Herein are provided microbial factories, in particular yeast factories, for production of strictosidine aglycone and optionally other plant-derived compounds. Also provided are methods for producing strictosidine aglycone in a microorganism, as well as useful nucleic acids, vectors and host cells.

Methods that may be used for the manufacture of a class of chemical compounds known as terpenoid indole alkaloids, including tabersonine and catharanthine are provided. Compositions useful for the synthesis of terpenoid indole alkaloids, including tabersonine and catharanthine are also provided. The provided compounds are useful in the manufacture of chemotherapeutic agents.

Methods that may be used for the manufacture of a class of chemical compounds known as terpenoid indole alkaloids, including tabersonine and catharanthine are provided. Compositions useful for the synthesis of terpenoid indole alkaloids, including tabersonine and catharanthine are also provided. The provided compounds are useful in the manufacture of chemotherapeutic agents.

Described herein are polypeptides encoding enzymes for the synthesis of monoterpene indole alkaloids. For example, the polypeptide comprises or consists of the sequence of SEQ ID NO: 1-68, or a variant thereof having at least 80% sequence identity to SEQ ID NO: 1-68, or a fragment of the polypeptide, or the variant thereof.

The present invention relates to microorganisms for producing monoterpene indole al-kaloids (MIAs) and derivatives thereof de novo, including halogenated MIAs and halo-genated derivatives thereof. Also provided herein are methods for producing MIAs and derivatives thereof de novo, in particular halogenated MIAs and derivatives thereof, in a 5 microorganism, as well as useful nucleic acids, vectors and host cells for performing the present methods.