The marine bacterium Pseudoalteromonas haloplanktis has a complex genome structure composed of two separate genetic units.

Abstract

The genome size of Pseudoalteromonas haloplanktis, a ubiquitous and easily cultured marine bacterium, was measured as a step toward estimating the genome complexity of marine bacterioplankton. To determine total genome size, we digested P. haloplanktis DNA with the restriction endonucleases Notl and Sfil, separated the fragments using pulsed-field gel electrophoresis (PFGE), and summed the sizes of the fragments. The P. haloplanktis genome was 3512 +/- 112 kb by Notl digestion and 3468 +/- 54.1 kb by Sfil digestion. P. haloplanktis is also shown to have a complex genome structure, composed of two large replicons of approximately 2700 and 800 kb. Three pieces of evidence support this conclusion: (1) Two separate bands are always seen in PFGE of undigested P. haloplanktis DNA; (2) restriction digests of the larger band are missing a band of approximately 650 kb compared with restriction digests of total genomic DNA; and (3) a 16S rDNA probe hybridized to the larger replicon but not to the smaller. To our knowledge, P. haloplanktis is the first marine bacterium shown to have a complex genome structure.