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The TolC protein of E. coli is a versatile OMF which is involved in secretion of antibiotics, heavy metal ions, secondary metabolites and proteins. These individual tasks are accomplished by a dynamic formation of different secretion complexes which comprising a plasma membrane transporter, a Membrane Fusion Protein and TolC as the outer membrane channel-tunnel. The TolC-like protein HgdD of the cyanobacterium Anabaena sp. PCC 7120 was previously described as an indispensable OMF involved in formation of the heterocyst-specific glycolipid layer which is needed to sustain the microoxic environment that allows nitrogen fixation in heterocysts of filamentous cyanobacteria. Here I show that HgdD is involved in macrolide antibiotic resistance and ethidium efflux, which is used as a model substrate for cytotoxic compounds and secondary metabolites. It can be shown that ethidium uptake is a passive and porin-dependent process, while multidrug efflux is performed together with the RND efflux pump All3143 (and the MFP All3144). In contrast to HgdD, All3143 can complement the function of its homologue AcrB in E. coli and was suggested to be named anaAcrB. Multidrug efflux is assisted by SmsA and SchE, two secondary transporters of the MFS-type, which facilitate the transport of cytoplasmatic ethidium to the periplasmic space prior to the All3143- and HgdD-dependent efflux. Moreover, it can be demonstrated that SchE and HgdD are involved in secretion of the metal ion-chelating siderophore schizokinin, which functions in iron(III) acquisition. However, a physical interaction of SchE and HgdD is unlikely since SchE does not possess an OMF interacting domain. In addition, both RND efflux pumps All3143 and Alr1656 are needed for the homeostasis of the photosystems during diazotrophic growth. Although a direct involvement in heterocyst development or metabolism cannot be discounted at this stage, it is speculated that both RND transporters are involved in detoxification of reactive nitrogen species, similar to the function of MexF and MdtF of P. aeruginosa and E. coli respectively. In addition to its function in multidrug efflux, HgdD has been shown to be involved in protein secretion. By comparative analysis of the Anabaena sp. wild type and hgdD mutant secretome it was possible to identify eight putative HgdD protein substrates. The localization of four proteins was exemplary demonstrated by secretome isolation and cell fractionation of hemagglutinin-tagged mutant strains. The absence of detectable protein in the hgdD mutant strain suggests a highly efficient secretion system which is quality controlled by proteolysis of mislocalized proteins.