A novel view on the architecture of the non-catalytic N-terminal region of ATP-dependent LonA proteases

ATP-Dependent Lon-proteases are components of the protein quality control system, which maintains cellular proteome. The Lon family consists of two subfamilies A and B, differing in subunit architecture and intracellular location. We propose here a reinterpretation of the domain organization of the non-catalytic N-terminal region of LonA proteases. Using Escherichia coli LonA protease (EcLon) as an example, it has been shown that a fragment (αN domain) located between the N-terminal domain and the AAA+ module is similar to the α1 domain of the first AAA+ module of chaperone-disaggregase ClpB. A coiled-coil (CC) region included in the αN domain of LonA is similar to the M domain of ClpB chaperones, which is inserted into the α1 domain. This region is suggested to adopt the structure similar to the propeller-like (PL) domain. The typical architecture of the N-terminal region of LonA proteases is postulated to be characterized by the obligatory presence of a PL domain, included in the αN domain, but may vary in the length and topology of the preceding N-terminal domain, which can have in some cases a more complex structure than in EcLon.