Authors
Roychoudhury, T., Pallavi, J., Roy, A., Seal, A.
Abstract
Endosymbiosis is widespread throughout the tree of life. Understanding how the transition of a bacterial endosymbiont from facultative to host-dependent obligate life occurs is an important question for defining the origin of endosymbiosis. A novel gram-positive bacillus, Brevibacillus sp. TJ4 was isolated from the nitrogen-fixing yeast Rhodotorula mucilaginosa JGTA-S1, which houses several endobacteria within its cells. TJ4 can survive independently of yeast but exhibits genomic and metabolic features characteristic of an evolving endosymbiont, slowly assuming a host-dependent, obligate lifestyle. The TJ4 genome contains several incomplete pathways for carbohydrate, amino acid, vitamin, and cofactor metabolism, which is reflected in its increased reliance on host-derived nutrients and auxotrophy compared with that of other Brevibacillus spp. Comparative genomics revealed widespread genome rearrangements, loss of synteny, and multiple cross-genus and inter-kingdom horizontal gene transfer (HGT) events in TJ4 compared to other Brevibacillus spp. These HGTs include the acquisition of genes from bacteriophages and co-resident endobacteria of JGTA-S1. One such horizontally acquired gene, Type II 3-dehydroquinate dehydratase (AroQ), appears to have originated from the Rhodotorula host itself. This acquisition functionally restores the shikimate pathway in strain TJ4, as evidenced by the phylogenetic placement of AroQ from TJ4 within the clade of fungal AroQ homologs. Potential exploitation of the host JGTA-S1 appears to be a probable mode of endosymbiosis of TJ4, an evolving endosymbiont that we named Brevibacillus rhodotorulae sp. nov.
Preprint server:
bioRxiv
The authors list and abstract were imported from bioRxiv on 01 Jul 2026.
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