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  • Phaeodactylum tricornutum
References [ 8 ]
De Martino A, Meichenin A, Shi J, Pan K & Bowler C (2007) Genetic and phenotypic characterization of Phaeodactylum tricornutum (Bacillariophyceae) accessions. Journal of Phycology 43: 992-1009.
De Martino A, Bartual A, Willis A, Meichenin A, Villazán B, Maheswari U & Bowler C (2011) Physiological and molecular evidence that environmental changes elicit morphological interconversion in the model diatom Phaeodactylum tricornutum. Protist 162: 462-481.
Hubbard KA, Rocap G & Armbrust EV (2008) Inter- and intraspecific community structure within the diatom genus Pseudo-Nitzschia (Bacillariophyceae). Journal of Phycology 44: 637-649.
Flori S, Jouneau PH, Finazzi G, Maréchal E & Falconet D (2016) Ultrastructure of the periplastidial compartment of the diatom Phaeodactylum tricornutum. Protist 167: 254-267.
Flori S, Jouneau PH, Bailleul B, Gallet B, Estrozi LF, Moriscot C, Bastien O, Eicke S, Schober A, Río Bártulos C, Maréchal E, Kroth PG, Petroutsos D, Zeeman S, Breyton C, Schoehn G, Falconet D & Finazzi G (2017) Plastid thylakoid architecture optimizes photosynthesis in diatoms Nature Communications 8: 15885.
Villanova V, Emidio Fortunato A, Singh D, Dal Bo D, Conte M, Obata T, Johuet J, Fernie AR, Marechal E, Falciatore A, Pagliardini J, Le Monnier A, Poolman M, Curien G, Petroutsos D & Finazzi G (2017) Investigating mixotrophic metabolism in the model diatom Phaeodactylum tricornutum Philosophical Transactions of the Royal Society of London. Series B 372 (1728): -.
Jouhet J, Lupette J, Clerc O, Magneschi L, Bedhomme M, Collin S, Roy S, Maréchal E & Rébeillé F (2017) LC-MS/MS versus TLC plus GC methods: Consistency of glycerolipid and fatty acid profiles in microalgae and higher plant cells and effect of a nitrogen starvation. PLoS ONE 12(8): e0182423.
Brodu A, Seydoux C, Finazzi G, Dublanche-Tixier C & Ducros C (2019) Optical optimization of semi-transparent a-Si:H solar cells for photobioreactor application Thin Solid Films 689: 137492.
Sequences [ 1 ]
EMBL/Genbank Links
(Bold text = submission by CCAP staff or collaborators)
18S-ITS2
Division/Phylum: Heterokontophyta/Ochrophyta Class: Bacillariophyceae Order: Naviculales

Note: for strains where we have DNA barcodes we can be reasonably confident of identity, however for those not yet sequenced we rely on morphology and the original identification, usually made by the depositor. Although CCAP makes every effort to ensure the correct taxonomic identity of strains, we cannot guarantee that a strain is correctly identified at the species, genus or class levels. On this basis users are responsible for confirming the identity of the strain(s) they receive from us on arrival before starting experiments.
For strain taxonomy we generally use AlgaeBase for algae and Adl et al. (2019) for protists.

Culture media, purity and growth conditions:
Medium: f/2 + Si; Bacteria present; maintained by serial subculture and cryopreserved;
Attributes
AuthorityBohlin 1897
IsolatorCoughlan (pre 1956)
Collection SiteEstuary, polluted water (industrial area and seaside resort) Off Blackpool, England
Notes Bowler & DeMartino Pt1; Name confirmed March 2013 (ASSEMBLE)
Axenicity Status Bacteria present
Area Europe
Country UK
Environment Marine
GMO No
Group Diatom
In Scope of Nagoya Protocol No
Collection Date c. 1956
Original Designation COUGH
Pathogen Not pathogenic: Hazard Class 1
Strain Maintenance Sheet SM_MarineDiatoms15_20.pdf
Toxin Producer Not Toxic / No Data
Type Culture No
Taxonomy WoRMS ID 175584
Equivalent StrainsCCAP 1055/1 (Bowler & De Martino),CCMP 632

CCAP 1055/3

Phaeodactylum tricornutum


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