Partial resistance to leaf rust (Hemileia vastatrix) in coffee (Coffea arabica L.): genetic analysis and molecular characterization of putative candidate genes

Abstract

One of the major production limiting diseases in coffee is the orange leaf rust caused by the fungus Hemileia vastatrix (Berkeley and Broome). Little is known about the inheritance and genetic determinism of partial resistance in coffee (C. arabica L.) to H. vastatrix. This information would be useful to breed durable resistant cultivars efficiently. In this report, a genetic analysis of partial resistance to leaf rust in Coffea arabica was performed using nine segregating progenies from a cross between the susceptible variety Caturra and the resistant introgressed line DI200. Evolution of partial resistance was evaluated under field conditions by measuring rust incidence (RI) and defoliation (DEF) in two separate regions of productive branches per tree and during four successive years (2003-2006). Genetic components of rust resistance were estimated using the Means and Variance Generation Method, under an additive-dominant model. The most important genetic effect was the additive one, while resistance heritability estimates ranged from 73 to 53% for broad and narrow sense heritabilities, respectively. Genetic estimates for the number of segregating genes showed that at least five independent genes or genetic regions are implicated in the partial resistance to rust. We further analyzed the presence of resistance (RGC) and defense (DGC) gene candidates in the resistant and susceptible parents by using a degenerated-primer PCR approach. A total of 40 different genomic coffee sequences were isolated exhibiting strong similarity to known RGC or DGC homologous. Phylogenetic analysis clustered these sequences into nine families. One family exhibited the TIR protein element, representing the first TIR class proteins identified in coffee. While genetic analysis suggest a predictable success in the processes to improve the selection of resistant lines for future varieties with durable resistance, the molecular characterization of candidate genes represent a primary approach towards the identification of mechanisms involved in partial resistance to coffee leaf rust.