AI Article Synopsis
- Exopolysaccharides (EPS) are crucial for bacterial survival, involving complex synthesis pathways linked to multiple genes, yet a direct connection between stress response and EPS levels was previously unproven.
- In a study of Nostoc sp. strain PCC 7120, a recombinant strain (AnexoD) with overexpressed ExoD showed increased EPS production, biofilm formation, and tolerance to cadmium stress compared to control cells.
- The research revealed that ExoD and its paralog All1787 have distinct evolutionary paths and roles in EPS biosynthesis, suggesting potential for genetic manipulation to enhance EPS production in cyanobacteria for sustainable applications.
Article Abstract
Exopolysaccharides (EPS) produced by bacterial species are an important component of bacteria's survival strategy. Synthesis of EPS, principal component of extracellular polymeric substance, occurs through multiple pathways involving multitude of genes. While stress-induced concomitant increase in exoD transcript levels and EPS content have been shown earlier, experimental evidence for direct correlation is lacking. In the present study, role of ExoD in Nostoc sp. strain PCC 7120 was evaluated by generating a recombinant Nostoc strain AnexoD, wherein the ExoD (Alr2882) protein was constitutively overexpressed. AnexoD exhibited higher EPS production, propensity for formation of biofilms and tolerance to Cd stress compared to vector control AnpAM cells. Both Alr2882 and its paralog All1787 exhibited 5 transmembrane domains, with only All1787 predicted to interact with several proteins in polysaccharide synthesis. Phylogenetic analysis of orthologs of these proteins across cyanobacteria indicated that the two paralogs Alr2882 and All1787 and their corresponding orthologs arose divergently during evolution, and could have distinct roles to perform in the biosynthesis of EPS. This study has thrown open the possibility of engineering overproduction of EPS and inducing biofilm formation through genetic manipulation of EPS biosynthesis genes in cyanobacteria, thus building a cost-effective green platform for large scale production of EPS.
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| http://dx.doi.org/10.1016/j.ijbiomac.2023.125014 | DOI Listing |
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