Disclosed herein are compositions related to conjugated polypeptides with MTA/ADO-degrading enzyme activity. The conjugated polypeptides are engineered to allow for maximal conjugation while maintaining catalytic activities. Also disclosed are nucleic acids, expression vectors, and host cells related to the conjugated polypeptides. Further disclosed are methods of using the pharmaceutical formulations comprising above to treat cancer.

Methods and compositions related to the engineering of a protein with MTA/ADO-degrading enzyme activity are described. For example, in certain aspects there may be disclosed an MTase capable of degrading MTA/ADO. Furthermore, certain aspects of the invention provide compositions and methods for the treatment of cancer or SCID with an MTase using the disclosed proteins or nucleic acids.

Disclosed herein are compositions related to conjugated polypeptides with MTA/ADO-degrading enzyme activity. The conjugated polypeptides are engineered to allow for maximal conjugation while maintaining catalytic activities. Also disclosed are nucleic acids, expression vectors, and host cells related to the conjugated polypeptides. Further disclosed are methods of using the pharmaceutical formulations comprising above to treat cancer.

Provided herein, among other things, is an engineered non-plant cell that produces a tropane alkaloid product, a precursor of a tropane alkaloid product, or a derivative of a tropane alkaloid product. A method for producing a tropane alkaloid, a precursor of a tropane alkaloid product, or a derivative of a tropane alkaloid product that makes use of the cell is also described.

Disclosed herein are compositions related to conjugated polypeptides with MTA/ADO-degrading enzyme activity. The conjugated polypeptides are engineered to allow for maximal conjugation while maintaining catalytic activities. Also disclosed are nucleic acids, expression vectors, and host cells related to the conjugated polypeptides. Further disclosed are methods of using the pharmaceutical formulations comprising above to treat cancer.

Disclosed herein are compositions related to conjugated polypeptides with MTA/ADO-degrading enzyme activity. The conjugated polypeptides are engineered to allow for maximal conjugation while maintaining catalytic activities. Also disclosed are nucleic acids, expression vectors, and host cells related to the conjugated polypeptides. Further disclosed are methods of using the pharmaceutical formulations comprising above to treat cancer.

Methods and compositions related to the engineering of a protein with MTA/ADO-degrading enzyme activity are described. For example, in certain aspects there may be disclosed an MTase capable of degrading MTA/ADO. Furthermore, certain aspects of the invention provide compositions and methods for the treatment of cancer or SCID with an MTase using the disclosed proteins or nucleic acids.

Methods and compositions related to the engineering of a protein with MTA/ADO-degrading enzyme activity are described. For example, in certain aspects there may be disclosed an MTase capable of degrading MTA/ADO. Furthermore, certain aspects of the invention provide compositions and methods for the treatment of cancer or SCID with an MTase using the disclosed proteins or nucleic acids.

Methods and compositions related to the engineering of a protein with MTA/ADO-degrading enzyme activity are described. For example, in certain aspects there may be disclosed an MTase capable of degrading MTA/ADO. Furthermore, certain aspects of the invention provide compositions and methods for the treatment of cancer or SCID with an MTase using the disclosed proteins or nucleic acids.

The present invention generally related to a modified microbial cell capable of producing high levels of spermidine and/spermidine derivatives. The genetically modified microbial cell comprises at least one modification to native spermidine biosynthetic pathway via putrescine together with genes involved in the S-adenosylmethionine biosyntheticpathway.