AUTHOR=Livingstone Paul G. , Morphew Russell M. , Whitworth David E. 

TITLE=Genome Sequencing and Pan-Genome Analysis of 23 Corallococcus spp. Strains Reveal Unexpected Diversity, With Particular Plasticity of Predatory Gene Sets

JOURNAL=Frontiers in Microbiology

VOLUME=9

YEAR=2018

URL=https://www.frontiersin.org/journals/microbiology/articles/10.3389/fmicb.2018.03187

DOI=10.3389/fmicb.2018.03187

ISSN=1664-302X

ABSTRACT=<p><italic>Corallococcus</italic> is an abundant genus of predatory soil myxobacteria, containing two species, <italic>C. coralloides</italic> (for which a genome sequence is available) and <italic>C. exiguus</italic>. To investigate the genomic basis of predation, we genome-sequenced 23 <italic>Corallococcus</italic> strains. Genomic similarity metrics grouped the sequenced strains into at least nine distinct genomospecies, divided between two major sub-divisions of the genus, encompassing previously described diversity. The <italic>Corallococcus</italic> pan-genome was found to be open, with strains exhibiting highly individual gene sets. On average, only 30.5% of each strain’s gene set belonged to the core pan-genome, while more than 75% of the accessory pan-genome genes were present in less than four of the 24 genomes. The <italic>Corallococcus</italic> accessory pan-proteome was enriched for the COG functional category “Secondary metabolism,” with each genome containing on average 55 biosynthetic gene clusters (BGCs), of which only 20 belonged to the core pan-genome. Predatory activity was assayed against ten prey microbes and found to be mostly incongruent with phylogeny or BGC complement. Thus, predation seems multifactorial, depending partially on BGC complement, but also on the accessory pan-genome – genes most likely acquired horizontally. These observations encourage further exploration of <italic>Corallococcus</italic> as a source for novel bioactive secondary metabolites and predatory proteins.</p>