Hannah Tetreault
Agricultural Genetic Resources Preservation Research
Plant Physiologist
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Publications
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The sorghum (Sorghum bicolor) Brown midrib 30 (Bmr30) gene encodes a chalcone isomerase required for cell wall lignification
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Tetreault, H.M., Gries, T.L., Liu, S., Toy, J.J., Xin, Z., Vermerris, W., Ralph, J., Funnell-Harris, D.L., Sattler, S.E. 2021. The sorghum (Sorghum bicolor) Brown midrib 30 (Bmr30) gene encodes a chalcone isomerase required for cell wall lignification. Frontiers in Plant Biology. 12:1-18. https://doi.org/10.3389/fpls.2021.732307.
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A power analysis for detecting aging of dry-stored soybean seeds: Germination versus RNA integrity assessments
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Tetreault, H.M., Fleming, M.B., Hill, L.M., Dorr, E.J., Yeater, K.M., Richards, C.M., Walters, C.T. 2022. A power analysis for detecting aging of dry-stored soybean seeds: Germination versus RNA integrity assessments. Crop Science. 63(3):1481-1493. https://doi.org/10.1002/csc2.20821.
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Field evaluation of sorghum (Sorghum bicolor) lines that overexpress two monolignol-related genes that alter cell wall composition
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Tetreault, H.M., Oneill, P.M., Toy, J.J., Gries, T.L., Funnell-Harris, D.L., Sattler, S.E. 2020. Field evaluation of sorghum (Sorghum bicolor) lines that overexpress two monolignol-related genes that alter cell wall composition. BioEnergy Research. 13(4)Available:https://link.springer.com/article/10.1007/s12155-020-10218-4. https://doi.org/10.1007/s12155-020-10218-4.
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Bioinformatic extraction of functional genetic diversity from heterogeneous germplasm collecctions for crop improvement
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Reeves, P.A., Tetreault, H.M., Richards, C.M. 2020. Accessing functional genetic diversity in germplasm collections using bioinformatics. Agronomy. 10(4). Article e593. https://doi.org/10.3390/agronomy10040593.
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Overexpression of ferulate 5-hydroxylase increases syringyl units in Sorghum bicolor
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Tetreault, H.M., Gries, T.L., Palmer, N.A., Funnell-Harris, D.L., Sarath, G., Sattler, S.E., Sato, S., Ge, Z. 2020. Overexpression of ferulate 5-hydroxylase increases syringyl units in Sorghum bicolor. Plant Molecular Biology. 103(3):269-285. https://doi.org/10.1007/s11103-020-00991-3.
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Response of sorghum enhanced in monolignol biosynthesis to stalk pathogens
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Funnell-Harris, D.L., Sattler, S.E., O'Neill, P.M., Gries, T.L., Tetreault, H.M., Clemente, T.E. 2019. Response of sorghum enhanced in monolignol biosynthesis to stalk pathogens. Plant Disease. 103(9):2277-2287. https://doi.org/10.1094/PDIS-09-18-1622-RE.
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Global responses of resistant and susceptible sorghum (sorghum bicolor) to sugarcane aphid (melanaphis sacchari)
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Tetreault, H.M., Sajjan, G., Scully, E.D., Gries, T.L., Sattler, S.E., Palmer, N.A., Sarath, G., Louis, J. 2019. Global responses of resistant and susceptible sorghum (sorghum bicolor) to sugarcane aphid (melanaphis sacchari). Frontiers in Plant Science. 10:145.Available: https://doi.org/10.3389/fpls.2019.00145.
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Overexpression of the Sorghum bicolor SbCCoAOMT alters cell wall associated hydroxycinnamoyl groups
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Tetreault, H.M., Scully, E.D., Gries, T.L., Palmer, N.A., Sattler, S.E., Funnell-Harris, D.L., Baird, L., Seravalli, J., Sarath, G., Clemente, T.E. 2018. Over-expression of the sorghum bicolor SbCCoAOMT alters cell wall associated hydroxycinnamoyl moieties. Plant Physiology. 13(10): e0204153. Available: https://doi.org/10.1371/journal.pone.0204153.
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Modifying lignin composition and content of sorghum biomass for improved bioenergy conversion
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