Although Hm1-1 had good production yield and relatively short cul

Although Hm1-1 had good production yield and relatively short cultivation period, its commercial value is limited by its bitter Enzalutamide chemical structure taste. Hm3-10 has shown good potential as a commercial strain in terms of taste in spite of its lower yield and longer cultivation period. Therefore, we tried to develop new varieties of H. marmoreus with a better taste by mating these two strains. Basidiospores of Hm1-1 and Hm3-10 were collected and spread on a PDA plate. Twenty monokaryotic mycelia

from each strain were selected on the basis of growth rate and mycelial growth pattern. Mating was conducted by placing the monokaryotic mycelial blocks of opposite strains on the same plate. The total number of mated mycelia was 400 (20 spores from Hm1-1 × 20 spores from Hm3-10). Of 400 mating pairs, 343 were

observed to make clamp connections, an indication of successful mating. The mating frequency was 85.8%, which GSI-IX was unusually high for a tetrapolar mating system. The expected mating frequency in tetrapolar basidiomycetes is 25% (Kronstad & Staben, 1997). However, the mating of a species in a geographically distinct population could be compatible. For example, the compatibility of P. tuberregium, a tetrapolar mushroom, from a New Caledonia collection and a Nigeria or a Papua New Guinea collection was 83% or 84% (Isikhuemhen et al., 2000). Therefore, the unusual mating frequency of H. marmoreus strains is potentially due to geographic isolation. The mated dikaryotic mycelia were cultivated on solid substrate, as described previously (Lee et al., 2009). Subsequently, 58 hybrid strains were initially Erythromycin screened in terms of production yield, shape of cap, and cultivation period. We chose six new hybrids with better taste and cultivation characteristics

(Table 2). The selected strains Hm15-3, Hm15-4, Hm15-5, Hm16-1, Hm16-2, and Hm17-5 tasted better than parental Hm1-1 strain and had better production yield than Hm3-10 strain. Optimization of cultivation conditions may further increase yield and shorten the cultivation period. RAPD analysis yielded multiple amplified DNA bands, some of which were unique for a certain strain (Fig. 1). To develop the strain-specific SCAR markers, we selected 10 distinct DNA bands from the three RAPD gels which were amplified with OPS-1, OPS-10, or OPL-13 primers (Fig. 1). Bands 1, 6, and 7 were unique for Hm1-1 and Hm1-6. Bands 2–5 and 8–10 were unique for Hm3-10. The selected DNA bands were cloned into a TA cloning vector and their sequences were determined. The sequences were deposited in GenBank and were used to design the 15-base primer sets using their 5′- and 3′-ends (Table 1). The specificity of the primer sets was investigated by PCR with an elevated annealing temperature (60 °C). As shown in Fig. 2a, the primer set P6, derived from a 755-bp DNA band of Hm1-1, was able to distinguish Hm3-10 from other strains.

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