A Gene Block Causing Cross-Incompatibility Hidden in Wild and Cultivated Rice

A Gene Block Causing Cross-Incompatibility Hidden in Wild and Cultivated Rice

Kazuki Matsubara^a, Khin-Thidar^a, and Yoshio Sano^a
^a Plant Breeding Laboratory, Department of Applied Biotechnology, Hokkaido University, Sapporo, 060-8589 Japan

Corresponding author: Yoshio Sano, Kita 9, Nishi 9, Department of Applied Biotechnology, Hokkaido University, Sapporo, 060-8589 Japan., rysano{at}abs.agr.hokudai.ac.jp (E-mail)

Communicating editor: A. PATERSON

Unidirectional cross-incompatibility was detected in advancedgenerations of backcrossing between wild (Oryza rufipogon) andcultivated (O. sativa) rice strains. The near-isogenic line(NIL) of T65wx (Japonica type) carrying an alien segment ofchromosome 6 from a wild strain gave a reduced seed settingonly when crossed with T65wx as the male. Cytological observationsshowed that abortion of hybrid seeds occurred as a consequenceof a failure of early endosperm development followed by abnormalitiesin embryo development. The genetic basis of cross-incompatibilityreactions in the female and male was investigated by testcrossesusing recombinant inbred lines (RILs) that were establishedthrough dissecting the introgressed segments of wild and cultivated(Indica type) strains. The results revealed that the cross-incompatibilityreaction was controlled by Cif in the female and by cim in themale. When the female plant with Cif was crossed with the maleplant with cim, a failure of early endosperm development wasobserved in the hybrid zygotes. Among cultivars of O. sativa,cim was distributed predominantly in the Japonica type but notin the Indica type. In addition, a dominant suppressor, Su-Cif,which changes the reaction in the female from incompatible tocompatible was proposed to present near the centromere of chromosome6 of the Indica type. Further, the death of young F₁ zygoteswas controlled by the parental genotypes rather than by thegenotype of the hybrid zygote itself since all three genes actedsporophytically, which strongly suggests an involvement of parent-of-origineffects. We discuss the results in relation to the origin ofa crossing barrier as well as their maintenance within the primarygene pool.

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