Volvox carteri nagariensis
On September 25, 2017 our website will be switching from HTTP to HTTPS (Secure Protocol). If you use the Download API please add the "-L" parameter to your curl commands. Sorry for the inconvenience.
The data on this Volvox portal is for archival use. Please note that the latest data is available at Phytozome.
photo of volvox carterii
Photo by: Ichiro Nishii
Volvox carteri, the 'fierce roller', is a multicellular chlorophyte alga, closely related to the single-celled Chlamydomonas reinhardtii. Volvox normally reproduces as an asexual haploid, but can be induced to undergo sexual differentiation and reproduction. The 48-hour life cycle allows easy laboratory culture and includes an embryogenesis program that features many of the hallmarks of animal and plant development. These features include embryonic axis formation, asymmetric cell division, a gastrulation-like inversion, and differentiation of germ and somatic cells. The ~2000 somatic cells in a Volvox spheroid are biflagellate and adapted for motility, while the ~16 large germ cells contained within the spheroid are non-motile and specialized for growth and reproduction. Volvox embryogensis generates the coordinated arrangement of somatic flagella and photosensing eye spots needed for the organism's characteristic forward rolling motion.

The draft sequence of the Volvox genome will provide fascinating insights into the evolution of multicellularity in the green algal lineage and beyond. Moreover, the Volvocales, the family that includes single-celled Chlamydomonas (whose genome sequence is already available) and Volvox, also includes several multicellular or colonial species with intermediate cell numbers and less complex developmental programming. Comparative genomic studies within this group promises further insights into the origin and evolution of multicellularity in eukaryotes.


Genomic Analysis of Organismal Complexity in the Multicellular Green Alga Volvox carteri Science 9 July 2010