Abstract
The desert is an excellent model for studying evolution under extreme environments. We present here the complete genome and ultraviolet (UV) radiation-induced transcriptome of Deinococcus gobiensis I-0, which was isolated from the cold Gobi desert and shows higher tolerance to gamma radiation and UV light than all other known microorganisms. Nearly half of the genes in the genome encode proteins of unknown function, suggesting that the extreme resistance phenotype may be attributed to unknown genes and pathways. D. gobiensis also contains a surprisingly large number of horizontally acquired genes and predicted mobile elements of different classes, which is indicative of adaptation to extreme environments through genomic plasticity. High-resolution RNA-Seq transcriptome analyses indicated that 30 regulatory proteins, including several well-known regulators and uncharacterized protein kinases, and 13 noncoding RNAs were induced immediately after UV irradiation. Particularly interesting is the UV irradiation induction of the phrB and recB genes involved in photoreactivation and recombinational repair, respectively. These proteins likely include key players in the immediate global transcriptional response to UV irradiation. Our results help to explain the exceptional ability of D. gobiensis to withstand environmental extremes of the Gobi desert, and highlight the metabolic features of this organism that have biotechnological potential.
Highlights
The order Deinococcales contains 50 species of extremely ionizing radiation (IR) and UV tolerant bacteria [1]
Further phylogenetic analyses showed that D. gobiensis, D. radiodurans, D. geothermalis and D. deserti belong to the same deeper branch and D. gobiensis was more closely related to D. radiodurans than to D. deserti and D. geothermalis (Figure 2)
Two striking results of this work came from comparison of D. gobiensis with three other sequenced Deinococcus species isolated from canned meat, hot springs and the Sahara desert, respectively
Summary
The order Deinococcales contains 50 species of extremely ionizing radiation (IR) and UV tolerant bacteria (http://www. bacterio.cict.fr/) [1]. D. radiodurans has 200-fold greater resistance to ionizing radiation and 20-fold greater resistance to UV radiation than Escherichia coli [3], but it encodes approximately the same number and types of DNA repair proteins as E. coli, and no unique DNA repair system was found [3,4]. The sequence of the complete genome of D. proteolyticus MRP is available under GenBank accession number CP002536. Investigation of the biology and biochemistry of Deinococcus spp. has benefited from the availability of genomic information and the development of genetic tools, but the extreme resistance phenotype of Deinococcus spp. is still not fully understood [9]. Comparative genomics combined with microarray and proteomic analysis suggest that the extreme resistance phenotype results from a combination of different molecular mechanisms [5,6,10,11,12]
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