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Kent D. Chapman

Title: Professor

Department: Biological Sciences

College: College of Science

Curriculum Vitae

Curriculum Vitae Link

Education

  • PhD, Arizona State University, 1991
    Major: Botany
    Dissertation: "The Cellular Origin of Membrane Lipids for Enlarging Cottonseed Glyoxysomes"
  • BA, Lycoming College, 1986
    Major: Biology

Current Scheduled Teaching

BIOC 6620.001Advanced Cell BiologySpring 2025
BIOL 6620.001Advanced Cell BiologySpring 2025
BIOL 5950.775Master's ThesisSpring 2025
BIOC 6950.775Doctoral DissertationFall 2024
CHEM 6950.778Doctoral DissertationFall 2024
BIOC 6940.775Individual ResearchFall 2024
CHEM 6940.779Individual ResearchFall 2024

Previous Scheduled Teaching

BIOC 6950.775Doctoral DissertationSummer 5W1 2024
BIOC 6620.001Advanced Cell BiologySpring 2024 Syllabus SPOT
BIOL 6620.001Advanced Cell BiologySpring 2024 Syllabus SPOT
BIOL 3900.001Advanced Research in Life SciencesSpring 2024 Syllabus SPOT
BIOC 6950.775Doctoral DissertationSpring 2024
BIOC 6940.775Individual ResearchSpring 2024
BIOC 6940.775Individual ResearchFall 2023
BIOL 5900.775Special ProblemsFall 2023
BIOC 6950.775Doctoral DissertationSummer 5W2 2023
BIOL 3510.001Cell BiologySpring 2023 Syllabus SPOT
BIOC 6950.775Doctoral DissertationSpring 2023
BIOC 6940.775Individual ResearchSpring 2023
BIOL 4900.775Special ProblemsSpring 2023
BIOC 6950.775Doctoral DissertationFall 2022
BIOC 6940.775Individual ResearchFall 2022
BIOC 6940.775Individual ResearchSpring 2022
BIOL 4900.775Special ProblemsSpring 2022
BIOL 3900.001Advanced Research in Life SciencesFall 2021 Syllabus SPOT
BIOL 6950.702Doctoral DissertationFall 2021
BIOC 6940.775Individual ResearchFall 2021
BIOC 6950.775Doctoral DissertationSummer 5W2 2021
BIOC 6950.775Doctoral DissertationSpring 2021
BIOC 6940.775Individual ResearchSpring 2021
BIOC 6620.001Advanced Cell BiologyFall 2020 Syllabus SPOT
BIOL 6620.001Advanced Cell BiologyFall 2020 Syllabus SPOT
BIOC 6950.775Doctoral DissertationFall 2020
BIOC 6940.775Individual ResearchFall 2020
BIOC 5950.775Master's ThesisSummer 5W1 2020
BIOC 6940.775Individual ResearchSpring 2020
BIOC 5950.775Master's ThesisSpring 2020
BIOL 2241.001Biology of Higher PlantsFall 2019 Syllabus SPOT
BIOC 6940.775Individual ResearchFall 2019
BIOC 6940.775Individual ResearchSpring 2019
BIOC 4900.775Special ProblemsSpring 2019
BIOC 4910.775Special ProblemsSpring 2019
BIOL 4900.775Special ProblemsSpring 2019
BIOL 3900.001Advanced Research in Life SciencesFall 2018 Syllabus SPOT
BIOC 6950.775Doctoral DissertationFall 2018
BIOC 6940.775Individual ResearchFall 2018
BIOL 6940.775Individual ResearchFall 2018
BIOL 4900.775Special ProblemsFall 2018
BIOC 6950.775Doctoral DissertationSummer 10W 2018
BIOL 4900.775Special ProblemsSummer 10W 2018
BIOL 3510.001Cell BiologySpring 2018 Syllabus SPOT
BIOC 6950.775Doctoral DissertationSpring 2018
BIOC 6940.775Individual ResearchSpring 2018
BIOL 4900.775Special ProblemsSpring 2018
BIOL 3900.001Advanced Research in Life SciencesFall 2017 Syllabus SPOT
BIOL 6950.775Doctoral DissertationFall 2017
BIOC 6940.775Individual ResearchFall 2017
BIOC 5950.775Master's ThesisFall 2017
BIOC 5950.775Master's ThesisSummer 10W 2017
BIOC 6620.001Advanced Cell BiologySpring 2017 SPOT
BIOL 6620.001Advanced Cell BiologySpring 2017 SPOT
BIOC 6940.775Individual ResearchSpring 2017
BIOL 4900.775Special ProblemsSpring 2017
BIOL 3900.001Advanced Research in Life SciencesFall 2016 Syllabus SPOT
BIOC 6940.775Individual ResearchFall 2016
BIOC 5950.775Master's ThesisSummer 5W1 2016
BIOL 4900.775Special ProblemsSummer 5W2 2016
BIOL 3510.001Cell BiologySpring 2016 Syllabus SPOT
BIOC 6940.775Individual ResearchSpring 2016
BIOC 5950.775Master's ThesisSpring 2016
BIOL 4900.775Special ProblemsSpring 2016
CHEM 4912.712Undergraduate Research Capstone ExperienceSpring 2016
BIOL 2241.001Biology of Higher PlantsFall 2015 SPOT
BIOL 6950.775Doctoral DissertationFall 2015
BIOC 6940.775Individual ResearchFall 2015
BIOC 5950.775Master's ThesisFall 2015
BIOL 6950.775Doctoral DissertationSummer 5W1 2015
BIOL 4900.775Special ProblemsSummer 10W 2015
BIOC 6950.775Doctoral DissertationSpring 2015
BIOC 6940.775Individual ResearchSpring 2015
BIOL 5950.775Master's ThesisSpring 2015
BIOL 4900.775Special ProblemsSpring 2015
BIOC 6950.775Doctoral DissertationFall 2014
BIOC 6940.775Individual ResearchFall 2014
BIOL 6940.775Individual ResearchFall 2014
BIOL 5950.775Master's ThesisFall 2014
BIOC 6940.775Individual ResearchSpring 2014
BIOC 5950.775Master's ThesisSpring 2014
BIOL 4900.775Special ProblemsSpring 2014
BIOL 3900.001Advanced Research in Life SciencesFall 2013 Syllabus
BIOC 6940.775Individual ResearchFall 2013
BIOC 5950.775Master's ThesisFall 2013
BIOL 4900.775Special ProblemsFall 2013
BIOC 6950.775Doctoral DissertationSummer 5W1 2013
BIOC 5950.775Master's ThesisSummer 5W1 2013
CHEM 4900.709Special ProblemsSummer 5W1 2013
BIOL 3510.001Cell BiologySpring 2013
BIOC 6950.775Doctoral DissertationSpring 2013
BIOC 6940.775Individual ResearchSpring 2013
BIOC 5950.775Master's ThesisSpring 2013
BIOL 4900.775Special ProblemsSpring 2013
BIOL 2241.001Biology of Higher PlantsFall 2012
BIOC 6950.775Doctoral DissertationFall 2012
BIOC 6940.775Individual ResearchFall 2012
BIOC 5950.775Master's ThesisFall 2012
BIOL 4900.775Special ProblemsFall 2012
BIOC 6950.775Doctoral DissertationSummer 5W2 2012
BIOC 6940.775Individual ResearchSummer 5W1 2012
BIOC 6940.775Individual ResearchSummer 5W2 2012
BIOL 4900.775Special ProblemsSummer 10W 2012
BIOL 4900.775Special ProblemsSummer 5W2 2012
BIOC 6620.001Advanced Cell BiologySpring 2012
BIOL 6620.001Advanced Cell BiologySpring 2012
BIOL 3510.001Cell BiologySpring 2012 Syllabus
BIOC 6940.775Individual ResearchSpring 2012
BIOL 4900.775Special ProblemsSpring 2012
BIOL 2241.001Biology of Higher PlantsFall 2011 Syllabus
BIOC 6940.775Individual ResearchFall 2011
BIOL 6940.775Individual ResearchFall 2011
BIOL 5950.775Master's ThesisFall 2011
BIOC 6900.775Special ProblemsFall 2011
BIOL 4900.775Special ProblemsFall 2011
BIOL 6950.775Doctoral DissertationSummer 5W1 2011
BIOC 6940.775Individual ResearchSummer 5W1 2011
BIOL 4900.775Special ProblemsSummer 5W1 2011
BIOL 3510.001Cell BiologySpring 2011 Syllabus
BIOL 6950.775Doctoral DissertationSpring 2011
BIOC 6940.775Individual ResearchSpring 2011
BIOL 6940.775Individual ResearchSpring 2011
BIOL 4900.775Special ProblemsSpring 2011
BIOL 2241.001Biology of Higher PlantsFall 2010 Syllabus
BIOC 6950.775Doctoral DissertationFall 2010
BIOL 6950.775Doctoral DissertationFall 2010
BIOC 6940.775Individual ResearchFall 2010
BIOL 6940.775Individual ResearchFall 2010
BIOC 6950.775Doctoral DissertationSummer 5W1 2010
BIOC 6940.775Individual ResearchSummer 5W2 2010
BIOC 6940.775Individual ResearchSummer 5W1 2010
BIOC 5950.775Master's ThesisSummer 5W1 2010
BIOL 4900.775Special ProblemsSummer 10W 2010
BIOC 6620.001Advanced Cell BiologySpring 2010
BIOL 6620.001Advanced Cell BiologySpring 2010
BIOC 6950.775Doctoral DissertationSpring 2010
BIOC 6940.775Individual ResearchSpring 2010
BIOL 6940.775Individual ResearchSpring 2010
BIOC 5950.775Master's ThesisSpring 2010
BIOL 2241.001Biology of Higher PlantsFall 2009
BIOC 6940.775Individual ResearchFall 2009
BIOL 6940.775Individual ResearchFall 2009
BIOC 5950.775Master's ThesisFall 2009
BIOC 5950.775Master's ThesisSummer 5W1 2009
BIOC 5950.775Master's ThesisSummer 5W2 2009
BIOL 4900.775Special ProblemsSummer 5W2 2009
BIOL 3510.001Cell BiologySpring 2009
BIOC 6940.775Individual ResearchSpring 2009
BIOL 6940.775Individual ResearchSpring 2009
BIOL 4800.001Biological Sciences Seminar SeriesFall 2008
BIOL 5860.001Biological Sciences Seminar SeriesFall 2008
BIOL 2241.001Biology of Higher PlantsFall 2008
BIOL 3520.501Cell Biology LaboratoryFall 2008
BIOL 3520.502Cell Biology LaboratoryFall 2008
BIOL 3520.503Cell Biology LaboratoryFall 2008
BIOL 3520.505Cell Biology LaboratoryFall 2008
BIOL 3520.506Cell Biology LaboratoryFall 2008
BIOL 3520.507Cell Biology LaboratoryFall 2008
BIOL 6950.775Doctoral DissertationFall 2008
BIOC 6940.775Individual ResearchFall 2008
BIOL 4900.775Special ProblemsFall 2008
BIOL 6950.775Doctoral DissertationSummer 5W1 2008
BIOL 6940.775Individual ResearchSummer 5W1 2008
BIOL 3510.001Cell BiologySpring 2008
BIOL 3520.501Cell Biology LaboratorySpring 2008
BIOL 3520.502Cell Biology LaboratorySpring 2008
BIOL 3520.503Cell Biology LaboratorySpring 2008
BIOL 3520.504Cell Biology LaboratorySpring 2008
BIOL 3520.505Cell Biology LaboratorySpring 2008
BIOL 6950.775Doctoral DissertationSpring 2008
BIOC 6940.775Individual ResearchSpring 2008
BIOL 6940.775Individual ResearchSpring 2008
BIOC 5950.775Master's ThesisSpring 2008
BIOC 4900.775Special ProblemsSpring 2008
BIOL 4900.775Special ProblemsSpring 2008
BIOL 4800.001Biological Sciences Seminar SeriesFall 2007
BIOL 5860.001Biological Sciences Seminar SeriesFall 2007
BIOL 3520.501Cell Biology LaboratoryFall 2007
BIOL 3520.502Cell Biology LaboratoryFall 2007
BIOL 3520.503Cell Biology LaboratoryFall 2007
BIOL 3520.505Cell Biology LaboratoryFall 2007
BIOL 3520.506Cell Biology LaboratoryFall 2007
BIOL 3520.507Cell Biology LaboratoryFall 2007
BIOL 2980.001EXPERIMENT COURSEFall 2007
BIOC 6940.775Individual ResearchFall 2007
BIOL 6940.775Individual ResearchFall 2007
BIOL 4900.775Special ProblemsFall 2007
BIOC 6620.001Advanced Cell BiologySpring 2007
BIOL 6620.001Advanced Cell BiologySpring 2007
BIOL 3520.501Cell Biology LaboratorySpring 2007
BIOL 3520.502Cell Biology LaboratorySpring 2007
BIOL 3520.503Cell Biology LaboratorySpring 2007
BIOL 3520.505Cell Biology LaboratorySpring 2007
BIOL 6940.775Individual ResearchSpring 2007
BIOC 4900.775Special ProblemsSpring 2007
BIOL 4900.775Special ProblemsSpring 2007
BIOL 4800.001Biological Sciences Seminar SeriesFall 2006
BIOL 5860.001Biological Sciences Seminar SeriesFall 2006
BIOL 3510.001Cell BiologyFall 2006
BIOL 3520.501Cell Biology LaboratoryFall 2006
BIOL 3520.502Cell Biology LaboratoryFall 2006
BIOL 3520.503Cell Biology LaboratoryFall 2006
BIOL 3520.505Cell Biology LaboratoryFall 2006
BIOL 3520.506Cell Biology LaboratoryFall 2006
BIOL 3520.507Cell Biology LaboratoryFall 2006
BIOC 6940.775Individual ResearchFall 2006
BIOL 6940.775Individual ResearchFall 2006
BIOC 5950.775Master's ThesisSummer 5W1 2006
BIOC 6940.775Individual ResearchSpring 2006
BIOL 6940.775Individual ResearchSpring 2006
BIOC 5950.775Master's ThesisSpring 2006
BIOC 4900.775Special ProblemsSpring 2006
BIOC 5900.775Special ProblemsSpring 2006
BIOL 4800.001Biological Sciences Seminar SeriesFall 2005
BIOL 5860.001Biological Sciences Seminar SeriesFall 2005
BIOC 6940.775Individual ResearchFall 2005
BIOL 6940.775Individual ResearchFall 2005
BIOC 5950.775Master's ThesisFall 2005
BIOC 6940.775Individual ResearchSummer 5W2 2005
BIOC 5950.775Master's ThesisSummer 5W1 2005
BIOL 4900.775Special ProblemsSummer 5W1 2005
BIOL 4900.775Special ProblemsSummer 5W2 2005
BIOC 6620.001Advanced Cell BiologySpring 2005
BIOL 6620.001Advanced Cell BiologySpring 2005
BIOC 6940.775Individual ResearchSpring 2005
BIOL 6940.775Individual ResearchSpring 2005
BIOC 5950.775Master's ThesisSpring 2005
BIOC 4900.775Special ProblemsSpring 2005
BIOL 4900.775Special ProblemsSpring 2005
BIOL 4800.001Biological Sciences Seminar SeriesFall 2004
BIOL 5860.001Biological Sciences Seminar SeriesFall 2004
BIOC 6940.775Individual ResearchFall 2004
BIOL 6940.775Individual ResearchFall 2004
BIOC 5950.775Master's ThesisFall 2004
BIOC 4900.775Special ProblemsFall 2004

Published Intellectual Contributions

    Abstracts and Proceedings

  • Webber, C., D’Souza, N., Stevens, K., Ayre, B.G., Allen, M.S., Chapman, K.D., Dickstein, R. (2012). Natural fiber production, harvesting, and preliminary processing: options and opportunities.
  • Webber, C., Taylor, M., Ayre, B.G., D’Souza, N., Chapman, K.D., Stevens, K., Dickstein, R., Allen, M.S. (2011). Kenaf (Hibiscus cannabinus) and sunn hemp (Crotalaria juncea): Monoculture and polyculture production. (187-33) American Society of Agronomy Meetings.
  • Webber, C., Dickstein, R., Ayre, B.G., D’Souza, N., Stevens, K., Chapman, K.D., Allen, M.S., Dagnon, K. (2010). Monoculture and polyculture P$\$ production of kenaf and sunn hemp. 44.
  • Ogbomo, S., Ayre, B.G., Stevens, K., Chapman, K.D., Webber, C., D’Souza, N. (2010). Naturally designed strong, tough and renewable biocomposites. 4–5.
  • Webber, C., D’Souza, N., Ayre, B.G., Chapman, K.D., Steven, K., Dagnon, K. (2009). New environmental applications for an ancient crop. 26–27.
  • Book Chapter

  • Burggren, W.W., , Chapman, K.D., Monticino, M.G., Torday, J. (2017). Interdisciplinarity In The Biological Sciences.. (2) Oxford University Press.
  • Kim SC, Faure L, Chapman KD. (2013). Analysis of Fatty Acid Amide Hydrolase Acitivity in Plants. Plant Lipid signaling Protocols. 2013 115-127.
  • Burggren W, CHapman KD, Keller B, Monticino M, Torday J. (2010). Biological Sciences In Frodeman, Klein, Mitcham (eds.) The Oxford Handbook of Interdisciplinarity.
  • Q Liu, S Singh, KD Chapman, and A Green. (2009). Bridging traditional and molecular genetics in modifying cottonseed oil. In A.H. Paterson (ed.), Genetics and Genomics of Cotton, Plant Genetics and Genomics: Crops and Models 3,DOI 10.1007/978-0-387-70810-2.
  • Chapman KD, Blancaflor EB. (2009). Fatty Acid Amide Hydrolase and the Metabolism of N-Acylethanolamine Lipid Mediators in Plants. In T. Munnik ed, Plant Lipid Signaling.
  • Turley RB and KD Chapman. (2009). Ontogeny of Cottonseeds:  Gametogenesis, Embryogenesis and Germination and Seedling Growth.
  • Blancaflor, EB, Motes, CM, Wang, Y-S, Kang, L., Mysore, KS, Chapman, K.D.. (2006). N-Acylethanolamines: Lipid Mediators of Plant Cytoskeletal Organization and Response to Environmental Stress. In Biology of Plant-Microbe Interactions, Volume 5, F Sanchez, C Quinto, IM Lopez-Lara, O Geiger, eds. pp163-170..
  • Blancaflor, E.B. and Chapman, K.D.. (2006). Similarities between endocannabinoid signaling in animal systems and N-acylethanolamine metabolism in higher plants. In Communication in Plants, F. Baluska, S. Mancuso, and D Volkmann eds., Ch. 14.
  • Journal Article

  • Horn, P.J., Chapman, K.D. (2023). Imaging plant metabolism in situ. Journal of Experimental Botany. Special Issue in Plant Metabolomics. erad423. Oxford University Press. https://doi.org/10.1093/jxb/erad423
  • Scholz, P., Chapman, K.D., Ischebeck, T., Guzha, A. (2023). Analysis of Pectin-derived Monosaccharides from Arabidopsis Using GC-MS.. Bio-Protocol. 13 (16) e4746.
  • Scholz, P., Chapman, K.D., Ischebeck, T., Guzha, A. (2023). Quantification of Botrytis cinerea Growth in Arabidopsis thaliana.. Bio-Protocol. 13 (16) e4740.
  • Al Sulaimi, R., Macknojia, A., Eskandari, M., Shirani, A., Gautam, B., Park, W., Whitehead, P., Alonso, A.P., Sedbrook, J.C., Chapman, K.D., Berman, D. (2023). Evaluating the effects of very long chain and hydroxy fatty acid content on tribological performance and thermal oxidation behavior of plant-based lubricants. Tribology International. 185 https://api.elsevier.com/content/abstract/scopus_id/85158030157
  • Guzha, A., Whitehead, P., Ischebeck, T., Chapman, K.D. (2023). Lipid Droplets: Packing Hydrophobic Molecules Within the Aqueous Cytoplasm.. Annual Review of Plant Biology. 74 195-223.
  • Arias-Gaguancela, O., Herrell, E., Aziz, M., Chapman, K.D. (2023). Two legume fatty acid amide hydrolase isoforms with distinct preferences for microbial- and plant-derived acylamides.. Scientific Reports. 13 (1) 7486. https://www.nature.com/articles/s41598-023-34754-z
  • Parkash, V., Snider, J.L., Bruce, A., Ermanis, A., Virk, G., Kaur, N., Collins, G., Chapman, K.D. (2023). Effects of cultivar and nitrogen application rate on lint, seed, oil, and protein yields of field-grown cotton. Crop Science. 63 (3) 1541-1554. https://api.elsevier.com/content/abstract/scopus_id/85150976929
  • Johnston, C., Carcia-Navarrete, T., Ortiz, E., Romsdahl, T.B., Guzha, A., Chapman, K.D., Grotewold, E., Alonso, A. (2022). Effective mechanisms for improving seed oil production in pennycress (Thlaspi arvense L.) highlighted by integration of comparative metabolomics and transcriptomics. Frontiers in Plant Science. 13 943585.
  • Arias-Gaguancela, O., Aziz, M., Chapman, K.D. (2022). Fatty acid amide hydrolase and 9-lipoxygenase modulate cotton seedling growth by ethanolamide oxylipin levels.. Plant Physiology. 191 1234-1253. https://doi.org/10.1093/plphys/kiac556
  • Romsdahl, T.B., Cocuron, J.C., Pearson, M.J., Alonso, A., Chapman, K.D. (2022). A lipidomics platform to analyze the fatty acid compositions of non-polar and polar lipid molecular species from plant tissues: Examples from developing seeds and seedlings of pennycress (Thlaspi arvense).. Frontiers in Plant Science. 13 1038161.
  • Scholz, P., Chapman, K.D., Mullen, R.T., Ischebeck, T. (2022). Finding new friends and revisiting old ones - how plant lipid droplets connect with other subcellular structures.. The New Phytologist. 236 (3) 833-838.
  • Duncan, R.S., Riordan, S.M., Hall, C., Payne, A.J., Chapman, K.D., Koulen, P. (2022). N-acylethanolamide metabolizing enzymes are upregulated in human neural progenitor-derived neurons exposed to sub-lethal oxidative stress.. Other. 16 902278.
  • Arias-Gaguancela, O., Adhikari, B., Aziz, M., Chapman, K.D. (2022). Enhanced seedling growth by 3-n-pentadecylphenolethanolamide is mediated by fatty acid amide hydrolases in upland cotton (Gossypium hirsutum L.).. Other. 6 (7) e421.
  • Busta, L., Chapman, K.D., Cahoon, E.B. (2022). Better together: Protein partnerships for lineage-specific oil accumulation.. Current Opinion in Plant Biology. 66 102191.
  • Fenyk, S., Woodfield, H.K., Romsdahl, T.B., Wallington, E.J., Bates, R.E., Fell, D.A., Chapman, K.D., Fawcett, T., Harwood, J.L. (2022). Overexpression of phospholipid: diacylglycerol acyltransferase in Brassica napus results in changes in lipid metabolism and oil accumulation.. Other. 479 (6) 805-823.
  • Liao, P., Lechon, T., Romsdahl, T., Woodfield, H., Fenyk, S., Fawcett, T., Wallington, E., Bates, R.E., Chye, M.L., Chapman, K.D., Harwood, J.L., Scofield, S. (2022). Transgenic manipulation of triacylglycerol biosynthetic enzymes in B. napus alters lipid-associated gene expression and lipid metabolism.. Scientific Reports. 12 (1) 3352.
  • Kang, B.H., Anderson, C.T., Arimura, S.I., Bayer, E., Bezanilla, M., Botella, M.A., Brandizzi, F., Burch-Smith, T.M., Chapman, K.D., Dünser, K., Gu, Y., Jaillais, Y., Kirchhoff, H., Otegui, M.S., Rosado, A., Tang, Y., Kleine-Vehn, J., Wang, P., Zolman, B.K. (2022). A glossary of plant cell structures: Current insights and future questions.. The Plant Cell. 34 (1) 10-52.
  • Arias- Gaguancela, O., Chapman, K.D. (2022). The biosynthesis and roles of N-acylethanolamines in plants. 101 345-373. New York, Academic Press. https://doi.org/10.1016/bs.abr.2021.07.002
  • Pyc, M., Gidda, S.K., Seay, D., Esnay, N., Kretzschmar, F.K., Cai, Y., Doner, N.M., Greer, M.S., Hull, J.J., Coulon, D., Bréhélin, C., Yurchenko, O., de Vries, J., Valerius, O., Braus, G.H., Ischebeck, T., Chapman, K.D., Dyer, J.M., Mullen, R.T. (2021). LDIP cooperates with SEIPIN and LDAP to facilitate lipid droplet biogenesis in Arabidopsis.. The Plant Cell. 33 (9) 3076-3103.
  • Salimath, S.S., Romsdahl, T.B., Konda, A.R., Zhang, W., Cahoon, E.B., Dowd, M.K., Wedegaertner, T.C., Hake, K.D., Chapman, K.D. (2021). Production of tocotrienols in seeds of cotton (Gossypium hirsutum L.) enhances oxidative stability and offers nutraceutical potential.. Plant Biotechnology Journal. 19 (6) 1268-1282.
  • Jarvis, B.A., Romsdahl, T.B., McGinn, M.G., Nazarenus, T.J., Cahoon, E.B., Chapman, K.D., Sedbrook, J.C. (2021). CRISPR/Cas9-Induced fad2 and rod1 Mutations Stacked With fae1 Confer High Oleic Acid Seed Oil in Pennycress (Thlaspi arvense L.).. Frontiers in Plant Science. 12 652319.
  • Doner, N.M., Seay, D., Mehling, M., Sun, S., Gidda, S.K., Schmitt, K., Braus, G.H., Ischebeck, T., Chapman, K.D., Dyer, J.M., Mullen, R.T. (2021). Arabidopsis thaliana EARLY RESPONSIVE TO DEHYDRATION 7 Localizes to Lipid Droplets via Its Senescence Domain.. Frontiers in Plant Science. 12 658961.
  • Romsdahl, T.B., Kambhampati, S., Koley, S., Yadav, U.P., Alonso, A., Allen, D.K., Chapman, K.D. (2021). Analyzing Mass Spectrometry Imaging Data of 13C-Labeled Phospholipids in Camelina sativa and Thlaspi arvense (Pennycress) Embryos.. Metabolites. 11 (3)
  • Cannon, A.E., Chapman, K.D. (2021). Lipid Signaling through G Proteins.. Trends in Plant Science. 26 (7) 720-728. Cell Press.
  • Khan, B.R., Chapman, K.D., Blancaflor, E.B. (2021). Chemical Genetics to Uncover Mechanisms Underlying Lipid-Mediated Signaling Events in Plants.. Methods in molecular biology (Clifton, N.J.). 2213 3-16.
  • Sturtevant, D., Aziz, M., Romsdahl, T.B., Corley, C.D., Chapman, K.D. (2021). In Situ Localization of Plant Lipid Metabolites by Matrix-Assisted Laser Desorption/Ionization Mass Spectrometry Imaging (MALDI-MSI).. Methods in molecular biology (Clifton, N.J.). 2295 417-438.
  • Horn, P.J., Chapman, K.D., Ischebeck, T. (2021). Isolation of Lipid Droplets for Protein and Lipid Analysis.. Methods in molecular biology (Clifton, N.J.). 2295 295-320.
  • Aziz, M., Chapman, K.D. (2020). Fatty acid amide hydrolases: an expanded capacity for chemical communications?. Trends in Plant Science.
  • Lu, S., Aziz, M., Sturtevant, D., Chapman, K.D., Guo, L. (2020). Heterogeneous distribution of erucic acid in Brassica napus seeds.. Frontiers in Plant Science.
  • Shirani, A., Joy, T., Lager, I., Yilmaz, J.L., Wang, H., Jeppson, S., Cahoon, E.B., Chapman, K.D., Stymne, S., Berman, D. (2020). Lubrication characteristics of wax esters from oils produced by a genetically-enhanced oilseed crop. Tribology International. 146 9pp.
  • Ischebeck, T., Krawczyk, H.E., Mullen, R.T., Dyer, J.M., Chapman, K.D. (2020). Lipid droplets in plants and algae: Distribution, formation, turnover and function.. Other. 108 82-93.
  • Kilaru, A., Chapman, K.D. (2020). The endocannabinoid system.. Other. 64 (3) 485-499. Portland Press.
  • Yan, C., Cannon, A.E., Watkins, J., Keereetaweep, J., Khan, B.R., Jones, A.M., Blancaflor, E.B., Azad, R.K., Chapman, K.D. (2020). Seedling Chloroplast Responses Induced by N-Linolenoylethanolamine Require Intact G-Protein Complexes.. Plant Physiology. 184 (1) 459-477.
  • Greer, M.S., Cai, Y., Gidda, S.K., Esnay, N., Kretzschmar, F.K., Seay, D., McClinchie, E., Ischebeck, T., Mullen, R.T., Dyer, J.M., Chapman, K.D. (2020). SEIPIN Isoforms Interact with the Membrane-Tethering Protein VAP27-1 for Lipid Droplet Formation.. The Plant Cell. 32 (9) 2932-2950.
  • Cannon, A.E., Yan, C., Burks, D.J., Rao, X., Azad, R.K., Chapman, K.D. (2020). Lipophilic signals lead to organ-specific gene expression changes in Arabidopsis seedlings.. Other. 4 (7) e00242.
  • Rolletschek, H., Schwender, J., König, C., Chapman, K.D., Romsdahl, T., Lorenz, C., Braun, H.P., Denolf, P., Van Audenhove, K., Munz, E., Heinzel, N., Ortleb, S., Rutten, T., McCorkle, S., Borysyuk, T., Guendel, A., Shi, H., Vander Auwermeulen, M., Bourot, S., Borisjuk, L. (2020). Cellular Plasticity in Response to Suppression of Storage Proteins in the Brassica napus Embryo.. The Plant Cell. 32 (7) 2383-2401.
  • Sturtevant, D., Lu, S., Zhou, Z.W., Shen, Y., Wang, S., Song, J., Zhong, J., Burks, D.J., Yang, Z.Q., Yang, Q., Cannon, A.E., Herrfurth, C., Feussner, I., Borisjuk, L., Munz, E., Verbeck, G.F., Wang, X., Azad, R.K., Singleton, B., Dyer, J.M., Chen, L.L., Chapman, K.D., Guo, L. (2020). The genome of jojoba (Simmondsia chinensis): A taxonomically isolated species that directs wax ester accumulation in its seeds.. Science Advances. 6 (11) eaay3240.
  • Aziz, M., Chapman, K.D. (2020). Fatty Acid Amide Hydrolases: An Expanded Capacity for Chemical Communication?. Trends in Plant Science. 25 (3) 236-249. Cell Press.
  • Esnay, N., Dyer, J.M., Mullen, R.T., Chapman, K.D. (2020). Lipid Droplet–Peroxisome Connections in Plants. Other. 3 251525642090876. SAGE Publications. http://dx.doi.org/10.1177/2515256420908765
  • Lu, S., Aziz, M., Sturtevant, D., Chapman, K.D., Guo, L. (2020). Heterogeneous Distribution of Erucic Acid in Brassica napus Seeds.. Frontiers in Plant Science. 10 1744.
  • Chapman, K.D., Aziz, M., Dyer, J.M., Mullen, R.T. (2019). Mechanisms of lipid droplet biogenesis.. Biochemical Journal.
  • Aziz, M., Wang, X., Tripathi, A., Bankaitis,, V.A., Chapman, K.D. (2019). Structural analysis of a plant fatty acid amide hydrolase provides insights into the evolutionary diversity of bioactive acylethanolamides.. Journal of Biological Chemistry.
  • Stoeckman, A.K., Cai, Y., Chapman, K.D. (2019). iCURE (iterative course‐based undergraduate research experience): A case‐study. Other. 47 (5) 565-572. Wiley. http://dx.doi.org/10.1002/bmb.21279
  • Romsdahl, T., Shirani, A., Minto, R., Zhang, C., Cahoon, E., Chapman, K.D., Berman, D. (2019). Nature-Guided Synthesis of Advanced Bio-Lubricants. Scientific Reports. 9 11711. Nature Group. https://doi.org/10.1038/s41598-019-48165-6
  • Cai, Y., Whitehead, P., Chappell, J., Chapman, K.D. (2019). Mouse lipogenic proteins promote the co-accumulation of triacylglycerols and sesquiterpenes in plant cells. Planta. Special Issue on Terpenes. 250 (1) 79-94. Springer Science and Business Media LLC. http://dx.doi.org/10.1007/s00425-019-03148-9
  • Chapman, K.D., Aziz, M., Dyer, J.M., Mullen, R.T. (2019). Mechanisms of lipid droplet biogenesis. Biochemical Journal. 476 (13) 1929-1942. Portland Press Ltd.. http://dx.doi.org/10.1042/bcj20180021
  • Aziz, M., Wang, X., Tripathi, A., Bankaitis, V.A., Chapman, K.D. (2019). Structural analysis of a plant fatty acid amide hydrolase provides insights into the evolutionary diversity of bioactive acylethanolamides. Journal of Biological Chemistry. 294 (18) 7419-7432. American Society for Biochemistry & Molecular Biology (ASBMB). http://dx.doi.org/10.1074/jbc.ra118.006672
  • Sturtevant, D., Romsdahl, T.B., Yu, X., Burks, D.J., Azad, R.K., Shanklin, J., Chapman, K. (2019). Tissue-specific differences in metabolites and transcripts contribute to the heterogeneity of ricinoleic acid accumulation in Ricinus communis L. (castor) seeds. Metabolomics. 15 (1) https://api.elsevier.com/content/abstract/scopus_id/85059652912
  • Li, X., Teitgen, A.M., Shirani, A., Ling, J., Busta, L., Cahoon, R.E., Zhang, W., Li, Z., Chapman, K.D., Berman, D., others. (2018). Discontinuous fatty acid elongation yields hydroxylated seed oil with improved function. Nature Plants. 4 711–720. Nature Publishing Group.
  • Yu, X., Cahoon, R.E., Horn, P.J., Shi, H., Prakash, R.R., Cai, Y., Hearney, M., Chapman, K.D., Cahoon, E.B., Schwender, J., Shanklin, J. (2018). Identification of bottlenecks in the accumulation of cyclic fatty acids in camelina seed oil. Plant Biotechnology Journal. 16 (4) 926-938.
  • Yurchenko, O., Kimberlin, A., Mehling, M., Koo, A.J., Chapman, K.D., Mullen, R.T., Dyer, J.M. (2018). Response of high leaf-oil Arabidopsis thaliana plant lines to biotic or abiotic stress. Plant Signaling & Behavior. 13 (5)
  • Lu, S., Sturtevant, D., Aziz, M., Jin, C., Li, Q., Chapman, K.D., Guo, L. (2018). Spatial analysis of lipid metabolites and expressed genes reveals tissue-specific heterogeneity of lipid metabolism in high- and low-oil Brassica napus L. seeds. Plant Journal. 94 (6) 915-932.
  • Sturtevant, D., Aziz , M., Chapman, K.D. (2018). Visualizing the oilseed lipidome. Other. 29 (4) 21-24. American Oil Chemists Society. http://dx.doi.org/10.21748/inform.04.2018.21
  • Shulaev, V., Chapman, K.D. (2017). Plant lipidomics at the crossroads: From technology to biology driven science. Other. 1862 (8) 786-791.
  • Ivarson, E., Iven, T., Sturtevant, D., Ahlman, A., Cai, Y., Chapman, K.D., Feussner, I., Zhu, L. (2017). Production of wax esters in the wild oil species Lepidium campestre. Other. 108 535–542. Elsevier.
  • Price, E., Sirsat, T.S., Sirsat, S.K., Kang, G., Keereetaweep, J., Aziz, M., Chapman, K.D., Dzialowski, E.M. (2017). Thermal acclimation in American alligators: Effects of temperature regime on growth rate, mitochondrial function, and membrane composition. Journal of Thermal Biology. 68 45-54. Pergamon.
  • Pyc, M., Cai, Y., Gidda, S.K., Yurchenko, O., Park, S., Kretzschmar, F.K., Ischebeck, T., Valerius, O., Braus, G.H., Chapman, K.D., Dyer, J.M., Mullen, R.T. (2017). Arabidopsis lipid droplet-associated protein (LDAP) - interacting protein (LDIP) influences lipid droplet size and neutral lipid homeostasis in both leaves and seeds.. The Plant journal : for cell and molecular biology. 92 (6) 1182-1201.
  • Usher, S., Han, L., Haslam, R.P., Michaelson, L.V., Sturtevant, D., Aziz, M., Chapman, K.D., Sayanova, O., Napier, J.A. (2017). Tailoring seed oil composition in the real world: optimising omega-3 long chain polyunsaturated fatty acid accumulation in transgenic Camelina sativa.. Scientific Reports. 7 (1) 6570.
  • Pyc, M., Cai, Y., Greer, M.S., Yurchenko, O., Chapman, K.D., Dyer, J.M., Mullen, R.T. (2017). Turning Over a New Leaf in Lipid Droplet Biology. Trends in Plant Science. Elsevier BV. http://dx.doi.org/10.1016/j.tplants.2017.03.012
  • Marmon, S., Sturtevant, D., Herrfurth, C., Chapman, K.D., Stymne, S., Feussner, I. (2017). Two Acyltransferases Contribute Differently to Linolenic Acid Levels in Seed Oil. Plant Physiology. 173 (4) 2081-2095. American Society of Plant Biologists (ASPB). http://dx.doi.org/10.1104/pp.16.01865
  • Aziz, M., Sturtevant, D., Winston, J., Collakova, E., Jelesko, J.G., Chapman, K.D. (2017). MALDI-MS Imaging of Urushiols in Poison Ivy Stem.. Other. 22 (5)
  • Salazar, C., Jones, M.D., Sturtevant, D., Horn, P.J., Crossley, J., Zaman, K., Chapman, K.D., Wrona, M., Isaac, G., Smith, N., Shulaev, V. (2017). Development and application of sub-2-μm particle CO2 -based chromatography coupled to mass spectrometry for comprehensive analysis of lipids in cottonseed extracts. Rapid communications in mass spectrometry : RCM. 31 (7) 591-605.
  • Woodfield, H.K., Sturtevant, D., Borisjuk, L., Munz, E., Guschina, I.A., Chapman, K.D., Harwood, J.L. (2017). Spatial and Temporal Mapping of Key Lipid Species in Brassica napus Seeds.. Plant Physiology. 173 (4) 1998-2009.
  • Sturtevant, D., Horn, P., Kennedy, C., Hinze, L., Percy, R., Chapman, K.D. (2017). Lipid metabolites in seeds of diverse Gossypium accessions: molecular identification of a high oleic mutant allele. Planta. 245 (3) 595-610. Springer Nature. http://dx.doi.org/10.1007/s00425-016-2630-3
  • Sturtevant, D., Dueñas, M.E., Lee, Y., Chapman, K.D. (2017). Three-dimensional visualization of membrane phospholipid distributions in Arabidopsis thaliana seeds: A spatial perspective of molecular heterogeneity.. Biochimica et Biophysica Acta. 1862 (2) 268-281.
  • Khan, B.R., Faure, L., Chapman, K.D., Blancaflor, E.B. (2017). A chemical genetic screen uncovers a small molecule enhancer of the N-acylethanolamine degrading enzyme, fatty acid amide hydrolase, in Arabidopsis.. Scientific Reports. 7 41121.
  • Yurchenko, O., Shockey, J.M., Gidda, S.K., Silver, M.I., Chapman, K.D., Mullen, R.T., Dyer, J.M. (2017). Engineering the production of conjugated fatty acids in Arabidopsis thaliana leaves.. Plant Biotechnology Journal. http://onlinelibrary.wiley.com/doi/10.1111/pbi.12695/full
  • Verbeck, G.F., Hamilton, J., Gorishek, E., Mach, P., Sturtevant, D., Ladage, M., Suzuki, N., Padilla, P.A., Mittler, R., Chapman, K.D. (2016). Evaluation of a custom single Peltier-cooled ablation cell for elemental imaging of biological samples in laser ablation-inductively coupled plasma-mass spectrometry (LA-ICP-MS). 31 1030-1033.
  • Campbell, B., Chapman, K.D., Sturtevant, D., Kennedy, C., Horn, P., Chee, P., Lubbers, E., Meredith, W., Johnson, J., Fraser, D., others. (2016). Genetic analysis of cottonseed protein and oil in a diverse cotton germplasm. Crop Science. 56 (5) 2457–2464. The Crop Science Society of America, Inc..
  • Khan, B.R., Wherritt, D.J., Huhman, D., Sumner, L.W., Chapman, K.D., Blancaflor, E.B. (2016). Malonylation of Glucosylated N-Lauroylethanolamine: A NEW PATHWAY THAT DETERMINES N-ACYLETHANOLAMINE METABOLIC FATE IN PLANTS.. Journal of Biological Chemistry. 291 (53) 27112-27121.
  • Cai, Y., McClinchie, E., Price, A., Nguyen, T.D., Gidda, S.K., Watt, S.C., Yurchenko, O., Park, S., Sturtevant, D., Mullen, R.T., Dyer, J.M., Chapman, K.D. (2016). Mouse fat storage-inducing transmembrane protein 2 (FIT2) promotes lipid droplet accumulation in plants.. Plant Biotechnology Journal. http://onlinelibrary.wiley.com/doi/10.1111/pbi.12678/full
  • Snider, J.L., Collins, G.D., Whitaker, J., Chapman, K.D., Horn, P. (2016). The impact of seed size and chemical composition on seedling vigor, yield, and fiber quality of cotton in five production environments. Field Crops Research. 193 186-195. Elsevier BV. http://dx.doi.org/10.1016/j.fcr.2016.05.002
  • Montgomery, C.L., Keereetaweep, J., Johnson, H.M., Grillo, S.L., Chapman, K.D., Koulen, P. (2016). Changes in Retinal N-Acylethanolamines and their Oxylipin Derivatives During the Development of Visual Impairment in a Mouse Model for Glaucoma.. Lipids. 51 (7) 857-66.
  • Gidda, S.K., Park, S., Pyc, M., Yurchenko, O., Cai, Y., Wu, P., Andrews, D.W., Chapman, K.D., Dyer, J.M., Mullen, R.T. (2016). Lipid Droplet-Associated Proteins (LDAPs) Are Required for the Dynamic Regulation of Neutral Lipid Compartmentation in Plant Cells.. Plant Physiology. 170 (4) 2052-71.
  • Liu, F., Zhao, Q., Mano, N., Ahmed, Z., Nitschke, F., Cai, Y., Chapman, K.D., Steup, M., Tetlow, I.J., Emes, M.J. (2016). Modification of starch metabolism in transgenic Arabidopsis thaliana increases plant biomass and triples oilseed production.. Plant Biotechnology Journal. 14 (3) 976-85.
  • Pathak, S., Kumar, K.R., Kanta, H., Carr-Johnson, F., Han, J., Bashmakov, A., Faure, L., Ding, H., Vanarsa, K., Khan, S., Li, Q., Chapman, K.D., Wakeland, E.K., Mohan, C. (2016). Fatty Acid Amide Hydrolase Regulates Peripheral B Cell Receptor Revision, Polyreactivity, and B1 Cells in Lupus. The Journal of Immunology. 196 (4) 1507-1516. The American Association of Immunologists. http://dx.doi.org/10.4049/jimmunol.1500291
  • Sturtevant, D., Lee, Y., Chapman, K.D. (2016). Matrix assisted laser desorption/ionization-mass spectrometry imaging (MALDI-MSI) for direct visualization of plant metabolites in situ.. Current Opinion in Biotechnology. 37 53-60.
  • Phelps, M.S., Sturtevant, D., Chapman, K.D., Verbeck, G.F. (2016). Nanomanipulation-Coupled Matrix-Assisted Laser Desorption/ Ionization-Direct Organelle Mass Spectrometry: A Technique for the Detailed Analysis of Single Organelles.. Journal of the American Society for Mass Spectrometry. 27 (2) 187-93.
  • Keereetaweep, J., Chapman, K.D. (2016). Lipidomic Analysis of Endocannabinoid Signaling: Targeted Metabolite Identification and Quantification.. Neural plasticity. 2016 (2426398) 13. https://www.hindawi.com/journals/np/2016/2426398/
  • Hinze, L.L., Horn, P.J., Kothari, N., Dever, J.K., Frelichowski, J., Chapman, K.D., Percy, R.G. (2015). Nondestructive Measurements of Cottonseed Nutritional Trait Diversity in the U.S. National Cotton Germplasm Collection. Crop Science. 55 (2) 770. Crop Science Society of America. http://dx.doi.org/10.2135/cropsci2014.04.0318
  • Cai, Y., Goodman, J.M., Pyc, M., Mullen, R.T., Dyer, J.M., Chapman, K.D. (2015). Arabidopsis SEIPIN Proteins Modulate Triacylglycerol Accumulation and Influence Lipid Droplet Proliferation.. The Plant Cell. 27 (9) 2616-36.
  • Keereetaweep, J., Blancaflor, E.B., Hornung, E., Feussner, I., Chapman, K.D. (2015). Lipoxygenase-derived 9-hydro(pero)xides of linoleoylethanolamide interact with ABA signaling to arrest root development during Arabidopsis seedling establishment.. The Plant journal : for cell and molecular biology. 82 (2) 315-27.
  • Faure, L., Cavazos, R., Khan, B.R., Petros, R.A., Koulen, P., Blancaflor, E.B., Chapman, K.D. (2015). Effects of synthetic alkamides on Arabidopsis fatty acid amide hydrolase activity and plant development.. Phytochemistry. 110 58-71.
  • Yurchenko, O.P., Park, S., Ilut, D.C., Inmon, J.J., Millhollon, J.C., Liechty, Z., Page, J.T., Jenks, M.A., Chapman, K.D., Udall, J.A., Gore, M.A., Dyer, J.M. (2014). Genome-wide analysis of the omega-3 fatty acid desaturase gene family in Gossypium.. BMC Plant Biology. 14 312.
  • Blancaflor, E.B., Kilaru, A., Keereetaweep, J., Khan, B.R., Faure, L., Chapman, K.D. (2014). N-Acylethanolamines: lipid metabolites with functions in plant growth and development.. The Plant journal : for cell and molecular biology. 79 (4) 568-83.
  • Horn, P.J., Chapman, K.D. (2014). Metabolite Imager: customized spatial analysis of metabolite distributions in mass spectrometry imaging. Metabolomics. 10 (2) 337-348. Springer Nature. http://dx.doi.org/10.1007/s11306-013-0575-0
  • Horn, P.J., Chapman, K.D. (2014). Lipidomics in situ: insights into plant lipid metabolism from high resolution spatial maps of metabolites.. Progress in Lipid Research. 54 32-52.
  • Faure, L., Nagarajan, S., Hwang, H., Montgomery, C.L., Khan, B.R., John, G., Koulen, P., Blancaflor, E.B., Chapman, K.D. (2014). Synthesis of phenoxyacyl-ethanolamides and their effects on fatty acid amide hydrolase activity.. Journal of Biological Chemistry. 289 (13) 9340-51.
  • Hall, T.D., Chastain, D.R., Horn, P.J., Chapman, K.D., Choinski, Jr, J.S. (2014). Changes during leaf expansion of ΦPSII temperature optima in Gossypium hirsutum are associated with the degree of fatty acid lipid saturation.. Journal of Plant Physiology. 171 (6) 411-20.
  • Vanhercke, T., El Tahchy, A., Liu, Q., Zhou, X., Shrestha, P., Divi, U.K., Ral, J., Mansour, M.P., Nichols, P.D., James, C., Horn, P.J., Chapman, K.D., Beaudoin, F., Ruiz-López, N., Larkin, P.J., de Feyter, R.C., Singh, S.P., Petrie, J.R. (2014). Metabolic engineering of biomass for high energy density: oilseed-like triacylglycerol yields from plant leaves. Plant Biotechnology Journal. 12 (2) 231-239. Wiley-Blackwell. http://dx.doi.org/10.1111/pbi.12131
  • Horn, P.J., Sturtevant, D., Chapman, K.D. (2014). Modified oleic cottonseeds show altered content, composition and tissue-specific distribution of triacylglycerol molecular species. Biochimie. 96 28-36. Elsevier BV. http://dx.doi.org/10.1016/j.biochi.2013.08.010
  • Park, S., Keereetaweep, J., James, C., Gidda, S.K., Chapman, K.D., Mullen, R.T., Dyer, J.M. (2014). CGI-58, a key regulator of lipid homeostasis and signaling in plants, also regulates polyamine metabolism.. Plant Signaling & Behavior. 9 (2) e27723.
  • Main, C.L., Barber, L.T., Boman, R.K., Chapman, K.D., Dodds, D.M., Duncan, S., Edmisten, K.L., Horn, P., Jones, M.A., Morgan, G.D., Norton, E.R., Osborne, S., Whitaker, J.R., Nichols, R.L., Bronson, K.F. (2013). Effects of Nitrogen and Planting Seed Size on Cotton Growth, Development, and Yield. Agronomy Journal. 105 (6) 1853. American Society of Agronomy. http://dx.doi.org/10.2134/agronj2013.0154
  • Gidda, S.K., Watt, S.C., Collins-Silva, J., Kilaru, A., Arondel, V., Yurchenko, O., Horn, P.J., James, C., Shintani, D., Ohlrogge, J.B., Chapman, K.D., Mullen, R.T., Dyer, J.M. (2013). Lipid droplet-associated proteins (LDAPs) are involved in the compartmentalization of lipophilic compounds in plant cells. Plant Signaling & Behavior. 8 (11) e27141. Informa UK Limited. http://dx.doi.org/10.4161/psb.27141
  • Keereetaweep, J., Blancaflor, E.B., Hornung, E., Feussner, I., Chapman, K.D. (2013). Ethanolamide Oxylipins of Linolenic Acid Can Negatively Regulate Arabidopsis Seedling Development. The Plant Cell. 25 (10) 3824-3840. American Society of Plant Biologists (ASPB). http://dx.doi.org/10.1105/tpc.113.119024
  • Horn, P.J., Silva, J.E., Anderson, D.R., Fuchs, J.L., Borisjuk, L., Nazarenus, T.J., Shulaev, V., Cahoon, E.B., Chapman, K.D. (2013). Imaging heterogeneity of membrane and storage lipids in transgenic Camelina sativa seeds with altered fatty acid profiles.. The Plant journal : for cell and molecular biology. 76 (1) 138-50.
  • Wang, S., Horn, P.J., Liou, L., Muggeridge, M.I., Zhang, Z., Chapman, K.D., Witt, S.N. (2013). A peroxisome biogenesis deficiency prevents the binding of alpha-synuclein to lipid droplets in lipid-loaded yeast. Biochemical and Biophysical Research Communications. 438 (2) 452-456. Elsevier BV. http://dx.doi.org/10.1016/j.bbrc.2013.07.100
  • Grillo, S.L., Keereetaweep, J., Grillo, M.A., Chapman, K.D., Koulen, P. (2013). N-Palmitoylethanolamine depot injection increased its tissue levels and those of other acylethanolamide lipids.. Drug Design, Development and Therapy. 7 747-52.
  • Horn, P.J., James, C., Gidda, S.K., Kilaru, A., Dyer, J.M., Mullen, R.T., Ohlrogge, J.B., Chapman, K.D. (2013). Identification of a New Class of Lipid Droplet-Associated Proteins in Plants. Plant Physiology. 162 (4) 1926-1936. American Society of Plant Biologists (ASPB). http://dx.doi.org/10.1104/pp.113.222455
  • Chapman, K.D., Dyer, J.M., Mullen, R.T. (2013). Commentary: Why don’t plant leaves get fat?. Plant Science. 207 128-134. Elsevier BV. http://dx.doi.org/10.1016/j.plantsci.2013.03.003
  • Park, S., Gidda, S.K., James, C., Horn, P.J., Khuu, N., Seay, D.C., Keereetaweep, J., Chapman, K.D., Mullen, R.T., Dyer, J.M. (2013). The α/β hydrolase CGI-58 and peroxisomal transport protein PXA1 coregulate lipid homeostasis and signaling in Arabidopsis.. The Plant Cell. 25 (5) 1726-39.
  • Kilaru A, Tamura P, Isaac G, Welti R, Venables BJ, Seier E, CHapman KD. (2012). Lipidomic analysis of N-acylphosphatidylethanolamine molecular species in Arabidopsis suggest feedback regulation by N-acylethanolamines.
  • Horn PJ, Chapman KD. (2012). Lipidomics in tissues, cells, and subcellular compartments.
  • Webber, C., Dickstein, R., Ayre, B., D’Souza, N., Stevens, K., Chapman, K.D., Allen, M.S., Dagnon, K. (2012). Monoculture and polyculture: kenaf (Hibiscus cannabinus) and sunn hemp (Crotalaria juncea). Journal of Environmental Monitoring and Restoration. 7 26–33.
  • Webber, C., Dickstein, R., Ayre, B., D’Souza, N., Stevens, K., Chapman, K.D., Allen, M.S., Dagnon, K. (2012). Monoculture and polyculture: kenaf (Hibiscus cannabinus) and sunn hemp (Crotalaria juncea). Journal of Environmental Monitoring and Restoration. 7 26-33.
  • Faure L, Chapman KD. (2012). N--acylphosphatidylethanolamines (NAPEs), N-Acylethanolamides and other acylamides: metabolism, occurrence and function in plants.
  • Kilaru A, Chapman KD. (2012). N-Acylated phospholipid metabolism and seedling growth: insights from lipidomics studies in Arabidopsis.
  • Horn PJ, Joshi U, Behrendt AD, Chapman KD, Verbeck GF. (2012). On -state liquid phase lipid microextraction coupled to nanospray mass spectrometry for detailed, nano-scale lipid analysis.
  • Teaster, N.D., Keereetaweep, J., Kilaru, A., Wang, Y., Tang, Y., Tran, C.N., Ayre, B.G., Chapman, K.D., Blancaflor, E.B. (2012). Overexpression of fatty acid amide hydrolase induces early flowering in Arabidopsis thaliana. Frontiers in Plant Science. 3 http://www.frontiersin.org/Journal/Abstract.aspx?s=907&name=plant_physiology&ART_DOI=10.3389/fpls.2012.00032!!!
  • Horn PJ, Korte AR, Neogi PB, Love E, FUchs J, Strupat K, Borisjuk L, Shulaev V, Lee Y-J, Chapman KD. (2012). Spatial mapping of lipids at cellular resolution in embryos of Gossypium hirsutu. Featured In Brief article by J. Mach in same issue. Faculty of 1000 recommended..
  • Horn, P.J., Korte, A.R., Neogi, P.B., Love, E., Fuchs, J.L., Strupat, K., Borisjuk, L., Shulaev, V., Lee, Y., Chapman, K.D. (2012). Spatial mapping of lipids at cellular resolution in embryos of cotton.. The Plant Cell. 24 (2) 622-36.
  • Chapman KD, Dyer JM, Mullen RT. (2011). Biogenesis and functions of lipid droplets in plant. Thematic Review Series - Selected for cover of Issue.
  • Chapman KD, Ohlrogge JB. (2011). Compartmentation of triacylglycerol accumulation in plants.
  • Garg P, Duncan RS, Kaja S, Zabaneh A, Chapman KD, Koulen P. (2011). Lauroylethanolamide and linoleoylethanolamide improve functional outcome in a rodent model for stroke.
  • Horn PJ, Chapman KD. (2011). Lipidomics in tissues, cells, and subcellular compartments.
  • Kilaru A, Göebel C, Keereetaweep J, Hornung E, Venables BJ, Feussner I, Chapman KD. (2011). Lipoxygenase-mediated oxidation of polyunsaturated N-Acylethanolamines in Arabidopsis.
  • Cotter MQ, Teaster ND, Blancaflor EB, Chapman KD. (2011). N-Acylethanolamine (NAE) inhibits growth in Arabidopsis thaliana seedlings via ABI3-dependent and -independent pathways.
  • Horn PJ, Chapman KD. (2011). Organellar Lipidomics.
  • Chapman KD. (2011). Plant biology: Blocking galactolipid biosynthesis. Nature News and Views Article -- comments on Marechal et al, same issue..
  • Duncan RS, Xin H, Goad DL, Chapman KD, Koulen P. (2011). Protection of neurons in the retinal ganglion cell layer against excitotoxicity by the N-acylethanolamine, N-linoleoylethanolamine.
  • Horn PJ, Neogi P, Tombokan X, Ghosh S, Todd Campbell BT, Chapman KD. (2011). Simultaneous Quantification of Oil and Protein in Cottonseed by Low-field Time-Domain Nuclear Magnetic Resonance.
  • Ohlrogge JB and Chapman KD. (2011). The seeds of green energy: expanding the contribution of plant oils as biofuels.
  • Adeyo O, Horn PJ, Lee S, Binns DD, Chandrahas A, Chapman KD, Goodman JM. (2011). The yeast lipin orthologue Pah1p is important for biogenesis of lipid droplets. Faculty of 1000 recommended.
  • Horn PJ, Ledbetter NR, James CN, Hoffman WD, Case CR, Verbeck GF, Chapman KD. (2011). Visualization of lipid droplet composition by direct organelle mass spectrometry. Faculty of 1000 recommended.
  • Kilaru A, Tamura P, Garg P, Isaac G, Baxter D, Duncan RS, Welti R, Koulen P, Chapman KD, Venables BJ. (2010). Changes in N-acylethanolamine Pathway Related Metabolites in a Rat Model of Cerebral Ischemia/Reperfusion.
  • James CN, Horn PJ, Case CR, Gidda SK, Zhang D, Mullen RT, Dyer JM, Anderson RG, Chapman KD. (2010). Disruption of the Arabidopsis CGI-58 homologue produces Chanarin-Dorfman-like lipid droplet accumulation in plant. Faculty of 1000 recommended.
  • Kim SC, Chapman KD, Blancaflor EB. (2010). Fatty acid lipid mediators in plants.
  • Keereetaweep J, Kilaru A, Feussner I, Venables BJ, Chapman KD. (2010). Lauroylethanolamide is a potent competitive inhibitor of lipoxygenase activity.
  • Kilaru A, Isaac G, Tamura P, Baxter D, Duncan SR Venables BJ, Welti R, Koulen P, Chapman KD. (2010). Lipid profiling reveals tissue-specific differences for ethanolamide lipids in mice lacking fatty acid amide hydrolase.
  • O'Quin JB, Bourassa L, Zhang D, Shockey JM, Gidda SK, Fosnot S, Chapman KD, Mullen RT, Dyer JM. (2010). Temperature-sensitive post-translational regulation of plant omega-3 fatty-acid desaturases is mediated by the endoplasmic reticulum-associated degradation pathway.
  • Ogbomo, S.M., Chapman, K.D., Webber, C., Bledsoe, R., D’Souza, N.A. (2009). Benefits of low kenaf loading in biobased composites of poly (L-lactide) and kenaf fiber. Journal of Applied Polymer Science. 112 (3) 1294–1301. Wiley Subscription Services, Inc., A Wiley Company.
  • Ogbomo SM, KD Chapman, C Webber, R Bledsoe, NA D'Souza. (2009). Benefits of Low Kenaf Loading in Biobased Composites of Poly(L-lactide) and Kenaf Fiber..
  • Lessire R,  E Cahoon, K Chapman, J Dyer, P Eastmond and E Heinz. (2009). Highlights of recent progress in plant lipid research.
  • Zhang D, IL Pirtle, SJ Park, M Nampaisansuk, P Neogi, SW Wanjie, RM Pirtle, and KD Chapman. (2009). Identification and expression of a new delta-12 fatty acid desaturase (FAD2-4) gene in upland cotton and its functional expression in yeast and Arabidopsis thaliana plants.
  • Kim SC, L Kang, S Nagaraj, EB Blancaflor, KS Mysore, KD Chapman. (2009). Mutations in Arabidopsis fatty acid amide hydrolase reveal that catalytic activity influences growth but not sensitivity to abscisic acid or pathogens .
  • Duncan RS, KD Chapman, P Koule. (2009). The neuroprotective properties of palmitoylethanolamine against oxidative stress in a neuronal cell line.
  • Ayre, B.G., Stevens, K., Chapman, K.D., Webber, C.L., Dagnon, K.L., D’Souza, N.A. (2009). Viscoelastic properties of kenaf bast fiber in relation to stem age. Textile Research Journal. 79 (11) 973–980. SAGE Publications.
  • Ayre, B.G., Stevens, K., Chapman, K.D., Webber, C.L., Dagnon, K.L., D’Souza, N.A. (2009). Viscoelastic Properties of Kenaf Bast Fiber in Relation to Stem Age. Textile Research Journal. 79 (11) 973-980. ://WOS:000268007200002
  • BG Ayre, K Stevens, KD Chapman, CL Webber, III, KL Dagnon, NA D'Souza. (2009). Viscoelastic Properties of Kenaf Bast Fiber in Relation to Stem Age..
  • Kang L, Wang YS, Uppalapati SR, Wang K, Tang Y, Vadapalli V, Venables BJ, Chapman KD, Blancaflor EB, Mysore KS. (2008). Overexpression of a fatty acid amide hydrolase compromises innate immunity in Arabidopsis.
  • Chapman KD, PB Neogi, KD Hake, AA Stawska, TR Speed, MQ Cotter, DC Garrett, T Kerby, CD Richardson, BG Ayre, S Ghosh and AJ Kinney. (2008). Reduced Oil Accumulation in Cottonseeds Transformed with a Brassica Nonfunctional Allele of a Delta-12 Fatty Acid Desaturase (FAD2).
  • Chapman, K.D., Neogi, P.B., Hake, K.D., Stawska, A.A., Speed, T.R., Cotter, M.Q., Garrett, D.C., Kerby, T., Richardson, C.D., Ayre, B.G., Ghosh, S., Kinney, A.J. (2008). Reduced oil accumulation in cottonseeds transformed with a Brassica nonfunctional allele of a delta-12 fatty acid desaturase (FAD2). Crop Science. 48 (4) 1470-1481. http://crop.scijournals.org/cgi/content/abstract/cropsci;48/4/1470
  • Chapman, K.D., Neogi, P.B., Hake, K.D., Stawska, A.A., Speed, T.R., Cotter, M.Q., Garrett, D.C., Kerby, T., Richardson, C.D., Ayre, B.G., Ghosh, S., Kinney, A.J. (2008). Reduced oil accumulation in cottonseeds transformed with a Brassica nonfunctional allele of a delta-12 fatty acid desaturase (FAD2). Crop Science. 48 (4) 1470-1481. https://api.elsevier.com/content/abstract/scopus_id/49149085799
  • Bartz R, Seemann J, Zehmer JK, Serrero G, Chapman KD, Anderson RG, Liu P. (2007). Evidence that mono-ADP-ribosylation of CtBP1/BARS regulates lipid storage.
  • Bartz R, Li WH, Venables B, Zehmer JK, Roth MR, Welti R, Anderson RG, Liu P, Chapman KD. (2007). Lipidomics reveals adiposomes store ether lipids and mediate phospholipid traffic.
  • Teaster ND, Motes CM, Tang Y, Wiant WC, Cotter MQ, Wang YS, Kilaru A, Venables BJ, Hasenstein KH, Gonzalez G, Blancaflor EB, Chapman KD. (2007). N-Acylethanolamine metabolism interacts with abscisic acid signaling in Arabidopsis thaliana seedlings.
  • Welti R, Shah J, Li W, Li M, Chen J, Burke JJ, Fauconnier ML, Chapman KD, Chye ML, Wang X. (2007). Plant lipidomics: Discerning biological function by profiling plant complex lipids using mass spectrometry.
  • Kilaru A, Blancaflor EB, Venables BJ, Tripathy S, Mysore KS, Chapman KD. (2007). The N-acylethanolamine-mediated regulatory pathway in plants.
  • Wang Y-S, Shrestha, R., Wiant, W., Venables, B.J., Chapman, KD, Blancaflor, E.B.. (2006). Manipulation of Arabidopsis Fatty Acid (Ethanol) Amide Hydrolase Expression Leads to Plants with Modified Growth Characteristics and Altered Sensitivity to N-Acylethanolamines.
  • Binns, D., Januszewski, T., Chen, Y., Hill, J., Markin, V., Zhao, Y., Gilpin, C, Chapman, K.D., Anderson, R.G.W., Goodman, J.M.. (2006). Pexopodia and Gnarls, Novel Structures that Indicate an Intimate Collaboration Between Peroxisomes and Lipid Bodies.
  • Shrestha, R., Kim, S.-C., Dyer, J., Dixon, R.A., Chapman, K.D.. (2006). Plant Fatty Acid (Ethanol) Amide Hydrolases. Biochimica et Biophysica Acta (BBA).
  • Shrestha, R., Kim, S.C., Dyer, J.M., Dixon, R., Chapman, K.D. (2006). Plant fatty acid (ethanol) amide hydrolases.. Biochimica et Biophysica Acta. 1761 (3) 324-34.
  • Motes, C.M., Pechter, P., Yoo, C.M., Wang, Y.S., Chapman,K.D., Blancaflor, E.B.. (2005). Differential effects of two phospholipase D inhibitors, 1-butanol and N- acylethanolamine (NAE), on in vivo cytoskeletal organization and Arabidopsis seedling growth.
  • Wanjie, S.W., Welti, R., Moreau, R.A., Chapman, K.D.. (2005). Identification and Quantification of Glycerolipids in Cotton Fibers: Reconciliation with Metabolic Pathway Predictions from DNA Databases.
  • Venables, B.J., Waggoner, C.A., Chapman, K.D.. (2005). N -Acylethanolamines in Selected Legumes.
  • Chapman, K.D.. (2004). Occurrence, metabolism and prospective functions of N-acylethanolamines in plants.
  • Blancaflor, E.B., Hou, G., and Chapman, K.D.. (2003). Elevated levels of N-lauroylethanolamine, an endogenous constituent of desiccated seeds, disrupt normal root development in Arabidopsis thaliana seedlings.
  • Chapman, K.D., Venables, B.J., Dian, E.E. and Gross, G.W.. (2003). Identification and quantification of neuroactive N-acylethanolamines in cottonseed processing fractions.
  • Shrestha, R., Dixon, R.A., Chapman, K.D.. (2003). Molecular Identification of a Functional Homologue of the Mammalian Fatty Acid Amide Hydrolase in Arabidopsis thaliana.
  • Tripathy, S., Kleppinger-Sparace, K., Dixon, R.A., and Chapman, K.D.. (2003). N -Acylethanolamine signaling in tobacco is mediated by a membrane-associated, high affinity binding protein.
  • Shrestha, R., Dixon, R., Chapman, K.D. (2003). Molecular identification of a functional homologue of the mammalian fatty acid amide hydrolase in Arabidopsis thaliana.. Journal of Biological Chemistry. 278 (37) 34990-7.
  • Tripathy, S., Kleppinger-Sparace, K., Dixon, R., Chapman, K.D. (2003). N-acylethanolamine signaling in tobacco is mediated by a membrane-associated, high-affinity binding protein.. Plant Physiology. 131 (4) 1781-91.
  • Hoang C.V. and Chapman, K.D.. (2002). Biochemical and molecular inhibition of plastidial carbonic anhydrase reduces the incorporation of acetate into lipids in cotton embryos and tobacco cell suspensions and leaves.
  • Huynh, T., Pirtle, R.M., Chapman, K.D.. (2002). Expression of a Gossypium hirsutum cDNA encoding a FatB palmitoyl-acyl carrier protein thioesterase in Eschericia coli.
  • Austin-Brown, S. and Chapman, K.D.. (2002). Inhibition of phospholipase Dalpha by N-acylethanolamines.
  • Shrestha, R., Noordemeer, M., Van der Stelt, M., Veldink, G.A., and Chapman, K.D.. (2002). N -Acylethanolamines are metabolized by lipoxygenase and amidohydrolase in competing pathways during cotton (Gossypium hirsutum, L.) seed imbibition.
  • Hoang, C.V. and Chapman, K.D.. (2002). Regulation of plastidial carbonic anhydrase gene expression in cotton (Gossypium hirsutum, L) seedlings during post-germinative growth.
  • Pirtle, I., Kongcharoensuntorn, W., Nampaisansuk, M., Knesek, J., Chapman K.D., Pirtle R.M.. (2001). Molecular cloning and functional expression of the gene for a cotton delta-12 desaturase (FAD2).
  • Chapman, K.D., Austin-Brown, S. Sparace, S.A., Kinney, A.J., Ripp, K.G., Pirtle, I.L, Pirtle, R.M.. (2001). Transgenic cotton plants with increased seed oleic acid content.
  • Petersen, G., Chapman, K.D., Hansen, H.S.. (2000). A rapid phospholipase D assay using zirconium precipitation of anionic substrate phospholipids: application to N-acylethanolamine formation in vitro.
  • Morefield, S.I., Keefer, E.W., Chapman, K.D., Gross, G.W.. (2000). Drug evaluations using neuronal networks on microelectrode arrays: characteristic effects of cannabinoid agonists anandamide and methandamide on cortical and spinal cultures.
  • Chapman, K.D.. (2000). Emerging physiological roles for N-acylphosphatidylethanolamine metabolism in plants: membrane protection and signal transduction.
  • Pirtle, R.M., Huynh, T.T., Yoder, D., Nampaisansuk, M., Pirtle, I., Chapman, K.D.. (1999). Characterization of a palmitoyl-acyl carrier protein thioesterase (FatB1) in Cotton (Gossypium hirsutum L.).
  • Hoang, C.V., Wessler, H.G., Local, A., Turley, R.B., Benjamin, R.C., Chapman, K.D.. (1999). Identification and expression of cotton (Gossypium hirsutum L.) plastidial carbonic anhydrase.
  • Yoder, D.W., Nampaisansuk, M., Pirtle, I. Chapman, K.D., Pirtle R.M.. (1999). Molecular cloning and nucleotide sequence of a gene encoding a cotton palmitoyl-acyl carrier protein thioesterase.
  • Tripathy, S., Venables, B., Chapman, K.D.. (1999). N -Acylethanolamines in elicitor signal transduction: Attenuation of alkalinization and activation of defense gene expression.
  • Chapman, K.D., Venables, B., Markovic, R.M., Blair, R., Bettinger, C.. (1999). N-Acylethanolamines in seeds: quantification of molecular species and their degradation upon imbibition.
  • McAndrew, R.S., and Chapman, K.D.. (1998). Enzymology of cottonseed N-acylphosphatidylethanolamine synthase: kinetic properties and mechanism-based inactivation.
  • Chapman, K.D., Tripathy, S., Venables, B.J., Desouza, A.D.. (1998). N -Acylethanolamines: formation and molecular composition of a new class of plant lipids.
  • Chapman, K.D.. (1998). Phospholipase activity during plant growth and development and in response to environmental stress.
  • Hemphill, J.K., Maier, C.G.A., Chapman, K.D.. (1998). Rapid in-vitro plant regeneration of cotton (Gossypium hirsutum L.)..
  • Pappan, K., Austin-Brown, S., Chapman, K.D., Wang, X.. (1998). Substrate selectivities and lipid modulation of plant phospholipase Dalpha, beta, and gamma.
  • Chapman, K.D., McAndrew, R.S., and Huynh, T.T.. (1997). Cottonseed calnexin: identification and isolation of a membrane-bound molecular chaperone..
  • Chapman, K.D., and Sriparameswaran, A.. (1997). Intracellular localization of N-acylphosphatidylethanolamine synthesis in cotyledons of cotton seedlings.
  • Maier, C.G.-A., Chapman, K.D., and Smith, D.W.. (1997). Phytoestrogens and floral development in dioecious.
  • Chapman, K.D. and Sprinkle, W.B.. (1996). Developmental, tissue-specific, and environmental factors regulate the biosynthesis of N-acylphosphatidylethanolamine in cotton (Gossypium hirsutum L.).
  • Maier, C.G.-A., Chapman, K.D., and Smith, D.W.. (1995). Estrogenic activity of female plant extracts from two dioecious species.
  • Chapman, K.D., Jackson, A.C., Moreau, R.A., and Tripathy, S.. (1995). Increased N-acylphosphatidylethanolamine biosynthesis in elicitor-treated tobacco cells.
  • Chapman, K.D., Lin, I., and Desouza, A.D.. (1995). Metabolism of cottonseed microsomal N-acylphosphatidylethanolamine.
  • Sandoval, J.A., Huang, Z-H., Garrett, D.C., Gage, D.A., and Chapman, K.D.. (1995). N-Acylphosphatidylethanolamine in dry and imbibing cotton (Gossypium hirsutum L.) seeds: amounts, molecular species and enzymatic synthesis.
  • McAndrew, R.S., Leonard, B.P., and Chapman, K.D.. (1995). Photoaffinity labeling of cottonseed microsomal N-acylphosphatidylethanolamine synthase protein with a substrate analogue, 12-[(4-azidosalicyl)amino]dodecanoic acid.
  • Cai, S.J., McAndrew, R.S., Leonard, B.P., Chapman, K.D., and Pidgeon, C.. (1995). Rapid purification of cotton seed membrane-bound N-acylphosphatidylethanolamine synthase by Immobilized Artificial Membrane (IAM) chromatography.
  • Chapman, K.D. and Moore, T.S.,Jr.. (1994). . Isozymes of cottonseed microsomal N-acylphosphatidylethanolamine synthase: Detergent solubilization and electrophoretic separation of active enzymes with different properties.
  • Chapman, K.D. and Moore, T.S.,Jr.. (1993). Catalytic properties of a newly-discovered acyltransferase that synthesizes N-acylphosphatidylethanolamine in cottonseed (Gossypium hirsutum L.) microsomes.
  • Chapman, K.D. and Moore, T.S.,Jr.. (1993). N -acylphosphatidylethanolamine synthesis in plants: occurrence, molecular composition, and phospholipid origin.
  • Chapman, K.D. and Trelease, R.N.. (1992). Characterization of the membrane proteins of enlarging cottonseed glyoxysomes.
  • Chapman, K.D. and Trelease, R.N.. (1991). Acquisition of membrane lipids by differentiating glyoxysomes-- role of lipid bodies.
  • Chapman, K.D. and Trelease, R.N.. (1991). Intracellular localization of phosphatidylcholine and phosphatidylethanolamine synthesis in cotyledons of cotton seedlings.
  • Chapman, K.D. and Trelease, R.N.. (1990). Inhibition of cottonseed choline- and ethanolaminephosphotransferases by calcium during postgerminative growth.
  • Chapman, K.D., Turley, R.B., Trelease, R.N.. (1989). Relationship between cottonseed malate synthase aggregation behavior and suborganellar location in glyoxysomes and endoplasmic reticulum.
  • Magazine/Trade Publication

  • Dyer J, Mullen R, Chapman K. (2012). Oil in biomass: a step-change for bioenergy production?.
  • Chapman KD and Blancaflor EB. (2011). N-Acylethanolamine metabolism in plants?"a regulatory pathway diverged from endocannabinoid signaling in mammals?.
  • Video and Audiovisual Material

  • Wang X, Chapman KD. (2013). Lipid signaling in plants: Introduction to Virtual Book on Plant Lipid Signaling.. Frontiers in Plant Science. 4 216.

Contracts, Grants and Sponsored Research

    Contract

  • Chapman, K.D., "Cotton Transformation Facility," sponsored by Cotton Incorporated, National, $660000 Funded. (2020 - 2025).
  • Chapman, K.D. (Principal), "Elucidating the Cellular Machinery for Lipid Storage in Plants (Renewal; J.Dyer, R. Mullen, coPIs)," sponsored by U.S Department of Energy- Basic Energy Sciences; Physical Biochemistry program (DE-SC0016536), Federal, $790000 Funded. (2019 - 2023).
  • Chapman, K.D., "Enhancing the value of cotton seed," sponsored by Cotton Incorporated, National, $121000 Funded. (2022 - 2022).
  • Chapman, K.D., "Engineering Seed Value in Cotton," sponsored by Cotton Incorporated, National, $115000 Funded. (2021 - 2021).
  • Chapman, K.D. (Principal), "Engineering cotton for enhanced seed value," sponsored by Cotton Incorporated, Private, $115000 Funded. (2020 - 2020).
  • Chapman, K.D. (Principal), Dyer, J.M. (Supporting), "Engineering Lipid Droplet for Increasing Oil Content and Abiotic Stress," sponsored by USDA- ARS Cooperative Agreement (#58-2020-7-019, Federal, $71033 Funded. (2017 - 2020).
  • Chapman, K.D. (Principal), "Genetic Manipulation of Cottonseed Protein Reserves," sponsored by Cotton Incorporated; Agreement No 16-443, Private, $85000 Funded. (2019 - 2019).
  • Chapman, K. (Principal), "Embryogenic Cell Culture Screening System for Herbicide Tolerance," sponsored by BASF Plant Science, Private, $243235 Funded. (2018 - 2019).
  • Chapman, K.D. (Principal), Dyer, J.M. (Supporting), Mullen, R.T. (Co-Principal), "Elucidating the Cellular Machinery for Lipid Storage in Plants (J. Dyer, R.Mullen, Co-PIs)," sponsored by US Department of Energy Basic Energy Sciences- Physical Biochemistry Program (DE-SC0016536), Federal, $650001 Funded. (2016 - 2019).
  • Chapman, K.D. (Principal), Blancaflor, E.B. (Co-Principal), "N-Acylethanolamine (NAE) metabolism and the acquisition of photoautotrophy during seedling establishment (E Blancaflor, Co-PI; original plus 3 renewals)," sponsored by U.S. Department of Energy, BES (DE-FG02-05ER15647), Federal, $360000 Funded. (2014 - 2017).
  • Chapman, K.D. (Principal), Dyer, J.M. (Supporting), "Regulation of Neutral Lipid Metabolism in Plants," sponsored by USDA Agricultural Research Service, Federal, $88862.00 Funded. (2014 - 2017).
  • Chapman, K.D. (Principal), Dyer, J.M. (Co-Principal), Mullen, R.T. (Co-Principal), "Engineering Neutral Lipid Accumulation in Vegetative Tissues of Plant, Robert Mullen, John Dyer (Co-PIs); original and one renewal," sponsored by U.S. Department of Energy, BER (DE-SC0000797), Federal, $600000 Funded. (2012 - 2016).
  • Chapman, K.D., "Cotton Transformation Facility," sponsored by Cotton Incorporated, National, Funded. (2020 - 2022).
  • Chapman, K.D. (Principal), "Elucidating the Cellular Machinery for Lipid Storage in Plants (Renewal; J.Dyer, R. Mullen, coPIs)," sponsored by U.S Department of Energy- Basic Energy Sciences; Physical Biochemistry program (DE-SC0016536), Federal, Funded. (2019 - 2022).
  • Chapman, K.D. (Principal), "Engineering cotton for enhanced seed value," sponsored by Cotton Incorporated, Private, Funded. (2019 - 2019).
  • Chapman, K.D. (Principal), "Genetic Manipulation of Cottonseed Protein Reserves," sponsored by Cotton Incorporated; Agreement No 16-443, Private, Funded. (2018 - 2018).
  • Chapman, K.D. (Principal), Blancaflor, E.B. (Co-Principal), "N-Acylethanolamine (NAE) metabolism and the acquisition of photoautotrophy during seedling establishment (E Blancaflor, Co-PI; original plus 3 renewals)," sponsored by U.S. Department of Energy, BES (DE-FG02-05ER15647), Federal, Funded. (2014 - 2017).
  • Chapman, K.D. (Principal), Dyer, J.M. (Co-Principal), Mullen, R.T. (Co-Principal), "Engineering Neutral Lipid Accumulation in Vegetative Tissues of Plant, Robert Mullen, John Dyer (Co-PIs); original and one renewal," sponsored by U.S. Department of Energy, BER (DE-SC0000797), Federal, Funded. (2012 - 2016).
  • Grant - Research

  • Cai, Y. (Co-Principal), Chapman, K.D. (Principal), "Elucidating the Cellular Machinery for Storage Lipids in Plants.," Federal, $635026 Funded. (2023 - 2026).
  • Alonso, A. (Principal), Chapman, K.D., Grotewold, E., "Functional Analysis of Candidate Genes Involved in Oil Storage and Stability in Pennycress," sponsored by Department of Energy, Federal, $2388847 Funded. (2019 - 2024).
  • Chapman, K.D., Aziz, M., "Fatty acid amide hydrolases and chemical communications in plants.," sponsored by National Science Foundation, Division of Integrative Organismal Systems, Federal, $1013884 Funded. (2021 - 2024).
  • Chapman, K.D. (Principal), Wang, X. (Supporting), "Molecular targets and actions of ethanolamide oxylipins in Arabidopsis thaliana," sponsored by NSF Integrative Organismal Systems (IOS 1656263), Federal, $796365 Funded. (2017 - 2021).
  • Slaughter, L.M. (Principal), Chapman, K.D. (Co-Principal), "Upgrading Plant-Based Biofuels via Metal-Catalyzed Decarboxylation," sponsored by UNT College of Science Collaborative Seed Grant, University of North Texas, $9000 Funded. (2020 - 2020).
  • Chapman, K.D. (Co-Principal), Avni, A. (Principal), "Involvement of N-Acylethanolamine Signaling in Microbial Associated Molecular Pattern (MAMP) Perception, Adi Avni (Tel Aviv University, PI)," sponsored by United States-Israel-Binational Agricultural Research and Development (BARD project no. IS-4312-10, International, $295000 Funded. (2010 - 2014).
  • Aziz, M. (Co-Principal), Chapman, K.D. (Principal), Aziz, M. (Co-Principal), "Fatty Acid Amide Hydrolases and Chemical Communication in Plants," sponsored by National Science Foundation, FED, Funded. (2021 - 2024).
  • Chapman, K.D. (Principal), "The Genetic Transformation of Cotton," sponsored by Cotton Incorporated, NFP, Funded. (2020 - 2022).
  • Chen, F. (Co-Principal), Dixon, R.A. (Principal), "Center for Bioenergy Innovation: Lignin in Planta Design and Diversity," sponsored by UT-Battelle, LLC, IND, Funded. (2017 - 2022).
  • Alonso, A. (Principal), Chapman, K.D. (Principal), "Functional Analysis of Candidate Genes Involved in Oil Storage and Stability in Pennycress," sponsored by U.S. Department of Energy, FED, Funded. (2019 - 2022).
  • Chapman, K.D. (Principal), "Elucidating the Cellular Machinery for Lipid Storage in Plants," sponsored by U.S. Department of Energy, FED, Funded. (2016 - 2022).
  • Chapman, K.D. (Principal), "Engineering Seed Value in Cotton - Strategies to Modify Seed Constituents," sponsored by Cotton Incorporated, NFP, Funded. (2021 - 2021).
  • Chapman, K.D. (Principal), "Molecular Targets and Actions of Ethanolamide-Conjugated Oxylipins in Arabidopsis Thaliana," sponsored by National Science Foundation, FED, Funded. (2017 - 2021).
  • Chapman, K.D. (Principal), "Engineering Seed Value in Cotton - Strategies to Modify Seed Constituents," sponsored by Cotton Incorporated, NFP, Funded. (2020 - 2020).
  • Chapman, K.D. (Principal), "Engineering Lipid Droplets for Increasing Oil Content and Abiotic Stress Tolerance of Plants," sponsored by Agricultural Research Service, FED, Funded. (2017 - 2020).
  • Chapman, K.D. (Principal), "CAREER: Genetic Approach to Identifying Proteins Necessary for Division Plane Orientation During Plant Development," sponsored by National Science Foundation, FED, Funded. (2014 - 2020).
  • Chapman, K.D. (Principal), "Engineering Seed Value in Cotton," sponsored by Cotton Incorporated, NFP, Funded. (2019 - 2019).
  • Chapman, K.D. (Principal), "Embryogenic Cell Culture Screening System for Herbicide Tolerance," sponsored by BASF Plant Science, LP, IND, Funded. (2018 - 2019).
  • Chapman, K.D. (Principal), "Engineering Seed Value in Cotton - Strategies to Modify Seed Protein," sponsored by Cotton Incorporated, NFP, Funded. (2018 - 2018).
  • Chapman, K.D. (Principal), "Engineering Seed Value in Cotton - Strategies to Modify Seed Protein Reserves in Cotton," sponsored by Cotton Incorporated, NFP, Funded. (2017 - 2017).
  • Chapman, K.D. (Principal), "Characterizing Neutral Lipid Compartmentation and its Relationship to Oil Accumulation and Plant Stress Response," sponsored by U.S. Department of Agriculture, FED, Funded. (2016 - 2017).
  • Chapman, K.D. (Principal), "Engineering Seed Value in Cotton-Strategies to Modify Seed Protein Reserves in Cotton," sponsored by Cotton Incorporated, NFP, Funded. (2016 - 2016).
  • Chapman, K.D. (Principal), "Regulation of Neutral Lipid Metabolism in Plants," sponsored by U.S. Department of Agriculture, FED, Funded. (2014 - 2016).
  • Chapman, K.D. (Principal), Thompson, R. (Co-Principal), "Engineering Neutral Lipid Accumulation in Vegetative Tissues of Plants," sponsored by U.S. Department of Energy, FED, Funded. (2009 - 2016).
  • Ayre, B.G. (Principal), "Regulation of Growth Habit in Complex Sympodial Plants: Applying the Tomato Model to Cotton," sponsored by US Israel Binational Agricultural - BARD, NFP, Funded. (2012 - 2016).
  • Chapman, K.D. (Principal), "Engineering Seed Value in Cotton - Strategies to Modify Seed Protein Reserves in Cotton," sponsored by Cotton Incorporated, NFP, Funded. (2015 - 2015).
  • Dzialowski, E.M. (Co-Principal), Chapman, K.D. (Co-Principal), Hughes, L.E. (Principal), Burleson, M. (Co-Principal), Allen, M.S. (Co-Principal), Thompson, R. (Co-Principal), "Undergraduate Science Education 2010 - Core Proposal," sponsored by Howard Hughes Medical Institute, NFP, Funded. (2010 - 2015).
  • Chapman, K.D. (Co-Principal), Avni, A. (Principal), "Involvement of N-Acylethanolamine Signaling in Microbial Associated Molecular Pattern (MAMP) Perception, Adi Avni (Tel Aviv University, PI)," sponsored by United States-Israel-Binational Agricultural Research and Development (BARD project no. IS-4312-10, International, Funded. (2010 - 2014).
  • Grant - Service

  • Chapman, K.D. (Principal), "Intergovernmental Personnel Act (IPA) Award-Kent Chapman," sponsored by National Science Foundation, Federal, $295000 Funded. (2014 - 2015).
  • Chapman, K.D. (Principal), "Intergovernmental Personnel Act (IPA) Award-Kent Chapman," sponsored by National Science Foundation, Federal, Funded. (2014 - 2015).
  • Grant - Teaching

  • Chapman, K.D. (Co-Principal), Hughes, L.E. (Principal), "Undergraduate Science Education 2010- Core Proposal, Lee Hughes (PD), Mike Allen, Bob Benjamin, Mark Burleson, Ed Dzialowski, Rudi Thompson (co-PIs); (Chapman course development in 2013)," sponsored by Howard Hughes Medical Institute (HHMI), Private, $1300000 Funded. (2010 - 2014).
,
Overall
Summative Rating
Challenge and
Engagement Index
Response Rate

out of 5

out of 7
%
of
students responded
  • Overall Summative Rating (median):
    This rating represents the combined responses of students to the four global summative items and is presented to provide an overall index of the class’s quality. Overall summative statements include the following (response options include a Likert scale ranging from 5 = Excellent, 3 = Good, and 1= Very poor):
    • The course as a whole was
    • The course content was
    • The instructor’s contribution to the course was
    • The instructor’s effectiveness in teaching the subject matter was
  • Challenge and Engagement Index:
    This rating combines student responses to several SPOT items relating to how academically challenging students found the course to be and how engaged they were. Challenge and Engagement Index items include the following (response options include a Likert scale ranging from 7 = Much higher, 4 = Average, and 1 = Much lower):
    • Do you expect your grade in this course to be
    • The intellectual challenge presented was
    • The amount of effort you put into this course was
    • The amount of effort to succeed in this course was
    • Your involvement in course (doing assignments, attending classes, etc.) was
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