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Full-Text Articles in Molecular Biology

Genetic Variation In Concentration Of The 33-Mer Protein Subcomponent In Wheat, Robert L. Paris, Kaleb M. Pauley, Ryan K. Lokkesmoe, Sarah E. Lyon, James C. Dunlap, Julia M. Pierre, Timothy Vanwingerden, Finny J. Johns, Kyle J. Kilchrist, Tyler J. Reid, Caleb M. Winn Apr 2017

Genetic Variation In Concentration Of The 33-Mer Protein Subcomponent In Wheat, Robert L. Paris, Kaleb M. Pauley, Ryan K. Lokkesmoe, Sarah E. Lyon, James C. Dunlap, Julia M. Pierre, Timothy Vanwingerden, Finny J. Johns, Kyle J. Kilchrist, Tyler J. Reid, Caleb M. Winn

Robert L. Paris, Ph.D.

Celiac Disease is a hypersensitive response to gluten caused by HLA-DQ2 or HLA-DQ8 T-cell presentation, initiating destruction of intestinal epithelial cells. Currently, the only remedy for those suffering from celiac disease is elimination of all gluten from the diet. Studies indicate that an indigestible fragment of the gluten molecule, alpha-gliadin subcomponent 33-mer, rich in proline and glutamine, is responsible for the hypersensitivity response. Determination of 33-mer concentration in wheat lines could be beneficial to future development of wheat lines with reduced 33-mer concentration. Protein from wheat flour was extracted and subjected to ELISA techniques in order to quantify the concentration ...


Genetic Variation In Concentration Of The 33-Mer Protein Subcomponent In Wheat, Robert L. Paris, Kaleb M. Pauley, Ryan K. Lokkesmoe, Sarah E. Lyon, James C. Dunlap, Julia M. Pierre, Timothy Vanwingerden, Finny J. Johns, Kyle J. Kilchrist, Tyler J. Reid, Caleb M. Winn Apr 2017

Genetic Variation In Concentration Of The 33-Mer Protein Subcomponent In Wheat, Robert L. Paris, Kaleb M. Pauley, Ryan K. Lokkesmoe, Sarah E. Lyon, James C. Dunlap, Julia M. Pierre, Timothy Vanwingerden, Finny J. Johns, Kyle J. Kilchrist, Tyler J. Reid, Caleb M. Winn

Kaleb M. Pauley, Ph.D.

Celiac Disease is a hypersensitive response to gluten caused by HLA-DQ2 or HLA-DQ8 T-cell presentation, initiating destruction of intestinal epithelial cells. Currently, the only remedy for those suffering from celiac disease is elimination of all gluten from the diet. Studies indicate that an indigestible fragment of the gluten molecule, alpha-gliadin subcomponent 33-mer, rich in proline and glutamine, is responsible for the hypersensitivity response. Determination of 33-mer concentration in wheat lines could be beneficial to future development of wheat lines with reduced 33-mer concentration. Protein from wheat flour was extracted and subjected to ELISA techniques in order to quantify the concentration ...


Genetic Variation In Concentration Of The 33-Mer Protein Subcomponent In Wheat, Robert L. Paris, Kaleb M. Pauley, Ryan K. Lokkesmoe, Sarah E. Lyon, James C. Dunlap, Julia M. Pierre, Timothy Vanwingerden, Finny J. Johns, Kyle J. Kilchrist, Tyler J. Reid, Caleb M. Winn Apr 2017

Genetic Variation In Concentration Of The 33-Mer Protein Subcomponent In Wheat, Robert L. Paris, Kaleb M. Pauley, Ryan K. Lokkesmoe, Sarah E. Lyon, James C. Dunlap, Julia M. Pierre, Timothy Vanwingerden, Finny J. Johns, Kyle J. Kilchrist, Tyler J. Reid, Caleb M. Winn

The Research and Scholarship Symposium

Celiac Disease is a hypersensitive response to gluten caused by HLA-DQ2 or HLA-DQ8 T-cell presentation, initiating destruction of intestinal epithelial cells. Currently, the only remedy for those suffering from celiac disease is elimination of all gluten from the diet. Studies indicate that an indigestible fragment of the gluten molecule, alpha-gliadin subcomponent 33-mer, rich in proline and glutamine, is responsible for the hypersensitivity response. Determination of 33-mer concentration in wheat lines could be beneficial to future development of wheat lines with reduced 33-mer concentration. Protein from wheat flour was extracted and subjected to ELISA techniques in order to quantify the concentration ...


Genetic Diversity In Concentration Of A Protein Subcomponent In Selected Wheat Lines, Andrew B. Berman, Kelsey Gentry, Alexander K. Lee, Molly Yandrofski, Malorie Young, Robert L. Paris Jul 2016

Genetic Diversity In Concentration Of A Protein Subcomponent In Selected Wheat Lines, Andrew B. Berman, Kelsey Gentry, Alexander K. Lee, Molly Yandrofski, Malorie Young, Robert L. Paris

Robert L. Paris, Ph.D.

Celiac Disease is a hypersensitive response to gluten caused by HLA-DQ2 or HLA-DQ8 T-cell presentation, initiating destruction of intestinal epithelial cells. Studies indicate that an indigestible fragment of the gluten molecule, alpha-gliadin subcomponent 33-mer, rich in proline and glutamine, is responsible for the hypersensitivity response. Determination of 33 mer concentration in wheat lines would be beneficial to future development of wheat lines with reduced 33 mer concentration. Protein from wheat flour was extracted and subjected to western blot in order to quantify the concentration of 33-mer. This will be a valuable tool for future research efforts focused on identification and ...


Genetic Diversity In Concentration Of A Protein Subcomponent In Selected Wheat Lines, Andrew B. Berman, Kelsey Gentry, Alexander K. Lee, Molly Yandrofski, Malorie Young, Robert L. Paris Apr 2016

Genetic Diversity In Concentration Of A Protein Subcomponent In Selected Wheat Lines, Andrew B. Berman, Kelsey Gentry, Alexander K. Lee, Molly Yandrofski, Malorie Young, Robert L. Paris

The Research and Scholarship Symposium

Celiac Disease is a hypersensitive response to gluten caused by HLA-DQ2 or HLA-DQ8 T-cell presentation, initiating destruction of intestinal epithelial cells. Studies indicate that an indigestible fragment of the gluten molecule, alpha-gliadin subcomponent 33-mer, rich in proline and glutamine, is responsible for the hypersensitivity response. Determination of 33 mer concentration in wheat lines would be beneficial to future development of wheat lines with reduced 33 mer concentration. Protein from wheat flour was extracted and subjected to western blot in order to quantify the concentration of 33-mer. This will be a valuable tool for future research efforts focused on identification and ...


Genetic Effect Of The Dwarfing Genes On Some Culm Characteristics Associatcd With Lodging Resistance In Bread Wheat, Md. Mahbub Hasan Dec 2009

Genetic Effect Of The Dwarfing Genes On Some Culm Characteristics Associatcd With Lodging Resistance In Bread Wheat, Md. Mahbub Hasan

Md. Mahbub Hasan

Due to the challenge of screening traits related to lodging resistance under natural field conditions, selection for lodging resistant varieties in wheat breeding programs is difficult. The identification of easily measurable culm anatomical traits related to lodging resistance would simplify the selection process. The present study was conducted to determine the effect of dwarfing genes on culm anatomical traits related to lodging resistance in our of basal internode 1. Field and laboratory study was conducted in Shahjalal University of Science and Technology, Sylhet, Bangladesh with eight wheat genotypes having Rhr1, Rht2 dwarfing genes in them and a local land race ...