Cowpea (Vigna unguiculata L. Walp) is an important nutrition resource for low-income people living in rural areas of the Brazilian Northeast, due to its high protein content.1 Besides its great importance, the crop is well adapted to edaphoclimatic constraints and it is able to fix nitrogen through the process called biological nitrogen fixation – BNF.2 BR 3267 is one of the elite strains recommended for cowpea inoculation3 and it was isolated from Semi-arid area of Brazilian Northeast.4 The strain is a member of Bradyrhizobium genus, presents high efficiency in BNF associated with cowpea and it is able to grow at elevated temperature, up to 37°C.4 Here, we report the draft genome sequence of strain BR 3267, a nitrogen-fixing elite strain for cowpea inoculation in Brazil.

The bacterium was grown in YMA medium and genomic DNA was extracted and purified following a firstly described protocol.5 The whole genome was sequenced using the 100bp paired-end Illumina® MiSeq platform (Macrogen, Korea). The sequence reaction provided a total of 12,908,190 reads and 1,303,727,190 total bases, which corresponds to approximately 164 X coverage sequencing. The reads quality was analyzed using FastQC (http://www.bioinformatics.babraham.ac.uk/projects/fastqc/), trimmed using FASTX-Toolkit and only bases with quality above 20 (Q20) were used. De novo assembly was performed using ABySS software version 1.9.06 and contigs shorter than 200bp were eliminated.

Identification of coding sequences and annotation of draft genome were carried out using the RAST version 2.0.7 Contig annotation was also performed by NCBI Prokaryotic Genome Annotation Pipeline (http://www.ncbi.nlm.nih.gov/genomes/static/Pipeline.html), which was used to refine the annotation and registration at the International Nucleotide Sequence Database Collaboration (GenBank – USA).

The draft genome sequence of strain BR 3267 consists of 55 scaffolds and includes 7,904,309bp with an overall G+C content of 63%. This genome size and C+G content are compatible with other Bradyrhizobium genomes deposited in the GenBank. The RAST annotation identified 7314 protein-coding sequences (CDSs), distributed in 501 subsystems, as well as 52 copies of RNA genes, including 50 tRNAs, 1 rRNA and 1 ncRNA. All genes required for the nodulation and biological nitrogen fixation are encoded in the BR 3267 genome. Furthermore, 17 genes involved with denitrification were also identified. The denitrification process is well known for some species of Bradyrhizobium genus.8,9 However, further functional studies with BR 3267 are required to define the expression pattern and relevance of these genes on the denitrification process and N2O emission. A total of 188 genes related to stress response were annotated, including: 96 genes for oxidative stress, 21 genes for osmotic stress, and 20 genes encoding heat shock proteins. The genomic information will be important to clarify the mechanisms underlying the BR 3267 nodulation, biological nitrogen fixation and the adaptation of this strain to limited conditions of the Semi-arid soils.

The assembled contigs were deposited in DDBJ/ENA/GenBank and published in the accession number LJYF00000000.1. The version described in this paper is the first version.