The influence of culture medium and explant on callus and shoot formation of lentil (Lens culinaris Medik.) has been studied. Three different explants (shoot-tip, first node and first pair of leaves) from three Spanish lentil cultivars were cultivated on two basal media: Murashige and Skoog medium (MS) and medium with mineral salts of MS medium plus vitamins of Gamborg's B5 medium (MSB), supplemented with growth regulators. Media with 2,4-D induced the formation of calli in all explants, but no organ regeneration was obtained from these caUi. Multiple shoot formation was obtained from 33% to 92% of the explants in media supplemented with 2.25 mg 1-~ of BA and 0.186 mg I J NAA + 2.25 mg 1-l BA; in the other media one to two shoots per explant were formed in 10 to 98% of the explants. Root formation from explants was achieved only in media with NAA or IAA. Of the explants tested, the best morphogenetic responses were obtained from nodes and the poorest from leaves.
Complementation tests among Phycomyces auxotrophic strains revealed the existence of four genes with mutants requiring riboflavin, three genes with purine auxotrophs, two with nicotinic acid auxotrophs, and two with lysine auxotrophs. A total of 134 sexual crosses between strains carrying mutations affecting phototropism (madA-madE), carotenoid biosynthesis (carA), auxotrophy (ribA-ribD, purA-purC, lysA and lysB, nicA and nicB, and leuA) and resistance to 5-fluorouracil (furA and furB) were studied; mating type (sex) was also included as a marker. The results from random spore analysis, tetrad analysis, and gene-centromere distances shows that these markers are distributed into 11 linkage groups.
In vitro culture of immature embryo and young leaf tissues was carried out with five cultivars of barley, Hordeum vulgare. Two cultivars (Albacete and Porthos) responded poorly from both types of explants, while the three others (Dissa, Golden Promise and Ingrid) produced a high frequency of embryogenic callus from these explants (25-60%). For 'Dissa' and 'Ingrid', young leaf explants were slightly better than immature embryo explants for embryogenic callus induction, while immature embryo cultures of 'Golden Promise' responded better than young leaf explants. Thus, there appears to be a significant genotype × explant interaction in the initiation of embryogenic callus in barley.Some phenotypic variants were detected among the regenerated plants of 'Golden Promise' and 'Ingrid', most originating by epigenetic changes. Only in one case was the variant phenotype heritable, probably due to a mutation in the chloroplast DNA. Mitotic alterations were not detected. Consequently, somaclonal variation did not appear to be a very frequent event in plants regenerated from 1-to 6-month-old cultures of barley.
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