Coccomyxa subellipsoidea C-169
Genomes of two microalgae - the symbiotic Chlorella vulgaris NC64A, and the the free-living Coccomyxa subellispoidea C-169, formerly considered a C. vulgaris strain - were sequenced to identify features required for free-living vs. symbiotic lifestyles via comparative genome analysis. Lipids produced by these organisms may be an attractive candidate for biofuels. Novel cellulose degrading enzymes from these greem algae may be useful in ethanol production from corn stover and switchgrass. Also C-169 has an enzyme-digestible cell wall, which makes it an attractive research subject over some other strains.
The C-169 genome consists of 16 chromosomes ranging from 980 kb to 4 Mb (Higashiyama & Yamada, 1991). Certain repeat elements may be involved in the repair and maintenance of chromosome breaks and stabilizing telomeres (Higashiyama et al., 1997), since they were found to accumulate at the newly formed telomeric regions in broken chromosomes by irradiation with electron beams (Yamamoto et al., 2003). Thus, C-169 can serve as a model to study chromosome repair from irradiation.
Despite morphological similarities between these organisms, genome analysis suggested that these these 2 algae were evolutionary further apart than initially anticipated, and C-169 was reclassified as Coccomyxa subellipsoidea.
Genome Reference(s)
Blanc G, Agarkova I, Grimwood J, Kuo A, Brueggeman A, Dunigan DD, Gurnon J, Ladunga I, Lindquist E, Lucas S, Pangilinan J, Pröschold T, Salamov A, Schmutz J, Weeks D, Yamada T, Lomsadze A, Borodovsky M, Claverie JM, Grigoriev IV, Van Etten JL
The genome of the polar eukaryotic microalga Coccomyxa subellipsoidea reveals traits of cold adaptation.
Genome Biol. 2012 May 25;13(5):R39. doi: 10.1186/gb-2012-13-5-r39