QTL mapping of genes related to Nod factor signalling using recombinant inbred lines of soybean (Glycine max)

Abstract

AbstractSoybean, which originated in China, is an important oil crop. The soybean–rhizobium symbiotic relationship provides soybean plants with abundant nitrogen. The Nod factor, which is an early signalling factor, affects the establishment of this symbiosis. In this study, the generated Sinorhizobium fredii HH103ΩNodB mutant exhibited defective Nod factor synthesis. The nodulation of 30 core collections, including ‘Dongnong594’ and ‘Charleston’, by the NodB mutant differed from the nodulation by the wild‐type strain. Soybean recombinant inbred lines derived from a ‘Dongnong594’ × ‘Charleston’ cross were used for mapping soybean genes related to the Nod factor signalling pathway. Eleven QTLs related to nodule number and eight QTLs related to nodule dry weight were revealed. On the basis of a qRT‐PCR analysis, Glyma.03G120700, Glyma.08G296000 and Glyma.15G21560 were identified as candidate genes influencing the NF interaction. These genes were differentially expressed following the inoculations with the wild‐type rhizobium and the NodB mutant. This study provides important insights into the mechanism mediating soybean responses to the NF after the soybean–rhizobium symbiosis is established.