RESUMO
CRISPR-Cas systems are composed of repeated sequences separated by non-repeated sequences that are near genes coding for Cas proteins, which are involved in the function of these systems. Their function has been mostly related to "genetic immunity" against foreign genetic material, among other roles. Interest in them increased after their use in genetic manipulation was uncovered and surveys to find and classify them have been done in several bacterial groups. To determine the presence of these genetic elements in the Burkholderiaceae family members, a bioinformatic approach was followed. Attention in this family comes as it is formed by a great diversity of microorganisms that include opportunistic and true pathogens, and symbiotic and saprophytic organisms, among others. Results show that, in contrast to other bacterial groups, only 8.4% of family members harbor complete CRISPR-Cas systems and the rest either do not have one or have remains or sections of one. Analyses of the spacer sequences indicated that most of them have identity to sections of the same genomes they were found, while a few had identities with either plasmids or phages. The genus with the higher proportion of self-directed spacers is Ralstonia, and their possible roles are discussed. Most of the systems (60%) belong to the class I subtype I-E and a few to subtypes I-C (13.3%), I-F (18.3%), II-C (5%), IV-A (1.7%) and V-C (1.7%). To the best of our knowledge, this is the first study to uncover the CRISPR-Cas system for the whole Burkholderiaceae family.
