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References [ 11 ]
Dönz OC (1934) Chlorella zofingiensis, eine neue Bodenalge. Ber. Sch. Bot. Ges. 43: 127-131.
DOI: none
Gutman J, Zarka A & Boussiba S (2009) The host-range of Paraphysoderma sedebokerensis, a chytrid that infects Haematococcus pluvialis. European Journal of Phycology 44(4): 509-514.
Fucikova K & Lewis LA (2012) Intersection of Chlorella, Muriella and Bracteacoccus: Resurrecting the genus Chromochloris Kol et Chodat (Chlorophyceae, Chlorophyta). Fottea 12: 83-93.
DOI: none
Coder DM & Goff LJ (1986) The host range of the chlorellavorous bacterium ("Vampirovibrio chlorellavorus"). Journal of Phycology 22: 543-546.
DOI: none
Steudel B, Hector A, Friedl T, Lofke C, Lorenz M, Wesche M & Kessler M (2012) Biodiversity effects on ecosystem functioning change along environmental stress gradients Ecology Letters 15: 1397-1405.
Huss VAR, Frank C, Hartmann EC, Hirmer M, Kloboucek A, Seidel BM, Wenzeler P & Kessler E (1999) Biochemical taxonomy and molecular phylogeny of the genus Chlorella sensu lato (Chlorophyta) Journal of Phycology 35: 587-598.
DOI: none
Hallmann C, Stannek L, Fritzlar D, Hause-Reitner D, Friedl T & Hoppert M (2013) Molecular diversity of phototrophic biofilms on building stone. FEMS Microbiology Ecology 84: 355-372.
Araya B, Gouveia L, Nobre B, Reis A, Chamy R & Poirrier P (2014) Evaluatino of the simultaneous production of lutein and lipids using a vertical alveolar panel bioreactor for three Chlorella species. Algal Research 6B: 218-222.
Padmaperuma G, Kapoore RV, Gilmour DJ & Vaidyanathan S (2017) Microbial consortia: a critical look at microalgae co-cultures for enhanced biomanufacturing Critical Reviews in Biotechnology -: -.
Asker D & Awad TS (2019) Isolation and characterization of a novel lutein-producing marine microalga using high throughput screening Food Research International 116: 660-667.
Nishshanka GKSH, Liyanaarachchi VC, Premaratne M, Ariyadasa TU & Nimarshana PHV (2021) Sustainable cultivation of Haematococcus pluvialis and Chromochloris zofingiensis for the production of astaxanthin and co-products The Canadian Journal of Chemical Engineering -: -.
Sequences [ 2 ]
EMBL/Genbank Links
(Bold text = submission by CCAP staff or collaborators)
Division/Phylum: Chlorophyta Class: Chlorophyceae Order: Sphaeropleales

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: 3N-BBM+V; Bacteria present; Cryopreserved;
Attributes
Authority(Dönz) Fucíková & Lewis 2012
IsolatorDönz (1933)
Collection Site Ramooswald, nr. Zofingen, Switzerland
Archive Date 2023-09-19 16:55:00
Archive Reason Other
Notes Renamed 2018 as per Algabase
Axenicity Status Bacteria present
Area Europe
Country Switzerland
Environment Soil
In Scope of Nagoya Protocol No
ABS Note Collected pre Nagoya Protocol. No known Nagoya Protocol restrictions for this strain.
Collection Date c 1933
Original Designation Zurich 205
Pathogen Not pathogenic: Hazard Class 1
Strain Maintenance Sheet
Toxin Producer Not Toxic / No Data
Type Culture Yes
Taxonomy WoRMS ID 626140
Equivalent StrainsATCC 30412,IAM C-111,SAG 211-14,UTEX 32
Synonyms Bracteacoccus cinnabarinus , Chlorella zofingiensis , Muriella zofingiensis , Mychonastes zofingiensis
Formerly Listed in CCAP asChlorella zofingiensis Dönz 1934

CCAP 211/14

Chromochloris zofingiensis

  • Product Code: CCAP 211/14
  • Availability: Archived
This strain is Archived, see strain data below for archive reason. Please contact us for more information.

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