Draft Genome Sequence of Propionispora sp. Strain 2/2-37, a New Xylan-Degrading Bacterium Isolated from a Mesophilic Biogas Reactor

The novel mesophilic bacterial strain Propionispora sp. 2/2-37 was isolated from an industrial-scale biogas plant. Comparative 16S rRNA gene sequencing revealed that the isolate constitutes a new subcluster within the order Selenomonadales. The 2/2-37 draft genome sequence was established and provides the genetic basis for application of this microorganism in degradation of biomass for bio-fuel production.


D etailed knowledge on community members involved in an-
aerobic digestion (AD) of biomass for biofuel production is considered to be key for process shaping and development of optimization strategies. Therefore, analysis of new AD isolates is pivotal. Genes encoding new lignocellulosic biomass-degrading enzymes for various industrial applications can be discovered in genome sequence information of AD strains.
Strain 2/2-37 was isolated as described previously (1) from an industrial mesophilic one-phase biogas reactor digesting a mixture of maize silage, wheat straw, and manure. The obtained isolate belongs to the genus Propionispora within the order Selenomonadales (class Negativicutes) showing 95% 16S rRNA gene sequence similarity to Propionispora hippei DSM 15287 T (2). Currently, the strain 2/2-37 cannot be assigned to any validly described family and therefore was classified as belonging to the tentative taxon Selenomonadales incertae sedis. Actually, the phylogenetic position of the genus Propionispora within the family Veillonellaceae is controversial (3). Therefore, a clear taxonomic classification of the isolate 2/2-37 is difficult to specify. Propionispora sp. strain 2/2-37 is the first member of the class Negativicutes originating from an industrial-scale biogas plant. Similar to its closest relative Propionispora hippei DSM 15287 T , the new isolate forms vibrio-shaped cells, is motile, and develops terminal round spores. Temperature and pH optima for growth are approximately 37°C and pH 6.8, respectively, as described for Propionispora hippei (2).
Isolation of genomic DNA for construction of an 8-kb matepair sequencing library and sequencing on the Illumina MiSeq system applying the paired-end protocol were accomplished as described previously (4). The sequencing run yielded 7,619,324 reads, accounting for 2,048,864,807 bases of total sequence information. Obtained sequences were de novo assembled (5, 6) using the GS De Novo Assembler software (version 2.8, Roche). The assembly resulted in formation of 38 scaffolds comprising 84 contigs. Subsequent to in silico finishing, 43 contigs remained. The Propionispora sp. 2/2-37 draft genome is 4,122,013 bp in size, featuring an average GC content of 45.58%. The software platform GenDB (7) was applied to annotate the Propionispora sp. 2/2-37 genome. A total of 3,960 protein coding sequences, 76 tRNA genes, and 1 rrn operon were identified.
Analysis and interpretation of the Propionispora sp. 2/2-37 genome sequence within GenDB and by means of the carbohydrateactive enzyme database dbCAN (8) revealed 150 genes predicted to encode enzymes that mainly belong to different families of glycoside hydrolases (GH) and glycosyl transferases (GT). Among them are genes presumably facilitating growth of the strain 2/2-37 on a great variety of mono-, di-, and polysaccharides, including cellobiose, sorbitol, xylan, and xylooligosaccharide, indicating involvement of the strain in acidogenesis in the course of AD. Propionic and acetic acid are the major end products of corresponding fermentation processes.
Moreover, genome analysis of the strain Propionispora sp. 2/2-37 applying the phage search tool PHAST (9) revealed insertions of three prophages having sizes of approximately 32 to 54 kb each. Presence of prophage regions in the Propionispora sp. 2/2-37 genome exemplarily illustrates that biogas community members have to deal with phage infections, which also may impact the whole biogas production process.
Nucleotide sequence accession numbers. This whole-genome shotgun project has been deposited in the EMBL/GenBank database (EBI, NCBI) under the accession numbers CYSP01000001 through CYSP01000043. The strain is available from the Leibniz Institute "German Collection of Microorganisms and Cell Cul-