Structure Dynamics and Allosteric Regulation of the E. Coli High-Affinity Methionine Transporter Metni

Abstract

The high-affinity uptake of methionine by Escherichia coli is mediated by MetNI, a member of the methionine uptake transporter family of ATP-binding cassette (ABC) transporters. We previously reported the crystal structure of MetNI at 3.7 A resolution and a brief analysis of the methionine mediated trans-inhibition of the transporters' ATPase activity1. Here, we report two new crystal structures of the MetNI transporter, solved at 2.8 and 4.0 A resolution. While both structures of MetNI reveal the transporter adopting an inward-facing conformation, significant changes are observed in the conformation of the MetI transmembrane, MetN nucleotide binding, and MetN-C2 carboxyl-terminal regulatory domains. The conformational changes can be described primarily as rigid-body movements which result in a partial closing of the MetN nucleotide binding domains, and a simultaneous rotational rearrangement of the MetN-C2 regulatory domain. The kinetic properties of trans-inhibition have also been characterized by an analysis of ligand binding on the ATPase activity of wild type and specific MetN-C2 regulatory domain mutants.1. Kadaba N, Kaiser J, Johnson E, Lee A, and Rees D C. The high affinity E. coli methionine ABC transporter: structure and allosteric regulation. Science. 2008 Jul 11;321(5886):250-3.