The family Anoxybacillaceae was recently proposed encompassing the genera Anoxybacillus, Geobacillus, Parageobacillus, Saccharococcus and Thermolongibacillus. Of these genera, Anoxybacillus contains >50% of the Anoxybacillaceae species. However, Anoxybacillus species form multiple unrelated clades in phylogenetic trees and their evolutionary relationships are unclear. To clarify the evolutionary relationships of Anoxybacillus and other Anoxybacillaceae species, detailed phylogenomic and comparative analyses were conducted on 38 Anoxybacillaceae species with available genomes. In a phylogenomic tree based on 1148 core proteins, all Anoxybacillus, Geobacillus, Parageobacillus, Saccharococcus and Thermolongibacillus species, excepting Anoxybacillus sediminis, formed a strongly supported clade representing the family Anoxybacillaceae. Five conserved signature indels (CSIs) reported here are also uniquely found in these species, providing robust means for the demarcation of family Anoxybacillaceae in molecular terms. In our phylogenomic tree and in the Genomic Taxonomy Database, Anoxybacillus species formed four distinct clades designated as Anoxybacillus sensu stricto (containing the type species A. pushchinoensis), Anoxybacillus_A, Anoxybacillus_B and Anoxybacillus_C. Our analyses have identified 17 novel CSIs which offer means to reliably distinguish species from these clades based upon multiple uniquely shared molecular characteristics. Additionally, we have identified three and seven CSIs specific for the genera Geobacillus and Brevibacillus, respectively. All seven Brevibacillus-specific CSIs are also shared by Anoxybacillus sediminis, which branches reliably with this genus. Based on the strong phylogenetic and molecular evidence presented here, we are proposing that the genus Anoxybacillus should be restricted to only the species from Anoxybacillus sensu stricto clade, whereas the species from Anoxybacillus_A, Anoxybacillus_B, and Anoxybacillus_C clades should be transferred into three novel genera Anoxybacteroides gen. nov., Paranoxybacillus gen. nov. and Thermaerobacillus gen. nov., respectively. Additionally, we are also proposing the transfer of Anoxybacillus sediminis to the genus Brevibacillus. The proposed changes, which reliably depict the evolutionary relationships among Anoxybacillaceae species, should be helpful in the studies of these organisms.
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