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ARS Home » Midwest Area » Peoria, Illinois » National Center for Agricultural Utilization Research » Renewable Product Technology Research » People & Locations » Trina Hartman

Trina Hartman
Renewable Product Technology Research
Physical Science Technician

Phone: (309) 681-6078
Fax: (309) 681-6040

(Employee information on this page comes from the REE Directory. Please contact your front office staff to update the REE Directory.)


Publications (Clicking on the reprint icon Reprint Icon will take you to the publication reprint.)
Precursor-directed biosynthesis and biological testing of omega-alicyclic- and neo-branched Tunicamycin N-acyl variants Reprint Icon - (Peer Reviewed Journal)
Price, N.P., Jackson, M.A., Hartman, T.M., Bannantine, J.P., Naumann, T.A., Vermillion, K., Koch, A.A., Kennedy, P.D. 2023. Precursor-directed biosynthesis and biological testing of omega-alicyclic- and neo-branched Tunicamycin N-acyl variants. ACS Chemical Biology. https://doi.org/10.1021/acschembio.3c00324.
Branched chain lipid metabolism as a determinant of the N-acyl variation of Streptomyces natural products Reprint Icon - (Peer Reviewed Journal)
Price, N.P., Jackson, M.A., Hartman, T.M., Branden, G., Ek, M., Koch, A., Kennedy, P.D. 2021. Branched chain lipid metabolism as a determinant of the N-acyl variation of Streptomyces natural products. ACS Chemical Biology. 16(1):116-124. https://doi.org/10.1021/acschembio.0c00799.
Exploring the active site of the antibacterial target MraY by modified tunicamycins Reprint Icon - (Peer Reviewed Journal)
Hering, J., Dunevall, E., Snijder, A., Eriksson, P., Jackson, M.A., Hartman, T.M., Ting, R., Chen, H., Price, N.P., Branden, G., Ek, M. 2020. Exploring the active site of the antibacterial target MraY by modified tunicamycins. ACS Chemical Biology. 15(11):2885-2895. https://doi.org/10.1021/acschembio.0c00423.
Rhodium-catalyzed reductive modification of pyrimidine nucleosides, nucleotide phosphates, and sugar nucleotides Reprint Icon - (Peer Reviewed Journal)
Price, N.P., Jackson, M.A., Vermillion, K., Blackburn, J.A., Hartman, T.M. 2019. Rhodium-catalyzed reductive modification of pyrimidine nucleosides, nucleotide phosphates, and sugar nucleotides. Carbohydrate Research. 488. Article 107893. https://doi.org/10.1016/j.carres.2019.107893.
Synergistic enhancement of beta-lactam antibiotics by modified tunicamycin analogs TunR1 and TunR2 Reprint Icon - (Peer Reviewed Journal)
Price, N.J.P., Jackson, M.A., Singh, V., Hartman, T.M., Dowd, P.F., Blackburn, J.A. 2019. Synergistic enhancement of beta-lactam antibiotics by modified tunicamycin analogs TunR1 and TunR2. Journal of Antibiotics. 72(11):807-815. https://doi.org/10.1038/s41429-019-0220-x.
Thiazolidine peracetates: carbohydrate derivatives that readily assign cis-, trans-2,3- monosaccharides by gas chromatography - mass spectrometry analysis Reprint Icon - (Peer Reviewed Journal)
Price, N.P.J., Hartman, T.M., Vermillion, K.E. 2018. Thiazolidine peracetates: carbohydrate derivatives that readily assign cis-, trans-2,3- monosaccharides by gas chromatography - mass spectrometry analysis. Analytical Chemistry. 90(13):8044-8050. doi:10.1021/acs.analchem.8b00976.
Thiazolidine peracetates: Novel carbohydrate derivatives that assign cis-2,3- from trans-2,3- monosaccharides by GC/MS analysis - (Abstract Only)
Price, N.P., Hartman, T.M., Vermillion, K. 2017. Thiazolidine peracetates: Novel carbohydrate derivatives that assign cis-2,3- from trans-2,3- monosaccharides by GC/MS analysis [abstract]. Gordon Research Conference on Carbohydrates: Chemical and Biochemical Approaches to Deciphering Glycan Functions, June 25-30, 2017, West Dover, NH.
Evaluation of carbohydrate-cysteamine thiazolidines as pro-drugs for the treatment of cystinosis Reprint Icon - (Peer Reviewed Journal)
Ramazani, Y., Levtchenko, E.N., Van Den Heuvel, L., Van Schepdael, A., Prasanta, P., Ivanova, E.A., Pastore, A., Hartman, T.M., Price, N.P.J. 2017. Evaluation of carbohydrate-cysteamine thiazolidines as pro-drugs for the treatment of cystinosis. Carbohydrate Research. 439:9-15.
Nickel-catalyzed proton-deuterium exchange (HDX) procedures for glycosidic linkage analysis of complex carbohydrates - (Peer Reviewed Journal)
Price, N.P.J., Hartman, T.M., Vermillion, K.E. 2015. Nickel-catalyzed proton-deuterium exchange (HDX) procedures for glycosidic linkage analysis of complex carbohydrates. Analytical Chemistry. 87(14):7282-7290. doi: 10.1021/acs.analchem.5b01505.
Nickel-catalyzed proton-deuterium exchange (HDX) for linkage analysis of complex carbohydrates - (Abstract Only)
Price, N.P., Hartman, T.M., Vermillion, K. 2015. Nickel-catalyzed proton-deuterium exchange (HDX) for linkage analysis of complex carbohydrates [abstract].
Galactoglucomannan Oligosaccharides (GGMO) from a Molasses Byproduct of Pine (Pinus taeda) Fiberboard Production - (Peer Reviewed Journal)
Price, N.P., Hartman, T.M., Faber, T.A., Vermillion, K., Fahey, Jr., G. 2011. Galactoglucomannan oligosaccharides (GGMO) from a molasses byproduct of pine (Pinus taeda) fiberboard production. Journal of Agricultural and Food Chemistry. 59:1854-1861.
Galactoglucomannan Oligosaccharides (GGMO) from a Molasses Byproduct of Pine (Pinus taeda) Fiberboard Production - (Peer Reviewed Journal)
Price, N.P., Hartman, T.M., Faber, T.A., Vermillion, K., Fahey, Jr., G. 2011. Galactoglucomannan oligosaccharides (GGMO) from a molasses byproduct of pine (Pinus taeda) fiberboard production. Journal of Agricultural and Food Chemistry. 59:1854-1861.