Papers published in conjunction with the Kresovich Lab
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Boatwright et al., 2021: Boatwright, J. L., Brenton, Z. W., Boyles, R. E., Sapkota, S., Myers, M. T., Jordan, K. E., ... & Kresovich, S. (2021). Genetic characterization of a Sorghum bicolor multiparent mapping population emphasizing carbon-partitioning dynamics. G3, 11(4), jkab060.
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Shields et al., 2021: Shields, L., Gang, Y., Jordan, K., Sapkota, S., Boatwright, L., Jiang, X., ... & Boyles, R. (2021). Genome‐wide association studies of antimicrobial activity in global sorghum. Crop Science, 61(2), 1301-1316.
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Sapkota et al., 2020: Sirjan Sapkota, Richard Boyles, Elizabeth Cooper, Zachary Brenton, Matthew Myers, Stephen Kresovich. Impact of sorghum racial structure and diversity on genomic prediction of grain yield components. Crop Science. 60(1), 132-148.
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Sapkota et al., 2020: Sapkota, S., Boatwright, J. L., Jordan, K., Boyles, R., & Kresovich, S. (2020). Multi-trait regressor stacking increased genomic prediction accuracy of sorghum grain composition. Agronomy, 10(9), 1221
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Sapkota et al., 2020: Sapkota, S., Boatwright, J. L., Jordan, K., Boyles, R., & Kresovich, S. (2020). Identification of Novel Genomic Associations and Gene Candidates for Grain Starch Content in Sorghum. Genes, 11(12), 1448.
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Boyes et al., 2019: Boyles RE, Brenton ZW, Kresovich S. Genetic and genomic resources of sorghum to connect genotype with phenotype in contrasting environments. The Plant Journal. 2019 Jan;97(1):19-39.
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Cooper et al., 2019 Cooper EA, Brenton ZW, Flinn BS, Jenkins J, Shu S, Flowers D, Luo F, Wang Y, Xia P, Barry K, Daum C. A new reference genome for Sorghum bicolor reveals high levels of sequence similarity between sweet and grain genotypes: implications for the genetics of sugar metabolism. BMC genomics. 2019 Dec;20(1):420. CODE
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Garris et al., 2019: Garris AJ, Casa AM, Kresovich S. Molecular technologies and their role in maintaining and utilizing genetic resources. InEncyclopedia of Plant and Crop Science (Print) 2019 Jul 17 (pp. 757-759). Routledge.
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Sheflin et al., 2019: Sheflin AM, Chiniquy D, Yuan C, Goren E, Kumar I, Braud M, Brutnell T, Eveland AL, Tringe S, Liu P, Kresovich S. Metabolomics of sorghum roots during nitrogen stress reveals compromised metabolic capacity for salicylic acid biosynthesis. Plant Direct. 2019 Mar;3(3):e00122.
- Cooper and Kresovich, 2018: Cooper EA, Kresovich S. The comparative and evolutionary genomics of sorghum. InAchieving sustainable cultivation of sorghum Volume 1 2018 Jul 6 (pp. 87-102). Burleigh Dodds Science Publishing.
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Boyles et al., 2017: Boyles RE, Pfieffer BK, Cooper EA, Zielinski KJ, Myers MT, Rooney WL, Kresovich S. Quantitative trait loci mapping of agronomic and yield traits in two grain sorghum biparental families. Crop Science. 2017;57(5):2443-56. CODE
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Boyles et al., 2017: Boyles RE, Pfeiffer BK, Cooper EA, Rauh BL, Zielinski KJ, Myers MT, Brenton Z, Rooney WL, Kresovich S. Genetic dissection of sorghum grain quality traits using diverse and segregating populations. Theoretical and applied genetics. 2017 Apr 1;130(4):697-716. CODE
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Rhodes et al., 2017: Rhodes DH, Hoffmann L, Rooney WL, Herald TJ, Bean S, Boyles R, Brenton ZW, Kresovich S. Genetic architecture of kernel composition in global sorghum germplasm. BMC genomics. 2017 Dec;18(1):15.
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Boyles et al., 2016: Boyles RE, Cooper EA, Myers MT, Brenton Z, Rauh BL, Morris GP, Kresovich S. Genome-wide association studies of grain yield components in diverse sorghum germplasm. The plant genome. 2016 Jul 1;9(2). CODE
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Brenton et al., 2016: Brenton ZW, Cooper EA, Myers MT, Boyles RE, Shakoor N, Zielinski KJ, Rauh BL, Bridges WC, Morris GP, Kresovich S. A genomic resource for the development, improvement, and exploitation of sorghum for bioenergy. Genetics. 2016 Sep 1;204(1):21-33. CODE