Draft Genome Sequence of a Streptomycete Isolated from Potato Common Scab Lesions in the State of Sinaloa, Mexico

Streptomyces sp. strain V2 was isolated from potato scab lesions in the state of Sinaloa, Mexico, and appears to be responsible for outbreaks in the area.

T he genus Streptomyces, class Actinobacteria, currently contains 533 described species, most of them isolated from soil (their primary natural habitat), although there are reports of species recovered from both freshwater and marine environments (1). Among this high number of described species, only a few are considered human and plant pathogens (2,3).
Some of these plant pathogens cause economically important diseases, such as potato common scab (PCS), which appears as shallow or deep corky blemishes that disfigure the potato skin, which consequently needs excessive peeling (4). Streptomyces scabiei is regarded as the predominant PCS agent worldwide (5), although S. acidiscabies, S. turgidiscabies, S. europaeiscabiei, S. stelliscabiei, S. luridiscabiei, S. puniciscabiei, and S. niveiscabiei (6)(7)(8)(9) have also been recovered from PCS lesions. These pathogenic strains have a polyphyletic nature and have been related by a transmissible pathogenicity island which seems to confer the pathogenic phenotype on some species. The main pathogenicity factor of this phenotype is the production of the phytotoxin thaxtomin, a nitrated dipeptide which inhibits cellulose synthesis in expanding plant tissue (10,11).
Streptomyces sp. strain V2 was recovered as part of a study in the state of Sinaloa, Mexico, of the diversity of PCS lesions related to or associated with bacteria. At the time of writing, this ongoing study has recovered 22 actinobacterial strains identified by nearly complete 16S rRNA gene sequences and includes not only streptomycetes but also rare actinobacteria (i.e., Amycolatopsis and Lentzea spp.). Currently, studies are being conducted to establish either the pathogenic relationship of each isolate to the PCS lesion or its merely saprophytic role within the tubercle (A. Alejo-Viderique, E. Burgueño, L. A. Maldonado, G. Herrera, R. Felix, and E. T. Quintana, unpublished data).
Data availability. This whole-genome shotgun project has been deposited in GenBank under the accession no. QFDR00000000. The version described in this paper is the first version, QFDR01000000.

ACKNOWLEDGMENTS
These actinobacterial diversity studies were part of a collaboration between UNAM