Paternal inheritance of plastids in interspecific hybrids of the genus Actinidia revealed by PCR-amplified chloroplast DNA fragments

RFLPs (restriction fragment length polymorphisms) of PCR (polymerase chain reaction) -amplified fragments were used to trace the pattern of plastid DNA inheritance in the genus Actinidia. A total of 51 progeny originating from interspecific crosses between three A. arguta cultivars and A. deliciosa, the kiwifruit, and 12 progeny originating from the cross between A. kolomikta and A. chinensis were analysed together with their parents. No reciprocal crosses could be tested since they all failed to set viable seeds. Attempts to rescue immature embryos failed in all cases as well. The A. argutaXA. deliciosa crosses were checked for the RFLP patterns of a sequence encoding part of the Rubisco large subunit (rbcL), using either AluI or MseI, and for a sequence encoding part of the photosystem II D1 protein (psbA), using Hinfl. The A. kolomikta×A, chinensis cross was checked for the RFLP patterns of sequences encoding the spacers between trnT and the 5'-trnL exon (a-b spacer DNA) and the trnL 3' exon and trnF (e-f spacer DNA), respectively. The first spacer revealed a natural polymorphism between the two parent species due to a large deletion occurring in A. kolomikta detectable without further restriction enzyme treatment. The e-f spacer DNA was digested with HinfI. The comparison of the RFLP patterns in the parents and their progeny showed a strictly paternal inheritance of chloroplast DNA in Actinidia, with no exception found in any of the crosses examined. As the reciprocal crosses were not available, we do not know whether paternal inheritance of plastids is restricted to the crosses we analysed or if this is the general rule for plastid inheritance in the genus Actinidia. Actinidia is dioecious and is the first purely outbreeding species for which a paternal plastid inheritance has so far been documented.