Characterizing a novel CMK-EngA fusion protein from Bifidobacterium: Implications for inter-domain regulation

Abstract

EngA is an essential and unique bacterial GTPase involved in ribosome biogenesis. The essentiality and species-specific variations among EngA homologues make the protein a potential target for future drug development. In this aspect, it is important to understand the variations of EngA among probiotic organisms and non-probiotic bacteria to understand species specificity. The search for variations among EngA homologues revealed a unique variant, exclusively found in Bifidobacterium and a few Actinobacteria species. Bifidobacterium possesses a multifunctional fusion protein, wherein EngA is fused with an N-terminal CMK (Cytidylate Monophosphate Kinase) domain. The resulting protein is therefore a large (70kDa size) with 3 consecutive P-loops and a 50 amino acid long linker connecting the EngA and CMK domains. EngA is known to regulate ribosome biogenesis via nucleotide-dependent conformational changes. The additional domain may introduce further intricate regulation in ribosome biogenesis or participate in newer biological processes. This study is the first attempt to characterise this novel class of bacterial EngA found in the Genus of Bifidobacteria.