S2-07
Mapping Wound-Response Genes Involved in
Post-harvest Physiological Deterioration (PPD) of Cassava (Manihot
esculenta Crantz)
Cortés D.F.1, K. Reilly2, E.
Okogbenin3, J.R. Beeching2, C. Iglesias4
and J. Tohme1
The
genome locations of the wound-response genes expressed during the
post-harvest physiological deterioration (PPD) of cassava, such as
phenylalanine ammonia lyase, b-1.3
glucanase,
hydroxyproline rich glycoprotein, catalase,
1-aminocyclopropane 1-carboxylate, cysteine
protease inhibitor, aspartic protease, a partial cDNA for serine/threonine protein kinase and peroxidase,
have been identified on the framework molecular genetic map of cassava.
In addition, molecular markers linked to putative quantitative
trait loci (QTLs) influencing PPD of cassava were mapped using an F1
mapping population derived from elite parental lines (TMS 30572 x
CM 2177-2). A previously
constructed molecular linkage map based on the segregation of 240 RFLP,
100 RAPD, 85 microsatellite and five isoenzyme markers on 144 F1
individuals was used for the QTL mapping.
A set of 10 molecular markers with a significant association with
putative QTLs for PPD were identified based on probability values <
0.005 in order to minimize the detection of false positives.
Based on single-marker regression, eight putative QTLs located on
the linkage groups G, P, L, U, and X of the female-derived framework map
were found to explain 5-12% of the phenotypic variance of the PPD.
In the male-derived framework map, two putative QTLs on linkage
groups C and L explained 13% and 11% of this variance, respectively.
This study thus identified the major genome regions of cassava
related to physiological post-harvest deterioration, thereby providing
tools for the identification of gene(s) controlling this trait.
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