Dendrobium plants are members of the family Orchidaceae, many of which are endangered orchids with ornamental and medicinal values. Dendrobium endophytic microbes have attracted attention for the development of strategies for plant protection and utilization of medicinal principles. However, the role of endophytic bacteria is poorly elucidated due to the lack of their successful cultivation. This study obtained a total of 749 endophytic isolates from Dendrobium roots using solid media prepared by simply modified methods (separate sterilization of phosphate and agar [PS] and use of gellan gum as a gelling reagent [GG]) and by a conventional method of autoclaving the phosphate and agar together (PT method). Notably, based on a comparison of 16S rRNA gene sequences between the isolates and the Dendrobium root endophyte community, we successfully retrieved more than 50% (17 out of 30) of the predominant endophytic bacterial operational taxonomic units (OTUs) using PS and GG media, which is a much higher recovery rate than that of PT medium (16.7%). We further found that a number of recalcitrant bacteria, including phylogenetically novel isolates and members of even the rarely cultivated phyla Acidobacteriota and Verrucomicrobiota, were obtained only when using PS and/or GG medium. Intriguingly, the majority of these recalcitrant bacteria formed colonies faster on PS or GG medium than on PT medium, which may have contributed to their successful isolation. Taken together, this study succeeded in isolating a wide variety of Dendrobium endophytic bacteria, including predominant ones using PS and GG media, and enables performance of future studies to clarify their unknown roles associated with the growth of Dendrobium plants. IMPORTANCE Dendrobium endophytic bacteria are of great interest since their functions may contribute to the protection of endangered orchids with ornamental and medicinal values. To understand and reveal the "true roles" of the endophytes, obtaining those axenic cultures is necessary even in the metagenomic era. However, no effective methods for isolating a variety of endophytic bacteria have been established. This study first demonstrated that the use of simply modified medium is quite effective and indeed allows the isolation of more than half of the predominant endophytic bacteria inhabiting Dendrobium roots. Besides, even phylogenetically novel and/or recalcitrant endophytic bacteria were successfully obtained by the same strategy. The obtained endophytic bacteria could serve as "living material" for elucidating their unprecedented functions related to the conservation of endangered orchid plants. Furthermore, the culture method used in this study may enable the isolation of various endophytic bacteria dominating not only in orchid plants but also in other useful plants.
Keywords: Dendrobium; endophytic bacteria; isolation and cultivation; novel bacteria; orchid; predominant bacteria.