134 Cryopreservation of Chlamydomonas Reinhardtii (Chlorophyceae): A Cause of Low Viability at High Cell Density

Cryopreservation provides a convenient method for long term storage of living organisms. Current protocols allow the successful cryopreservation of a wide range of algae, although many strains remain recalcitrant to cryopreservation. Chlamydomonas reinhardtii , a species utilized in many molecular and biochemical studies, survives cryopreservation best at low cell density. We show that reduced viability at higher cell densities is caused by the accumulation of a substance released from C. reinhardtii into the culture medium during cryopreservation. A mutant strain of C. reinhardtii (cw10) with a greatly reduced cell wall did not release a substance inhibitory to wild type or cw10 C. reinhardtii during cryopreservation, and could be cryopreserved with the same viability regardless of cell density. The inhibitory substance is small (mw<1300), polar, heat‐stable and organic. Chlamydomonas moewusii Gerloff and Chlamydomonas zebra Korschikov ex Pascher both produce substances that reduce the viability of cryopreserved C. reinhardtii . However, neither is affected by the inhibitory substance produced by themselves or C. rienhardtii. Pandorina morum (Müller) Bory and Volvox carteri f. nagariensis Iyengar are colonial Volvocalean algae related to C. reinhardtii that cannot be successfully cryopreserved. They both generate substances that inhibit C. reinhardtii during cryopreservation. The identification of the substance inhibitory to C. reinhardtii during cryopreservation should explain why this alga cryopreserves best at a low cell density, and may lead to protocols that facilitate the more successful cryopreservation of C. reinhardtii and related algae.