Poppy yields the final secret to making morphine

Determining the last unknown step in the opiate chemical pathway came down to a single gene

poppy

Morphine production has long been restricted to the slow pace of plants. Now, scientists have identified the enzymes that perform a previously unknown step in the chemical pathway, which will allow yeast to make morphine. 

Moyan Brenn/Flicker (CC-BY-2.0)

The final puzzle piece in the chemical pathway that makes morphine has been identified, scientists report June 25 in Science. The work fills in the center piece in the path — the protein converting the compound (S)-reticuline to (R)-reticuline.

By analyzing poppy DNA and confirming its function in yeast, the researchers showed that a single gene produces an enzyme made of two parts, each of which controls a step of the conversion of reticuline.

This protein links the previously known beginning and end steps in the morphine-making pathway. Both the beginning and end steps have already been engineered in separate yeast strains. Putting the three parts of the pathway together will eventually result in yeast that produce morphine.

Bethany was previously the staff writer at Science News for Students. She has a Ph.D. in physiology and pharmacology from Wake Forest University School of Medicine.

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