Beschreibung:
<jats:title>Abstract</jats:title><jats:p><jats:italic>Acetobacteraceae</jats:italic> is an economically important family of bacteria that is used for industrial fermentation in the food/feed sector and for the preparation of sorbose and bacterial cellulose. It comprises two major groups: acetous species (acetic acid bacteria) associated with flowers, fruits and insects, and acidophilic species, a phylogenetically basal and physiologically heterogeneous group inhabiting acid or hot springs, sludge, sewage and freshwater environments. Despite the biotechnological importance of the family <jats:italic>Acetobacteraceae</jats:italic>, the literature does not provide any information about its ability to produce specialized metabolites. We therefore constructed a phylogenomic tree based on concatenated protein sequences from 141 type strains of the family and predicted the presence of small-molecule biosynthetic gene clusters (BGCs) using the antiSMASH tool. This dual approach allowed us to associate certain biosynthetic pathways with particular taxonomic groups. We found that acidophilic and acetous species contain on average ~ 6.3 and ~ 3.4 BGCs per genome, respectively. All the <jats:italic>Acetobacteraceae</jats:italic> strains encoded proteins involved in hopanoid biosynthesis, with many also featuring genes encoding type-1 and type-3 polyketide and non-ribosomal peptide synthases, and enzymes for aryl polyene, lactone and ribosomal peptide biosynthesis<jats:italic>.</jats:italic> Our in silico analysis indicated that the family <jats:italic>Acetobacteraceae</jats:italic> is a potential source of many undiscovered bacterial metabolites and deserves more detailed experimental exploration.</jats:p>