Phaeodactylum tricornutum Bohlin
| Common Name | pennate diatom | ||||
| Collection Site | 54°N -4°W England, United Kingdom (lat long very approximate) | ||||
| Ocean | North Atlantic | ||||
| Sea | |||||
| Nearest Continent | Europe | ||||
| Collected By | |||||
| Collection Date | |||||
| Isolated By | Allen | ||||
| Isolated Date | |||||
| Identified By | |||||
| Deposited By | Campbell,C | ||||
| Deposit Date | 07/06/2005 | ||||
| Strain Synonyms | CCAP 1052/1B, Pt3, UTEX 640 | ||||
| Is The Strain Currently Axenic? | No | ||||
| When Was It Last Tested? | 06/21/2005 | ||||
| Other Information | |||||
| Authentic Type/Strain | No | ||||
| Morphological Data | |||||
| Attributes | Algae, Marine, High Lipid | ||||
| Additional Resources | Genbank Genome Transcriptome AlgaeBase | ||||
| Genome Sequence Link | No | ||||
| Medium Used for Maintenance | L1 |
| Other Reported Growth Media | f/2 |
| Maintenance Temperature (°C) | 20 °C |
| Known Temperature Range (°C) | 18 - 22 °C |
| Cell Length (Min) | 18 |
| Cell Length (Max) | 28 |
| Cell Width (Min) | 4 |
| Cell Width (Max) | 5 |
CCMP2558 was cryopreserved on Jun 16 2005 using 12% DMSO as a cryoprotectant.
The time required to regrow this culture, prior shipping, is approximately 12 days. If interested, please contact the CCMP for the cryopreservation methods (freezing and/or thawing protocols).
Note that aquaculture strains are always maintained as actively growing cultures, even if also cryogenically stored. Therefore, aquaculture strains (see aquaculture express ordering on the CCMP home page) can be shipped immediately upon request.
The time required to regrow this culture, prior shipping, is approximately 12 days. If interested, please contact the CCMP for the cryopreservation methods (freezing and/or thawing protocols).
Note that aquaculture strains are always maintained as actively growing cultures, even if also cryogenically stored. Therefore, aquaculture strains (see aquaculture express ordering on the CCMP home page) can be shipped immediately upon request.
Documentation:
Growth phase significantly decreases the DHA-to-EPA ratio in marine microalgae (https://link.springer.com/article/10.1007/s10499-016-0053-6)