*Article* **Discovery of Siderophore and Metallophore Production in the Aerobic Anoxygenic Phototrophs**

**Steven B. Kuzyk, Elizabeth Hughes and Vladimir Yurkov \***

Department of Microbiology, University of Manitoba, Winnipeg, MB R3T 2N2, Canada; umkuzyks@myumanitoba.ca (S.B.K.); elizabeth.hughes@umanitoba.ca (E.H.) **\***

Correspondence: Vladimir.Yurkov@umanitoba.ca

**Abstract:** Aerobic anoxygenic phototrophs have been isolated from a rich variety of environments including marine ecosystems, freshwater and meromictic lakes, hypersaline springs, and biological soil crusts, all in the hopes of understanding their ecological niche. Over 100 isolates were chosen for this study, representing 44 species from 27 genera. Interactions with Fe3+ and other metal(loid) cations such as Mg2+, V3+, Mn2+, Co2+, Ni2+, Cu2+, Zn2+, Se4+ and Te2+ were tested using a chromeazurol S assay to detect siderophore or metallophore production, respectively. Representatives from 20 species in 14 genera of <sup>α</sup>-*Proteobacteria*, or 30% of strains, produced highly diffusible siderophores that could bind one or more metal(loid)s, with activity strength as follows: Fe > Zn > V > Te > Cu > Mn > Mg > Se > Ni > Co. In addition, γ-proteobacterial *Chromocurvus halotolerans*, strain EG19 excreted a brown compound into growth medium, which was purified and confirmed to act as a siderophore. It had an approximate size of ~341 Da and drew similarities to the siderophore rhodotorulic acid, a member of the hydroxamate group, previously found only among yeasts. This study is the first to discover siderophore production to be widespread among the aerobic anoxygenic phototrophs, which may be another key method of metal(loid) chelation and potential detoxification within their environments.

**Keywords:** aerobic anoxygenic phototrophs; siderophore; metallophore; CAS assay; *Chromocurvus halotolerans* strain EG19
