High temperature during reproductive development is a major limitation to wheat production and end-use quality in the Southern Great Plains (USA) and to wheat production in many environments worldwide. We have initiated a project to integrate genotypic (QTL), phenotypic and transcript level data to identify genes controlling reproductive stage heat tolerance in heat tolerant genotypes of wheat as it relates to yield and end-use quality maintenance. Efforts have initially focused on building recombinant inbred lines (RILs) and cDNA libraries enriched, through suppressive subtractive hybridization, for genes induced by heat stress. The selected tissues for library construction included wheat heads and flag leaves isolated from plants subjected to heat stress 10 days after pollination. A heat tolerant spring wheat cultivar ‘Halberd’, and a susceptible winter wheat cultivar Cutter were used as models to define the two adaptive responses to heat stress (heat avoidance (susceptible) and heat tolerance). Over 1,920 unique ESTs have been sequenced. These genes include some potential regulatory proteins, heat shock proteins and lipid-transfer proteins, as well as many novel genes that may belong to uncharacterized pathways involved in response to heat stress. For example, a lipid transfer protein and an alpha amylase inhibitor remained stable during heat shock in the heat-tolerant cultivar Halberd. These genes were also highly expressed in the most heat tolerant RILs but not in the most susceptible RILs. Expression-QTL mapping results will be presented which link QTLs controlling heat tolerance to their regulation of discrete sets of the plant transcriptome

Global Wheat Program

English

Lucia Segura

INT1511

CIMMYT Staff Publications Collection