KtrB, a member of the superfamily of K+ transporters

Abstract

KtrB is the K(+)-translocating subunit of the K(+)-uptake system KtrAB from bacteria. It is a member of the superfamily of K(+)transporters (SKT proteins) with other sub-families occurring in archaea, bacteria, fungi, plants and trypanosomes. SKT proteins may have originated from small K(+) channels by at least two gene duplication and two gene fusion events. They contain four covalently linked M(1)PM(2) domains, in which M(1) and M(2) stand for transmembrane stretches, and P for a P-loop, which folds back from the external medium into the membrane. SKT proteins distinguish themselves in two important aspects from K(+) channels: first, with just one conserved glycine residue in their P-loops they contain a much simpler K(+)-selectivity filter sequence than K(+) channels with their conserved Thr-Val-Gly-Tyr-Gly sequence. Secondly, the middle part M(2C2) from the long transmembrane stretch M(2C) of KtrB from the bacterium Vibrio alginolyticus forms a gate inside the membrane, which prevents K(+) permeation to the cytoplasm. Beside the mechanism of K(+) transport via KtrB and other SKT proteins existing hypotheses of how the KtrA protein regulates the K(+)-transport activity of KtrB are discussed.