TheThermosynechococcusgenus: wide environmental distribution, but a highly conserved genomic core

Abstract

AbstractCyanobacteria thrive in very diverse environments. However, questions remain about possible growth limitations in ancient environmental conditions. As a single genus, theThermosynechococcusare cosmopolitan and live in chemically diverse habitats. To understand the genetic basis for this, we compared the protein coding component ofThermosynechococcusgenomes. Supplementing the known genetic diversity ofThermosynechococcus, we report draft metagenome-assembled genomes of twoThermosynechococcusrecovered from ferrous carbonate hot springs in Japan. We find that as a genus,Thermosynechococcusis genomically conserved, having a small pan-genome with few accessory genes per individual strain and only 14 putative orthologous protein groups appearing in allThermosynechococcusbut not in any other cyanobacteria in our analysis. Furthermore, by comparing orthologous protein groups, including an analysis of genes encoding proteins with an iron related function (uptake, storage or utilization), no clear differences in genetic content, or adaptive mechanisms could be detected between genus members, despite the range of environments they inhabit. Overall, our results highlight a seemingly innate ability forThermosynechococcusto inhabit diverse habitats without having undergone substantial genomic adaptation to accommodate this. The finding ofThermosynechococcusin both hot and high iron environments without adaptation recognizable from the perspective of the proteome has implications for understanding the basis of thermophily within this clade, and also for understanding the possible genetic basis for high iron tolerance in cyanobacteria on early Earth. The conserved core genome may be indicative of an allopatric lifestyle – or reduced genetic complexity of hot spring habitats relative to other environments.