<mods:mods version="3.3" xsi:schemaLocation="http://www.loc.gov/mods/v3 http://www.loc.gov/standards/mods/v3/mods-3-3.xsd" xmlns:mods="http://www.loc.gov/mods/v3" xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance"><mods:titleInfo><mods:title>Molecular Breeding for Striga Resistance in Sorghum</mods:title></mods:titleInfo><mods:name type="personal"><mods:namePart type="given">S P</mods:namePart><mods:namePart type="family">Deshpande</mods:namePart><mods:role><mods:roleTerm type="text">author</mods:roleTerm></mods:role></mods:name><mods:name type="personal"><mods:namePart type="given">A</mods:namePart><mods:namePart type="family">Mohamed</mods:namePart><mods:role><mods:roleTerm type="text">author</mods:roleTerm></mods:role></mods:name><mods:name type="personal"><mods:namePart type="given">C T</mods:namePart><mods:namePart type="family">Hash</mods:namePart><mods:role><mods:roleTerm type="text">author</mods:roleTerm></mods:role></mods:name><mods:abstract>Among the biotic stresses affecting dryland cereals, especially sorghum, Striga hermonthica is the&#13;
most damaging obligate parasite, and is an important bottleneck to yield increases by smallholder farmers,&#13;
yet it has been neglected by research in recent years. Integrated Striga management packages have&#13;
been designed, but these will continue to require new cultural and chemical treatments, resistant varieties,&#13;
and integrated approaches to manage both Striga and soil fertility. This review attempts to assess&#13;
recent advances in bioassay development that are specific to resistance mechanisms, genomics such as&#13;
New Generation Sequencing tools, RNA interference (RNAi) technologies in advancing knowledge of&#13;
resistance and susceptibility to Striga including diversity in striga populations, and molecular marker&#13;
technology in accelerating the development of Smga-resistant cultivars of sorghum. Recent advances&#13;
in developing effective bioassays involving several modifications of rhizotrons and sand-packed titer&#13;
plate assay will help dissect resistance mechanisms into component traits and increased understanding&#13;
of the specific resistance mechanisms, which will directly help in efficient introgression and selection&#13;
of several striga resistance mechanisms in breeding population. The current studies for identification of&#13;
parasite genes specifically involved in haustorigenesis through transcriptomic and/or prote'omic studies&#13;
and more recently RNAseq studies will help understand susceptibility or resistance genes in striga.&#13;
Release of improved version of cultivars resistant to striga developed by marker-assisted backcrossing&#13;
of several striga resistance QTLs in Sudan had shown the power of integrating genomics and molecular&#13;
breeding tools/techniques into routine breeding for tackling the complex constraint such as striga. Application&#13;
and utilization of advance techniques in genomics and molecular breeding appropriately can&#13;
further enhance the efficiency of integrated striga management practices, and thus crop productivity.</mods:abstract><mods:classification authority="lcc">Sorghum</mods:classification><mods:originInfo><mods:dateIssued encoding="iso8061">2013</mods:dateIssued></mods:originInfo><mods:originInfo><mods:publisher>Wiley Blackwell</mods:publisher></mods:originInfo><mods:genre>Book Section</mods:genre></mods:mods>