Jacob Washburn
Plant Genetics Research
Research Geneticist
Phone: (573) 882-4305
Fax:
(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
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Halophytes and heavy metals: a multi-omics approach to understand the role of gene and genome duplication in abiotic stress tolerance of Cakile maritima
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Thomas, S.K., Vanden Hoek, K., Ogoti, T., Duong, H., Angelovici, R., Pires, C.J., Mendoza-Cozatl, D., Washburn, J.D., Schenck, C.A. 2024. Halophytes and heavy metals: a multi-omics approach to understand the role of gene and genome duplication in abiotic stress tolerance of Cakile maritima. American Journal of Botany. 111. Article e16310. https://doi.org/10.1002/ajb2.16310.
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Deciphering temporal growth patterns in maize: integrative modeling of phenotype dynamics and underlying genomic variations
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Adak, A., Murray, S.C., Washburn, J.D. 2024. Deciphering temporal growth patterns in maize: integrative modeling of phenotype dynamics and underlying genomic variations. New Phytologist. 242:121-136. https://doi.org/10.1111/nph.19575.
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Leveraging data from the genomes-to-fields initiative to investigate genotype-by-environment interactions in maize in North America
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Lopez-Cruz, M., Aguate, F.M., Washburn, J.D., De Leon Gatti, N., Kaeppler, S.M., Lima, D., Tan, R., Thompson, A., De La Bretonne, L.W., De Los Campos, G. 2023. Leveraging data from the genomes-to-fields initiative to investigate genotype-by-environment interactions in maize in North America. Nature Communications. 14. Article 6904. https://doi.org/10.1038/s41467-023-42687-4.
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Ensemble of best linear unbiased predictor, machine learning and deep learning models predict maize yield better than each model alone
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Kick, D.R., Washburn, J.D. 2023. Ensemble of best linear unbiased predictor, machine learning and deep learning models predict maize yield better than each model alone. in silico Plants. 5(2). Article diad015. https://doi.org/10.1093/insilicoplants/diad015.
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GWAS analysis of maize host plant resistance to western corn rootworm (Coleoptera: Chrysomelidae) reveals candidate small effect loci for resistance breeding
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Washburn, J.D., LaFond, H.F., Lapadatescu, M.C., Pereira, A.E., Erb, M., Hibbard, B.E. 2023. GWAS analysis of maize host plant resistance to western corn rootworm (Coleoptera: Chrysomelidae) reveals candidate small effect loci for resistance breeding. Journal of Economic Entomology. 116(6):2184–2192. https://doi.org/10.1093/jee/toad181.
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Synthetically labeled images for maize plant detection in UAS images
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Piyush, P., Best, N.B., Washburn, J.D. 2023. Synthetically labeled images for maize plant detection in UAS images. In: Bebis, G., et al. Advances in Visual Computing. ISVC 2023. Lecture Notes in Computer Science, vol 14361. Springer, Cham. p. 543–556.
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Genomes to fields 2022 maize genotype by environment prediction competition
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Lima, D.C., Washburn, J.D., Varela, J.I., Chen, Q., Gage, J.L., Romay, M.C., Holland, J.B., Ertl, D., Lopez-Cruz, M., Aguate, F.M., De Los Campos, G., Kaeppler, S., Beissinger, T., Bohn, M., Buckler IV, E.S., Edwards, J.W., Flint Garcia, S.A., Gore, M.A., Hirsch, C.N., Knoll, J.E., Mckay, J., Minyo, R., Murray, S.C., Ortez, O.A., Schnable, J., Sekhon, R.S., Singh, M.P., Sparks, E.E., Thompson, A., Tuinstra, M., Wallace, J., Weldekidan, T., Xu, W., De Leon, N. 2023. Genomes to fields 2022 maize genotype by environment prediction competition. BMC Research Notes. 16: Article 148. https://doi.org/10.1186/s13104-023-06421-z.
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2018-2019 field seasons of the maize genomes to fields (G2F) G x E project
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Lima, D., Castro Aviles, A., Alpers, T., Mcfarlan, B., Kaeppler, S., Ertl, D., Romay, C., Gage, J., Holland, J.B., Beissinger, T., Bohn, M., Buckler, E., Edwards, J., Flint-Garcia, S., Hirsch, C., Hood, E., Hooker, D., Knoll, J., Kolkman, J., Liu, S., Mckay, J., Minyo, R., Moreta, D.E., Murray, S., Nelson, R., Schnable, J., Sekhon, R., Singh, M., Thomison, P., Thompson, A., Tuinstra, M., Wallace, J., Washburn, J.D., Weldekidan, T., Wisser, R., Xu, W. 2023. 2018-2019 field seasons of the maize genomes to fields (G2F) G x E project. BMC Genomic Data. 24:29. https://doi.org/10.1186/s12863-023-01129-2.
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RootBot: high-throughput root stress phenotyping robot
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Ruppel, M., Nelson, S., Sidberry, G., Mitchell, M., Kick, D.R., Thomas, S., Guill, K., Oliver, M., Washburn, J.D. 2023. RootBot: high-throughput root stress phenotyping robot. Applications in Plant Sciences. 11(6): Article e11541. https://doi.org/10.1002/aps3.11541.
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Ensemble of BLUP, machine learning, and deep learning models predict maize yield better than each model alone
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Kick, D.R., Washburn, J.D. 2023. Ensemble of BLUP, machine learning, and deep learning models predict maize yield better than each model alone. bioRxiv. Article bioRxiv 2023.03.30.532932. https://doi.org/10.1101/2023.03.30.532932.
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Inclusive collaboration across plant physiology and genomics: now is the time!
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Baxter, I., Ainsworth, E.A., Brooks, M.D., Castano-Duque, L.M., Londo, J.P., Washburn, J.D., McElrone, A.J., Coyne, C.J., et al. 2023. Inclusive collaboration across plant physiology and genomics: now is the time! Plant Direct. 7(5). Article e493. https://doi.org/10.1002/pld3.493.
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Enhancing the resilience of plant systems to climate change
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Braun, D., Washburn, J.D., Wood, J.D. 2023. Enhancing the resilience of plant systems to climate change. Journal of Experimental Botany. 74(9): 2787-2789. https://doi.org/10.1093/jxb/erad090.
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Yield prediction through integration of genetic, environment, and management data through deep learning
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Kick, D.R., Wallace, J.G., Schnable, J.C., Kolkmann, J.M., Alaca, B., Beissinger, T.M., Edwards, J.W., Ertl, D., Flint-Garcia, S.A., Gage, J.L., Hirsch, C.N., Knoll, J.E., de Leon, N., Lima, D.C., Moreta, D., Singh, M.P., Thompson, A., Weldekidan, T., Washburn, J.D. 2023. Yield prediction through integration of genetic, environment, and management data through deep learning. G3, Genes/Genomes/Genetics. 13(4). Article jkad006. https://doi.org/10.1093/g3journal/jkad006.
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Yield prediction through integration of genetic, environment, and management data through deep learning
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Kick, D.R., Wallace, J.G., Schnable, J.C., Kolkmann, J.M., Boris, A., Beissinger, T.M., Irtl, D., Flint Garcia, S.A., Gage, J.L., Hirsch, C.N., Knoll, J.E., De Leon, N., Lima, D.C., Moreta, D., Singh, M.P., Weldekidan, T., Washburn, J.D. 2022. Yield prediction through integration of genetic, environment, and management data through deep learning. bioRxiv. Article bioRxiv 2022.07.29.502051. https://doi.org/10.1101/2022.07.29.502051.
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Distinct C4 sub-types and C3 bundle sheath isolation in the Paniceae grasses
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Washburn, J.D., Strable, J., Dickinson, P., Kothapalli, S.S., Brose, J.M., Covshoff, S., Conant, G.C., Hibberd, J.M., Pires, C.J. 2021. Distinct C4 sub-types and C3 bundle sheath isolation in the Paniceae grasses. Plant Direct. 5(12): Article e373. https://doi.org/10.1002/pld3.373.
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Trait association and prediction through integrative K-mer analysis
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He, C., Washburn, J.D., Hao, Y., Zhang, Z., Yang, J., Liu, S. 2021. Trait association and prediction through integrative K-mer analysis. bioRxiv. https://doi.org/10.1101/2021.11.17.468725.
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Predicting phenotypes from genetic, environment, management, and historical data using CNNs
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Washburn, J.D., Cimen, E., Ramstein, G., Reeves, T., O'Briant, P., McLean, G., Cooper, M., Hammer, G., Buckler IV, E.S. 2021. Predicting phenotypes from genetic, environment, management, and historical data using CNNs. Theoretical and Applied Genetics. 134:3997–4011. https://doi.org/10.1007/s00122-021-03943-7.
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The contributions from the progenitor genomes of the mesopolyploid brassiceae are evolutionarily distinct but functionally compatible
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Hao, Y., Mabry, M.E., Edger, P.P., Freeling, M., Zheng, C., Jin, L., VanBuren, R., Colle, M., An, H., Abrahams, R.S., Washburn, J.D., Qi, X., Barry, K., Daum, C., Shu, S., Schmutz, J., Sankoff, D., Barker, M.S., Lyons, E., Pires, C.J., Conant, G.C. 2021. The contributions from the progenitor genomes of the mesopolyploid brassiceae are evolutionarily distinct but functionally compatible. Genome Research. 31(5):799-810. https://doi.org/10.1101/gr.270033.120.
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Cytogenetics and fertility of an induced tetraploid Sorghum bicolor x S. propinquum hybrid
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Porter, N.T., Burson, B.L., Washburn, J.D., Klein, R.R., Jessup, R.W. 2021. Cytogenetics and fertility of an induced tetraploid Sorghum bicolor x S. propinquum hybrid. Crop Science. 61(3):1881-1889. https://doi.org/10.1002/csc2.20482.
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Phylogeny and multiple independent whole-genome duplication events in the brassicales
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Mabry, M.E., Brose, J.M., Blischak, P.D., Sutherland, B., Dismukes, W.T., Bottoms, C.A., Edger, P.P., Washburn, J.D., An, H., Hall, J.C., McKain, M.R., Al-Shehbaz, I., Barker, M.S., Schranz, E.M., Conant, G.C., Pires, C.J. 2020. Phylogeny and multiple independent whole-genome duplication events in the brassicales. American Journal of Botany. 107(8):1148-1164. https://doi.org/10.1002/ajb2.1514.
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