National Center for Soybean Biotechnology presentations and publications (MU)
Permanent URI for this collection
Browse
Recent Submissions
Item Meeting Report: Soybean Genomics Assessment and Strategy Workshop(Soybean Genomics Assessment and Strategy Workshop 19 - 20 July 2005 St. Louis, Missouri, 2005-07) Shoemaker, R. C. (Randy C.); Parrott, Wayne; Nguyen, Henry T.On July 19 - 20, 2005, approximately 50 researchers and administrators with expert knowledge of soybean genomics participated in a workshop in St.Louis, MO, which was hosted by the Soybean Genetics Executive Committee and supported by the United Soybean Board. The workshop began with a series of presentations by experts in the topics discussed below. Each presentation was designed to update the audience on the current status of soybean resources and related genomics technologies. Following the presentations the participants divided into discussion groups to assess the status of soybean genomics, identify needs, and identify milestones to achieve objectives. The discussion groups included the general areas of Functional Genomics A (Transcriptome and Proteome), Functional Genomic B (Reverse Genetics), Physical and Genetic Maps, and Bioinformatics. After each discussion section the entire group reconvened to hear group reports and to further discuss each topic. The following is the report from this Workshop. It represents a consensus of the participants of the Workshop and it is structured to integrate with a White Paper generated in 2003 so that progress can be better monitored over time. The results of this report are consistent with those of a National Science Foundation soybean genomics workshop held in 2004 (St. Louis, MO) and a Cross-Legume workshop also held in 2004 (Santa Fe, NM).Item Genetic Mapping of Soybean Cyst Nematode (Heterodera glycines) Resistance to Enhance Soybean Production in the United States [abstract](2009) Vuong, T. D.; Wu, Xiaolei R.; Sleper, D. A.; Shannon, J. Grover; Nguyen, Henry T.; University of Missouri (System); Missouri Energy Summit (2009 : University of Missouri--Columbia)Soybean cyst nematode (SCN, Heterodera glycines) is the most destructive pest of soybean in the United States, resulting in an annual extensive yield loss of approximately $1.5 billion in the United States alone. Breeding for resistance to SCN is the most effective approach to control this pest. However, most of commercial soybean varieties resistant to SCN were mainly derived from a few common resistant sources. The continuation of growing the same resistant cultivar(s) have resulted in SCN population shifts and loss of SCN resistance; thus it highlights a need of further investigation to mine new resistant genes from new resistant sources for soybean improvement. As a leading group on SCN research in the United States, the University of Missouri SCN researchers have been continuing the evaluation of exotic soybean germplasm for broad-based resistance to multi-HG types of SCN, the identification and mapping of novel quantitative trait loci (QTL)/gene(s), and the discovery of genetic markers for marker-assisted selection (MAS) programs. Using many plant introductions (PIs) with high resistance to multi-SCN HG types, we have developed genetic populations for molecular characterization and QTL mapping. These efforts led to the discovery of many novel QTL underlying the resistance to multi-SCN HG types. With sequence information using the genome-wide Illumina/Solexa sequencing technology, we have developed hundreds of genetic markers associated with the target QTL. Along with the soybean physical and genetic maps, these markers will provide a powerful genomics tool facilitating our efforts toward fine-mapping and positional cloning of candidate genes for SCN resistance. Moreover, the QTL associated genetic markers are greatly useful to incorporate novel resistant genes into new soybean varieties through the MAS approach. With SCN resistant soybean varieties, soybean yield and productivity will be increased and, in turn, enhance the seed oil production; which will significantly be an important source for the development of biofuel.