作 者:祝子坪, 等
影响因子:1.429
刊物名称:Biotechnology and applied biochemistry
出版年卷:2016, 63(5): 605-615
文章摘要:Volvariella volvacea is difficult to store fresh because of the
lack of low-temperature resistance. Many traditional
mutagenic strategies have been applied in order to select out
strains resistant to low temperature, but few commercially
efficient strains have been produced. In order to break through
the bottleneck of traditional breeding and significantly
improve low-temperature resistance of the edible fungus V.
volvacea, strains resistant to low temperature were
constructed by genome shuffling. The optimum conditions of
V. volvacea strain mutation, protoplast regeneration, and
fusion were determined. After protoplasts were treated with
1% (v/v) ethylmethylsulfonate (EMS), 40 Sec of ultraviolet (UV)
irradiation, 600 Gy electron beam implantation, and 750
Gy60Co-γ irradiation, separately, the lethality was within
70%–80%, which favored generating protoplasts being used in
following forward mutation. Under these conditions, 16 strains
of V. volvacea mutated by EMS, electron beam, UV irradiation,
and 60Co-γ irradiation were obtained. The 16 mutated protoplasts were selected to serve as the shuffling pool based
on their excellent low-temperature resistance. After four
rounds of genome shuffling and low-temperature resistance
testing, three strains (VF1, VF2, and VF3) with high genetic
stability were screened. VF1, VF2, and VF3 significantly
enhanced fruit body shelf life to 20, 28, and 28 H at 10 ◦C,
respectively, which exceeded 25%, 75%, and 75%, respectively,
compared with the storage time of V23, the most
low-temperature-resistant strain. Genome shuffling greatly
improved the low-temperature resistance of V. volvacea, and
shortened the course of screening required to generate
desirable strains. To our knowledge, this is the first paper to
apply genome shuffling to breeding new varieties of
mushroom, and offers a new approach for breeding edible
fungi with optimized phenotype.
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