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Research Project: INCREASING THE COMPETITIVE POSITION OF U.S. SOYBEANS IN GLOBAL MARKETS THROUGH GENETIC DIVERSITY AND PLANT BREEDING

Location: Soybean and Nitrogen Fixation Research

Publications (Clicking on the reprint icon Reprint Icon will take you to the publication reprint.)

Agronomic effects of mutations in two soybean Stearoyl-ACP-Desaturases - (Peer Reviewed Journal)
(06-Apr-13)
Effects of temperature and drought on plant-herbivore interactions in soybean (Glycine max) - (Peer Reviewed Journal)
(20-Aug-12)
Effect of a novel mutation in a Delta 9–Stearoyl-ACP-Desaturase on soybean seed oil composition - (Peer Reviewed Journal)
Ruddle, P., Whetten, R., Cardinal, A., Upchurch, R.G., Miranda, L.M. 2012. Effect of a novel mutation in a Delta 9–Stearoyl-ACP-Desaturase on soybean seed oil composition. Journal of Theoretical and Applied Genetics. 126:241-249.
Identification of genes/loci and functional markers for seed oil quality improvement by exploring soybean genetic diversity - (Abstract Only)
Chen, P., Upchurch, R.G., An, Y. 2012. Identification of genes/loci and functional markers for seed oil quality improvement by exploring soybean genetic diversity [abstract]. Cellular and Molecular Biology of Soybean Biennial Conference. Available: http://www.osc.iastate.edu/mnet/soybean/level7.html.
Mapping of quantitative trait loci for canopy wilting trait in soybean (Glycine max L. - (Peer Reviewed Journal)
Hussein, A., Carter Jr, T.E., Purcell, L., King, A., Ries, L., Chen, P., Schapaugh, W., Sinclair, T., Boerma, R. 2012. Mapping of quantitative trait loci for canopy wilting trait in soybean (Glycine max L.. Journal of Theoretical and Applied Genetics. 125:837-846.
Registration of ‘NC- Miller’ soybean with high yield and high seed oil content - (Peer Reviewed Journal)
Burton, J.W., Miranda, L.M., Carter Jr, T.E., Bowman, D. 2012. Registration of ‘NC- Miller’ soybean with high yield and high seed oil content. Journal of Plant Registrations. 6:294-297.
MlNCD1: A novel Aegilops tauschii derived powdery mildew resistance gene identified in common wheat - (Peer Reviewed Journal)
Maxwell, J.J., Lyerly, J.H., Srnic, G., Murphy, P., Cowger, C., Parks, W.R., Marshall, D.S., Brown Guedira, G.L., Miranda, L.M. 2012. MlNCD1: A novel Aegilops tauschii derived powdery mildew resistance gene identified in common wheat. Crop Science. 52:1162-1170.
Physiological traits contributing to differential canopy wilting in soybean under drought - (Peer Reviewed Journal)
Ries, L.L., Purcell, L.C., Carter Jr, T.E., Edwards, J.T., King, C.A. 2011. Physiological traits contributing to differential canopy wilting in soybean under drought. Crop Science. Vol. 52. pp. 272-281.
Soybean fatty acid desaturase pathway: reponses to temperature changes and pathogen infection - (Book / Chapter)
Upchurch, R.G. 2011. Soybean fatty acid desaturase pathway: reponses to temperature changes and pathogen infection. Pp. 113-128. In D. Krezhova (ed.) Soybean-genetics and novel techniques for yield enhancement. InTech Open Access Press. Vienna, Austria. 2011.
Genetic analysis of populations derived from matings of southern and northern soybean cultivars - (Peer Reviewed Journal)
Feng, L., Burton, J.W., Carter Jr, T.E., Miranda, L.M., St. Martin, S., Brownie, C. 2011. Genetic analysis of populations derived from matings of southern and northern soybean cultivars. Crop Science. 51:2479-2488.
Identifying soybean traits of interest for weed competition - (Peer Reviewed Journal)
Place, G.T., Reberg-Horton, S.C., Dickey, D.A., Carter Jr, T.E. 2011. Identifying soybean traits of interest for weed competition. Crop Science. Vol. 51, pp. 2642-2654.
Screening Tactics For Identifying Competitive Soybean Genotypes - (Peer Reviewed Journal)
Place, G.T., Reberg-Horton, S.C., Carter Jr, T.E., Brinton, S.R., Smith, A.N. 2011. Screening Tactics For Identifying Competitive Soybean Genotypes. Communications in Soil Science and Plant Analysis. Vol. 42, Issue 21.
Effects of Soybean Seed Size on Weed Competition - (Peer Reviewed Journal)
Place, G.T., Reberg-Horton, S.C., Carter Jr, T.E., Smith, A.N. 2011. Effects of Soybean Seed Size on Weed Competition. Agronomy Journal. 103:175-181.
Gene expression profiles of soybeans with mid-oleic acid seed phenotype - (Peer Reviewed Journal)
Upchurch, R.G. and Ramirez, M.E. 2010. Gene expression profiles of soybeans with mid-oleic acid seed phenotype. J. of the Am. Oil Chem. Soc. 87:857-864.
Registration of N6202 soybean germplasm with high protein, good yield potential, large seed and diverse pedigree - (Peer Reviewed Journal)
Carter Jr, T.E., Rzewnicki, P.E., Burton, J.W., Villagarcia, M.R., Bowman, D.T., Taliercio, E.W., Kwanyuen, P. 2010. Registration of N6202 soybean germplasm with high protein, good yield potential, large seed and diverse pedigree. J. of Plant Registrations. 4:77-79.
Defense gene induction in soybean seeds after infection with Cercospora kikuchii and Diaporthe phaseolorum - (Abstract Only)
Upchurch, R.G., Ramirez, M.E. 2009. Defense gene induction in soybean seeds after infection with Cercospora kikuchii and Diaporthe phaseolorum. Phytopathology, 99:S132.
Defense gene induction in the compatible interaction of soybean with Cercospora kikuchii and Diaporthe phaseolorum - (Abstract Only)
Upchurch, R.G. and Ramirez, M.E. 2008. Defense gene induction in the compatible interaction of soybean with Cercospora kikuchii and Diaporthe phaseolorum. International Conference on Legume Genomics and Genetics.
Registration of ‘N8101’ small-seeded soybean - (Peer Reviewed Journal)
Carter Jr, T.E., Burton, J.W., Rzewnicki, P.E., Villagarcia, M.R., Fountain, M.O., Taliercio, E.W., Bowman, D. 2009. Registration of ‘N8101’ small-seeded soybean. Journal of Plant Registrations, 3:22-27.
Development of an Agrobacterium-based transformation system for Rhizoctonia solani - (Abstract Only)
Takeshi, T., Upchurch, R.G., and Marc, G. 2010. Development of an Agrobacterium-based transformation system for Rhizoctonia solani. Proc. 4th International Rhizoctonia Symposium, S1028 Berlin, Germany.
3000 Years of Breeding for Drought Tolerance in Soybean - (Abstract Only)
Carter Jr, T.E. 2008. 3000 years of breeding for drought tolerance in soybean. American Society of Agronomy Abstracts.
Evaluation of a Simple Method to Screen Soybean Genotypes for Salt Tolerance - (Peer Reviewed Journal)
Lee, J., Smothers, S.L., Dunn, D., Villagarcia, M.R., Shumway, C.R.,Carter Jr, T.E., Shannon, G. Evaluation of a Simple Method to Screen Soybean Genotypes for Salt Tolerance. Crop Sci. 2008 48: 2194-2200.

   

 
Project Team
Carter, Thomas
Upchurch, Robert
Miranda, Lilian
 
Project Annual Reports
  FY 2012
  FY 2011
  FY 2010
  FY 2009
 
Publications
   Publications
 
Related National Programs
  Plant Genetic Resources, Genomics and Genetic Improvement (301)
 
Related Projects
   DEVELOPMENT OF SOYBEANS WITH HIGH YIELD AND HIGHER SEED PROTEIN WITH IMPROVED AMINO ACID COMPOSITION AND LOW PHYTATE
   DROUGHT STRESS TOLERANCE FOR THE MIDWEST AND SOUTH: BUILDING ON SUCCESS
   EXPANDING THE GENETIC BASE OF U.S. SOYBEAN PRODUCTION TO IMPROVE PRODUCTIVITY IN NORTH CAROLINA
   INVESTIGATING THE USEFULNESS AND PHYSIOLOGICAL CONSEQUENCES OF LOW PHYTATE SOYBEAN MEAL IN POULTRY DIETS
   DEVELOPMENT OF HIGH YIELDING SOYBEAN LINES WITH HIGHER PROTEIN AND IMPROVED CYSTEINE AND METHIONINE CONTENTS
   LOCATING GENES IN THE SOYBEAN GENOME THAT ARE ASSOCIATED WITH INCREASED SULFUR CONTAINING AMINO ACID CONTENT
   DEVELOPMENT OF QUALITY SOYBEANS WITH HIGH-PROTEIN, LOW PHYTATE AND HIGH YIELDING CAPACITY IN MATURITY GROUPS 0-II
   DEVELOPMENT OF MATURITY GROUP 00,0 AND I SOYBEAN GERMPLASM WITH 1-3% HIGHER PROTEIN AND GOOD AGRONOMIC QUALITY
   PROTEIN QUALITY IMPROVEMENT IN PRODUCTIVE MG IV – V SOYBEANS
   DEVELOPMENT OF SOYBEAN VARIETIES WITH HIGHER YIELD POTENTIAL AND HIGHER PROTEIN CONCENTRATION USING MOLECULAR MARKER TECHNOLOGY
   A CALCULATED APPROACH TO BREEDING LOW PHYTATE SOYBEAN FOR IMPROVED GERMINATION AND EMERGENCE
   DEVELOP HIGH-YIELDING MG4-6 SOYBEAN CULTIVARS/ GERMPLASM WITH HIGH PROTEIN, LOW PHYTATE, AND DESIRABLE SUGARS FOR THE MEAL MARKET
   DROUGHT STRESS TOLERANCE IN MINNESOTA
   DROUGHT STRESS TOLERANCE IN GEORGIA
   DROUGHT STRESS TOLERANCE IN NORTH CAROLINA
   DROUGHT STRESS TOLERANCE IN NEBRASKA
   DROUGHT STRESS TOLERANCE IN MISSOURI-COLUMBIA
   DROUGHT STRESS TOLERANCE IN ARKANSAS
   Development of high yielding Soybeans with High-Oleic and Low-linolenic, Low-saturates or high Stearic Fatty Acids in Seed Oil
   DEVELOPMENT OF IMPROVED SOYBEAN LINES WITH LOW LINOLENIC OR HIGH OLEIC ACID
   INDENTIFYING AND EVALUATING NEW SOURCES OF NATURAL VARIATION FOR FATTY ACID MODIFICATION GENES IN SOYBEAN
   DEVELOPMENT OF MG00, 0 AND I SOYBEAN GERMPLASM HIGH OLEIC ACID, LOW SATURATED FATTY ACIDS AND LOW LINOLENIC ACID WITH GOOD AGRONOMIC QUALITY
   DEVELOPMENT OF MATURITY GROUP 0-II SOYBEANS WITH HIGH OIL, IMPROVED FATTY ACID PROFILES, AND HIGH YIELDING POTENTIAL
   DEVELOP HIGH YIELDING MG4-6 SOYBEAN LINES WITH HIGH OIL AND MODIFIED FATTY ACID PROFILES TO MEET THE DIVERSE MARKET DEMANDS
   DEVELOPMENT OF PRODUCTIVE SOYBEANS WITH HIGH OIL AND IMPROVED FATTY ACID PROFILES
   BREEDING SOYBEANS WITH HIGH OLEIC ACID WITH BACK-CROSSING AND MARKER-ASSISTED SELECTION
   BREEDING SOYBEANS FOR IMPROVED OIL FUNCTIONALITY WITH =65% OLEIC ACID, =3% LINOLENIC ACID, AND =7% SATURATES AND HIGHER STEARIC ACID
   DEVELOPMENT OF SOYBEAN LINES IN MATURITY GROUP II THAT HAVE THE COMBINATION OF LOW PALMITIC ACID, LOW LINOLENIC ACID, AND HIGH YIELD
   LARGE SCALE IDENTIFICATION OF ECONOMICALLY IMPORTANT WILD SOYBEAN DIVERSITY AND TRANSFER TO APPLIED BREEDING
   Novel Yield Genes from Cultivated and Wild Japanese Soybean in North Carolina
 
 
Last Modified: 05/18/2013
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