NCERA_OLD200: Management Strategies to Control Major Soybean Virus Diseases in the North Central Region
(Multistate Research Coordinating Committee and Information Exchange Group)
Status: Inactive/Terminating
SAES-422 Reports
12/20/2006
Hajimorad, M.R., Eggenberger, A.L., and Hill, J.H. 2006. Strain-specific P3 of Soybean mosaic virus elicits Rsv1-mediated extreme resistance, but absence of P3 elicitor function alone is insufficient for virulence on Rsv1-genotype soybean. Virology 345:156-166.
Hill, C.B., G.L. Hartman, R. Esgar, and H.A. Hobbs. 2006. Field evaluation of green stem disorder in soybean cultivars. Crop Science 46:879-885.
Hill, C.B., Y. Li, and G.L. Hartman. 2006. A single dominant gene for resistance to the soybean aphid in the soybean cultivar Dowling. Crop Science 46:1601-1605.
Hill, C.B., Y. Li, and G.L. Hartman. 2006. Soybean aphid resistance in soybean Jackson is controlled by a single dominant gene. Crop Science 46:1606-1608.
Hill, J.H., Koval, N.C., Gaska, J.M., and Grau, C.R. 2006. Identification of field tolerance to Bean pod mottle and Soybean mosaic viruses in soybean. Crop Science. in press.
Hobbs, H.A., Hill, C.B., Grau, C.R., Koval, N.C., Wang, Y., Pedersen, W.L., Domier, L.L., and Hartman, G.L. 2006. Green stem disorder of soybean. Plant Disease 90:513-518
Koval, N., Grau, C., and Cullen, E. 2006. Understanding virus potential in commercial soybean fields. Wisconsin Fertilizer, Aglime, and Pest Management Conference Vol 45:115-121.
Mueller, E.E., and Grau, C.R. 2006. Seasonal progression, symptom development, and yield effects of Alfalfa mosaic virus epidemics on soybean in Wisconsin. Plant Disease In press
Wang, L., Eggenberger, A., Hill, J., and Bogdanove, A.J. 2006. Pseudomonas syringae effector avrB confers soybean cultivar-specific avirulence on Soybean mosaic virus adapted for transgene expression but effector avrPto does not. Molecular Plant-Microbe Interactions 19(3):304-312.
Wang, R.Y., Kritzman, A., Hershman, D.E. and Ghabrial, S.A. 2006, Aphis glycines as a vector of persistently and nonpersistently transmitted viruses and potential risks for soybean and other crops. Plant Disease 90:920-926.
Zhang, C.Q., and Ghabrial, S.A. 2006. Development of Bean pod mottle virus-based vectors for stable protein expression and sequence-specific virus-induced gene silencing in soybean. Virology 344:401-411.
01/28/2008
Bradshaw, J., Rice, M., and Hill, J. 2007. Digital analysis of surface area: effects of shape, resolution, and size. J. Kan. Ent. Soc. 80:339-347..
Bradshaw, J., Rice, M., and Hill, J. 2007. No-choice preference of Cerotoma trifurcata (Coleoptera: Chrysomelidae) to potentially perennial host plants of Bean pod mottle virus (Comoviridae) in Iowa. J. Econ. Ent. 100:808-814.
Bradshaw, Jeffrey D., Marlin E. Rice, and John H. Hill. 2007. Seed treatments in soybean: Managing bean beetles. ICM-498:123-124.
Bradshaw, Jeffrey D., Marlin E. Rice, and John H. Hill. 2007. Seed treatments in soybean: Managing bean pod mottle virus. ICM-498:133-134.
Domier, L. L., Hobbs, H. A., Wang, Y., and Hartman, G. L. 2007. Genetics of seed transmission of Soybean mosaic virus. Phytopathology 97:S29.
Domier, L. L., Steinlage, T. A., Hobbs, H. A., Wang, Y., Herrera-Rodriguez, G., Haudenshield, J. S., McCoppin, N. K., and Hartman, G. L. 2007. Similarities in seed and aphid transmission among Soybean mosaic virus isolates. Plant Disease 91:546-550.
Eggenberger, A. L., M. R. Hajimorad, and J. H. Hill. 2007. Gain of virulence by an avirulent strain of Soybean mosaic virus on Rsv1-genotype soybean requires concurrent mutations in both P3 and HC-Pro. Phytopathology 97:S31.
Hill, John H., Grau, Craig, R., and Cullen, Eileen. 2007. Recent study brings good news about the soybean aphid. ICM-498:84.
Hill, J.H., Koval, N.C., Gaska, J.M., and Grau, C.R. 2007. Identification of field tolerance to Bean pod mottle and Soybean mosaic viruses in soybean. Crop Sci. 47: 212-218
Kim, K. S., Hill, C. B., Hartman, G. L., Mian, M. A., and Diers, B.W . 2007. Discovery of soybean aphid biotypes. Crop Science (in press).
Kopisch-Obuch, F.J., Koval, N.C., Mueller, E.M., Paine, C., Grau, C.R., and Diers, B.W. 2007. Inheritance of resistance to Alfalfa mosaic virus in soybean plant introduction PI 153282. Crop Sci. Accepted for publication
Langham, M., Tolin, S., Sutula, C. Schwartz, H., Wisler, G., Karasev, A., Hershman, D., Gisler, L., Golod, J., Ratcliffe, S., Cardwell, K. 2007. Legume/Virus PIPE - A new tool for disease management in legumes. (Abstr.) Phytopathology 97:S61.
Li, Y., Hill, C. B., Carlson, S. R., Diers, B. W., and Hartman, G. L. 2007. Soybean aphid resistance genes in the soybean cultivars Dowling and Jackson map to linkage group M. Molecular Breeding 19:25-34.
Lim, H. S., Ko, T. S., Hobbs, H. A., Lambert, K. N., Yu, J. M., McCoppin, N. K., Korban, S. S., Hartman, G. L., and Domier, L. L. 2007. Soybean mosaic virus helper component-protease alters leaf morphology and reduces seed production in transgenic soybean plants. Phytopathology 97:366-372.
Mueller, E.E., and Grau, C.R. 2007. Seasonal progression, symptom development, and yield effects of Alfalfa mosaic virus epidemics on soybean in Wisconsin. Plant Dis. 91:266-272
Pedersen, P., Grau, C., Cullen, E., Koval, N., and Hill, J.H. 2007. Potential for integrated management of soybean virus disease. Plant Dis. 91:1255-1259.
Rice, Marlin E., Bradshaw, Jeffrey, D., and Hill, John H. 2007. Revisiting an integrated approach to bean leaf beetle and bean pod mottle virus management. ICM-498:87-88.
Saghai Maroof, M. A., Jeong, S. C., Gunduz, I., Tucker, D. M., Buss, G. R., and Tolin, S. A. 2008. Pyramiding of Soybean mosaic virus resistance genes by marker-assisted selection. Crop Science (in press).
Thekkeveetil, T., and Domier, L. L. 2007. Sequence diversity of read through protein of Midwestern isolates of Soybean dwarf virus. Phytopathology 97:S114.
Thekkeveetil, T., Hobbs, H. A., Wang, Y., Kridelbaugh, D., Donnelly, J., Hartman, G. L., and Domier, L. L. 2007. First report of Soybean dwarf virus in soybean in northern Illinois. Plant Disease (in press).
Zhang, C., A. L. Eggenberger, M. R. Hajimorad, S. Tsang, and J. H. Hill. 2007. The N terminal Soybean mosaic virus (CI) is required for SMV virulence and is a symptom determinant on Rsv3 genotype soybean. Phytopathology 97:S129.
Zhang, C., S. Whitham, and J. Hill. 2007. Development of a high throughput Bean pod mottle virus (BPMV) based gene expression and VIGS vector for soybean host pathogen interaction study. Phytopathology 97:S129.
12/16/2008
Eggenberger, A. L., Hajimorad, M. R., and Hill, J. H. 2008. Gain of virulence on Rsv1-genotype soybean by an avirulent Soybean Mosaic Virus requires concurrent mutations in both P3 and HC-Pro. MPMI 21:931-936.
Bradshaw, J. D., Rice, M. E., and Hill, J. H. 2008. Evaluation of management strategies for bean leaf beetles (Coleoptera: Chrysomelidae) and bean pod mottle virus (Comoviridae) in soybeans. J. Econ. Entomol. 101:1211-1227.
Bradshaw, J., Zhang, C., Hill, J. and Rice, M. 2007. A novel naturally occurring reassortant of bean pod mottle virus (Comoviridae: Comovirus) from a native perennial plant and the molecular characterization of adjacent soybean-field isolates http://esa.confex.com/esa/2007/techprogram/paper_31057.htm
Donaldson, J.R., and Gratton, C. 2007. Antagonistic effects of soybean viruses on soybean aphid performance. Environmental Entomology 36:918-925
Eggenberger, A. L. Hajimorad, M. R. & Hill, J. H. 2008. Gain of virulence on Rsv1-genotype soybean by an avirulent Soybean mosaic virus requires concurrent mutations in both P3 and HC-Pro. Molecular Plant-Microbe Interactions 21, 931-936
Fu, D., Ghabrial, S. A. and Kachroo, A. 2008. GmRAR1 and GmSGT1 are required for basal, R gene-mediated and systemic acquired resistance in soybean. Mol. Plant-Microbe Interact. (in press)
Gagarinova, A. G., Babu, M., Poysa, V., Hill, J. H., and Wang, A. 2008. Identification and molecular characterization of two naturally occurring Soybean mosaic virus isolates that are closely related but differ in their ability to overcome Rsv4 resistance. Virus Research. In press.
Gu, H., Zhang, C. and Ghabrial, S. A. 2007. Novel naturally occurring Bean pod mottle virus reassortants with mixed heterologous RNA1 genomes. Phytopathology 97, 79-86.
Hajimorad, M. R., Eggenberger, A. L., and Hill, J. H. 2008. Adaptation of Soybean mosaic virus avirulent chimeras containing P3 sequences from virulent strains to Rsv1-genotype soybeans is mediated by mutations in HC-Pro. MPMI 21:937-946.
Hajimorad, M. R., Eggenberger, A. L., Hill, J. H. & Saghai-Maroof, M. A. 2008. Experimental adaptation of an avirulent Soybean mosaic virus to different soybean genotypes containing Rsv1 is associated with varying mutations in HC-Pro and P3. Proceedings of American Society for Virology, 27th annual meeting, July 12-16, Cornell University, Ithaca, New York P. 95.
Hajimorad, M. R., Eggenberger, A. L., Malapi-Nelson, M. & Hill, J. H. 2008. Effect of mutations in HC-Pro of Soybean mosaic virus on symptom expression in soybean and the ability to induce disease synergism in mixed infection with Alfalfa mosaic virus. Phytopathology: 98 (supplement) S65
Kendell, A., McDonald, M, Bian, W., Bowles, T., Baumgarten, S. C., Shi, J., Stewart, P. L., Bullitt, E., Gore, D., Irving, T. A., Havens, W. M., Ghabrial, S. A. Wall, J. S. and Stubbs, G. 2008. Structure of flexible filamentous plant viruses. J. Virol. 82, 9546-9554.
Kachroo, A., Fu, D-Qi, Havens, W., Navarre, D., Kachroo, P, and Ghabrial, S. A. 2008. An oleic acid-mediated pathway induces constitutive defense signaling and enhanced resistance to multiple pathogens in soybean. Mol. Plant-Microbe Interact. 21, 564-575.
Kang, S.T., Mian, M.A.R. and Hammond, R.B. Soybean Aphid Resistance in PI 243540 is Controlled by a Single Dominant Gene. Crop Sci. 48:1744-1748. 2008.
Kim, K.S., Hill, C.B., Hartman, G.L., Mian, M.A.R., and Diers, B.W. Discovery of Soybean Aphid Biotypes. Crop Sci. 48: 923-928. 2008.
Kopisch-Obuch, F.J., Koval, N.C., Mueller, E.M., Paine, C., Grau, C.R., and Diers, B.W. 2008. Inheritance of resistance to Alfalfa mosaic virus in soybean plant introduction PI 153282. Crop Sci. 48:933-940.
Malapi-Nelson, M., Ownley, B., Gwinn, K. & Hajimorad, M. R. (2008). Mixed infection of Alfalfa mosaic virus and Soybean mosaic virus in soybeans results in disease synergism. Phytopathology: 98 (supplement) S97
Mian, M.A.R., Kang, S.T., Beil, S.E., Hammond, R.B. Genetic linkage mapping of the soybean aphid resistance gene in PI 243540. Theor. Appl. Genet. 117:955-962. 2008.
Mian M.A.R., Kang, S.T., M.G. Redinbaugh. Microsatellite diversity of soybean genotypes differing in leaf symptoms of bean pod mottle virus. Canadian Journal Plant Science: in press 2009.
Mian, M.A.R., R.B. Hammond, and S. St. Martin. New plant introductions with resistance to the soybean aphid. Crop Sci. 48: 1055-1061. 2008.
Stubbs, G., Kendall, A., McDonald, M., Bian, W., Bowles, T., Baumgarten, S., McCullough, I., Shi, J., Stewart, P., Bullitt, E., Gore, D. and Ghabrial, S. 2007. Flexible filamentous virus structures from fiber diffraction. Adv. X-ray Anal. 51, 116-123.
Redinbaugh. M. G., J E. Molineros, J. Vacha, S. A. Berry, R. B. Hammond, L. V. Madden and A. E. Dorrance. 2008. Bean Pod Mottle Virus Movement in Insect Feeding Resistant Soybeans. Phytopathology. In preparation (2009).
Zhang, C., Yang, C., Whitham, S. A., and Hill, J. H. 2008. Development and use an efficient DNA-based viral gene silencing vector for soybean. MPMI. In press.
Zhang, C., Gu, H., and (2007). Molecular characterization of naturally occurring RNA1 Ghabrial, S. A. recombinants of the comovirus Bean pod mottle virus. Phytopathology 97, 1245-1254.
02/10/2010
Hill, C. B., Kim, K. S., Crull, L., Diers, B. W., and Hartman, G.L. 2009. Inheritance of resistance to the soybean aphid in soybean PI200538. Crop Sci. 49:1193-1200.
Kim, K. S., Hill, C. B., Hartman, G. L., Mian, M. A. R., and Diers, B. W. 2008. Discovery of soybean aphid biotypes. Crop Sc. 48:923-928.
Li, S. Moon, J. S. Lee, S. H., and Domier, L. L. 2009. First report of Soybean yellow mottle mosaic virus in Soybean in North America. Plant Dis. 93: 1214.
Li, Y., Zou, J., Li, M., Bilgin, D. D., Vodkin, L. O., Hartman, G. L., and Clough, S. J. 2008. Soybean defense responses to the soybean aphid. New Phytol. 79:185-195.
Nam, M., Kim, S. M., Domier, L. L. Koh, S., Moon, J. K., Choi, H. S., Kim, H. G., Moon, J. S., and Lee, S. H. 2009. Nucleotide sequence and genomic organization of a newly identified member of the genus Carmovirus, soybean yellow mottle mosaic virus, from soybean. Arch. Virol. 154: 1679-1684.
Nelson, B. D. and Domier, L. L. 2009. First report of Soybean mosaic virus on soybean in North Dakota. Plant Dis. 93: 760.
Veetil, T. T., Hobbs, H. A., and Domier, L. L. 2009. Sequence diversity of readthrough proteins of Soybean dwarf virus isolates from the Midwestern United States. Arch. Virol. 154: 861-866.
Wille, B. D. and Hartman, G. L. 2008. Evaluation of artificial diets for rearing Aphis glycines (Hemiptera: Aphididae) Econ. Entomol. 101:1228-1232.
Wille, B. D. and Hartman, G. L. 2009. Two species of symbiotic bacteria present in the soybean aphid (Hemiptera: Aphididae). Environ. Entomol.38:110-115.
Zhang, C., Yang, C., Whitham, S. A., and Hill, J. H. 2009. Development and use of an efficient DNA-based viral gene silencing vector for soybean. MPMI. 22:123-131.
Meyer, J. D. F., Silva, D. C. G., Yang, C., Pedley, K. F., Zhang, C., van de Mortel, M., Hill, J . H., Shoemaker, R. C, Abdelnoor, R. V., Whitham, S. A., and Graham, M. 2009. Identification and analysis of candidate genes for Rpp4-mediated resistance to Asian soybean rust in Soybean (Glycine max (L.,) Merr.). Plant Physiol. 150:295-307.
Zhang, C., Yang., C., Graham, M., Whitham, S.A., and Hill, J. H. 2009. Functional genomics of soybeans comes of age: Development and application of high-throughput DNA-based gene silencing technology for soybeans. Proceedings of the IX World Soybean Research Conference, August 2009, Beijing, China.
Zhang, C., Yang, C., Hill, J. H., and Whitham, S. 2009. Functional analysis of defense gene networks in soybean using virus induced gene silencing (VIGS) vectors. Abstract W302. Plant and Animal Genomes XVII Conference.
http://www.intl-pag.org/17/abstracts/W40_PAGXVII_302.html
Meyer, J. D. F., Silva, D. C. G., van de Mortel, M., Pedley, K. F., Hill, J. H., Shoemaker, R. C., Abdelnoor, R. V., Whitham, S. A., and Graham, M. A. 2009. Identification and analysis of candidate genes for Rpp4 mediated resistance to Asian soybean rust in soybean (Glycine max). Abstract W474. Plant and Animal Genomes XVII Conference.
http://www.intl-pag.org/17/abstracts/W70_PAGXVII_474.html
Zhang, C., Yang, C., Graham, M. A., Whitham, S. A., and Hill, J. H. 2009. Functional genomics of major legume crops: development and application of high-throughput DNA-based gene silencing technology for beans. The 9th International Plant Molecular Biology (IPMB) Congress. October 25-30, 2009, St. Louis, Missouri, USA.
Hajiimorad, M. R., Wen, R., Eggenberger, A. L., Hill, J. H., and Saghai Maroof, A. 2009. Experimental evolution of an avirulent Soybean mosaic virus toward virulence on Rsv1-soybeans imitates mutations through selected natural evolution. Phytopathology99: S50
Fu D-Q, Ghabrial S, Kachroo A. (2009) GmRAR1 and GmSGT1 are required for basal, R gene-mediated and systemic acquired resistance in soybean. Molecular Plant-Microbe Interactions 22:86-95
Kachroo A, Fu D-Q, Havens W, Navarre DA, Kachroo P, Ghabrial SA. (2008) An oleic acid-mediated pathway induces constitutive defense signaling and enhanced resistance to multiple pathogens in soybean. Molecular Plant-Microbe Interactions 21:564-575
Mian MAR, ST Kang, MG Redinbaugh. 2009. Microsatellite diversity of soybean genotypes differing in leaf symptoms of bean pod mottle virus. Canadian Journal Plant Science: 89: 359-67
Redinbaugh. M. G., J E. Molineros, J. Vacha, S. A. Berry, R. B. Hammond, L. V.
Madden and A. E. Dorrance. 2009. Bean Pod Mottle Virus Movement in Insect
Feeding Resistant Soybeans. Plant Disease (in revision).
Malapi-Nelson, M., Wen, R.-H., Ownley, B. H. & Hajimorad, M. R. (2009). Co-infection of Soybean mosaic virus and Alfalfa mosaic virus results in disease synergism and alteration in accumulation level of both viruses. Plant Disease 93: 1259-1264.
Hajimorad, M. R., Wen, R.-H., Eggenberger, A. L., Hill, J. H. & Saghai Maroof, M. A. (2009). Experimental evolution of an avirulent Soybean mosaic virus toward virulence on Rsv1-resistant soybeans imitates mutations selected through natural evolution. American Phytopathological Society Annual Meeting, Portland, OR. Aug 1-5. Phytopathology 99: S50.
Tzanetakis, I., Wen, R.-H., Newman, M. & M. R. Hajimorad (2009). Soybean vein necrosis virus; a new threat to soybean production in Southeastern United States. American Phytopathological Society Annual Meeting, Portland, OR. Aug 1-5. Phytopathology 99: S131.
Zhang, C., Hajimorad, M. R., Eggenberger, A. L., Tsang, S., Whitham, S. A. & Hill, J. H. (2009). Cytoplasmic inclusion of Soybean mosaic virus serves as avirulence determinant on Rsv3-genotype soybean and a symptom determinant. Virology 391, 240-248.
02/16/2011
Agindotan, B. O., Ahonsi, M. O., Domier, L. L., Gray, M. E., and Bradley, C. A. 2010. Application of sequence-independent amplification (SIA) for the RNA viruses in bioenergy crops. Journal of Virological Methods 169:119-128.
Damsteegt, V. D., Stone, A. L., Kuhlmann, M., Gildow, F. E., Domier, L. L., Sherman, D. J., Tian, B., and Schneider, W. L. 2010. Acquisition and transmissibility of United States Soybean dwarf virus isolates by the soybean aphid Aphis glycines. Plant Disease Submitted for publication.
Domier, L. L., Hobbs, H. A., McCoppin, N. K., Bowen, C. R., Steinlage, T. A., Chang, S., Wang, Y., and Hartman, G. L. 2010. Multiple loci condition seed transmission of Soybean mosaic virus in soybean. Phytopathology Accepted for publication.
Hill, C. B., Crull, L., Herman, T. K., Voegtlin, D. J., and Hartman, G. L. 2010. A new soybean aphid (Hemiptera: Aphididae) biotype identified. J. Econ. Entomol. 103:509-515.
Hobbs, H. A., Herman, T. K., Slaminko, T. L., Wang, Y., Nguyen, B. T., McCoppin, N. K., Domier, L. L., and Hartman, G. L. 2010. Occurrences of soybean viruses, fungal diseases, and pests in Illinois soybean rust sentinel plots. Plant Health Prog. doi:10.1094/PHP-2010-0827-01-BR.
Kim, K. S., Bellendir, S., Hudson, K. A., Hill, C. B., Hartman, G. L., Hyten, D. L., Hudson, M. E., and Diers, B. W. 2010. Fine mapping the soybean aphid resistance gene Rag1 in soybean. Theoret. Appl. Genet. 120:1063-1071.
Kim, K. S., Hill, C. B., Hartman, G. L., Hyten, D. L., Hudson, M. E., and Diers, B. W. 2010. Fine mapping of the soybean aphid-resistance gene Rag2 in soybean PI 200538. Theoret. Appl. Genet. 121:599-610.
Lim, H. S., Vaira, A. M., Domier, L. L., Lee, S. C., Kim, H. G., and Hammond, J. 2010. Efficiency of VIGS and gene expression in a novel bipartite potexvirus vector delivery system as a function of strength of TGB1 silencing suppression. Virology 402:149-163.
Lim, H. S., Vaira, A. M., Reinsel, M. D., Baer, H., Bailey, B. A., Domier, L. L., and Hammond, J. 2010. Pathogenicity of Alternanthera mosaic virus is affected by determinants in RNA-dependent RNA polymerase and by reduced efficacy of silencing suppression in a movement-competent TGB1. J. Gen. Virol. 91:277-287.
Zhang, C., Bradshaw, J. D., Whitham, S. A., and Hill, J. H. 2010. The development of an efficient multipurpose Bean pod mottle virus viral vector set for foreign gene expression and RNA silencing. Plant Physiol. 153:52-65.
Pandey, A. K., Yang, C., Zhang, C., Graham, M., Horstman, H. D., Lee, Y., Zabotina, O. A., Hill, J. H., Pedley, K. F., and Whitham, S. A. 2010. Functional analysis of the Asian soybean rust resistance pathway mediated by Rpp2. MPMI. In press.
Hill, J. H. 2010. Bean pod mottle virus. Plant Mangement Network/USB http://www.plantmanagementnetwork.org/edcenter/seminars/BPMV/
Pandey, A. K., Yang, C., Zhang, C., Pedley, K. F., Graham, M., Hill, J. H., and Whitham, S. A. 2010. Identification of soybean genes that contributes to Rpp2-mediated defense against Asian soybean rust using VIGS. Phytopathology 100:S96.
Wen, R., He, B., and Hajimorad, M. R. 2010. Mutational analysis of the putative pipo of Soybean mosaic virus with emphasis on symptom expression and virus accumulation. Phytopathology 100:S135.
Leandro, L., and Silva, V. Optimization of inoculation methods with Fusarium virguliforme for virus-induced gene silencing studies on soybean sudden death syndrome. Phytopathology 100:S187.
Juvale, P. S., Eggenberger, A., Zhang, C., Hill, J., Whitham, S., Mitchum M., and Baum T. J. 2010. Using BPMV and SMV vector systems to explore soybean cyst nematode-plant interactions. Phytopathology 100:S187.
Redinbaugh. M. G., J E. Molineros, J. Vacha, S. A. Berry, R. B. Hammond, L. V.
Madden and A. E. Dorrance. 2009. Bean Pod Mottle Virus Movement in Insect
Feeding Resistant Soybeans. Plant Disease 94:265-250.
Mian MAR, ST Kang, MG Redinbaugh. 2009. Microsatellite diversity of soybean genotypes differing in partial resistance to bean pod mottle virus. Canadian J. Plant Science 89: 359-67.
Wen, R.-H., and M. R. Hajimorad. 2010. Mutational analysis of the putative pipo of soybean mosaic virus suggests disruption of PIPO protein impedes movement. Virology 400: 1-7.
Wen, R., He, B., and Hajimorad, M. R. 2010. Mutational analysis of the putative pipo of Soybean mosaic virus with emphasis on symptom expression and virus accumulation. Phytopathology 100:S135.
Fajolu, O. L., Wen, R.-H., and Hajimorad, M. R. 2010. Occurrence of Alfalfa mosaic virus in soybean in Tennessee. Plant Disease 94: 1505.