Draft Genome Sequence of an Antarctic Isolate of the Black Yeast Fungus Exophiala mesophila

A 30.43-Mb draft genome sequence with 10,355 predicted protein-coding genes was produced for the ascomycete fungus Exophiala mesophila strain CCFEE 6314, a black yeast isolated from Antarctic cryptoendolithic communities. The sequence will be of importance for identifying differences among extremophiles and mesophiles and cataloguing the global population diversity of this organism.

B lack yeasts are a polyphyletic morphoecological group of fungi classified in either the Chaetothyriales order of class Eurotiomycetes or class Dothideomycetes (phylum Ascomycota; subphylum Pezizomycotina). They are distinguished by high melanin content, thick and multilayered cell walls, and an extraordinary ability to survive in extremes and tolerate chemical and physical stresses, such as extreme pH and temperatures, desiccation, UV ionizing radiation, and alpha particles (1)(2)(3)(4)(5)(6)(7)(8).
Within the Herpotrichiellaceae family (Chaetothyriales), there are many recognized species in the genus Exophiala which are adapted to a multitude of ecological niches, including human environments (9,10). Isolates from oligotrophic water sources, such as sinks, drainpipes, swimming pools, bathing facilities, and drinking water, have been described (11,12). Species in this genus have been explored for their potential in bioremediation applications (13,14), and several species have been isolated from glaciers (15) and microbial ecosystems specialized to extreme temperature and aridity, such as Antarctic endolithic communities (16)(17)(18). We assembled a draft genome sequence of an Antarctic strain to provide resources for comparative studies of adaptation and evolution of this intriguing group of fungi.
Exophiala mesophila strain CCFEE 6314 was provided by the Culture Collection of Fungi from Extreme Environments (CCFEE) of the Mycological Section of the Italian Antarctic National Museum. The culture was isolated from a cryptoendolithic community at Mt. Billing (71°15=S, 163°00=E) on continental Antarctica. The rock sample was collected using a sterile chisel and preserved at Ϫ20°C until the strain was isolated by directly plating fragments of colonized rock on petri dishes containing 2% malt extract agar (MEA). The pure culture was grown on 2% MEA medium plates for 6 weeks at 10°C and DNA extracted from the total biomass following the cetyltrimethylammonium bromide (CTAB) protocol (19). Melanin was removed through two phenol-chloroform purification steps. Genomic DNA was sheared with Covaris S220 ultrasonicator and sequencing library constructed using a NeoPrep TruSeq Nano DNA sample prep kit (Illumina) in the University of California-Riverside Genomics Core.
Data availability. This whole-genome shotgun project has been deposited at DDBJ/ENA/GenBank under the accession number NAJM00000000. The version described in this paper is the first version, NAJM01000000. The Illumina sequence reads were released under SRA accession number SRR5223779 and associated with BioProject number PRJNA342238.

ACKNOWLEDGMENTS
The Italian Antarctic National Museum (MNA) is kindly acknowledged for financial support to the Mycological Section on the MNA for providing the strains sequenced in this study and stored in the Culture Collection of Fungi from Extreme Environments (CCFEE), University of Tuscia, Italy.
L.S., C.C., and L.Z. kindly acknowledge the Italian National Program for Antarctic Researches (PNRA) for funding sampling campaigns and the research activities in Italy. Sequencing costs were supported through the U.S. Department of Agriculture-National Institute of Food and Agriculture Hatch project CA-R-PPA-5062-H to J.E.S. Data analyses were performed on the High-Performance Computing Cluster at the University of California-Riverside in the Institute of Integrative Genome Biology supported by NSF grant DBI-1429826 and NIH grant S10-OD016290.