화학공학소재연구정보센터
Biochemical and Biophysical Research Communications, Vol.478, No.1, 25-32, 2016
Intracellular co-localization of the Escherichia coli enterobactin biosynthetic enzymes EntA, EntB, and EntE
Bacteria utilize small-molecule iron chelators called siderophores to support growth in low-iron environments. The Escherichia coli catecholate siderophore enterobactin is synthesized in the cytoplasm upon iron starvation. Seven enzymes are required for enterobactin biosynthesis: EntA-F, H. Given that EntB-EntE and EntA-EntE interactions have been reported, we investigated a possible EntA-EntB-EntE interaction in E. coli cells. We subcloned the E. coli entA and entB genes into bacterial adenylate cylase two hybrid (BACTH) vectors allowing for co-expression of EntA and EntB with N-terminal fusions to the adenylate cyclase fragments T18 or T25. BACTH constructs were functionally validated using the CAS assay and growth studies. Co-transformants expressing T18/T25-EntA and T25/1-18-EntB exhibited positive two-hybrid signals indicative of an intracellular EntA-EntB interaction. To gain further insights into the interaction interface, we performed computational docking in which an experimentally validated EntA-EntE model was docked to the EntB crystal structure. The resulting model of the EntA-EntB-EntE ternary complex predicted that the IC domain of EntB forms direct contacts with both EntA and EntE. BACTH constructs that expressed the isolated EntB IC domain fused to T18/T25 were prepared in order to investigate interactions with T25/T18-EntA and T25/T18-EntE. CAS assays and growth studies demonstrated that T25-IC co-expressed with the EntB ArCP domain could complement the E. coli entB(-) phenotype. In agreement with the ternary complex model, BACTH assays demonstrated that the EntB IC domain interacts with both EntA and EntE. (C) 2016 Elsevier Inc. All rights reserved.