Production of geodin in <i>A. nidulans ged⁺</i> strains.

<p><b>A</b>) Left panels depict extracted ion chromatograms (ESI-) of geodin <i>m/z</i> 396.9876 ± 0.005 amu from fungal extracts of <i>ged⁺, ged⁺ mdpA-LΔ</i> and reference strains (Bruker maXis system). An authentic geodin standard is included for comparison. The mass spectra of the putative geodin peak in <i>ged⁺</i> and the authentic geodin standard are depicted in panels to the right. <b>B</b>) and <b>C</b>) ESI⁻ chromatograms of geodin <i>m/z</i> 396.9876 ± 0.005 amu (<b>B</b>)) and sulochrin <i>m/z</i> 331.0812± 0.005 amu (<b>C</b>)) extracted from <i>ged⁺ mdpA-LΔ</i> (grey), <i>ged⁺ mdpA-LΔ gedLΔ, (</i>blue), <i>ged⁺ mdpA-LΔ gedCΔ</i> (purple) and <i>ged⁺ mdpA-LΔ gedRΔ</i> (red).</p

Summary of characterized and putative ORFs in the <i>A. terreus</i> geodin gene cluster.

<p>All similarity percentages indicate identities at the amino acid level.</p>*<p>One of these three putative ORFs is likely to encode the emodin O-methyltransferase described by Chen et al <a href="http://www.plosone.org/article/info:doi/10.1371/journal.pone.0072871#pone.0072871-Chen2" target="_blank">[16]</a>.</p

The <i>A. terreus</i> transcription factor GedR is important for gene expression in the geodin gene cluster in <i>A. nidulans</i>.

<p>Transcription levels of selected <i>ged</i>-genes in <i>ged</i>⁺<i>mdpA-L</i>Δ, <i>gedR</i>Δ strains relative to the corresponding levels in <i>ged</i>⁺<i>mdpA-L</i>Δ strains.</p

Proposed pathway for geodin production.

<p>The PKS (ACTS, <a href="http://www.plosone.org/article/info:doi/10.1371/journal.pone.0072871#pone.0072871-Awakawa1" target="_blank">[20]</a>), thioesterase (ACTE, <a href="http://www.plosone.org/article/info:doi/10.1371/journal.pone.0072871#pone.0072871-Awakawa1" target="_blank">[20]</a>) and dihydrogeodin oxidase previously linked to genes as well as the sulochrin halogenase identified in this study (highlighted in bold) are denoted by their <i>ged</i>-annotation. Enzymatic reactions for which the enzyme has been characterized but the gene not identified are marked in bold as EOX  =  emodin anthrone oxygenase, EOM  =  emodin-O-methyltransferase and QO  =  questin oxygenase. Reactions involving compounds 8-10 shown in brackets are inferred reactions proposed by Henry and Townsend based on a similar intra-molecular rearrangement in aflatoxin biosynthesis <a href="http://www.plosone.org/article/info:doi/10.1371/journal.pone.0072871#pone.0072871-Henry1" target="_blank">[26]</a>, <a href="http://www.plosone.org/article/info:doi/10.1371/journal.pone.0072871#pone.0072871-Henry2" target="_blank">[27]</a>.</p

Schematic overview of the PCR based USER cloning strategy for transfer of entire gene clusters from one fungus to another.

<p>In the illustrated case, the geodin gene cluster in <i>A. terreus</i> is PCR amplified, cloned, and integrated into the <i>IS1</i> locus in <i>A. nidulans</i>. A) ORFs GedA-GedL are depicted as arrows. The yellow and green arrows represent the ORFs encoding the transcription factor and the PKS, respectively. Remaining ORFs are represented by red arrows. Arrow size is proportional to ORF length and arrow direction indicates genomic orientation. Numbers above the gene cluster specify sequence in base pairs. Genomic DNA fragments and cloning vectors are amplified as PCR products using primers extended with uracil-containing tails. The tails contain matching sequences (indicated by identical colors) allowing for PCR product assembly in a single USER Fusion reaction. For the geodin cluster, all putative ORFs are fused into two fragments, which are individually inserted into a vector prepared for gene targeting. Blue boxes labeled up (upstream) and dw (downstream) represent targeting sequences for homologous recombination into <i>IS1</i> in the first gene-targeting event. The targeting sequences in the second integration event are represented in gray and blue and consist of the overlapping region between Fragment 1 and 2 and the downstream part of <i>IS1</i>, respectively. Genetic markers used for selection are depicted in orange (<i>argB</i>) and purple (<i>AFpyrG</i>). The sizes of uracil-containing tails, vector elements and PgpdA fragment are not drawn to scale. B) The first gene-targeting event introduces the first fragment into <i>IS1</i> by homologous recombination between <i>IS1</i> up and down-sequences as indicated. The second gene-targeting event introduces the second fragment using the overlapping region of the Fragment 1 and 2 (gray) and the downstream section of <i>IS1</i> as targeting sequences. Note that additional DNA can be inserted in subsequent gene-targeting events. For example, a third fragment can be inserted by using the downstream end of fragment 2 and the downstream region of <i>IS1</i> as targeting sequences. See text for details concerning use and recycling of markers.</p