CAHNRS scientists research the synthesis and analysis of plant components for the development and utilization of bio-based, sustainable products.
![Chemical structure with flowers and ribbons behind it.](https://s3.wp.wsu.edu/uploads/sites/3174/2022/12/Lewis-Banner-image-1-e1629299463214-396x396-1.jpg)
Synthesis: CAHNRS scientists have strong research programs in plant biochemistry and molecular biology, focused on primary and secondary metabolism and structural components.
- Laura Bartley, synthesis and regulation of grass cell walls
- Phil Bates, plant lipid metabolism
- John Browse, biosynthesis and function of membrane and seed-storage lipids
- David Gang, biosynthesis of bioactive compounds from medicinal plants
- Mark Lange, biosynthesis of terpenoid natural products in medicinal plants
- Norm Lewis, phenylpropanoid metabolites
- Thomas Okita, protein and starch synthesis
- Sanja Roje, folates, flavins, and phosphatases
![Tissue testing machine.](https://s3.wp.wsu.edu/uploads/sites/3174/2022/12/image-75.jpeg)
Analysis: CAHNRS laboratories offer analytical capabilities for metabolomic, chemical, and structural analysis of synthesis products.
![Tall green grass.](https://s3.wp.wsu.edu/uploads/sites/3174/2022/12/image-76.jpeg)
Modification & Utilization: CAHNRS scientists study genetic engineering capabilities for oils and structural components like lignin
- Laura Bartley, switchgrass selection and engineering for development as a biofuel crop
- Phil Bates, engineering plant oils for increased nutrition, chemical feedstocks, and biofuels
- Paul Hwang, metabolic engineering of starch for enhanced productivity and yield
- Florence Mus, engineering synthetic symbioses between plants and bacteria to deliver nitrogen to crops
- Thomas Okita, metabolic genetic engineering of plants for increased productivity
Engineering: conversion of abundant lipid, carbohydrate, and lignin plant components into more valuable products
- Laura Bartley, switchgrass selection and engineering for development as a biofuel crop
- Phil Bates, engineering plant oils for increased nutrition, chemical feedstocks, and biofuels
- Paul Hwang, metabolic engineering of starch for enhanced productivity and yield
- Florence Mus, engineering synthetic symbioses between plants and bacteria to deliver nitrogen to crops
- Thomas Okita, metabolic genetic engineering of plants for increased productivity