Caraway (Carum carvi L.) is a traditional medicinal and spice cross-pollinated plant species. Although in vitro techniques are recently extensively applied in plant breeding programmes, these are not commonly utilized in caraway. Therefore, based on the protocol for anther culture in carrot (Daucus carota L., a closely related species of caraway in Daucaceae family), in vitro androgenesis in caraway has been studied with the aim to produce completely homozygous inbred lines. Various induction conditions, such as temperature pretreatments, carbon sources and combination of growth regulators in a culture medium as well as the effect of genotype on in vitro androgenesis were examined. Ten breeding lines of winter caraway representing third generation of forced (artificial) self-pollination were used as donor plant material. Cultured anthers produced embryogenic calli, and subsequently two types of regenerated plants were obtained, namely haploids with evident microspore origin, and diploids which may represent somatic (anther wall) regenerants or spontaneous doubled haploids. The ploidy status of regenerated plants was determined by flow cytometry. This is the first report on androgenic doubled haploid production in caraway.
Plant regeneration was obtained from cultured anthers and hypocotyl segments of caraway (Carum carvi L.). Microspore-and somatic tissue-derived embryos were compared by observation of the regeneration process under identical induction conditions. Fluorescent microscopy with DAPI staining showed initiation of cell divisions and formation of embryogenic callus and somatic embryos from anther sacs, with production of embryos of both microspore and somatic origin. Induction of somatic embryos from hypocotyl-derived callus was also demonstrated. Isozyme native polyacrylamide gel electrophoresis was used to identify haploids and doubled haploids, and to determine the frequency of spontaneous diploidization of regenerated plants of microspore origin. Donor plants (2n= 20) and their anther-derived derivative plants (n=10, 2n= 20, 4n=40) in callus stage or leafy rosette stage were compared. The esterase (EST) band patterns of regenerated plants differed from the heterozygous parental material, suggesting that the regenerated plants were microsporederived haploid/doubled haploid plants. The similar profile of EST bands between the diploid anther-derived plants and a sample of the donor plants corresponded to a somatic regeneration pathway. Although the selected induction conditions revealed no preference for induction of microspore embryogenesis, the anther culture protocol established for caraway utilizing isozyme segregating EST loci markers is suitable for DH production.
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