Ceratocystidaceae Exhibit High Levels of Recombination at the Mating-Type (MAT) Locus

Ceratocystidaceae Exhibit High Levels of Recombination at the Mating-Type (MAT) Locus

Accepted Manuscript Ceratocystidaceae exhibit high levels of recombination at the mating-type (MAT) locus Melissa C. Simpson, Martin P.A. Coetzee, Magriet A. van der Nest, Michael J. Wingfield, Brenda D. Wingfield PII: S1878-6146(18)30293-9 DOI: 10.1016/j.funbio.2018.09.003 Reference: FUNBIO 959 To appear in: Fungal Biology Received Date: 10 November 2017 Revised Date: 11 July 2018 Accepted Date: 12 September 2018 Please cite this article as: Simpson, M.C., Coetzee, M.P.A., van der Nest, M.A., Wingfield, M.J., Wingfield, B.D., Ceratocystidaceae exhibit high levels of recombination at the mating-type (MAT) locus, Fungal Biology (2018), doi: https://doi.org/10.1016/j.funbio.2018.09.003. This is a PDF file of an unedited manuscript that has been accepted for publication. As a service to our customers we are providing this early version of the manuscript. The manuscript will undergo copyediting, typesetting, and review of the resulting proof before it is published in its final form. Please note that during the production process errors may be discovered which could affect the content, and all legal disclaimers that apply to the journal pertain. ACCEPTED MANUSCRIPT 1 Title 2 Ceratocystidaceae exhibit high levels of recombination at the mating-type ( MAT ) locus 3 4 Authors 5 Melissa C. Simpson 6 [email protected] 7 Martin P.A. Coetzee 8 [email protected] 9 Magriet A. van der Nest 10 [email protected] 11 Michael J. Wingfield 12 [email protected] 13 Brenda D. Wingfield 14 [email protected] 15 16 Author Affiliations 17 Department of Biochemistry, Genetics and Microbiology, Forestry and Agricultural 18 Biotechnology Institute, University of Pretoria, Pretoria, 0002, South Africa 19 20 Corresponding Author MANUSCRIPT 21 Brenda D. Wingfield 22 Telephone Number: +27 12 420 6288 23 Fax Number: +27 12 420 3960 24 Email Address: [email protected] 25 Postal Address: Department of Biochemistry, Genetics and Microbiology, Forestry and 26 Agricultural Biotechnology Institute, University of Pretoria, Pretoria, 0002, South Africa 27 ACCEPTED 1 ACCEPTED MANUSCRIPT 28 Abstract 29 Mating is central to many fungal life cycles and is controlled by genes at the mating-type 30 (MAT ) locus. Genes at the MAT locus determine whether the fungus will be self-sterile 31 (heterothallic) or self-fertile (homothallic). Species in the ascomycete family 32 Ceratocystidaceae have different mating strategies (e.g., heterothallic or homothallic) 33 making them interesting to consider with regards to their MAT loci. The aim of this study 34 was to compare the composition of the regions flanking the MAT locus in 11 species of 35 Ceratocystidaceae representing four genera. Genome assemblies for each species were 36 examined to identify the MAT locus and determine the structure of the flanking regions. 37 Large contigs containing the MAT locus were then functionally annotated and analysed for 38 the presence of transposable elements. Similar to previous studies, the genes typically 39 flanking the MAT locus in the sordariomycetes related to the Ceratocystidaceae were found 40 to be highly conserved. In contrast, species of Ceratocystidaceae had a much greater level 41 of variation in gene order and presence around the MAT locus compared to other 42 ascomycetes. The different genera in the Ceratocystidaceae displayed little synteny outside 43 of the immediate MAT locus flanking genes. Recombination within this locus and the 44 regions flanking it has been shown to be very low. Even though the three species of 45 Ceratocystis did not show much synteny outside of the immediate MAT locus flanking genes, 46 species of Huntiella and Endoconidiophora were comparatively syntenic. Because 47 Ceratocystis species had a higher number of transposableMANUSCRIPT elements in the MAT flanking 48 regions when compared to their genomes and to the rest of the species studied here, we 49 hypothesise that Ceratocystis species may have undergone recombination in this region due 50 to the presence of these elements. 51 52 Keywords 53 Ceratocystidaceae ; MAT ; transposable elements; recombination. 54 55 Abbreviations 56 MAT : mating-type ACCEPTED 2 ACCEPTED MANUSCRIPT 57 1. Introduction 58 During sexual reproduction in fungi, exchange of genetic material (recombination) takes 59 place in order to produce genetically diverse offspring and to ensure the survival of species 60 (Lee et al ., 2010). Due to the structure of each chromosome, recombination “hot spots” and 61 “cold spots” exist (Yamada et al ., 2004). “Cold spots” of recombination safeguard specific 62 regions of the genome in order to retain particular linked genes, while “hot spots” ensure that 63 other regions constantly change in order to produce the necessary diversity. In fungi, the 64 flanking regions of the mating-type ( MAT ) locus, which consist of MAT genes that control 65 and ensure completion of sexual reproduction, are regions where variable levels of 66 recombination are observed (Coppin et al ., 1997; Gallegos et al ., 2000; Hsueh et al ., 2006). 67 68 Although there is some “recombination” in the form of mating-type switching in the MAT 69 locus of some ascomycetous yeast species (Barsoum et al ., 2010; Maekawa and Kaneko, 70 2014; White and Haber, 1990) and filamentous ascomycetes (Mathieson, 1952; Uhm and 71 Fujii, 1983; Wheeler, 1950), the region exhibits limited recombination (Grognet et al ., 2014; 72 Kubisiak and Milgroom, 2006; Lee et al ., 1999). This has particularly been observed in the 73 ascomycete Neurospora tetrasperma where approximately 75% of the chromosome on 74 which the MAT locus is located, has suppressed recombination (Ellison et al ., 2011; 75 Gallegos et al ., 2000; Menkis et al ., 2008). Moreover, obligatory recombination is observed 76 just outside this region and is thought to ensureMANUSCRIPT correct pairing of chromosomes for 77 segregation (Ellison et al ., 2011; Menkis et al ., 2008). In stark contrast, the basidiomycete 78 Cryptococcus neoformans exhibits very high levels of recombination in the MAT locus 79 flanking regions, but recombination is suppressed in its remarkably large MAT locus (Hsueh 80 et al ., 2006; Lengeler et al ., 2002). It appears that non-recombining DNA promotes 81 recombination in other regions, thus encouraging evolution of new species (Idnurm, 2011). 82 83 Ascomycetes can be homothallic (self-fertile) or heterothallic (outcrossing) and this is 84 dictated by the presence of particular MAT genes at the MAT locus (Nelson, 1996). 85 Heterothallic ascomycetes contain one of two dissimilar “alleles” known as idiomorphs, at 86 their MAT locus (Metzenberg and Glass, 1990). The MAT1-1 idiomorph is characterised by 87 the essential α-domain-containingACCEPTED MAT1-1-1 gene (Debuchy and Coppin, 1992; Glass et al ., 88 1990), while the MAT1-2 idiomorph typically contains MAT1-2-1 which harbors an HMG- 89 domain (Debuchy et al ., 1993; Philley and Staben, 1994). Both idiomorphs can also contain 90 other MAT genes that are involved in post-fertilisation events (Ferreira et al ., 1998). 91 Homothallic ascomycetes contain genes from both idiomorphs in their genomes, either at a 92 single locus or in more than one location (Paoletti et al ., 2007; Pöggeler et al ., 1997). 93 Typically the MAT locus is flanked upstream by cytoskeleton assembly control ( SLA2 ), and 3 ACCEPTED MANUSCRIPT 94 downstream by DNA lyase ( APN2 ), cytochrome C oxidase subunit ( COX ), and anaphase 95 promoting complex ( APC ) genes (Amselem et al ., 2011; Aronstein et al ., 2007; Jacobson, 96 2005; Kanematsu et al ., 2007). 97 98 Genera and species in the Ceratocystidaceae (Microascales) as defined by de Beer et al . 99 (2014) display a variety of mating strategies and lifestyles. Most species of Ceratocystis are 100 homothallic and many are ecologically important pathogens of trees and root crops (Kile, 101 1993; Wingfield et al., 2013). Similarly, Endoconidiophora also has homothallic species and 102 these include pathogens that infect conifers as well as species that cause sap-stain in wood 103 (Seifert, 1993; Wingfield et al., 1997, Redfern et al., 1987). In contrast, Huntiella is a genus 104 that includes saprobes, some of which cause sap-stain of timber and most are heterothallic 105 (Roux et al., 2004; Seifert, 1993; Tarigan et al., 2010; Wilson et al., 2015). Species of 106 Davidsoniella and Thielaviopsis are important pathogens of trees and monocoteledonous 107 plants, respectively, some of which have known sexual states (Mbenoun et al. , 2014; 108 Wingfield et al., 2013). The two genera, Ambrosiella and Chalaropsis, are considered 109 asexual because no sexual structures have been observed for them (de Beer et al., 2014). 110 Ambrosiella spp . are symbionts of ambrosia beetles, while Chalaropsis spp. are found on 111 woody plants but nothing is known regarding their ecological importance (Harrington et al. , 112 2010; de Beer et al., 2014). 113 MANUSCRIPT 114 MAT loci amongst members of the Ceratocystidaceae have different architecture, and the 115 genes flanking these loci are not always similar (Wilken et al ., 2014; Wilson et al ., 2015; 116 Witthuhn et al ., 2000). The MAT locus of Ceratocystis fimbriata sensu stricto , the type 117 species of the genus, consists of MAT1-1-1, MAT1-2-1 and MAT1-1-2, and is flanked 118 upstream by SLA2, APC, APN2 and COX , with a hypothetical protein and a putative 119 importin-beta domain-containing protein downstream (Wilken et al ., 2014). Mating-type 120 switching through deletion of MAT1-2-1 has been observed in this fungus, along with other 121 species, such as C. albifundus, Davidsoniella virescens, Endoconidiophora coerulescens 122 and E. pinicola (Harrington and McNew, 1997; Lee et al ., 2015; Wilken et al., 2014; Witthuhn 123 et al ., 2000). The type species of Huntiella, H. moniliformis, contains MAT1-2-1 and MAT1- 124 2-7 at its MAT ACCEPTEDlocus and is still able to mate with itself despite only carrying genes from a 125 single MAT idiomorph (Wilson et al ., 2015).

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