Rouf Mian
Research Leader
Publications
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Registration of high oleic, low linolenic and high meal protein conventional soybean germplasm USDA-N6007HOLL
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(Peer Reviewed Journal)
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Influence of extruded soybean meal with different fat contents and varying oleic acid content on floating fish feed quality and composition
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Single- and multiple-trait quantitative trait locus analysis for seed oil and protein contents of soybean populations with advanced breeding line background
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(Peer Reviewed Journal)
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Effects of full-fat high-oleic soybean meal in layer diets on performance, egg quality and chemical composition
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(Peer Reviewed Journal)
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Registration of high yielding high-protein soybean germplasm USDA-N7007 derived from wild soybean PI 366122
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(Peer Reviewed Journal)
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Fallen, B.D., Mian, R.M., Robertson, M.H., Taliercio, E.W., Carter, T.E. 2024. Registration of high yielding high-protein soybean germplasm USDA-N7007 derived from wild soybean PI 366122. Journal of Plant Registrations. https://doi.org/10.1002/plr2.20383.
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Registration of R18-14147: A high-protein conventional soybean germplasm line
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(Peer Reviewed Journal)
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Mining exotic germplasm for genetic improvement of protein quantity and quality in soybean (glycine max)
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(Peer Reviewed Journal)
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Souza, R., Buckley, B., Mian, R.M., Li, Z. 2024. Mining exotic germplasm for genetic improvement of protein quantity and quality in soybean (glycine max). Plant Breeding. https://doi.org/10.1111/pbr.13165.
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Soybean test weight in relation to genotype, environment, and genotype x environment interaction in the Southern United States
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(Peer Reviewed Journal)
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Koebernick, J., Gillen, A.M., Fett, R.A., Sejal, P.J., Fallen, B.D., Pantalone, V., Shannon, G., Li, Z., Scaboo, A., Schapaugh, W., Mian, R.M., Read, Q.D. 2024. Soybean test weight in relation to genotype, environment, and genotype x environment interaction in the Southern United States. Agronomy Journal. 116:1265-1274. https://doi.org/10.1002/agj2.21551.
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Influence of extruded soybean meal with varying fat and oleic acid content on nitrogen-corrected apparent metabolizable energy in broilers
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(Peer Reviewed Journal)
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Ali, M., Joseph, M., Alfaro-Wisaquillo, M., Quintana-Ospina, G., Peñuela-Sierra, L., Patino, D., Vu, T.C., Mian, R.M., Toomer, O.T., Oviedo-Rondon, E. 2024. Influence of extruded soybean meal with varying fat and oleic acid content on nitrogen-corrected apparent metabolizable energy in broilers. Poultry Science. 103(3):103408. https://doi.org/10.1016/j.psj.2023.103408.
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Effects of high oleic full-fat soybean meal on broiler live performance, carcass and parts yield, and fatty acid composition of breast fillets
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(Peer Reviewed Journal)
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Muhammad, A., Joseph, M., Alfaro-Wisaquillo, M., Quintana-Ospina, G., Patino, D., Vu, T.C., Dean, L.L., Fallen, B.D., Mian, R.M., Taliercio, E.W., Toomer, O.T., Oviedo-Rondon, E. 2024. Effects of high oleic full-fat soybean meal on broiler live performance, carcass and parts yield, and fatty acid composition of breast fillets. Poultry Science. 103(3):103399. https://doi.org/10.1016/j.psj.2023.103399.
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Registration of USDA-N6006 germplasm combining high yield, flood tolerance, and elevated oil content
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(Peer Reviewed Journal)
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Mian, R.M., Cunicelli, M., Carter, T., Villagarcia, M.R., Fallen, B.D. 2024. Registration of USDA-N6006 germplasm combining high yield, flood tolerance, and elevated oil content. Journal of Plant Registrations. http://doi.org/10.1002/plr2.20358.
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Identification of high-yielding soybean lines with exceptional seed composition qualities
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(Peer Reviewed Journal)
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Gillenwater, J., Mian, R.M., Cunicelli, M.J., Mcneece, B., Taliercio, E.W. 2023. Identification of high-yielding soybean lines with exceptional seed composition qualities. Crops. 3(4), 333-342. https://doi.org/10.3390/crops3040029.
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Introgression of a Danbaekkong high protein allele across different genetic backgrounds in soybean
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(Peer Reviewed Journal)
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Soybean genetics, genomics, and breeding for improving nutritional value and reducing antinutritional traits in food and feed
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(Peer Reviewed Journal)
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Singer, W.M., Lee, Y., Cunicelli, M.J., Vieira, C.C., Lee, D., Shea, Z., Li, X., Khan, M.A., Khadam, S.S., Shanno, G., Mian, R.M., Nguyen, H.T., Zhang, B. 2023. Soybean genetics, genomics, and breeding for improving nutritional value and reducing antinutritional traits in food and feed. The Plant Genome. https://doi.org/10.1002/tpg2.20415.
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Evaluating the response of Glycine soja accessions to fungal pathogen Macrophomina phaseolina during seedling growth
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(Peer Reviewed Journal)
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Jacquet, S., Li, S., Mian, R.M., Kassem, M., Rashad, L., Veria, S., Reta, F., Reta, J., Okunbor, D., Yuan, J. 2023. Evaluating the response of Glycine soja accessions to fungal pathogen Macrophomina phaseolina during seedling growth. Plants. 12:3807. https://doi.org/10.3390/plants12223807.
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Genomic analysis and characterization of new loci associated with seed protein and oil content in soybeans
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(Peer Reviewed Journal)
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Vuong, T.D., Florez-Palacios, L., Mozzoni, L., Clubb, M., Quigley, C.V., Song, Q., Kamad, S., Yuan, A., Chan, T., Mian, R.M., Nguyen, H. 2023. Genomic analysis and characterization of new loci associated with seed protein and oil content in soybeans. The Plant Genome. (16)4. Article e20400. https://doi.org/10.1002/tpg2.20400.
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Standardized ileal amino acid digestibility of high-oleic full-fat soybean meal in broilers
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(Peer Reviewed Journal)
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Ali, M., Joseph, M., Alfaro-Wisaquillo, M., Quintana-Ospina, G., Patino, D., Penuela-Sierra, L., Vu, T.C., Mian, R.M., Taliercio, E.W., Toomer, O.T., Oviedo-Rondon, E. 2023. Standardized ileal amino acid digestibility of high-oleic full-fat soybean meal in broilers. Poultry Science. 102(12):103152. https://doi.org/10.1016/j.psj.2023.103152.
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Registration of USDA-N7006 soybean germplasm with increased tolerance to drought stress and 37.5% pedigree from Asian accessions PI 416937 and PI 407859-2
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(Peer Reviewed Journal)
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Mian, R.M., Robertson, M.H., Powell, E., Carter, T., Fallen, B.D. 2023. Registration of USDA-N7006 soybean germplasm with increased tolerance to drought stress and 37.5% pedigree from Asian accessions PI 416937 and PI 407859-2. Journal of Plant Registrations. https://doi.org/10.1002/plr2.20323.
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Selecting recombinants to stack high protein with high oleic acid and low linolenic acid in soybean (glycine max)
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(Peer Reviewed Journal)
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Mcdonald, S.C., Bilyeu, K.D., Koebernick, J., Buckley, B., Fallen, B.D., Mian, R.M., Li, Z. 2023. Selecting recombinants to stack high protein with high oleic acid and low linolenic acid in soybean (glycine max). Plant Breeding. 142(4):477-488. https://doi.org/10.1111/pbr.13102.
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Registration of high yielding maturity group V germplasm USDA-N5001 with high seed and meal protein contents
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(Peer Reviewed Journal)
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Mian, R.M., Cunicelli, M.J., Carter, T., Villagarcia, M.R., Fallen, B.D. 2023. Registration of high yielding maturity group V germplasm USDA-N5001 with high seed and meal protein contents. Journal of Plant Registrations. https://doi.org/10.1002/plr2.20306.
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A chromosome 16 deletion conferring a high sucrose phenotype in soybean
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(Peer Reviewed Journal)
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Ostezan, A., Prenger, E., Rosso, L., Zhang, B., Stupar, R., Glenn, T., Mian, R.M., Li, Z. 2023. A chromosome 16 deletion conferring a high sucrose phenotype in soybean. Journal of Theoretical and Applied Genetics. https://doi.org/10.1007/s00122-023-04354-6.
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Current agronomic practices, harvest & post-harvest processing of soybeans (Glycine max)- A review
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Toomer, O.T., Oviedo, E.R., Muhammad, A., Patino, D., Joseph, M., Frinsko, M., Vu, T.C., Maharjan, P., Fallen, B.D., Mian, R.M. 2023. Current agronomic practices, harvest & post-harvest processing of soybeans (Glycine max)- A review. Agronomy Journal. 13(2):427. https://doi.org/10.3390/agronomy13020427.
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Effects of full-fat high-oleic soybean meal in layer diets on nutrient digestibility and egg quality parameters of a white laying hen strain
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(Peer Reviewed Journal)
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Maharjan, P., Rahimi, A., Harding, K.L., Vu, T.C., Malheiros, R., Oviedo, E.R., Mian, R.M., Joseph, M., Dean, L.L., Anderson, K.E., Toomer, O.T. 2023. Effects of full-fat high-oleic soybean meal in layer diets on nutrient digestibility and egg quality parameters of a white laying hen strain. Poultry Science. 102:102486. https://doi.org/10.1016/j.psj.2023.102486.
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Identification of candidate genes for a major quantitative disease resistance locus from soybean PI 427105B for resistance to phytophthora sojae
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(Peer Reviewed Journal)
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Karhoff, S., Vargas-Garcia, C., Lee, S., Mian, R.M., Graham, M.A., Dorrance, A., McHale, L. 2022. Identification of candidate genes for a major quantitative disease resistance locus from soybean PI 427105B for resistance to phytophthora sojae. Frontiers in Plant Science. 13. Article 893652.
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Genome-wide association study and genomic selection for proteinogenic methionine in soybean seeds
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(Peer Reviewed Journal)
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Singer, W.M., Shea, Z., Yu, D., Huang, H., Mian, R.M., Rosso, M.L., Song, Q., Zhang, B. 2022. Genome-wide association study and genomic selection for proteinogenic methionine in soybean seeds. Frontiers in Plant Science. https://doi.org/10.3389/fpls.2022.859109.
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Genotype imputation for soybean nested association mapping population to improve precision of QTL detection
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(Peer Reviewed Journal)
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Chen, L., Yang, S., Araya, S., Quigley, C.V., Taliercio, E.W., Mian, R.M., Specht, J., Diers, B., Song, Q. 2022. Genotype imputation for soybean nested association mapping population to improve precision of QTL detection. Theoretical and Applied Genetics. 135(5), pp.1797-1810. https://doi.org/10.1007/s00122-022-04070-7.
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Genetics of seed protein and oil inherited from ‘BARC-7’ soybean in two F2-derived breeding populations
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(Peer Reviewed Journal)
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Ravelombola, F., Chen, P., Vuong, T., Nguyen, H., Mian, R.M., Acuña, A., Florez-Palacios, L., Harrison, D., Deoliveira, M., Winter, J., Ford, M., Dasilva, M., Mozzoni, L. 2022. Genetics of seed protein and oil inherited from ‘BARC-7’ soybean in two F2-derived breeding populations. Journal of Crop Improvement. https://doi.org/10.1080/15427528.2022.2033373.
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Registration of USDA-N7005 soybean germplasm with high yield and 62.5% pedigree from Japanese accessions Tamahikari and PI 416937
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(Peer Reviewed Journal)
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Bagherzadi, L., Fallen, B.D., Gillen, A.M., Mcneece, B.T., Mian, R.M., Song, Q., Taliercio, E.W., Zenglu, L., Carter, T. 2022. Registration of USDA-N7005 soybean germplasm with high yield and 62.5% pedigree from Japanese accessions Tamahikari and PI 416937. Journal of Plant Registrations. https://doi.org/10.1002/plr2.20209.
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Registration of ‘G11-7013’ soybean germplasm with a diverse pedigree, resistance to soybean cyst nematode and southern root-knot nematode, and high meal protein
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(Peer Reviewed Journal)
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Li, Z., Bachleda, N., Buck, J., Carter Jr, T.E., Buckley, B., Mian, R.M., Fallen, B.D., Mitchum, M., Boerma, R. 2022. Registration of ‘G11-7013’ soybean germplasm with a diverse pedigree, resistance to soybean cyst nematode and southern root-knot nematode, and high meal protein. Journal of Plant Registrations. https://doi.org/10.1002/plr2.20204.
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QTL mapping of seed quality traits in two recombinant inbred line soybean populations
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(Peer Reviewed Journal)
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Gillenwater, J., Mcneece, B.T., Mian, R.M., Taliercio, E.W. 2021. QTL mapping of seed quality traits in two recombinant inbred line soybean populations. Journal of Crop Improvement. https://doi.org/10.1080/15427528.2021.1985028.
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Mining QTL for elevated protein and other major seed composition traits from diverse soybean germplasm
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(Peer Reviewed Journal)
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Arnold, B., Menke, E., Mian, R.M., Song, Q., Buckley, B., Li, Z. 2021. Mining QTL for elevated protein and other major seed composition traits from diverse soybean germplasm. Molecular Breeding. https://doi.org/10.1007/s11032-021-01242-z.
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Assessment of soybean test weight among genotypes, environments, agronomic and seed compositional traits
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(Peer Reviewed Journal)
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McNeece, B.T., Gillenwater, J., Li, Z., Mian, R.M. 2021. Assessment of soybean test weight among genotypes, environments, agronomic and seed compositional traits. Agronomy Journal. https://doi.org/10.1002/agj2.20665.
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Registration of USDA-N6005 germplasm combining high yield, elevated protein and 25% pedigree from Japanese cultivar Tamahikari
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(Peer Reviewed Journal)
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Mian, R.M., Mcneece, B.T., Gillen, A.M., Carter Jr, T.E., Bagherzadi, L. 2021. Registration of USDA-N6005 germplasm combining high yield, elevated protein and 25% pedigree from Japanese cultivar Tamahikari. Journal of Plant Registrations. https://doi.org/10.1002/plr2.20139.
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Identification of SNP markers associated with soybean fatty acids contents by genome-wide association analyses
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(Peer Reviewed Journal)
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Sung, M., Van, K., Lee, S., Mchale, L.K., Nelson, R., La Mantia, J.M., Taliercio, E.W., Mian, R.M. 2021. Identification of SNP markers associated with soybean fatty acids contents by genome-wide association analyses. Molecular Breeding. https://doi.org/10.1007/s11032-021-01216-1.
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Characterizing resistance to soybean aphid (Hemiptera: Aphididae): antibiosis and antixenosis assessment
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(Peer Reviewed Journal)
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Bansal, R., Mian, R.M., Michel, A. 2021. Characterizing resistance to soybean aphid (Hemiptera: Aphididae): antibiosis and antixenosis assessment. Journal of Economic Entomology. 114(3):1329-1335. https://doi.org/10.1093/jee/toab038.
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Workflow for the quantification of soluble and insoluble carbohydrates in soybean seeds
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(Peer Reviewed Journal)
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Moretti, A., Arias, C.L., Mozzoni, L.A., Chen, P., Mcneece, B.T., Mian, R.M., Mchale, L.K., Alonso, A.P. 2020. Workflow for the quantification of soluble and insoluble carbohydrates in soybean seeds. Molecules. https://doi.org/10.3390/molecules25173806.
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Mechanisms of soybean host plant resistance against Megacopta cribraria (F.) (Hemiptera: Plataspidae)
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(Peer Reviewed Journal)
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Lahiri, S., Reisig, D.D., Dean, L.L., Reay-Jones, F.P., Greene, J.K., Carter Jr, T.E., Mian, R.M., Fallen, B.D. 2020. Mechanisms of soybean host plant resistance against Megacopta cribraria (F.) (Hemiptera: Plataspidae). Environmental Entomology. https://doi.org/10.1093/ee/nvaa075.
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Registration of USDA-N7004 soybean germplasm with good yield, elevated seed protein and 25% exotic pedigree from Tamahikari
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(Peer Reviewed Journal)
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Mcneece, B.T., Bagherzadi, L., Carter Jr, T.E., Mian, R.M. 2020. Registration of USDA-N7004 soybean germplasm with good yield, elevated seed protein and 25% exotic pedigree from Tamahikari. Journal of Plant Registrations. https://doi.org/10.1002/plr2.20039.
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Registration of USDA-N6004 Soybean Germplasm Derived from Japanese Cultivar Blue Side
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(Peer Reviewed Journal)
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Bagherzadi, L., Gillen, A.M., Mcneece, B.T., Mian, R.M., and Carter Jr, T.E. 2020. Registration of USDA-N6004 Soybean Germplasm Derived from Japanese Cultivar Blue Side. Journal of Plant Registrations. https://doi.org/10.1002/plr2.20064.
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Soybean host plant resistance to Megacopta cribraria (F.) (Hemiptera: Plataspidae) and the potential role of leaf trichome density
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(Peer Reviewed Journal)
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Lahiri, S., Reisig, D.D., Reay-Jones, F.P., Greene, J.K., Carter Jr, T.E., Mian, R.M., Fallen, B.D. 2020. Soybean host plant resistance to Megacopta cribraria (F.) (Hemiptera: Plataspidae) and the potential role of leaf trichome density. Environmental Entomology. XX(XX), 2020, 1–10. https://doi.org/10.1093/ee/nvz158.
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Soybean amino acids in health, genetics, and evaluation
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Singer, W., Zhang, B., Mian, R.M. 2019. Soybean amino acids in health, genetics, and evaluation. Intech. https://doi.org/10.5772/intechopen.89497.
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Impact of genotype, seed composition, agronomic trait and environment on soybean test weight
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(Peer Reviewed Journal)
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Liu, L., Prenger, E.M., Zhang, J., Little, B., Mian, R.M., Li, Z. 2019. Impact of genotype, seed composition, agronomic trait and environment on soybean test weight. Journal of Crop Improvement. 33:6, 711-729. https://doi.org/10.1080/15427528.2019.1659205.
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Introgression of a high protein allele into an elite soybean variety results in a high-protein near-isogenic line with yield parity
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(Peer Reviewed Journal)
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Prenger, E.M., Mian, R.M., Buckley, B., Li, Z. 2019. Introgression of a high protein allele into an elite soybean variety results in a high-protein near-isogenic line with yield parity. Crop Science. 59:2498-2508.
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Identification and characterization of fast-neutron induced mutants with elevated seed protein content in soybean
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(Peer Reviewed Journal)
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Prenger, E.M., Ostezan, A., Mian, R.M., Stupar, R.M., Glen, T., Li, Z. 2019. Identification and characterization of fast-neutron induced mutants with elevated seed protein content in soybean. Theoretical and Applied Genetics. https://doi.org/10.1007/s00122-019-03399-w.
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Effect of a mutant Danbaekkong allele on soybean seed yield, protein, and oil concentration and amino acid composition
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(Peer Reviewed Journal)
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Cunicelli, M.J., Bhandari, H.S., Chen, P., Sams, C.E., Mian, R.M., Mozzoni, L.A., Smallwood, C.J., Pantalone, V.R. 2019. Effect of a mutant Danbaekkong allele on soybean seed yield, protein, and oil concentration and amino acid composition. Journal of the American Oil Chemists' Society. https://doi.org/10.1002/aocs.12261.
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Registration of USDA-N6003LP soybean germplasm with low seed phytate
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(Peer Reviewed Journal)
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Lee, S., Sung, M., Locke, A.M., Taliercio, E.W., Whetten, R.B., Zhang, B., Carter Jr, T.E., Burton, J., Mian, R.M. 2019. Registration of USDA-N6003LP soybean germplasm with low seed phytate. Journal of Plant Registrations. https://doi.org/10.3198/jpr2018.09.0064crg.
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Hybrid genome assembly of a major quantitative disease resistance locus in soybean toward fusarium graminearum
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(Peer Reviewed Journal)
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Gedling, C., Wijeratne, S., Cassone, B., Lee, S., Mian, R.M., Mchale, L., Dorrance, A. 2019. Hybrid genome assembly of a major quantitative disease resistance locus in soybean toward fusarium graminearum. The Plant Genome. 12:1-17.
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Genetic mapping of soybean aphid biotype 3 and 4 resistance in PI 606390A
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(Peer Reviewed Journal)
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La Mantia, J.M., Mian, R.M., Redinbaugh, M.G. 2019. Genetic mapping of soybean aphid biotype 3 and 4 resistance in PI 606390A. Molecular Breeding. 39:53. https://doi.org/10.1007/s11032-019-0956-9.
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Phenotypic characterization of a major quantitative disease resistance locus for partial resistance to phytophthora sojae
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(Peer Reviewed Journal)
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Stephanie, K., Lee, S., Mian, R.M., Ralston, T., Niblack, T., Dorrance, A., McHale, L. 2019. Phenotypic characterization of a major quantitative disease resistance locus for partial resistance to phytophthora sojae. Crop Science. 59:968–980. https://doi.org/10.2135/cropsci2018.08.0514.
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Genome-wide association study of seed protein, oil, and amino acid contents in soybean from maturity groups I to IV
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(Peer Reviewed Journal)
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Lee, S., Van, K., Sung, M., McHale, L., Nelson, R.L., La Mantia, J.M., Mian, R.M. 2019. Genome-wide association study of seed protein, oil, and amino acid contents in soybean from maturity groups I to IV. Journal of Theoretical and Applied Genetics. 132(6):1639–1659. https://doi.org/10.1007/s00122-019-03304-5
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Genetic architecture of soybean yield and agronomic traits
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(Peer Reviewed Journal)
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Diers, B.W., Specht, J., Rainey, K., Cregan, P., Song, Q., Ramasubramanian, V., Graef, G., Nelson, R., Schapaugh, W., Wang, E., Shannon, G., McHale, L., Kantartzi, S., Xavier, A., Mian, R.M., Stupar, R., Michno, J., An, Y., Goettel, W., Ward, R., Fox, C., Lipka, A.E., Hyten, D., Cary, T., Beavis, W.D. 2018. Genetic architecture of soybean yield and agronomic traits. G3, Genes/Genomes/Genetics. 8(10):3367-3375. https://doi.org/10.1534/g3.118.200332.
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The interaction of the soybean seed high oleic acid oil trait with other fatty acid modifications
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(Peer Reviewed Journal)
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Bilyeu, K.D., Skrabisova, M., Allen, D.K., Rajcan, I., Palmquist, D.E., Gillen, A.M., Mian, R.M., Jo, H. 2018. The interaction of the soybean seed high oleic acid oil trait with other fatty acid modifications. Journal of the American Oil Chemists' Society. 95:39-49. https://doi.org/10.1002/aocs.12025.
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Genome-wide footprints of grain yield stability and environmental interactions in a multi-parental soybean population
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(Peer Reviewed Journal)
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Xavier, A., Jarquin, D., Howard, R., Ramasubramanian, V., Specht, J.E., Graef, G.L., Beavis, W.D., Diers, B.W., Song, Q., Cregan, P., Nelson, R.L., Mian, R.M., Shannon, J.G., Mchale, L., Wang, D., Schapaugh, W., Lorenz, A.J., Zu, S., Muir, W.M., Rainey, K.M. 2017. Genome-wide footprints of grain yield stability and environmental interactions in a multi-parental soybean population. G3, Genes/Genomes/Genetics. 8(2):519-529.
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Genetic introgression from Glycine tomentella to soybean to increase seed yield
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(Peer Reviewed Journal)
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Akpertey, A., Singh, R.J., Diers, B., Graef, G., Mian, R.M., Shannon, J.G., Scaboo, A., Hudson, M., Thurber, C., Brown, P., Nelson, R.L. 2018. Genetic introgression from Glycine tomentella to soybean to increase seed yield. Crop Science. 58:1277-1291. doi: 10.2135/cropsci2017.07.0445.
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Identification of soybean host plant resistance to brown marmorated stink bugs in maturity group III plant introductions
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(Peer Reviewed Journal)
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La Mantia, J.M., Mian, R.M., Redinbaugh, M.G. 2018. Identification of soybean host plant resistance to brown marmorated stink bugs in maturity group III plant introductions. Journal of Economic Entomology. 111(1):428-434. https://doi: 10.1093/jee/tox295.
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Molecular mapping and genomics of soybean seed protein: A review and perspective for the future
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(Peer Reviewed Journal)
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Patil, G., Mian, R.M., Vuong, T., Pantalone, V., Song, Q.J., Shannon, G., Carter Jr, T.E., Chen, P., Nguyen, H. 2017. Molecular mapping and genomics of soybean seed protein: A review and perspective for the future. Journal of Theoretical and Applied Genetics 130:(10):1975-1991. doi:10.1007/s00122-017-2955-8.
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Transcriptomic dynamics in soybean near-isogenic lines differing in alleles for an aphid resistance gene, following infestation by soybean aphid biotype 2
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(Peer Reviewed Journal)
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Lee, S., Cassone, B.J., Wijeratne, A., Tae-Hwan, J., Michel, A.P., Mian, R.M. 2017. Transcriptomic dynamics in soybean near-isogenic lines differing in alleles for an aphid resistance gene, following infestation by soybean aphid biotype 2. BMC Genomics. DOI: 10.1186/s12864-017-3829-9.
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Registration of Wyandot × PI 567301B soybean recombinant inbred line population
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(Peer Reviewed Journal)
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Lee, S., Tae-Hwan, J., Mchale, L., Michel, A., Dorrance, A., Song, Q., Mian, R.M. 2017. Registration of Wyandot × PI 567301B soybean recombinant inbred line population. Journal of Plant Registrations 11(3):324-327. doi:10.3198/jpr2016.09.0042crmp.
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Registration of ‘highpro1’ soybean with high protein and high yield developed from a North x South cross
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(Peer Reviewed Journal)
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Mian, R.M., Mchale, L.K., Li, Z., Dorrance, A.E. 2017. Registration of ‘highpro1’ soybean with high protein and high yield developed from a North x South cross. Journal of Plant Registrations. 10: 51-54..
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Registration of ‘Wyandot-14’ soybean with resistance to soybean aphid and powdery mildew
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(Peer Reviewed Journal)
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Mian, R.M., Mchale, L.K., Michel, A.P., Dorrance, A.E. 2016. Registration of ‘Wyandot-14’ soybean with resistance to soybean aphid and powdery mildew. Journal of Plant Registrations. 10:246-250.
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Feeding behavior of soybean aphid (Hemiptera: Aphididae) biotype 2 on soybean PI 243540, the source of Rag2 resistance
-
(Peer Reviewed Journal)
|
Todd, J.C., Mian, R.M., Backus, E.A., Finer, J.J., Redinbaugh, M.G. 2015. Feeding behavior of soybean aphid (Hemiptera: Aphididae) biotype 2 on soybean PI 243540, the source of Rag2 resistance. Journal of Economic Entomology. 109:426-433.
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Identification of soybean proteins and genes differentially regulated in near isogenic lines differing in resistance to aphid infestation
-
(Peer Reviewed Journal)
|
Brechenmacher, L., Nguyen, T., Zhang, N., Tae-Hwan, J., Xu, D., Mian, R.M., Stacey, G. 2015. Identification of soybean proteins and genes differentially regulated in near isogenic lines differing in resistance to aphid infestation. Journal of Proteomics. 10:4137-4146.
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|
Identification and mapping of quantitative trait loci (QTL) conferring resistance to Fusarium graminearum from soybean PI 567301B
-
(Peer Reviewed Journal)
|
Acharya, B., Lee, S., Mian, R.M., Tae-Hwan, J., McHale, L., Michel, A.P., Dorrance, A.E. 2015. Identification and mapping of quantitative trait loci (QTL) conferring resistance to Fusarium graminearum from soybean PI 567301B. Journal of Theoretical and Applied Genetics. 128:827-838.
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|
Geographic distribution of soybean aphid biotypes in USA and Canada during 2008 - 2010
-
(Peer Reviewed Journal)
|
Cooper, S.G., Concibido, V., Hunt, D., Jiang, G., Krupke, C., Mccornack, B., Mian, R.M., Oneal, M., Prischmann-Voldseth, D., Ragsdale, D., Wang, D. 2015. Geographic distribution of soybean aphid biotypes in USA and Canada during 2008 - 2010. Crop Science. doi: 10.2135/cropsci2014.11.0758.
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|
Soybean aphid feeding on resistant soybean leads to induction of xenobiotic stress response and suppression of salivary effector genes
-
(Peer Reviewed Journal)
|
Bansal, R., Mian, R.M., Michel, A.P. 2014. Soybean aphid feeding on resistant soybean leads to induction of xenobiotic stress response and suppression of salivary effector genes. BMC Genomics. 15:972.
|
|
SNP markers linked to QTL conditioning plant height, lodging, and maturity in soybean
-
(Peer Reviewed Journal)
|
Lee, S., Jun, T., Michel, A.P., Mian, R.M. 2014. SNP markers linked to QTL conditioning plant height, lodging, and maturity in soybean. Euphytica. 203:521-532.
|
|
A high resolution genetic linkage map of soybean based on 357 recombinant inbred lines genotyped with BARCSoySNP6K
-
(Peer Reviewed Journal)
|
Lee, S., Freewalt, K., McHale, L., Song, Q., Taehwan, J., Michel, A., Dorrance, A.E., Mian, R.M. 2015. A high resolution genetic linkage map of soybean based on 357 recombinant inbred lines genotyped with BARCSoySNP6K. Molecular Breeding. 35:58. DOI:10.1007/s11032-015-0209-5.
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|
Effects of selective genetic introgression from wild soybean to soybean
-
(Peer Reviewed Journal)
|
Akpertey, A., Belaffif, M., Graef, G., Mian, R.M., Shannon, J.G., Cregan, P.B., Hudson, M.E., Diers, B.W., Nelson, R.L. 2015. Effects of selective genetic introgression from wild soybean to soybean. Crop Science. 54:2683-2695. doi:10.2135/cropsci2014.03.0189.
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|
Use of refuse in host plant resistance systems for the control of virulent biotype adaptation in the soybean aphid
-
(Peer Reviewed Journal)
|
Wenger, J., Ramstad, M., Mian, R.M., Michel, A.P. 2014. Use of refuse in host plant resistance systems for the control of virulent biotype adaptation in the soybean aphid. Journal of Economic Entomology. 107(4):1599-1609.
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|
Reduction in fecundity and shifts in cellular processes by a native virus on an invasive insect
-
(Peer Reviewed Journal)
|
Cassone, B.J., Michel, A.P., Stewart, L.R., Bansal, R., Mian, R.M., Redinbaugh, M.G. 2014. Reduction in fecundity and shifts in cellular processes by a native virus on an invasive insect. Genome Biology and Evolution. 6(4):873-885.
|
|
Genetic improvement of U.S. soybean in Maturity Groups II, III, and IV
-
(Peer Reviewed Journal)
|
Rincker, K., Nelson, R.L., Specht, J., Sleper, D., Cary, T., Cianzio, S., Casteel, S., Conley, S., Chen, P., Davis, V., Fox, C., Graef, G., Godsey, C., Holshouser, D., Jiang, G., Kantartzi, S., Kenworthy, W ., Lee, C., Mian, R.M., McHale, L., Naeve, S., Orf, J., Poysa, V., Schapaugh, W., Shannon, G., Uniatowski, R., Wang, D., Diers, B. 2015. Genetic improvement of U.S. soybean in Maturity Groups II, III, and IV. Crop Science. 54:1419-1432. doi: 10.2135/cropsci2013.10.0665.
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|
Joint QTL analyses for partial resistance to Phytophthora sojae using six nested inbred populations with heterogeneous conditions
-
(Peer Reviewed Journal)
|
Lee, S., Mian, R.M., Sneller, C.H., Wang, H., Dorrance, A., Mchale, L.K. 2013. Joint QTL analyses for partial resistance to Phytophthora sojae using six nested inbred populations with heterogeneous conditions. Theoretical and Applied Genetics. 127:429-444.
|
|
Microbiome diversity of the soybean aphid (Aphis glycines) with extensive superinfection of Arsenophonus and Wolbachia in native and invasive populations
-
(Peer Reviewed Journal)
|
Bansal, R., Mian, R.M., Michel, A.P. 2013. Microbiome diversity of the soybean aphid (Aphis glycines) with extensive superinfection of Arsenophonus and Wolbachia in native and invasive populations. The ISME Journal: Multidisciplinary Journal of Microbial Ecology. 6:57-69.
|
|
Identification of novel QTL for leaf traits in soybean
-
(Peer Reviewed Journal)
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Jun, T., Freewalt, K.R., Michel, A.P., Mian, R.M. 2013. Identification of novel QTL for leaf traits in soybean. Plant Breeding. 133:61-66.
|
|
Development of Soybean Aphid Genomic and EST-SSR Markers using Next Generation Sequencing
-
(Abstract Only)
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|
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Population genetic structure and genetic diversity of soybean aphids from USA, Korea and Japan
-
(Peer Reviewed Journal)
|
Jun, T., Mian, R.M., Kang, S., Michel, A.P., Wenger, J.A. 2013. Population genetic structure and genetic diversity of soybean aphids from USA, Korea and Japan. Genome. 56:345-350.
|
|
Registration of high yielding soybean germplasm line LG06-5798
-
(Peer Reviewed Journal)
|
Nelson, R.L., Johnson, E.O., Shannon, J.G., Mian, R.M., Diers, B.W. 2013. Registration of high yielding soybean germplasm line LG06-5798. Journal of Plant Registrations. 8:102-105.
|
|
Identification of novel sources of host plant resistance to the soybean aphid biotypes
-
(Peer Reviewed Journal)
|
Bansal, R., Mian, R.M., Michel, A.P. 2013. Identification of novel sources of host plant resistance to the soybean aphid biotypes. Journal of Economic Entomology. 106:1479-85.
|
|
Genetic mapping of three quantitative trait loci for soybean aphid resistance in PI 567324
-
(Peer Reviewed Journal)
|
Jun, T., Mian, R.M., Michel, A.P. 2013. Genetic mapping of three quantitative trait loci for soybean aphid resistance in PI 567324. Heredity. 111:16-22. DOI:10.1038/hdy.2013.10.
|
|
Identification of quantitative trait loci conditioning partial resistance to Phytophthora sojae in soybean PI 407861A
-
(Peer Reviewed Journal)
|
Lee, S., Mian, R.M., Mchale, L.K., Sneller, C.H., Dorance, A. 2013. Identification of quantitative trait loci conditioning partial resistance to Phytophthora sojae in soybean PI 407861A. Crop Science. 53(3):1022-1031.
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|
Novel quantitative trait loci for partial resistance to Phytophthora sojae in soybean PI 398841
-
(Peer Reviewed Journal)
|
Lee, S., Mian, R.M., Mchale, L.K., Wang, H., Wijeratne, A., Sneller, C., Dorrance, A. 2013. Novel quantitative trait loci for partial resistance to Phytophthora sojae in soybean PI 398841. Theoretical and Applied Genetics. 126(4):1121-1132.
|
|
Developing host-plant resistance for hemipteran soybean pests: lessons from soybean aphid and stink bugs
-
()
|
Bansal, R., Jun, T., Mian, R.M., Michel, A.P. 2013. Developing host-plant resistance for hemipteran soybean pests: lessons from soybean aphid and stink bugs. In Tech. DOI:10.5772/54597.
|
|
Characterization of a chitin synthase encoding gene and effect of diflubenzuron in soybean aphid, Aphis glycines
-
(Peer Reviewed Journal)
|
Bansal, R., Mian, R.M., Mittapalli, O., Michell, A.P. 2012. Characterization of a chitin synthase encoding gene and effect of diflubenzuron in soybean aphid, Aphis glycines. International Journal of Biological Sciences. 8(10):1323-1334.
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|
Identification of positive yield QTL alleles from exotic soybean germplasm in two backcross populations
-
(Peer Reviewed Journal)
|
Kim, K., Diers, B., Hyten, D., Mian, R.M., Shannon, J., Nelson, R.L. 2012. Identification of positive yield QTL alleles from exotic soybean germplasm in two backcross populations. Journal of Theoretical and Applied Genetics. 125(6):1353-1369.
|
|
Validation of reference genes for gene expression studies in soybean aphid, Aphis glycines Matsumura
-
(Peer Reviewed Journal)
|
Bansal, R., Mamidala, P., Mian, R.M., Mittapalli, O., Michel, A.P. 2012. Validation of reference genes for gene expression studies in soybean aphid, Aphis glycines Matsumura. Journal of Economic Entomology. 105(4):1432-1438.
|
|
Mapping of quantitative trait loci associated with partial resistance to phytophthora sojae and flooding tolerance in soybean
-
(Peer Reviewed Journal)
|
|
|
Genetic mapping of the powdery mildew resistance gene in soybean PI 567301B
-
(Peer Reviewed Journal)
|
Jun, T., Mian, R.M., Kang, S., Michel, A.P. 2012. Genetic mapping of the powdery mildew resistance gene in soybean PI 567301B. Journal of Theoretical and Applied Genetics. DOI 10.1007/s00122-012-1902-y.
|
|
Resistance to Frogeye Leaf Spot in selected soybean accessions in MG I through MG VI
-
(Peer Reviewed Journal)
|
Mengistu, A., Bond, J., Mian, R.M., Nelson, R.L., Shannon, G., Wrather, A. 2012. Resistance to Frogeye Leaf Spot in selected soybean accessions in MG I through MG VI. Plant Health Progress. doi:10.1094/PHP-2012-0521-02-RS.
|
|
Maintaining genetic diversity and population panmixia through dispersal and not gene flow in a Holocyclic heteroecious aphid species
-
(Peer Reviewed Journal)
|
Orantes, L.C., Zhang, W., Mian, R.M., Michel, A.P. 2012. Maintaining genetic diversity and population panmixia through dispersal and not gene flow in a Holocyclic heteroecious aphid species. Heredity. 109(2):127-134.
|
|
Molecular characterization and expression analysis of soluble trehalase gene in Aphis glycines, a migratory pest of soybean
-
(Peer Reviewed Journal)
|
Bansal, R., Mian, R.M., Mittapalli, O., Michel, A.P. 2012. Molecular characterization and expression analysis of soluble trehalase gene in Aphis glycines, a migratory pest of soybean. Bulletin of Entomological Research. 103(3):286-295.
|
|
Development of genic-SSR markers from soybean aphid sequences generated by high-throughput sequencing of cDNA library
-
(Peer Reviewed Journal)
|
Jun, T., Mian, R.M., Freewalt, K.R., Mittapalli, O., Michel, A.P. 2011. Development of genic-SSR markers from soybean aphid sequences generated by high-throughput sequencing of cDNA library. Journal of Applied Entomology. 136:614-625.
|
|
Genetic mapping revealed two loci for soybean aphid resistance in PI 567301B
-
(Peer Reviewed Journal)
|
Jun, T., Mian, R.M., Michel, A.P. 2012. Genetic mapping revealed two loci for soybean aphid resistance in PI 567301B. Journal of Theoretical and Applied Genetics. 124(1):13-22.
|
|
Evolution of soybean aphid biotypes: understanding and managing virulence to host-plant resistance
-
()
|
Michel, A.P., Omprakah, M., Mian, R.M. 2011. Evolution of soybean aphid biotypes: understanding and managing virulence to host-plant resistance. In: Sudarec, A. editor. Soybean - Molecular Aspects of Breeding. Rijeka, Croatia: InTech. p. 355-372.
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|
Cloning and characterization of mariner-like elements in the soybean aphid, Aphis glycines Matsumura
-
(Peer Reviewed Journal)
|
Mittapalli, O., Rivera-Vega, L., Bhandary, B., Bautista, M.A., Mamidala, P., Michel, A.P., Shukle, R.H., Mian, R.M. 2011. Cloning and characterization of mariner-like elements in the soybean aphid, Aphis glycines Matsumura. Bulletin of Entomological Research. 102(6):697-704.
|
|
Identification of loci for Resistance to Insects and Nematodes in Soybean
-
()
|
Mian, R.M., Arelli, P.R. 2012. Identification of loci for resistance to insects and nematodes in soybean. In: Wenbin L., Lightfoot D., Editors. Recent Advances in Molecular Markers systems for soybean breeding. Beijing, China:Science Press. p. 89-127.
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|
Identification of soybean accessions resistant to Cercospora sojina by field screening, molecular markers and phenotyping
-
(Peer Reviewed Journal)
|
Mengistu, A., Bond, J., Mian, R.M., Nelson, R.L., Shannon, G., Wrather, A. 2011. Identification of soybean accessions resistant to Cercospora sojina by field screening, molecular markers and phenotyping. Plant Disease. 51:1101-1109.
|
|
Development of soybean aphid genomic SSR markers using next generation sequencing
-
(Peer Reviewed Journal)
|
Jun, T., Michel, A.P., Mian, R.M. 2011. Development of soybean aphid genomic SSR markers using next generation sequencing. Genome. 54:360-367.
|
|
Identification of Proteins Differentially Regulated in Response to Soybean Aphid Infestation of Soybean Near Isogenic Lines differing in Aphid Resistance
-
(Abstract Only)
|
|
|
Quantitative Trait Loci for Partial Resistance to Phytophthora Sojaei in Soybean [Glycine Max (L.) Merr.]
-
(Abstract Only)
|
|
|
Powdery mildew resistance in soybean PI 243540 is controlled by a single dominant gene
-
(Peer Reviewed Journal)
|
Kang, S., Mian, R.M. 2010. Powdery mildew resistance in soybean PI 243540 is controlled by a single dominant gene. Canadian Journal of Plant Science. 90:939-942.
|
|
Combining Next-Generation Sequencing Strategies for Rapid Molecular Resource Development from an Invasive Aphid Species, Aphis Glycines Matsumura
-
(Abstract Only)
|
|
|
Combining Next-Generation Sequencing Strategies for Rapid Molecular Resource Development from an Invasive Aphid Species, Aphis glycines
-
(Peer Reviewed Journal)
|
Bai, X., Wei, Z., Orantes, L., Jun, T., Mittapalli, O., Mian, R.M., Michel, A.P. 2010. Combining Next-Generation Sequencing Strategies for Rapid Molecular Resource Development from an Invasive Aphid Species, Aphis glycines. PLoS One. 5(6): e11370. doi:10.1371/journal.pone.0011370.
|
|
Identification of quantitative trait loci for seed trait and floral morphology in a field-grown Lolium perenne x Lolium multiflorum mapping population
-
(Peer Reviewed Journal)
|
Brown, R.N., Barker, R.E., Warnke, S.E., Cooper, L.D., Brilman, L.A., Rouf Mian, M.A., Jung, G., Sim, S.C. 2010. Identification of quantitative trait loci for seed traits and floral morphology in a field-grown Lolium perenne x Lolium multiflorum mapping population. Plant Breeding. 129:29-34.
|
|
Genetic Map of the Powdery Mildew Resistance Gene in Soybean PI 243540
-
(Peer Reviewed Journal)
|
Sung-Taeg, K., Mian, R.M. 2010. Genetic Map of the Powdery Mildew Resistance Gene in Soybean PI 243540. Genome. 53(5):400-405.
|
|
Detached Leaf and Whole Plant Assays for Soybean Aphid (Aphis glycines) Resistance Show Differential Reponses among Resistance Sources and Biotypes
-
(Peer Reviewed Journal)
|
Michel, A.P., Mian, R.M., Olivas, N.D. 2010. Detached Leaf and Whole Plant Assays for Soybean Aphid (Aphis glycines) Resistance Show Differential Reponses among Resistance Sources and Biotypes. Journal of Economic Entomology. 103:949-957.
|
|
Genetic Diversity and Differentiation among Laboratory and Field Populations of the Soybean Aphid, Aphis glycines
-
(Peer Reviewed Journal)
|
Michel, A.P., Zhang, W., Mian, R.M. 2010. Genetic Diversity and Differentiation among Laboratory and Field Populations of the Soybean Aphid, Aphis glycines. Bulletin of Entomological Research. 27:1-8.
|
|
Developing Soybean Lines with Beetle Resistance
-
(Abstract Only)
|
|
|
Population genetic structure of the soybean aphid, Aphis glycines
-
(Peer Reviewed Journal)
|
Michel, A.P., Zhang, W., Jung, J., Kang, S., Mian, R.M. 2009. Population Genetic Structure of the Soybean Aphid, Aphis glycines. Environmental Entomology. 38:1301-1311.
|
|
Cross-Species Amplification and Polymorphism of Microsatellite Loci in the Soybean Aphid, Aphis glycines
-
(Peer Reviewed Journal)
|
Michel, A.P., Zhang, W., Jung, J., Kang, S., Mian, R.M. 2009. Cross-Species Amplification and Polymorphism of Microsatellite Loci in the Soybean Aphid, Aphis glycines. Journal of Economic Entomology. 102:1389-1392.
|
|
Identification of Soybean Genotypes Resistant to Cercospora sojina by Field Screening and Molecular Markers
-
(Peer Reviewed Journal)
|
Mian, R.M., Bond, J., Joobeur, T., Mengistu, A., Weibold, W., Grover, S., Wrather, A. 2009. Identification of Soybean Genotypes Resistant to Cercospora sojina by Field Screening and Molecular Markers. Plant Disease. 93:408-411.
|
|
Microsatellite Diversity of Soybean Genotypes Differing in Bean Pod Mottle Virus Leaf Symptom
-
(Peer Reviewed Journal)
|
Mian, R.M., Kang, S., Redinbaugh, M.G. 2009. Microsatellite Diversity of Soybean Genotypes Differing in Bean Pod Mottle Virus Leaf Symptom. Genetic Resources and Crop Evolution. 89:359-67.
|
|
Parental Genome Composition and Genetic Classifications of F1 Hybrids and Backcross Progeny Derived from Intergeneric Crosses of Festuca Mairei and Lolium Perenne
-
(Peer Reviewed Journal)
|
Wang, J.P., Bughrara, S.S., Mian, R.M., Saha, M.C., Sleper, D.A. 2009. Parental Genome Composition and Genetic Classifications of F1 Hybrids and Backcross Progeny Derived from Intergeneric Crosses of Festuca Mairei and Lolium Perenne. Molecular Breeding. 23:299-309.
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|
Registration of ‘S99-2281’ Soybean Germplasm Line with Resistance to Frogeye Leaf Spot and Three Nematode Species
-
(Peer Reviewed Journal)
|
Shannon, J., Jeong-Dong, L., Wrather, J., Sleper, D.A., Mian, R.M., Bond, J.P., Robbins, R.T. 2009. Registration of ‘S99-2281’ Soybean Germplasm Line with Resistance to Frogeye Leaf Spot and Three Nematode Species. Journal of Plant Registrations. 3:94-98.
|
|
Genetic Linkage Mapping of the Soybean Aphid Resistance Gene in PI 243540
-
(Peer Reviewed Journal)
|
Mian, R.M., Kang, S., Beil, S.E. 2008. Genetic Linkage Mapping of the Soybean Aphid Resistance Gene in PI 243540. Journal of Theoretical and Applied Genetics. 117:955-962.
|
|
Registration of Stout-Rps1k Soybean Germplasm with Phytophthora Stem and Root Rot Resistance
-
(Peer Reviewed Journal)
|
Mian, R.M., Cooper, R.L., Dorrance, A. 2008. Registration of Stout-Rps1k Soybean Germplasm with Phytophthora Stem and Root Rot Resistance. Journal of Plant Registrations. 2:255-257.
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|
Soybean Aphid Resistance in PI 243540 is Controlled by a Single Dominant Gene
-
(Peer Reviewed Journal)
|
Kang, S., Mian, R.M., Hammond, R.B. 2008. Soybean Aphid Resistance in PI 243540 is Controlled by a Single Dominant Gene. Crop Science. 48:1744-1748.
|
|
Identification of Sources of Soybean Aphid Resistance and Mapping of a Dominant Gene
-
(Proceedings)
|
Mian, R.M., Kang, S., Hammond, R.B. 2008. Identification of Sources of Soybean Aphid Resistance and Mapping of a Dominant Gene. International Crop Science Congress Proceedings. Available: http://www.confabb.com/conferences/49545-5th-international-crop-science-congress-5th-icsc.
|
|
REGISTRATION OF STRONG-RPS SOYBEAN GERMPLASM WITH PHYTOPHTHORA STEM AND ROOT ROT RESISTANCE
-
(Peer Reviewed Journal)
|
Mian, R.M., Cooper, R.L. 2008. Registration of Strong-Rps soybean germplasm with Phytophthora stem and root rot resistance. Journal of Plant Registrations. 2:143-145.
|
|
Analysisi of Tall Fescue Ests Representing Abiotic Stresses, Tissue Types and Developmental Stages
-
(Peer Reviewed Journal)
|
Mian, R.M., Zhang, Y., Wang, Z., Zhang, J., Cheng, X., Chen, L., Mao, C., Dai, X., He, J., Zhao, X., Scott, A.D., May, G.D. 2008. Analysisi of Tall Fescue Ests Representing Abiotic Stresses, Tissue Types and Developmental Stages. Biomed Central (BMC) Plant Biology. 8:22.
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|
Registration of ‘Prohio’ Soybean
-
(Peer Reviewed Journal)
|
Mian, R.M., Dorrance, A.E. 2008. Registration of ‘Prohio’ Soybean. Journal of Plant Registrations. 2:208-210.
|
|
New Plant Introductions with Resistance to the Soybean Aphid
-
(Peer Reviewed Journal)
|
Mian, R.M., Hammond, R.B., St. Martin, S.K. 2008. New Plant Introductions with Resistance to the Soybean Aphid. Crop Science. 48:1055-1061.
|
|
Seed-Set Evaluation of Four Male-Sterile, Female-Fertile Soyban Lines Using Alfalfa Leaf-Cutter Bees and Honey Bees as Pollinators
-
(Peer Reviewed Journal)
|
Ortiz-Perez, E., Mian, R.M., Cooper, R.L., Mendiola, T., Tew, J., Horner, H.T., Hanlin, S.J., Palmer, R.G. 2008. Seed-Set Evaluation of Four Male-Sterile, Female-Fertile Soyban Lines Using Alfalfa Leaf-Cutter Bees and Honey Bees as Pollinators. Journal of Agricultural Science. 146:461-469.
|
|
Discovery of Soybean Aphid Biotypes
-
(Peer Reviewed Journal)
|
Kim, K.S., Hill, C.B., Hartman, G.L., Mian, R.M., Diers, B.W. 2008. Discovery of Soybean Aphid Biotypes. Crop Science. 48(3):923-928.
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|
Frogeye Leaf Spot of Soybean: A Review and Proposed Race Designations for Isolates of Cercospora Sojina Hara
-
(Peer Reviewed Journal)
|
Mian, R.M., Missaoui, A.M., Walker, D.R., Phillips, D.V., Boerma, H.R. 2008. Frogeye Leaf Spot of Soybean: A Review and Proposed Race Designations for Isolates of Cercospora Sojina Hara. Crop Science. 48:14-24.
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|
Identification of Maturity Group 3 and 4 Soybean Cultivars and Lines Resistant to Cercospora sojina by Field Screening and Molecular Markers
-
(Abstract Only)
|
Wrather, A., Mian, R.M., Shannon, G., Bond, J., Newman, M., Wiebold, B. 2007. Identification of Maturity Group 3 and 4 Soybean Cultivars and Lines Resistant to Cercospora sojina by Field Screening and Molecular Markers. Southern Soybean Conference Proceedings. p.10
|
|
Soybean Resistance to Frogeye Leaf Spot and Marker Assisted Breeding
-
(Abstract Only)
|
|
|
Microsatellite Markers and Genetic Diversity Assessment in Lolium Temulentum
-
(Peer Reviewed Journal)
|
Kirigwi, F.M., Zwonitzer, J.C., Mian, R.M., Wang, Z., Saha, M.C. 2007. Microsatellite Markers and Genetic Diversity Assessment in Lolium Temulentum. Genetic Resources and Crop Evolution. 55(1):105-114.
|
|
Tall Fescue Genomic SSR Markers: Development and Transferability across Multiple Grass Species
-
(Peer Reviewed Journal)
|
Saha, M.C., Cooper, J.D., Mian, R.M., Chekhovskiy, K., May, G.D. 2006. Tall Fescue Genomic SSR Markers: Development and Transferability across Multiple Grass Species. Theoretical and Applied Genetics. 113:1449-1458.
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|
Soybean genotypes show differential responses to inoculation with bean pod mottle virus.
-
(Abstract Only)
|
Mian, R.M., Redinbaugh, M.G., Gingery, R.E. 2006. Soybean genotypes show differential responses to inoculation with bean pod mottle virus. American Society of Agronomy, Crop Science Society of America, and Soil Science Society of America Annual Meeting Abstracts. Abstract (CD-ROM) in 98th Annual Meetings of American Society of Agronomy, Crop Science Society of America, and Soil Science Society of America.
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|
CHARACTERIZATION OF A BROME MOSAIC VIRUS STRAIN AND ITS USE AS A VECTOR FOR GENE SILENCING IN MONOCOTYLEDONOUS HOSTS
-
(Peer Reviewed Journal)
|
Ding, X., Schneider, W.B., Chaluvadi, M.A., Mian, R.M., Nelson, R.S. 2006. Characterization of a brome mosaic virus strain and its use as a vector for gene silencing in monocotyledonous hosts. Molecular Plant-Microbe Interactions. 19:1229-1239.
|
|
Recent Molecular and Genomic Studies in Stress Tolerance of Forage and Turf Grasses
-
()
|
Zhang, Y., Mian, R.M., Bouton, J.H. 2006. Recent Molecular and Genomic Studies in Stress Tolerance of Forage and Turf Grasses. Crop Science. 46:497-511.
|
|
QTL MAPPING OF TRAITS DIFFERENTIATING TURF-TYPE LOLIUM PERENNE AND LOLIUM MULTIFLORUM
-
(Abstract Only)
|
|
|
AFLP DIVERSITY WITHIN AND AMONG HARDINGGRASS POPULATIONS
-
(Peer Reviewed Journal)
|
Mian, R.M., Zwonitzer, J.C., Chen, Y., Saha, M.C., Hopkins, A.A. 2005. AFLP diversity within and among hardinggrass populations. Crop Science. 45:2591-2597.
|
|
USE OF TALL FESCUE EST-SSR MARKERS IN PHYLOGENETIC ANALYSIS OF COOL-SEASON FORAGE GRASSES
-
(Peer Reviewed Journal)
|
Mian, R.M., Saha, M.C., Hopkins, A.A., Wang, Z. 2005. Use of tall fescue EST-SSR markers in phylogenetic analysis of cool-season forage grasses. Genome. 48:637-647.
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LINKAGE MAPPING OF QTLS FOR MORPHOLOGICAL TRAITS IN RYEGRASS: SEED TRAITS
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(Abstract Only)
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