Pan-genomic comparison of a potential solvent-tolerant alkaline protease-producing Exiguobacterium sp. TBG-PICH-001 isolated from a marine habitat

The identification and applicability of bacteria are inconclusive until comprehended with genomic repositories. Our isolate, Exiguobacterium sp. TBG-PICH-001 exhibited excellent halo- and organic solvent tolerance with simultaneous production of alkaline protease/s (0.512 IU/mL). The crude protease (1 IU) showed a 43.57% degradation of whey protein. The bulk proteins in the whey were hydrolyzed to smaller peptides which were evident in the SDS-PAGE profile. With such characteristics, the isolate became interesting for its genomic studies. The TBG-PICH-001 genome was found to be 3.14 Mb in size with 17 contigs and 47.33% GC content. The genome showed 3176 coding genes, and 2699 genes were characterized for their functionality. The Next-Generation-Sequencing of the genome identified only the isolate’s genus; hence we attempted to delineate its species position. The genomes of the isolate and other representative Exiguobacterium spp. were compared based on orthologous genes (Orthovenn2 server). A pan-genomic analysis revealed the match of TBG-PICH-001 with 15 uncharacterized Exiguobacterium genomes at the species level. All these collectively matched with Exiguobacterium indicum, and the results were reconfirmed through phylogenetic studies. Further, the Exiguobacterium indicum genomes were engaged for homology studies rendering 11 classes of protease genes. Two putative proteases (Zinc metalloprotease and Serine protease) obtained from homology were checked for PCR amplification using genomic DNA of TBG-PICH-001 and other Exiguobacterium genomes. The results showed amplification only in the Exiguobacterium indicum genome. These protease genes, after sequencing, were matched with the TBG-PICH-001 genome. Their presence in its whole genome experimentally validated the study.