16 research outputs found
Structures of the indole-diterpene biosynthesis loci (<i>IDT/LTM</i>) in sequenced genomes.
<p><i>IDT/LTM</i> genes are indicated by single letters, whereby <i>Qâ=âidtQ</i> or <i>ltmQ</i> (in <i>E. festucae</i>), and so forth. Tracks from top to bottom of each map represent the following: genes, repeats, MITEs, and graphs of AT (red) and GC (blue) contents. Each gene is represented by a filled arrow indicating its direction of transcription. Closed circles indicate telomeres, and distances from the telomere on the <i>E. festucae</i> map are indicated in kilobasepairs (kb). Cyan bars representing repeat sequences are labeled with names or numbers to indicate relationships between repeats in the different species. Vertical bars beneath the repeat maps indicate MITEs. Genes for the first fully cyclized intermediate, paspaline, are indicated in blue, those for subsequent chemical decorations are shown in red, and <i>idt/ltmS</i>, with undetermined function, is in purple. Identifiable genes flanking the clusters are indicated in gray, and unfilled arrows indicate pseudogenes. The major pathway end-product for each strain is listed at the right of its map, abbreviated as indicated in <a href="http://www.plosgenetics.org/article/info:doi/10.1371/journal.pgen.1003323#pgen-1003323-g003" target="_blank">Figure 3</a>, and in bold for those confirmed in this study.</p
Phylogenies of <i>rpbA</i> from sequenced isolates and other Clavicipitaceae.
<p>The phylogenetic tree is based on nucleotide alignment for a portion of the RNA polymerase II largest subunit gene, <i>rpbA</i>. This tree is rooted with <i>Fusarium graminearum</i> as the outgroup. Epichloae are indicated in green, <i>Claviceps</i> species are indicated in blue, <i>Periglandula</i> species are indicated in red, and <i>Aciculosporium take</i> is in black. Species for which genomes were sequenced in this study are shown in bold type, and asterisks indicate plant-associated fungi. Alkaloids listed are the major pathway end-products predicted from the genome sequences, abbreviated as shown in <a href="http://www.plosgenetics.org/article/info:doi/10.1371/journal.pgen.1003323#pgen-1003323-g002" target="_blank">Figure 2</a>, <a href="http://www.plosgenetics.org/article/info:doi/10.1371/journal.pgen.1003323#pgen-1003323-g003" target="_blank">Figure 3</a>, <a href="http://www.plosgenetics.org/article/info:doi/10.1371/journal.pgen.1003323#pgen-1003323-g004" target="_blank">Figure 4</a>. Other abbreviations: (â)â=âsome genes or remnants present, but not predicted to make alkaloids of this class, ââ=âno genes present for this alkaloid class, EAâ=âergot alkaloids may be produced; IDTâ=âindole-diterpenes may be produced, (ÎR*)â=âdeletion of terminal reductase domain of <i>perA</i>.</p
GC proportions in genic and repeat DNA of sequenced genomes.<sup>a</sup>
a<p>Abbreviations: CDSâ=âcoding sequence, GCâ=âproportion of sequence that is G or C, non-Rpt-IGâ=ânonrepetitive intergenic DNA, Rptâ=ârepetitive DNA.</p>b<p>Statistics for <i>P. ipomoeae</i> are tentative because the assembly was filtered by selecting only contigs containing tBLASTx matches to genome sequences from the other Clavicipitaceae.</p
Structures of the ergot alkaloid biosynthesis loci (<i>EAS</i>) in sequenced genomes.
<p>Tracks from top to bottom of each map represent the following: genes, repeats, MITEs, and graphs of AT (red) and GC (blue) contents. Each gene is represented by one or more boxes representing the coding sequences in exons, and an arrow indicating the direction of transcription. Double-slash marks (//) indicate sequence gaps within scaffolds of the assembled <i>E. festucae</i> genome sequences. Closed circles indicate telomeres, and distances from the telomere on the <i>E. festucae</i> map are indicated in kilobasepairs (kb). Cyan bars beneath each map represent repeat sequences, and are labeled with names or numbers to indicate relationships between repeats in the different species. Vertical bars beneath the repeat maps indicate MITEs. Gene names are abbreviated <i>A</i> through <i>P</i> for <i>easA</i> through <i>easP</i>, <i>W</i> for <i>dmaW</i>, and <i>clo</i> for <i>cloA</i>. Genes for synthesis of the ergoline ring system (skeleton) are shown in dark blue for the steps to chanoclavine-I (<i>W</i>, <i>F</i>, <i>E</i>, and <i>C</i>), and in light blue (<i>D</i>, <i>A</i>, and <i>G</i>) for steps to agroclavine. Genes for subsequent chemical decorations are shown in red (<i>clo</i>, <i>H</i>, <i>O</i>, <i>P</i>, <i>lpsA</i>, <i>lpsB</i>, and <i>lpsC</i>). Identifiable genes flanking the clusters are indicated in gray, and unfilled arrows indicate pseudogenes. The major pathway end-products for each strain are listed below each species name, abbreviated as indicated in <a href="http://www.plosgenetics.org/article/info:doi/10.1371/journal.pgen.1003323#pgen-1003323-g002" target="_blank">Figure 2</a>, and in bold for those confirmed in this study. Note that LAH is a reported product of <i>C. paspali</i>, but the sequenced strain is predicted not to synthesize it due to a defective <i>easE</i> gene.</p
Alkaloid profiles of sequenced isolates.<sup>a</sup>
a<p>Strains are abbreviated as follow: <i>Cpu</i>â=â<i>Claviceps purpurea</i> 20.1, <i>Cfu</i>â=â<i>C. fusiformis</i> PRL 1980, Cpaâ=â<i>C. paspali</i> RRC-1481, <i>Eam</i>â=â<i>EpichloĂ« amarillans</i> E57, <i>Ebe</i>â=â<i>E. brachyelytri</i> E4804, <i>Eel</i>â=â<i>E. elymi</i> E56, <i>Ef</i>1â=â<i>E. festucae</i> Fl1, <i>Ef</i>2â=â<i>E. festucae</i> E2368, <i>Egl</i>â=â<i>E. glyceriae</i> E2772, <i>Et</i>8â=â<i>E. typhina</i> E8, <i>Et</i>5â=â<i>E. typhina</i> E5819, <i>Nga</i>â=â<i>N. gansuense</i> E7080, <i>Ngi</i>â=â<i>N. gansuense</i> var. <i>inebrians</i> E818, <i>Nun</i>â=â<i>N. uncinatum</i> E167, <i>Pip</i>â=â<i>P. ipomoeae</i> IasaF13. Symbols: +â=âpresent, (+)â=âintermediate inferred to be synthesized because downstream product is present, ââ=ânot predicted and not detected, (â)â=âpredicted but not detected, ntâ=âpredicted but not tested, ERAâ=âergotamine, ERBâ=âergobalansine, ERCâ=âergocryptine, ERVâ=âergovaline. Blank cells indicate compounds not predicted from genotype, and not tested.</p>b<p>Identification of IDT-436 and terpendoles E, I, J, K, M, M, and A are tentative because authentic standards are unavailable.</p
Summary of loline alkaloid-biosynthesis pathway.
<p>Arrows indicate one or more steps catalyzed by products of the genes indicated. Arrows and genes in blue indicate steps in synthesis of the first fully cyclized intermediate (NANL). Arrows and genes in red indicate steps in modification of NANL to give the variety of lolines found in the epichloae. Asterisks indicate <i>LOL</i> genes that were newly discovered in the genome sequence of <i>E. festucae</i> E2368.</p
Symbiosis of meadow fescue with <i>Epichloë festucae</i>, a heritable symbiont.
<p>Single optical slice confocal micrographs of <i>E. festucae</i> expressing enhanced cyan-fluorescent protein were overlain with DIC bright field images of (A) ovules (barâ=â100 ”m), (B) embryos (barâ=â200 ”m), and (C) shoot apical meristem and surrounding new leaves (barâ=â200 ”m). (D) Asymptomatic (left) and âchokedâ (right) inflorescences simultaneously produced on a single grass plant infected with a single <i>E. festucae</i> genotype. Vertical (seed) transmission of the symbiont occurs via the asymptomatic inflorescence, whereas the choked inflorescence bears the <i>E. festucae</i> fruiting structure (stroma), which produces sexually derived spores (ascospores) that mediate horizontal transmission.</p
Genic and repeat DNA contents of sequenced genomes.<sup>a</sup>
a<p>Abbreviations: CDSâ=âcoding sequence, MTâ=âmating type, non-Rpt-IGâ=ânonrepetitive intergenic DNA, Rptâ=ârepetitive DNA.</p>b<p>Based on total of contigs â„500 bp. These sizes differ slightly from total scaffold lengths given in <a href="http://www.plosgenetics.org/article/info:doi/10.1371/journal.pgen.1003323#pgen-1003323-t001" target="_blank">Table 1</a> for <i>C. purpurea</i> 20.1, <i>E. festucae</i> E2368, and <i>E. festucae</i> Fl1.</p>c<p><i>C. fusiformis</i> PRL 1980 mating type genes include <i>mtBA</i> and <i>mtAC</i>. <i>P. ipomoeae</i> IasaF13 mating type genes <i>mtAA</i> and <i>mtAC</i> appear to have premature stop codons.</p>d<p>Statistics for <i>P. ipomoeae</i> are tentative because the assembly was filtered by selecting only contigs containing tBLASTx matches to genome sequences from the other Clavicipitaceae.</p
Ergot alkaloids and summary of biosynthesis pathway.
<p>(A) Ergoline alkaloid biosynthesis pathways in the Clavicipitaceae. Arrows indicate one or more steps catalyzed by products of genes indicated. Arrows and genes in blue indicate steps in synthesis of the first fully cyclized intermediate (skeleton). Variation in the <i>easA</i> gene (underlined) determines whether the ergoline skeleton is festuclavine or agroclavine. Arrows and genes in red indicate steps in decoration of the skeleton to give the variety of ergolines in the Clavicipitaceae. Asterisks indicate genes newly discovered in the genome sequences of <i>C. paspali</i>, <i>N. gansuense</i> var. <i>inebrians</i> and <i>P. ipomoeae</i>. (B) Ergopeptines produced by strains in this study.</p
Peramine biosynthesis loci (<i>PER</i>) in epichloae and the homologous loci in other Clavicipitaceae.
<p>On each map <i>perA</i> is color-coded blue for a complete gene and as an open box for <i>perA-</i>ÎR*. Domains of <i>perA</i> are indicated as A (adenylation), T (thiolation), C (condensation), M (<i>N</i>-methylation) and R* (reduction). Subscripts indicate postulated specificity of adenylation domains for 1-pyrroline-5-carboxylate (A<sub>P</sub>) and arginine (A<sub>R</sub>) <a href="http://www.plosgenetics.org/article/info:doi/10.1371/journal.pgen.1003323#pgen.1003323-Tanaka1" target="_blank">[16]</a>. Other features are indicated as in <a href="http://www.plosgenetics.org/article/info:doi/10.1371/journal.pgen.1003323#pgen-1003323-g007" target="_blank">Figure 7</a>.</p