Natural diversity of nodular microsymbionts of Myrica rubra

Abstract

Myrica is often considered a promiscuous actinorhizal genus. However, there are large differences in diversity among Myrica spp., and M. gale does not exhibit such promiscuity in its natural environment. In order to understand the diversity of nodular microsymbionts of M. rubra in natural environments and whether or not the M. rubra is a `promiscuous' host, we studied the natural diversity of nodular microsymbionts of different cultivars of M. rubra. 15 nodules from nine horticultural cultivars of M. rubra were collected in 7 sites of eastern, southeastern, central and northern part of Zhejiang province, China. Unisolated strains were compared by sequence analyses of their nifD-nifK intergenic spacers and PCR amplification protocol on nodules. Phylogenetic relationships among nodular Frankia strains were analyzed by comparing sequences of their nifD-nifK intergenic spacers and reference strains. There is a high degree of diversity among nodular Frankia symbionts of M. rubra. Frankia strains from cluster I and cluster III were found in nodules from many different cultivars of M. rubra. Furthermore, there were sometimes two strains which belong to different infective clusters of Frankia in the same nodule, and Frankia strains of cluster I were often dominant strains when there were two strains. M. rubra can thus be considered to be promiscuous in nature. Identical sequences in nodules from different plants at widely separated sites were commonly found, indicating that some strains are cosmopolitan. Geographic separation, host selectivity for Frankia symbionts and soil environment may account for the diversity of Frankia strains and differences in Frankia populations found in M. rubra nodules. Several very closely related local Frankia populations in M. rubra nodules could be distinguished from one another by our approach.