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United States Department of Agriculture

Agricultural Research Service

Title: Toward Nutritional Enhancement of Sorghum for Africa

Authors
item Lemaux, Peggy, & Buchanan, Bob - UC BERKELEY
item Kaur, Rajvinder - UC BERKELEY
item Wong, Joshua - UC BERKELEY
item Singh, Jaswinder - UC BERKELEY
item Gurel, Songul - UC BERKELEY
item Gurel, Ekrem - UC BERKELEY
item Pedersen, Jeffrey
item Taylor, John, & Glassman, Kim - UNIV. PRETORIA
item Chikwamba, Rachel - CSIRB PRETORIA
item Jung, Rudlof &, Anderson, Paul - PIONEER

Submitted to: Plant and Animal Genome Conference
Publication Type: Abstract Only
Publication Acceptance Date: October 5, 2007
Publication Date: January 12, 2008
Citation: Lemaux, Peggy, &., Kaur, R., Wong, J., Singh, J., Gurel, S., Gurel, E., Pedersen, J.F., Taylor, John, &., Chikwamba, R., Jung, Rudlof &, A. 2008. Toward Nutritional Enhancement of Sorghum for Africa. Plant and Animal Genome XVI Conference W474, January 12-26, 2007, San Diego, CA.

Technical Abstract: Grain sorghum (Sorghum bicolor L. Moench) is the fifth most important cereal worldwide. Sorghum is used primarily for animal feed in the developed world but, particularly in semi-arid regions of Africa and Asia, it is a principal source of energy and protein for millions of the poorest people. While having greater tolerance than maize to abiotic stresses, like low water availability, sorghum has undesirable nutritional qualities that hinder its wider use. These include poor digestibility, low protein content and quality, deficiency of Vitamins A and E and low bioavailability of zinc and iron. These deficiencies are being addressed through the Africa Biofortified Sorghum (ABS) project funded by the Gates Foundation. With regard to protein, storage proteins form the major fraction of starchy endosperm with kafirins representing on average ~50% of that protein. Since these proteins have low contents of certain essential amino acids, notably lysine, two lysine-rich proteins, barley hordothionin, HT12, and another barley high lysine gene, BHL9, were introduced, using in part improved Agrobacterium-based transformation technologies. Poor nutritional grain quality is compounded by the fact that grain protein is difficult to digest and digestibility decreases with cooking. The basis for protein and starch indigestibility in sorghum is being investigated in several ways. Using comparative analyses of two U.S. varieties from the same cross that differ markedly in digestibility, several factors appear to account for the poor protein and starch digestibility in these varieties. These features should be considered when improving sorghum for food and feed, as well as biofuel use.

Last Modified: 9/29/2014
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