PUB - Publikationen an der Universität Bielefeld

**ABSTRACT**
Manganese (Mn) is key to oxygenic photosynthesis as it catalyzes the splitting of water in photosystem II and functions as cofactor of multiple enzymes. A single ABC-type transporter, MntCAB, is so far established for the uptake of the metal under limiting conditions in cyanobacteria. It is unknown, how Mn is imported under replete conditions. We identified two proteins in the model cyanobacteriumSynechocystissp. PCC 6803, which are homologous to the unknown protein family 0016 (UPF0016) member manganese exporter (Mnx). In contrast to Mnx, which consists of six transmembrane domains, the new candidate proteins contain only three transmembrane domains. Hence, we named them hemi manganese exporter (Hmx) 1 and 2. Knock-out mutants inhmx1and/orhmx2showed sensitivity toward low Mn supplementation, and reduced intracellular Mn pools. Additional deletion ofmntChindered the cells to thrive unless external Mn was added and enhanced the depletion of their intracellular Mn pool. In accordance with the observed localization of Hmx1 and Hmx2 in the plasma membrane, we postulate a Mn uptake function for a heteromeric Hmx1/2 across the plasma membrane under a wide range of Mn concentrations and a supporting role for the MntCAB system under Mn-limiting conditions. On the basis of their phylogenies, we propose that Hmx1 and Hmx2 are the ancestral progenitors of eukaryote-type UPF0016 proteins with six transmembrane domains. The Mn transport function of Hmx1/2 underscores this as fundamental ancient feature of the UPF0016 family. Likely, Hmx1 and Hmx2 coevolved with the internalization of the oxygen-evolving complex.