1. Production of the Bioactive Compounds Violacein and Indolmycin Is Conditional in a maeA Mutant of Pseudoalteromonas luteoviolacea S4054 Lacking the Malic Enzyme
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Mariane S. Thøgersen, Marina W. Delpin, Jette Melchiorsen, Mogens Kilstrup, Maria Månsson, Boyke Bunk, Cathrin Spröer, Jörg Overmann, Kristian Fog Nielsen, Lone Gram, Thogersen, Mariane S, Delpin, Marina W, Melchiorsen, Jette, Kilstrup, Mogens, Mansson, Maria, Bunk, Boyke, Sproeer, Cathrin, Overmann, Jörg, Nielsen, Kristian F, and Gram, Lone
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0301 basic medicine ,Microbiology (medical) ,Vibrio anguillarum ,030106 microbiology ,Mutant ,lcsh:QR1-502 ,conditional expression ,Microbiology ,Streptomyces ,lcsh:Microbiology ,violacein ,03 medical and health sciences ,antibacterial activity ,Gene cluster ,SDG 14 - Life Below Water ,Original Research ,Strain (chemistry) ,biology ,indolmycin ,Wild type ,Pseudoalteromonas luteoviolacea ,biology.organism_classification ,030104 developmental biology ,Biochemistry ,Transposon mutagenesis ,Antibacterial activity - Abstract
Copyright © 2016 Thøgersen, Delpin, Melchiorsen, Kilstrup, Månsson, Bunk, Spröer, Overmann, Nielsen and Gram. This is an open-access article distributed under the terms of the Creative Commons Attribution License (CC BY). The use, distribution or reproduction in other forums is permitted, provided the original author(s) or licensor are credited and that the original publication in this journal is cited, in accordance with accepted academic practice. No use, distribution or reproduction is permitted which does not comply with these terms., It has previously been reported that some strains of the marine bacterium Pseudoalteromonas luteoviolacea produce the purple bioactive pigment violacein as well as the antibiotic compound indolmycin, hitherto only found in Streptomyces. The purpose of the present study was to determine the relative role of each of these two compounds as antibacterial compounds in P. luteoviolacea S4054. Using Tn10 transposon mutagenesis, a mutant strain that was significantly reduced in violacein production in mannose-containing substrates was created. Full genome analyses revealed that the vio-biosynthetic gene cluster was not interrupted by the transposon; instead the insertion was located to the maeA gene encoding the malic enzyme. Supernatant of the mutant strain inhibited Vibrio anguillarum and Staphylococcus aureus in well diffusion assays and in MIC assays at the same level as the wild type strain. The mutant strain killed V. anguillarum in co-culture experiments as efficiently as the wild type. Using UHPLC-UV/Vis analyses, we quantified violacein and indolmycin, and the mutant strain only produced 7–10% the amount of violacein compared to the wild type strain. In contrast, the amount of indolmycin produced by the mutant strain was about 300% that of the wild type. Since inhibition of V. anguillarum and S. aureus by the mutant strain was similar to that of the wild type, it is concluded that violacein is not the major antibacterial compound in P. luteoviolacea. We furthermore propose that production of violacein and indolmycin may be metabolically linked and that yet unidentified antibacterial compound(s) may be play a role in the antibacterial activity of P. luteoviolacea.
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- 2016
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