The methanoreductosome: a high-molecular-weight enzyme complex in the methanogenic bacterium strain Gö1 that contains components of the methylreductase system

Abstract

The methanogenic bacterium strain Gö1 harbors a high-molecular-weight enzyme complex containing methyl coenzyme M methylreductase as revealed by immunoelectron microscopy. This complex consists of a spherelike, hollow head piece, in the wall of which a number of copies of the methyl coenzyme M methylreductase are located. It is named Rc (c indicates collector). Intimately bound to it is a group of additional subunits of unknown composition referred to as Rm (m indicates mediator). Electron microscopy of negatively stained samples indicated that Rm contains a functional pore or channel which connects the internal volume of Rc with the outside. The RcRm complex is named Rs (s indicates spherelike). This complex was often found detached from the inside of the cytoplasmic membrane when membrane vesicles were investigated. However, Rs was also seen attached to a third component of the complex located in the membrane, the attachment being mediated by Rm. This membrane part of the complex is designated Rt (t indicates translocator). It consists of subunits with unknown composition. When Rs is attached to the membrane, the pore in Rm appears to be plugged by Rt. This indicates that the internal volume in Rc is in contact, via the pore in Rm, with Rt. The RcRmRt complex is referred to as methanoreductosome. Functional implications of the structural organization of the methylreductase system are discussed in view of methane formation and the creation of a transmembrane proton gradient used by the cell for ATP synthesis.