Marker recycling in Lentinula edodes via 5-fluoroorotic acid counter-selection.

Abstract

Shiitake (Lentinula edodes) contains various beneficial compounds and possesses several notable properties. However, there are few reports on its molecular breeding due to delay in development of its gene-modifying technology. Therefore, here, strain UV30 (pyrG -) was bred from the UV-irradiated protoplasts of strain M2. Strain UV30 was uracil-auxotrophic, and the phenylalanine residue in the active centre of orotidine-5-phosphate decarboxylase encoded by pyrG in the strain was substituted with a serine residue. Next, a recycling marker consisting of the upstream sequence of ku80, a repeat sequence (a portion of the downstream sequence of ku80), pyrG, and the downstream sequence of ku80 was introduced into the strain UV30. Consequently, the prototrophic strain ckp2-1, in which ku80 was replaced with the recycling marker, was obtained. After cultivation in complete medium, mycelia from the edges of ckp2-1 colonies were inoculated into a complete medium containing 5-Fluoroorotic acid (5-FOA). A 5-FOA-resistant strain KaM2, in which pyrG sequence was spliced from the recycling marker sequence via homologous recombination, was obtained. In this study, we developed the first marker recycling system for multigene targeting in L. edodes. Moreover, the resulting ∆ku80 strain may serve as a non-homologous end-joining deficient strain for further genetic manipulations.