<?xml version="1.0" encoding="UTF-8"?><item href="/people/kent-chapman.html" dsn="people"><first_name>Kent</first_name><last_name>Chapman</last_name><prefixes/><pronouns/><post_nominals/><title-1>Regents Professor</title-1><title-2/><title-3/><title-4/><department>Biochemistry and Molecular Biology,Biotechnology,Faculty,Key Personnel,Plant Biology</department><type>Faculty</type><email>chapman@unt.edu</email><phone>940-565-2969</phone><image><img src="/images/biology.unt.edu/files/images/faculty/photos/25_0122_kentchapman093-edit.jpg" alt="Kent Chapman"/></image><office>LIFE Sciences B414</office><address/><office-hours/><types><type>Faculty</type></types><departments><department>Biochemistry and Molecular Biology</department><department>Biotechnology</department><department>Faculty</department><department>Key Personnel</department><department>Plant Biology</department></departments><main-content>https://bdi.unt.edu/people/kent-chapman
Google Scholar
Dr. Chapman's research interests include biochemistry, plant cell biology, lipid signaling, and metabolic engineering.
Dr. Kent Chapman teaches classes in the following areas: cell biology, biology of higher plants, advanced research experiences, and advanced cell biology.
Degrees:
Doctor of Philosophy in botany; Dissertation Title: "The Cellular Origin of Membrane Lipids for Enlarging Cottonseed Glyoxysomes" Arizona State University
Bachelor of Arts in biology, Lycoming College
Experience:
Chapman's specific research projects are in the following topics:

regulation of lipid metabolism in plants
lipid signaling
metabolic pathway engineering of vegetable oils
bioenergy
bio-based applications

RECENT SIGNIFICANT PUBLICATIONS
Horn PJ, KD Chapman (2023) Imaging plant metabolism in situ, J Exp Bot, Vol. 75(6): 1654-167, erad423, https://doi.org/10.1093/jxb/erad423.
Arias-Gaguancela O, M Aziz, KD Chapman (2023) Fatty acid amide hydrolase and 9-lipoxygenase modulate cotton seedling growth by ethanolamide oxylipin levels. Plant Physiology 191(2): 1234-1253, kiac556, https://doi.org/10.1093/plphys/kiac556.
Guzha A, Whitehead P, Ischebeck T, Chapman KD (2023) Lipid Droplets: Packing Hydrophobic Molecules Within the Aqueous Cytoplasm. Annual Review of Plant Biology, 74: 195-223. https://doi.org/10.1146/annurev-arplant-070122-021752
Borisjuk, L., Horn, P., Chapman, K.D., Jakob, P.M., Gündel, A. and Rolletschek, H. (2023) Seeing Plants As Never Before. New Phytologist 238 (5), 1775-1794. https://doi.org/10.1111/nph.18871 Tansley Review.
Busta L, KD Chapman, EB Cahoon (2022) Better together: Protein partnerships for lineage-specific oil accumulation. Current Opinion in Plant Biology 66: 102191. https://doi.org/10.1016/j.pbi.2022.102191.</main-content></item><!-- Migrated using XML Migration 2024-04-22 14:01:56 -->