A method of demethylizing an opioid to a nor-opioid is provided. The method comprises contacting an opioid with at least one enzyme. Contacting the opioid with the at least one enzyme converts the opioid to a nor-opioid. A method of converting a nor-opioid to a nal-opioid is provided. The method comprises contacting a nor-opioid with at least one enzyme. Contacting the nor-opioid with the at least one enzyme converts the nor-opioid to a nal-opioid.

The present disclosure provides systems and methods for increasing production of an alkaloid product through the epimerization of a (S)-1-benzylisoquinoline alkaloid to a (R)-1-benyzlisoquinoline alkaloid via an engineered epimerase in an engineered host cell. A (S)-1-benzylisoquinoline alkaloid is contacted with said engineered epimerase. Contacting said (S)-1-benzylisoquinoline alkaloid with said engineered epimerase converts said (S)-1-benzylisoquinoline alkaloid to said (R)-1-benzylisoquinoline alkaloid.

A method of demethylizing an opioid to a nor-opioid is provided. The method comprises contacting an opioid with at least one enzyme. Contacting the opioid with the at least one enzyme converts the opioid to a nor-opioid. A method of converting a nor-opioid to a nal-opioid is provided. The method comprises contacting a nor-opioid with at least one enzyme. Contacting the nor-opioid with the at least one enzyme converts the nor-opioid to a nal-opioid.

The invention relate to genetically modified hosts cell comprising a pathway having enhanced production of one or more benzylisoquinoline alkaloids wherein the cell expresses heterologous insect genes encoding insect demethylases converting thebaine into northebaine, thebaine into oripavine, thebaine into nororipavine and/or oripavine into nororipavine.

A method of demethylizing an opioid to a nor-opioid is provided. The method comprises contacting an opioid with at least one enzyme. Contacting the opioid with the at least one enzyme converts the opioid to a nor-opioid. A method of converting a nor-opioid to a nal-opioid is provided. The method comprises contacting a nor-opioid with at least one enzyme. Contacting the nor-opioid with the at least one enzyme converts the nor-opioid to a nal-opioid.

A method of demethylizing an opioid to a nor-opioid is provided. The method comprises contacting an opioid with at least one enzyme. Contacting the opioid with the at least one enzyme converts the opioid to a nor-opioid. A method of converting a nor-opioid to a nal-opioid is provided. The method comprises contacting a nor-opioid with at least one enzyme. Contacting the nor-opioid with the at least one enzyme converts the nor-opioid to a nal-opioid.

The present disclosure provides systems and methods for increasing production of an alkaloid product through the epimerization of a (S)-1-benzylisoquinoline alkaloid to a (R)-1-benyzlisoquinoline alkaloid via an engineered epimerase in an engineered host cell. A (S)-1-benzylisoquinoline alkaloid is contacted with said engineered epimerase. Contacting said (S)-1-benzylisoquinoline alkaloid with said engineered epimerase converts said (S)-1-benzylisoquinoline alkaloid to said (R)-1-benzylisoquinoline alkaloid.

The present disclosure provides systems and methods for increasing production of an alkaloid product through the epimerization of a (S)-1-benzylisoquinoline alkaloid to a (R)-1-benyzlisoquinoline alkaloid via an engineered epimerase in an engineered host cell. A (S)-1-benzylisoquinoline alkaloid is contacted with said engineered epimerase. Contacting said (S)-1-benzylisoquinoline alkaloid with said engineered epimerase converts said (S)-1-benzylisoquinoline alkaloid to said (R)-1-benzylisoquinoline alkaloid.

A method of demethylizing an opioid to a nor-opioid is provided. The method comprises contacting an opioid with at least one enzyme. Contacting the opioid with the at least one enzyme converts the opioid to a nor-opioid. A method of converting a nor-opioid to a nal-opioid is provided. The method comprises contacting a nor-opioid with at least one enzyme. Contacting the nor-opioid with the at least one enzyme converts the nor-opioid to a nal-opioid.

The present disclosure provides systems and methods for increasing production of an alkaloid product through the epimerization of a (S)-1-benzylisoquinoline alkaloid to a (R)-1-benyzlisoquinoline alkaloid via an engineered epimerase in an engineered host cell. A (S)-1-benzylisoquinoline alkaloid is contacted with said engineered epimerase. Contacting said (S)-1-benzylisoquinoline alkaloid with said engineered epimerase converts said (S)-1-benzylisoquinoline alkaloid to said (R)-1-benzylisoquinoline alkaloid.