Progress 07/01/05 to 06/30/08
Outputs OUTPUTS: The Illinois-Missouri Biotechnology Alliance (IMBA) funds plant biotechnology research that shows promise of producing commercial products that will add value to the corn and/or soybean sector. Our goal is to create innovative research outcomes that are adopted or adapted by the private sector to increase the profitability of one or more segments of the corn or soy value-chain. A significant additional benefit has been the impact the discoveries and new knowledge have had on public knowledge about plant biotechnology and on public policy discussions and decisions. PARTICIPANTS: Project 2007-1: Assessing the Opportunities and Challenges of Soy Foods for Consumers, Markets and Public Policy. By Wanki Moon and Siva K. Balasubramanian, Southern Illinois University, Carbondale. Project 2007-2: Genomic Evaluation of the Defense Response of Maize (zea mays L.) against Herbivory by the Western Corn Rootworm. By Martin O. Bohn, University of Missouri and Georgia L. Davis, University of Missouri. Project 2007-3: Discovery and Modification of Photomorphogenic Regulation in Maize. By Matthew E. Hudson, University of Illinois. Project 2007-4: Systematically Assigning Gene Functions in Soybean Employing RNAi Technology. By Zhanyuan Zhang, University of Missouri. Project 2007-5: Exploring the Mechanism of Soybean Oil Deposition and Increasing Soybean Oil Content Through Genetic Engineering. By Yun Lin, Lila O. Vodkin and Jack M. Widholm, University of Illinois. Project 2007-6: Expression of Anti-Nematode Proteins in Transgenic Soybean to Control Soybean Cyst Nematode. By Christopher G. Taylor, Donald Danforth Plant Science Center. Project 2007-7: Trait Based Modeling of GM Crop Adoption. By Jeremy Foltz, Bradford Barham, and Pilar Useche, University of Wisconsin. Project 2007-8: Development of Soybean Germplasm With Designed Resistance to Soybean Rust and Other Diseases. By James T. English and Francis J. Schmidt, University of Missouri. Project 2007-9 Developing Functional Food Products from Plant Biotechnologies. By Monty Kerley, Nicholas Kalaitzandonakes, and Henry T. Nguyen, University of Missouri. Project 2007-10: Entrepreneurial and Organizational Responses to Biotechnology Innovation. By Peter G. Klein, Michael E. Sykuta, Michael L. Cook and David J. O'Brien, University of Missouri. TARGET AUDIENCES: Our two primary audiences are consumers and the producers and processors of corn and soybean products. Our goal is for the products of the sponsored research to make life better for both groups. In the process, we seek to expand the sphere of knowledge on corn and soybean biotechnology, with an emphasis on moving discoveries from the laboratory to the marketplace. As a consequence of our focus, the new knowledge has generated patents and scholarly articles that have gained international acclaim. We also found an unexpected audience: thousands of high school and junior high science students from around the world are learning about plant biotechnology in ways and at levels they might not otherwise have achieved because of the electronic journal that IMBA has sponsored. PROJECT MODIFICATIONS: The IMBA Executive Committee set a more restrictive set of guidelines for projects this year. Investigators were required to demonstrate they had private sector interest and support for their proposed research. In addition, they had to provide evidence that there is high probability of a product in the marketplace within five years.
Impacts In addition to producing patents and generating new knowledge that helps keep the corn and soybean sectors increasingly efficient and competitive, the research funded by IMBA produces innovations and new ideas that contribute to education, the policy process, profitability, and environmental and/or health benefits for producers and consumers. Three examples from the past year follow: [1] Knowledge That Makes a Difference: An investigator with a project at the Danforth Plant Sciences Center and Ohio State University said: "This project helped us to refine our gene silencing strategies and publish two papers (with others to come). A very important outcome of these publications is that we are the world leaders in gene silencing for soybean. The four other major soybean defense laboratories (two in the U.S., one in Canada and one in Germany) have adopted our soybean gene silencing protocols and additional collaborative efforts with a laboratory in Japan have begun. Based on the work funded through IMBA, we have successfully received funding from the Ohio Soybean Council for three consecutive years, for a total of approximately $160,000." [2] Value-Added Research Creates New Products: Studies with the cationic, free radical and ring opening metathesis copolymerizations of various vegetable oils, various commercially available comonomers, and a variety of inexpensive fillers have been carried out in order to prepare a variety of vegetable oil-based resin and composite materials. The resulting composites show a significant increase in thermal stability and mechanical properties and high potential for industrial applications. We are presently talking with a major window company about the commercialization of the soy-glass fiber composites for window frames and have received matching money from them to do so. We are also in serious discussions with a venture partner firm about setting up our own company to commercialize this technology. [3] A Major Impact on Education and Policy: Authoritative, timely and clearly communicated research on the socioeconomic impacts of agricultural biotechnology is essential in order to inform the public debate and promote intelligent policymaking. In September of 1998, the University of Missouri and the Illinois - Missouri Biotechnology Alliance (IMBA) launched AgBioForum - an electronic journal focused on the economic, social, and ethical implications of agrobiotechnology. The result: AgBioForum has become a leading source of original refereed socioeconomic research on agrobiotechnology. AgBioForum has published more than 220 original articles covering broadly debated issues. It has provided a forum in which experts and opinion leaders from around the world openly debate current issues in the field of agrobiotechnology in a clear, non-technical manner that is accessible to both experts and non-experts.
Publications
- Useche, P., Barham, B. and Foltz, J. 2008. A trait specific model of GM crop adoption among corn farmers in the Upper Midwest. American Journal of Agricultural Economics [Submitted].
- Flint-Garcia, A., Dashiell, K.E., Prischmann, D., Bohn, M. and Hibbard, B. 2008. Maize hybrid vigor is associated with resistance to western corn rootworm larval feeding. Crop Science [Submitted].
- Gray, M., Bohn, M., Moeser, J., Sappinton, T. and Miller, N. 2008. Adaptation and invasiveness of Western Corn Rootworm: Intensifying research on a worsening pest. Annual Review of Entomology [Submitted].
- Ivezic, M., Raspudic, E., Brmez, M., Majic, I., Brkic, I., Tollefson, J.J., Bohn, M., Hibbard, B.E. and Simic, D. 2008. A review of resistance breeding options targeting western corn rootworm (Diabrotica virgifera virgifera LeConte). Agricultural and Forest Entomology [Submitted].
- Bohn, M., Bulhoes, S. and Rupassara, I. 2008. Analysis of the root defense metabolome of maize cultivars in the presence and absence of the WCR larvae. J. Economic Entomology [In Preparation].
- Larock, R.C., Li, F. and Lu, Y. 2006. Bio-based thermoset plastic composite materials and methods of making same. U.S. patent, Appl. No. 60/839918 [Pending].
- Valverde, M., Andjelkovic, D., Kundu, P.P. and Larock, R.C. 2008. Conjugated low-saturation soybean oil thermosets: Free-radical copolymerization with dicyclopentadiene and divinylbenzene. Journal of Applied Polymer Science 2008, 107, 423-430.
- Henna, P.H. and Larock, R.C. 2007. Rubbery thermosets by ring-opening metathesis polymerization of a functionalized castor oil and cyclooctene. Macromolecular Materials and Engineering 2007, 292, 1201-1209.
- Barr, K., Hearne, L., Hibbard, B. and Davis, G. 2007. A novel role for Wolbachia (Rickettsiales: Rickettsiaceae) in plant-insect interactions. Annual Meeting of the Entomological Society of America, San Diego, CA, December 9-12, 2007.
- Henna, P.H. and Larock, R.C. 2007. Rubbery thermosets prepared by ring opening metathesis copolymerization of a functionalized castor oil and cyclooctene. PMSE Preprints 2007, 96, 954-955.
- Valverde, M. and Larock, R.C. 2007. Free radical synthesis of rubbers made entirely from highly unsaturated vegetable oils and derivatives. PMSE Preprints 2007, 97, 76-77.
- Henna, P.H. and Larock, R.C. 2007. Rubbery thermosets prepared by ring opening metathesis polymerization of a functionalized castor oil and cyclooctene. Abstracts of Papers, 233rd ACS National Meeting, Chicago, IL, United States, March 25-29, 2007.
- Valverde, M. and Larock, R.C. 2007. Free radical synthesis of rubbers made entirely from highly unsaturated vegetable oils and derivatives. Abstracts of Papers, 234th ACS National Meeting, Boston, MA, United States, August 19-23, 2007.
- De Los Campos, G. and Foltz, J. 2007. Timing of Adoption for Genetically Modified Soybean in Wisconsin Mimeo, U. of Wisconsin-Madison.
- Barham, B., Useche, P., Aldana, U. and Foltz, J. 2008. Dynamics of GM Corn Adoption in the Upper Midwest. Mimeo, U. of Wisconsin-Madison.
- Bulhoes, S., Rupassara, I. and Bohn, M, 2008. Analysis of the root defense metabolome of maize in the presence and absence of Western Corn Rootworm larvae. 50th Maize Genetics Conference, Feb. 27-March 1, 2008. Marriott - Wardman Park, Washington, D.C.
- Bohn, M. 2007. Der Maiswurzelboher in den USA - Neue zuechterische Ansaetze zur Bekaempfung. Mais 2/2007:44-47. [A German Journal dedicated to all aspects of maize breeding.] U. of Wisconsin Madison (Barham, 2007, 2008 Foltz, 2007, 2008), U. of Florida (Useche), AAEA meetings (Useche, 2007, 2008).
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Progress 07/01/06 to 06/30/07
Outputs The Illinois-Missouri Biotechnology Alliance's research base and productivity remain robust at a time when crucial food and energy issues confront our nation. Researchers receiving IMBA funds continue to produce practical, credible and innovative discoveries and knowledge for the corn and soybean sectors. From basic research that is unlocking the secrets of how plants defend themselves against drought and pests to broader issues of health and consumer economics, researchers receiving IMBA support are systematically contributing to a stronger agricultural sector and informed citizenry. The Alliance supports projects that have a high probability to improve the incomes of corn and soybean producers, and rural communities, as a result of commercialization of improved varieties or value-added products. Ten new projects were funded and eight projects are being completed and Final Reports submitted on each one. The new projects: [1] Entrepreneurial and Organizational Response
to Biotechnology Innovation; [2] Discovery and Modification of Photomorphogenic Regulation in Maize; [3] Genomic Evaluation of the Defense Response of Maize Against Herbivory by the Western Corn Rootworm; [4] Metabolic Engineering of Soybean for Enhanced Sucrose and Oil Content; [5] Systematically Assigning Gene Function in Soybean Employing RNAi; [6] Trait-Based Modeling of GM Corn Adoption; [7] Assessing the Opportunities of Soy Food for Consumers, Markets and Public Policy; [8] Expression of Anti-Nematode Proteins in Transgenic Soybean to Control Soybean Cyst Nematode; [9] Mechanisms of Soybean Oil Deposition and Increasing Oil Content Through Genetic Engineering; and [10] Development of Soybean Germplasm With Designed Resistance to Soybean Rust and Other Diseases. The past year included an external assessment of the IMBA operating model to identify features that have contributed to success and areas where changes might foster even greater success. According to the researchers,
many IMBA projects produced prototype plant materials and technologies meriting further testing or commercialization. These included transgenic lines, markers, plant constructs, improved seed lines, improved technology services, and processing technology techniques and improvements. They noted, however, that many studies required long term commitments after IMBA initial funding to realize a commercialized product or service. The researchers found that IMBA proposals clearly identified research outcomes as goals, and many identified practical uses and end-users for their work. Less effort was made to involve industry in the eventual outcome of their work. When this was done, there were direct benefits in research alliances that provided further testing of research outcomes or further developing outputs. They also learned that conventional biotechnology research has a shorter time to reach implementation than does basic biotechnology research and that IMBA projects anticipated timeline
to commercialization was shorter when industry interest was fostered and maintained throughout the research process.
Impacts An independent research team evaluated fifteen IMBA-funded projects that were plant biotechnology focused, and four projects that investigated methods for improving uses of corn or soybean products. It was their conclusion that regardless of the emphasis on plant biotechnology or utilization technology, there was a high performance level among investigators involved with these IMBA studies; with the most effective results coming from researchers who gave early consideration to how their results would be translated into tangible, valuable products for commercialization. According to the independent team, the results of basic biotechnology research funded by IMBA, combined with results of other studies, lead to developmental research conducted by private firms. The results of the developmental efforts lead to prototype technology, which is subsequently refined and ultimately commercialized through adaptive research and technology transfer programs, some of which are
conducted by public agencies and institutions. Sometimes the path by which the basic research results find their way to practical application is so complex that the connection to the basic research is [difficult to measure]. For the nineteen projects reviewed, the independent team found that in addition to producing tangible outcomes for possible commercialization, the IMBA researchers are active in documenting their progress in the form of peer reviewed publications and presentations at scientific meetings. Applications for at least four patents are in progress, one of which was successful.
Publications
- Wu, W.R., Kenzior, A., Wilmot, D., Scanlon, S., Chen, Z., Topin, A., Hua He, S., Acevedo, A. and Folk, W.R . 2007. Altered expression of plant lysyl tRNA synthetase promotes tRNA misacylation and translational recoding of lysine. The Plant Journal 50: 627-636.
- Andjelkovic, D.D. and Larock, R.C. 2006. Novel rubbers from cationic copolymerization of soybean oils and dicyclopentadiene. 1. Synthesis and characterization. Biomacromolecules 2006, 7, 927-936.
- Fang, M., Kremer, R.J., Motavalli, P.P. and Davis, G. 2005. Bacterial diversity in rhizospheres of nontransgenic and transgenic corn. Applied and Environmental Microbiology 71, 4132-4136.
- Fang, M., et.al. 2006. Assessing changes in soil microbial communities and carbon mineralization in Bt and non-Bt corn residue-amended soils. (In Review).
- Henna, P.H., Andjelkovic, D.D., Kundu, P.P. and Larock, R.C. 2007. Biobased thermosets from the free-radical copolymerization of conjugated linseed oil. Journal of Applied Polymer Science 2007, 104, 979-985.
- Holt, D.A. and Nash, M.L. 2006. Anticipating research outcomes. In: Annual meetings abstracts [CD-ROM]. ASA, CSSA, and SSSA, Madison, WI.
- Larock, R.C., Li, F. and Lu, Y. 2006. Bio-based thermoset plastic composite materials and methods of making same. U.S. patent, Appl. No. 60/839918, 2006 (In Review).
- Lu, Y. and Larock, R.C. 2006. Novel biobased nanocomposites from soybean oil and functionalized organoclay. Biomacromolecules 2006, 7, 2692-2700.
- Lu, Y. and Larock, R.C. 2006. Corn oil based composites reinforced with continuous glass fibers: Fabrication and properties. Journal of Applied Polymer Science 2006, 102, 3345-3353.
- Lu, Y. and Larock, R.C. 2007. Bio-based nanocomposites from corn oil and functionalized organoclay by cationic polymerization. Polymer (Submitted).
- Lu, Y. and Larock, R.C. 2007. Fabrication, morphology and properties of soybean oil-based composites reinforced with continuous glass fibers. Macromolecular Materials and Engineering (Submitted).
- Motavalli, P.P., Kremer, R.J., Fang, M. and Means, N.E. 2004. Impact of genetically-modified crops and their management on soil microbially mediated plant nutrient transformations. Journal of Environmental Quality 33, 816-824.
- Mungai, N.W., Motavalli, P.P., Nelson, K.A. and Kremer, R.J., 2005. Differences in yields, residue composition and N mineralization dynamics of Bt and non-Bt maize. Nutrient Cycling in Agroecosystems, 73, 101-109.
- Phartiyal, P., Kim, W-S., Cahoon, R.E., Jez, J.M. and Krishnan, H.B. 2006. Soybean ATP sulfurylase, a homodimeric enzyme involved in sulfur assimilation, is abundantly expressed in roots and induced by cold treatment. Arch. Biochim. Biophys. 450: 20-29.
- Wansink, B., Westgren, R.E. and Cheney, M.M. 2005. Hierarchy of nutritional knowledge that relates to the consumption of a functional food. Nutrition, 21:2 (February), 264-8.
- Wansink, B. 2005. Marketing Nutrition - Soy, Functional Foods, Biotechnology, and Obesity. Champaign, IL: University of Illinois Press.
- Wansink, B. and Westgren, R. 2003. Profiling taste-motivated segments. Appetite, 41:3 (December), 323-327.
- Wansink, B. and Kim, J. 2001. The marketing and consumer acceptance of biotechnology. Journal of Commercial Biotechnology, (Winter) 7:3, 249-259.
- Wansink, B. 2001. Selling biotechnology? Farmweek, (May 7), 15.
- Wansink, B. and Kim, J. 2001. The marketing battle over genetically modified foods: False assumptions about consumer behavior. American Behavioral Scientist, 44:8 (April), 1405-1417.
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Progress 07/01/05 to 07/01/06
Outputs The broad goal of the Illinois Missouri Biotechnology Alliance is to strengthen the agriculture and food sectors in the American Midwest, especially the improvement of food safety and quality. The Alliance funds investigator-driven research under two subprograms, one aimed at enhancing profitability and one focused on economics and consumer acceptance. Nine projects were funded by the Illinois-Missouri Biotechnology Alliance in 2005. Detailed information can be found at the program website http://www.imba.missouri.edu/. (1) Genetic Enhancement Of The Antioxidant Content Of Soybean Oil For Improved Food Processing, Lubricant And Nutriceutical Properties. (2) Identification Of Key Defense Genes For Resistance To Phytopthora Stem And Root Rot Through Gene Silencing. (3) Developing Targeted Resistance To Soybean Cyst Nematode In Soybean. (4) Breeding For Enhanced Molecular Farming In Maize Seeds. (5) Development Of Corn/Soy Plastic Composites. (6) Compliance Costs Of
Regulation In The Development Of Differentiated Product Channels. (7) Agricultural Biotechnology, CAFTA, And The Development Of Differentiated Product Channels. (8) Novel Crop Biotechnologies And The United States Ethanol Industry. (9) Evaluating The Outcomes Of IMBA Research. Four projects have been funded so far by the Illinois-Missouri Biotechnology Alliance in 2006. (1) Development Of Corn/Soy Plastic Composites: Phase II. (2) Adaptation Of A Gene Switch Technology For Use In Soybean Seed. (3) Maximizing The Value Of Corn Biotechnologies In Ethanol Production. (4) Analytical Tools For Production Of Non-Food Protein Corn.
Impacts The Illinois-Missouri Biotechnology Alliance (IMBA) is a joint program of the University of Illinois and the University of Missouri and is funded by a Congressional Special Grant administered by the United States Department of Agriculture (USDA). The purpose of IMBA is to fund biotechnology research that is an integral part of a Research and Development (R&D) program directed at expanding the volume of profitable businesses in the United States (U.S.) food and agricultural sector. Initially, the IMBA program was limited in scope to corn and soybeans. However, the scope of IMBA interest now encompasses all concepts of these industries including production, processing, marketing, utilization, inputs and support services, as well as economic, social, environmental, and natural resource concerns. The geographical focus of IMBA is Illinois and Missouri along with other Midwestern states having similar crops, soils, climate, and socio-economic conditions.
Publications
- Cho, K., Banz, W.J., Davis, J. and Kim, Y.C. 2005. Soy isoflavones increase PPAR and GLUT4 gene expression in 3T3-L1 adipocytes and ameliorate the metabolic syndrome in Zucker Diabetic Fatty rat. J. Nutrition (Under Revision).
- Shay, N. and Banz, W.J. 2005. Regulation of gene transcription by botanicals. Annual Review of Nutrition Volume 25:297-315.
- Davis, J., Iqbal, M.J., Steinle, J., Oitker, J., Higginbotham, A., Peterson, R. and Banz, W.J. 2005. Soy protein influences the development of the metabolic syndrome in male obese ZDF x SHHF rats. Hormone and Metabolic Research 37:316-325.
- Davis, J., Steinle, J., Higginbotham, A., Oitker, J., Peterson, R. and Banz, W.J. 2005. Soy protein influences insulin-sensitivity and cardiovascular risk in male lean SHHF rats. Hormone and Metabolic Research 37:309-315.
- Ralston, L. Subramanian, S., Matsuno, M. and Yu, O. 2005 . Partial reconstruction of flavonoid and isoflavonoid biosynthesis in yeast (Saccharomyces cerevisiae) using soybean type I and type II chalcone isomerases. Plant Physiology 137: 1375-1388.
- Subramainan, S., Graham, M.L., Yu, O. and Graham, T. 2005. Silencing of soybean isoflavone synthase through an RNAi approach leads to silencing in non-transformed tissue and to enhanced susceptibility to Phytophthora sojae. Plant Physiology 137: 1345-1353.
- Yu, O. and McGonigle, B. 2005. Metabolic engineering of isoflavone biosynthesis. Advances in Agronomy 86: 147-189.
- Ralston, L. and Yu, O. 2003. In vivo reconstruction of the flavonoid and isoflavonoid pathway. Technology Disclosure from the Donald Danforth Plant Science Center.
- English, J.T. and Schmidt, F.J. 2004. Phage Display Selection of Antifungal Peptides (US Patent Application serial no. 09/829,549).
- Davis, J., Higginbotham, A., Iqbal, M.J., Moustaid -Moussa, N., O'Connor, T., Shay, N., Adler, S., Peterson, R. and Banz, W.J. 2005. Soy protein and isoflavones influences adiposity and development of metabolic syndrome in the obese male ZDF rat. J. Nutrition (Submitted).
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Progress 07/01/05 to 06/30/06
Outputs The broad goal of the Illinois Missouri Biotechnology Alliance is to strengthen the agriculture and food sectors in the American Midwest, especially the improvement of food safety and quality. The Alliance funds investigator-driven research under two subprograms, one aimed at enhancing profitability and one focused on economics and consumer acceptance. Nine projects were funded by the Illinois-Missouri Biotechnology Alliance in 2006. Detailed information can be found at the program website http://www.imba.missouri.edu/. Project 2006-1: Metabolomic Analysis of Soybean Nematode Interactions: A Prelude to Metabolic Engineering for Nematode Resistance by Kris N. Lambert and Vera Lozovaya, University of Illinois; Project 2006-2: Development of Corn/Soy Plastic Composites: Phase II by Richard C. Larock and Paul W. Gallagher, Department of Chemistry, Iowa State University, Ames, IA; Project 2006-3: Systematically Assigning Gene Functions in Soybean Employing RNAi Technology
by Zhanyuan Zhang, University of Missouri; Project 2006-4: Engineering Soybean for Enhanced Sulfur Amino Acid Content by Hari Krishnan, University of Missouri and Joseph Jez, Donald Danforth Plant Science Center; Project 2006-5: Adaptation of a Gene Switch Technology for use in Soybean Seed by Terry Woodford-Thomas, Donald Danforth Plant Science Center, St. Louis, MO; Project 2006-6: Genomic Evaluation of the Defense Response of Maize Against Herbivory by the Western Corn Rootworm by Martin Bohn, University of Illinois/US; Georgia Davis and Thomas L. Clark, University of Missouri; Project 2006-7: Maximizing the Value of Corn Biotechnologies in Ethanol Production by Nicholas Kalaitzandonakes, University of Missouri and Martha Schlicher, Southern Illinois University-Edwardsville; Project 2006-8: Analytical Tools for Production of Non-Food Protein Corn by Roger Ginder, Corinne Langinier, Darren Jarboe, & Lawrence Johnson, Iowa State University; and Project 2006-9: Innovation & Venture
Formation In Agricultural Biotechnology by Jake Halliday and Nicholas Kalaitzandonakes, University of Missouri.
Impacts The Illinois-Missouri Biotechnology Alliance (IMBA) is a joint program of the University of Illinois and the University of Missouri [and a partner with Southern Illinois University in Carbondale] and is funded by a Congressional Special Grant administered by the United States Department of Agriculture (USDA). The purpose of IMBA is to fund biotechnology research that is an integral part of a Research and Development (R&D) program directed at expanding the volume of profitable businesses in the United States (U.S.) food and agricultural sector. Initially, the IMBA program was limited in scope to corn and soybeans. However, the scope of IMBA interest now encompasses all concepts of these industries including production, processing, marketing, utilization, inputs and support services, as well as economic, social, environmental, and natural resource concerns. The geographical focus of IMBA is Illinois and Missouri along with other Midwestern states having similar crops,
soils, climate, and socio-economic conditions. IMBA spawned the most read journal on the economics and management of ag biotech - AgBioForum. The electronic journal was read by more than 250,000 unique readers, worldwide, in 2005. One third of the subscribers to ABF are from outside the U.S. and Canada. There has been one start-up company that has developed, based on results of research that was IMBA-supported.
Publications
- Subramanian, S., Matsuno, M., Menne, C., Ralston, L. and Yu, O. 2004. From transcriptional regulation to metabolic channeling: Understanding the flavonoid and isoflavonoid pathway for metabolic engineering. Invited for oral presentation at the Soy 2004 Meeting at Columbia, MO.
- Matsuno, M., Ralston, L., Subramanian, S., Walker, L. and Yu, O. 2004. Metabolic engineering of phytoestrogenic compounds - isoflavones. Invited for oral presentation at the International Symposium on Profiling and the Use of Plant Metabolites and Medicinal Phytocompounds at Taipei, Taiwan.
- Yu, O. 2004. Metabolic engineering of soybean phytoestrogens. Presented at the International Symposium on Research into Plant Metabolites and Medicinal Phytocompounds. Taipei, Taiwan. Dec 2004.
- Yu, O. 2004. Metabolic regulations of isoflavonoid biosynthsis. Dept. of Biochemistry, Fudan University, Shanghai, China. Dec. 2004.
- Yu, O. 2004. The biological functions of isoflavones during soybean Bradyrhizobium interactions. Inst. Of Botany, Academia Sinica. Dec. 2004.
- Yu, O. 2004. From transcriptional regulation to metabolic channeling: Metabolic engineering of flavonoid and isoflavonoid biosynthesis. Presented at the Soy 2004 Symposium. Columbia, MO. Aug 2004.
- Yu, O. 2004. In vitro reconstruction of flavonoid and isoflavonoid pathway in yeast. Presented at the ASPB Annual Meeting. Orlando, FL. July 2004.
- Yu, O. 2004. Isoflavones are essential during soybean bradyrhizobium interactions. Presented by Senthil Subramanian (postdoc) at ASPB Annual Meeting. Orlando, FL, July 2004.
- Yu, O. 2005. RNAi silencing of soybean defense genes leads to altered responses to elicitors and infection in both transformed and distal tissues. An invited seminar given by Dr. Terry Graham at the joint meeting of MPMI@Ohio (Molecular Plant Microbes at Ohio) and the PMBB (Plant Molecular Biology and Biotechnology) Symposium, April 15, 2005.
- Joseph, L.M., Hymowitz, T., Schmidt, M.A. and Herman, E.M. 2006. Evaluation of glycine germplasm for nulls of the immunodominant allergen P34/Gly m Bd 30k. Crop Sci. 2006 46: 1755-1763.
- Kalaitzandonakes, N., Marks, L.A. and Vickner, S.S. 2006. Consumer response to mandated genetically modified foods. In: Paul Weirich (Ed.) Labeling Genetically Modified Food. Oxford University Press [Under Review].
- Kalaitzandonakes, N., Marks, L.A. and Vickner, S.S. 2006. Rejecting conventional wisdom: Market evidence of GM food choices. Science [Under Review].
- Kalaitzandonakes, N., Marks, L.A. and Vicker, S.S. 2004. Media coverage of biotech foods and influence on consumer choice. American Journal of Agricultural Economics 86:1238-1246.
- Chema, K., Marks, L.A., Parcell, J. and Bredahl, M. 2006. Marketing biotech functional foods in the US. Canadian Journal of Agricultural Economics [Under Review].
- Qiu, X., Eastridge, M.L., Griswold, K.E. and Firkins, J.K. 2004. Effects of substrate, passage rate, and pH in continuous culture on flows of conjugated linoleic acid and trans C18:1. J. Dairy Sci. 87:3473-3479.
- Griswold, K.E., Apgar, G.A., Robinson, R.A., Jacobson, B.N., Johnson, D. and Woody, H.D. 2003. Effectiveness of short-term feeding strategies for altering conjugated linoleic acid (CLA) content of beef. J. Anim. Sci. 81:1862-1871.
- Shay, N. and Banz, W.J. 2005. Regulation of gene transcription by botanicals. Annual Review of Nutrition, Volume 25:297-315.
- Davis, J., Iqbal, M.J., Steinle, J., Oitker, J., Higginbotham, A., Peterson, R. and Banz, W.J. 2005. Soy protein influences the development of the metabolic syndrome in male obese ZDFxSHHF rats. Hormone and Metabolic Research 37:316-325.
- Davis, J., Steinle, J., Higginbotham, A., Oitker, J., Peterson, R. and Banz, W.J. 2005. Soy protein influences insulin-sensitivity and cardiovascular risk in male lean SHHF rats. Hormone and Metabolic Research 37:309-315.
- Ricketts, M., Moore, D., Banz, W., Mezei, O. and Shay, N. 2003. The mechanism of isoflavone action includes activation of PPAR pathways. J. Nutr. Biochem. (Accepted).
- Banz, W.J., Davis J., Peterson, R. and Iqbal, M.J. 2004. Gene expression and adiposity are modified by soy protein in male ZDF rats. Obesity Research 12:1907-1913.
- Jones, K., Harty, J., Roeder, M., Winters, T. and Banz, W. 2004. In vitro effects of soy phytoestrogens on rat L6 skeletal muscle cells. Journal of Medicinal Food. Vol. 8.
- Higginbotham, D.A., Iqbal, M.J., Majewski, H., Davis, J. and Banz, W.J. 2005. A comparison of egg, mik and soy dietary protein in development of obesity in diet induced obese (DIO) and diet resistant (DR) rats. The FASEB Journal.
- Banz, W., Moustaid-Moussa, N., Kim, Y.-C., Cho, K., Shay, N., Higginbotham, A., Davis, J. and Peterson, R. 2004. Soy protein regulates adiposity, insulin-sensitivity and lipogenic capacity in male ZDF rats. The FASEB Journal.
- Rimal, A. and Moon, W. 2005. Agricultural biotechnology and organic food consumption. British Food Journal. Vol 107. No. 2, 2005 (84-96).
- Moon, W. and Balasubramanian, S.K. 2004. Is there a market for GM foods in Europe? Contingent valuation of GM and non-GM breakfast cereals in the UK. AgBioForum, 6 (3), 2004: 128-133.
- Moon, W. and Balasubramanian, S. 2004. Public attitudes toward agrobiotechnology: The mediating role of risk perceptions on the impact of trust, awareness and outrage. Review of Agricultural Economics, vol 26 No. 2, 2004: 186-208.
- Turan, N.A. and Goldsmith, P.D. 2005. Legal systems, institutional environment, and food safety. Agricultural Economics [Under Review].
- Turan, N. and Goldsmith, P.D. 2005. Governments and firms: Incentives to supply safe food. Food Policy [Under Review].
- Goldsmith, P.D., Turan, N. and Gow, H.R. 2003. Food safety in the meat industry: A regulatory quagmire. International Food and Agribusiness Management Review. 6(1) 2003.
- Sporleder, T.L. and Goldsmith, P.D. 2001. Alternative firm strategies for signaling quality in the food system. Canadian Journal of Agricultural Economics 49 (4) 2001: 591-604.
- Kalaitzandonakes, N. and Kaufman, J. 2006. GM crops impact starch industry. Grain World, February 2006.
- Chema, S.K. 2004. Marketing of biotech functional foods in the U.S. MSc. Thesis, Department of Agricultural Economics, Univeristy of Missouri, Columbia, Missouri.
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