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Thiothrix nivea (Rabenhorst 1865) Winogradsky 1888 (Approved Lists 1980) emend. Larkin and Shinabarger 1983 is the type species of the genus Thiothrix in the family Thiotrichaceae. The species is of interest not only because of its isolated location in the yet to be genomically characterized region of the tree of life, but also because of its life-style with gliding gonidia, the multilayer sheath, rosettes, and the embedded sulfur granules. Strain JP2T is the neotype strain of the species which was first observed by Rabenhorst in 1865 and later reclassified by Winogradsky in 1888 into the then novel genus Thiothrix. This is the first completed (improved-high-quality-draft) genome sequence to be published of a member of the family Thiotrichaceae. The genome in its current assembly consists of 15 contigs in four scaffolds with a total of 4,691,711 bp bearing 4,542 protein-coding and 52 RNA genes and is a part of the Genomic Encyclopedia of Bacteria and Archaea project.
Strain JP2T (= DSM 5205 = ATCC 35100) is the type strain of Thiothrix nivea [1,2] which is the type species of the genus Thiothrix [1,2]. Cultures of the species were first observed and classified as “Beggiatoa nivea” in 1865 by Rabenhorst  and later (1888) placed into the novel genus Thiothrix by Winogradsky . The species was included on the Approved List of Bacterial Names Amended edition in 1980 . Axenic cultures isolated from sulfide-containing well water became available in 1980 through the work of J. M. Larkin , with the formal description of strain JP2T as the neotype strain of the species T. nivea in 1983 , as well as strain JP1 as a reference strain within the species . The generic name derives from the Neo-Greek words theion, sulfur, and thrix, hair . The species epithet is derived from the Latin word nivea snow-white . The species became well known for its sulfur granules, the gliding motility and the typical rosettes , which were first observed by Winogradsky . Here we present a summary classification and a set of features for T. nivea JP2T, together with the description of the complete genomic sequencing and annotation.
A representative genomic 16S rRNA sequence of T. nivea JP2T was compared using NCBI BLAST  under default settings (e.g., considering only the high-scoring segment pairs (HSPs) from the best 250 hits) with the most recent release of the Greengenes database  and the relative frequencies of taxa and keywords (reduced to their stem ) were determined, weighted by BLAST scores. The most frequently occurring genus was Thiothrix (100.0%, 12 hits in total). Regarding the single hit to sequences from members of the species, the average identity within HSPs was 99.5%, whereas the average coverage by HSPs was 99.4%. Regarding the four hits to sequences from other members of the genus, the average identity within HSPs was 94.2%, whereas the average coverage by HSPs was 96.0%. Among all other species, the one yielding the highest score was, Thiothrix fructosivorans (GU269554) which corresponded to an identity of 94.5% and an HSP coverage of 100.0%. (Note that the Greengenes database uses the INSDC (= EMBL/NCBI/DDBJ) annotation, which is not an authoritative source for nomenclature or classification.) The highest-scoring environmental sequence was AM490765 ('Linking and functional nutrient spiraling mats (USA) microbial mat sulfidic cave spring Lower Kane Cave Big Horn LKC22 clone SS LKC22 UB32'), which showed an identity of 96.7% and an HSP coverage of 100.0%. The most frequently occurring keywords within the labels of environmental samples which yielded hits were 'sulfid' (4.2%), 'microbi' (4.0%), 'biofilm' (3.4%), 'cave' (2.8%) and 'karst' (2.7%) (238 hits in total). Environmental samples which yielded hits of a higher score than the highest scoring species were not found. These keywords reflect the ecological properties reported for the species and strain JP2T in the original description [1,2].
Figure 1 shows the phylogenetic neighborhood of T. nivea in a 16S rRNA based tree. The sequences of the two identical 16S rRNA gene copies in the genome do not differ from the previously published 16S rRNA sequence (L40993), which contains six ambiguous base calls.
Cells of strain JP2T are rod shaped with various lengths (Figure 2). Cultures of T. nivea contain gliding gonidia, filaments and rosettes (= aggregations of gonidial cells, not visible in Figure 2) . The presence of a sheath was first reported in the 19th century  and later confirmed for the neotype strain . The sheath contains several separate layers  of so far unknown structure. Motility was observed, but no flagella . Numerous genes allocated to the functional role category motility were identified in the genome (see below). Many of these genes might be involved in the formation of the polar located fimbriae . The typical rosettes generated by T. nivea are known from sulfide-containing waters [1,2]. Sulfur granules are invaginated by the cells, as reported in detail by Larkin and Shinabarger . Strain JP2T stains Gram-negative, and grows only aerobically, best within a temperature range of 20 – 30°C . Both the neotype strain and reference strain JP1 produce oxidase, but not catalase. The strains also produce poly-β-hydroxybutyrate . Strain JP2T uses only four carbon sources; acetate, malate, pyruvate and oxalacetate . Ammonia and nitrate (but not nitrite) are used as sole nitrogen sources . The sole sulfur sources are sulfide and thiosulfate. What remains unresolved, based on the literature is whether or not T. nivea is autotrophic, obtaining carbon from CO2 and energy via oxidation of sulfide as reported by Winogradsky  or not, as reported by Larkin and Shinabarger . In the case in which strain JP2T could use CO2 as a carbon source as well as acetate, malate, pyruvate and oxalacetate, while oxidizing the reduced sulfur compounds, it could be considered to be a mixotroph .
There are no chemotaxonomic data on cell wall structure, cellular lipids, quinones or polar lipids of strain JP2T.
This organism was selected for sequencing on the basis of its phylogenetic position , and is part of the Genomic Encyclopedia of Bacteria and Archaea project . The genome project is deposited in the Genome On Line Database  and the complete genome sequence is deposited in GenBank. Sequencing, finishing and annotation were performed by the DOE Joint Genome Institute (JGI). A summary of the project information is shown in Table 2.
T. nivea JP2T, DSM 5205, was grown in DSMZ medium 1300 (Thiothrix Medium)  at 25°C. DNA was isolated from 0.5-1 g of cell paste using Jetflex Genomic DNA Purification Kit (GENOMED 600100) following the standard protocol as recommended by the manufacturer, but adding 10µl proteinase K for one hour extended lysis at 58°C. DNA is available through the DNA Bank Network .
The genome was sequenced using a combination of Illumina and 454 sequencing platforms. All general aspects of library construction and sequencing can be found at the JGI website . Pyrosequencing reads were assembled using the Newbler assembler (Roche). The initial Newbler assembly consisting of 269 contigs in four scaffolds was converted into a phrap assembly by  making fake reads from the consensus to collect the read pairs in the 454 paired end library. Illumina GAii sequencing data (518.8 Mb) was assembled with Velvet , and the consensus sequences were shredded into 1.5 kb overlapped fake reads and assembled together with the 454 data. The 454 draft assembly was based on 162.5 Mb 454 draft data and all of the 454 paired end data. Newbler parameters are -consed -a 50 -l 350 -g -m -ml 20. The Phred/Phrap/Consed software package  was used for sequence assembly and quality assessment in the subsequent finishing process. After the shotgun stage, reads were assembled with parallel phrap (High Performance Software, LLC). Possible mis-assemblies were corrected with gapResolution , Dupfinisher, or sequencing cloned bridging PCR fragments with subcloning or transposon bombing (Epicentre Biotechnologies, Madison, WI). Gaps between contigs were closed by editing in Consed, by PCR and by Bubble PCR primer walks (J.-F. Chang, unpublished). A total of 632 additional reactions were necessary to close gaps and to raise the quality of the final sequence. Illumina reads were also used to correct potential base errors and increase consensus quality using a software Polisher developed at JGI . This genome is not finished. The improved high quality draft consists of 15 contigs in four scaffolds. Some mis-assemblies are possible in the final assembly. Together, the combination of the Illumina and 454 sequencing platforms provided 140.4 × coverage of the genome. The final assembly contained 444,417 pyrosequence and 14,381,947 Illumina reads.
Genes were identified using Prodigal  as part of the Oak Ridge National Laboratory genome annotation pipeline, followed by a round of manual curation using the JGI GenePRIMP pipeline . The predicted CDSs were translated and used to search the National Center for Biotechnology Information (NCBI) non-redundant database, UniProt, TIGR-Fam, Pfam, PRIAM, KEGG, COG, and InterPro databases. Additional gene prediction analysis and functional annotation was performed within the Integrated Microbial Genomes - Expert Review (IMG-ER) platform .
The genome consists in the current assembly of 15 contigs in four scaffolds with a length of 5,599 bp, 7,015 bp, 40,927 bp, and 4,638,170 bp, respectively, and a G+C content of 54.9% (Table 3). Of the 4,594 genes predicted, 4,542 were protein-coding genes, and 52 RNAs; 213 pseudogenes were also identified. The majority of the protein-coding genes (98.8%) were annotated as hypothetical proteins. The distribution of genes into COGs functional categories is presented in Table 4.
The genomic basis for gliding motility is not yet completely resolved, but the requirement of the genes gldA, gldF and gldG was described . Genes gldA, gldF and gldG exhibit a high degree of sequence similarity to components of ABC transporters . A closer examination of the JP2T genome revealed a region of three genes (Thini_0004.00016790, Thini_0004.00016780, Thini_0004.00016770, currently annotated as ABC-type uncharacterized transport system), for which the derived protein sequences show high similarity to GldA, GldF and GldG of Bdellovibrio bacteriovorus HD100 (Bd1023, Bd1024 and Bd1025) . The requirement of gldA for gliding motility was experimentally shown for Flavobacterium johnsoniae. A non-motile mutant lacking the intact gldA gene was complemented by a vector carrying an intact gldA gene. The motility of the mutant was restored .
While we were able to locate a phosphoenolpyruvate carboxylase gene in the genome, (Thini_0004.00035050), we could not identify a gene for malate dehydrogenase. Unless T. nivea encodes a malate dehydrogenase that is not homologous to other malate dehydrogenases, we can not confirm for the neotype strain the genomic basis for the speculation that the original T. nivea culture can fix CO2 as reported by Winogradsky  and is a mixotroph .
We would like to gratefully acknowledge the help of Anja Frühling (DSMZ) for growing T. nivea cultures. This work was performed under the auspices of the US Department of Energy Office of Science, Biological and Environmental Research Program, and by the University of California, Lawrence Berkeley National Laboratory under contract No. DE-AC02-05CH11231, Lawrence Livermore National Laboratory under Contract No. DE-AC52-07NA27344, and Los Alamos National Laboratory under contract No. DE-AC02-06NA25396, UT-Battelle and Oak Ridge National Laboratory under contract DE-AC05-00OR22725, as well as German Research Foundation (DFG) INST 599/1-1.