and a switching unit (60) that has at least one actuatable switch and a current sensor (65) for measuring a battery current (IB) flowing through the battery system (10) is disclosed. The switching unit (60) is operable in a safety mode in which the at least one switch and the current sensor (65) interact such that the battery current (IB) is limited to a prescribed maximum value or is interrupted for a prescribed maximum period of time if the battery current (IB) exceeds a prescribed limit value and hence starting of the motor vehicle is prevented.

Abstract: Methods for producing heterologous multi-subunit proteins in transformed cells are disclosed. In particular, the present disclosure provides improved methods of producing multi-subunit proteins, including antibodies and other multi-subunit proteins, which may or may not be secreted, with a higher yield and decreased production of undesired side-products. In exemplary embodiments, the transformed cells are a yeast, e.g., methylotrophic yeast such as Pichia pastoris.

Abstract: The invention relates to the ADH3 promoter, polynucleotide sequences, vectors and expression cassettes including DNA regions responsible for the regulation of the ADH3 promoter; the host cells, including these vectors and expression cassettes, and, the recombinant proteins performed with the developed cells. In the scope of the invention, deletion analyzes in the ADH3 promoter were performed to identify regions that affect promoter strength and significant data was obtained in the formation of mutant ADH3 promoters. Deletion of the nucleotides between 539 and 638 (?361 to ?262) in SEQ ID NO: 1 resulted in a 63% increase in ADH3 promoter activity. Five different synthetic promoters were created using positive regulatory regions identified and approximately 165% to 200% promoter activities were achieved with these promoters.

Abstract: A battery system (10) for use on a vehicle electrical system (50) of a motor vehicle, comprising a negative pole (21), a positive pole (22), a battery module (5) and a switching unit (60) that has at least one actuatable switch and a current sensor (65) for measuring a battery current (IB) flowing through the battery system (10) is disclosed. The switching unit (60) is operable in a safety mode in which the at least one switch and the current sensor (65) interact such that the battery current (IB) is limited to a prescribed maximum value or is interrupted for a prescribed maximum period of time if the battery current (IB) exceeds a prescribed limit value and hence starting of the motor vehicle is prevented.

Abstract: Methods for producing heterologous multi-subunit proteins in transformed cells are disclosed. In particular, the present disclosure provides improved methods of producing multi-subunit proteins, including antibodies and other multi-subunit proteins, which may or may not be secreted, with a higher yield and decreased production of undesired side-products. In exemplary embodiments, the transformed cells are a yeast, e.g., methylotrophic yeast such as Pichia pastoris.

Abstract: Methods for producing heterologous multi-subunit proteins in transformed cells are disclosed. In particular, the present disclosure provides improved methods of producing multi-subunit proteins, including antibodies and other multi-subunit proteins, which may or may not be secreted, with a higher yield and decreased production of undesired side-products. In exemplary embodiments, the transformed cells are a yeast, e.g., methylotrophic yeast such as Pichia pastoris.

Abstract: Methods for producing heterologous multi-subunit proteins in transformed cells are disclosed. In particular, the present disclosure provides improved methods of producing multi-subunit proteins, including antibodies and other multi-subunit proteins, which may or may not be secreted, with a higher yield and decreased production of undesired side-products. In exemplary embodiments, the transformed cells are a yeast, e.g., methylotrophic yeast such as Pichia pastoris.

Abstract: This invention is directed toward a bioelectronic cell gated nanodevice. The bioelectronic cell gated nanodevice comprises a plurality of bioelectric cells deposited on a fiber of a nanodevice. The bioelectronic cells of the nanodevice act as a gate, allowing current to be transmitted when the bioelectronic cells are exposed to an actuating chemical. The present invention also provides methods for constructing such a device.

Abstract: The present invention is directed to recombinant nucleic acid constructs comprising nucleic acid sequences encoding a Pichia pastoris PIR secretion signal peptide for secretion or an anchor domain peptide for surface display of a heterologous polypeptide. The present invention is further directed to methods for obtaining a heterologous polypeptide secreted into the culture medium or displayed on the cell surface. The present invention is also directed to transformed cells containing the recombinant nucleic acid constructs.

Abstract: The present invention is directed to recombinant nucleic acid constructs comprising nucleic acid sequences encoding a Pichia pastoris PIR secretion signal peptide for secretion or an anchor domain peptide for surface display of a heterologous polypeptide. The present invention is further directed to methods for obtaining a heterologous polypeptide secreted into the culture medium or displayed on the cell surface. The present invention is also directed to transformed cells containing the recombinant nucleic acid constructs.

Abstract: Polynucleotides that comprise regulatory regions of the yeast alcohol oxidase 1 promoter are provided. Isolated polynucleotides, recombinant polynucleotides, vectors, expression cassettes and transformed cells containing the regulatory regions are disclosed. Proteins produced by the transformed cells are also provided.

Abstract: Polynucleotides that comprise regulatory regions of the yeast alcohol oxidase 1 promoter are provided. Isolated polynucleotides, recombinant polynucleotides, vectors, expression cassettes and transformed cells containing the regulatory regions are disclosed. Proteins produced by the transformed cells are also provided.

Abstract: Polynucleotides that comprise regulatory regions of the yeast alcohol oxidase 1 promoter are provided. Isolated polynucleotides, recombinant polynucleotides, vectors, expression cassettes and transformed cells containing the regulatory regions are disclosed. Proteins produced by the transformed cells are also provided.