Genome-wide identification of major protein families of cyanobacteria and genomic insight into the circadian rhythm.

Mohanta, Tapan Kumar; Pudake, Ramesh N.; Bae, Hanhong

Cyanobacteria are among the most abundant organisms present on earth and are considered to be one of the oldest known clades. Cyanobacteria are oxygenic photosynthetic bacteria and are well known as promising renewable sources of energy; therefore, it is important to understand aspects of their genomes in detail across species. Advances in sequencing technology and the availability of several cyanobacterial genomes have provided an excellent opportunity to understand the diversity and evolution of the cyanobacterial genome. Here, we compared the genomes of 62 different phototrophic cyanobacteria. Evaluation of genetic diversity of all the cyanobacteria species studied revealed that evolution from their common ancestors was polyphyletic. In addition, the genomes were very diverse and varied among species, and significant genomic diversity was observed at the species and strain level. Overall, we identified 56 different protein families of cyanobacteria species/strains and found that they varied significantly among strains of a species. The circadian clock proteins KaiA, KaiB and KaiC (KaiABC complex proteins) of cyanobacteria were found to be present and consistent in the majority of cyanobacterial species while absent in a few others. Evolutionary analysis of the KaiABC protein complex showed that the KaiA protein has a high frequency of polymorphism, and multiple alleles were found to be present at high frequency. These results demonstrated that evolution of phosphorylation events occurred via KaiA in the KaiABC complex. Furthermore, multiple sequence alignment showed that KaiA, KaiB and KaiC proteins are highly conserved in nature. Our results provide direct information regarding the presence of different protein or protein families in cyanobacteria. The information presented here will serve as a starting point to explore the genetic diversity of cyanobacteria with the potential to play important roles in biotechnological applications.

CYANOBACTERIAL genetics; CIRCADIAN rhythms; CYANOBACTERIAL proteins; RENEWABLE energy sources; PHOTOSYNTHETIC bacteria; CYANOBACTERIA

European Journal of Phycology, 2017, Vol 52, Issue 2, p149

0967-0262

Academic Journal

10.1080/09670262.2016.1251619