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References [ 10 ]
Slocombe SP, Ross M, Thomas N, McNeill S & Stanley M (2013) A rapid and general method for measurement of protein in micro-algal biomass. Bioresource Technology 129: 51-57.
Slocombe SP, Zhang QY, Ross M, Anderson A, Thomas NJ, Lapresa A, Rad Menéndez C, Campbell CN, Black KD, Stanley MS & Day JG (2015) Unlocking nature's treasure-chest: Screening for oleaginous algae. Scientific Reports 5: 09844.
Leite GB, Paranjape K & Hallenbeck PC (2016) Breakfast of champions: Fast lipid accumulation by cultures of Chlorella and Scenedesmus induced by xylose. Algal Research 16: 338-348.
Fasciotti M (2017) Perspectives for the use of biotechnology in green chemistry applied to biopolymers, fuels and organic synthesis: from concepts to a critical point of view Sustainable Chemistry and Pharmacy 6: 82-89.
Kapoore RV, Huete-Ortega M, Day JG, Okurowska K, Slocombe SP, Stanley MS & Vaidyanathan S (2019) Effects of cryopreservation on viability and functional stability of an industrially relevant alga. Scientific Reports 9: 2093.
Darienko T, Rad Menéndez C, Campbell C & Pröschold T (2019) Are there any true marine Chlorella species? Molecular phylogenetic assessment and ecology of marine Chlorella-like organisms, including a description of Droopiella gen. nov. Systematics and Biodiversity 17: 811-829.
Hughes AH, Magot F, Tawfike A, Rad-Menéndez C, Thomas N, Young LC, Stucchi L, Carettoni D, Stanley MS, Edrada-Ebel R & Duncan KR (2021) Exploring the chemical space of macro- and micro- algae using comparative metabolomics Microorganisms 9: 311.
Hughes AH, Magot F, Tawfike AF, Rad Menéndez C, Thomas N, Young LC, Stucchi L, Carettoni D, Stanley MS, Edrada-EBel R & Duncan KR (2021) Exploring the chemical space of macro- and micro-algae using comparative metabolomics. Microorganisms 9: 311.
Almalki W (2022) Influence of cohabiting bacteria on carbohydrate accumulations in Chlorella vulgaris CCAP 211/21A PhD Thesis, University of Sheffield -: -.
DOI: none
Almalki WJ, Nwokeoji AO & Vaidyanathan S (2024) Density and composition of cohabiting bacteria in Chlorella vulgaris CCAP 211/21A is influenced by changes in nutrient supply. SynBio 2(2): 190-205.
Sequences [ 1 ]
EMBL/Genbank Links
(Bold text = submission by CCAP staff or collaborators)
18S-28S
Division/Phylum: Chlorophyta Class: Trebouxiophyceae Order: Chlorellales

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: SNA; Axenic; maintained by serial subculture and cryopreserved;
Attributes
AuthorityBeyerinck [Beijerinck] 1890
IsolatorGeorge (1953)
Collection Site River Crouch, Althorne, Essex, England, UK
Climatic Zone Temperate
Notes Name changed following sequencing, pers. comm. T. Proeschold.
Axenicity Status Axenic
Area Europe
Country UK
Environment Brackish
GMO No
In Scope of Nagoya Protocol No
ABS Note Collected pre Nagoya Protocol. No known Nagoya Protocol restrictions for this strain.
Collection Date c 1953
Original Designation CRA1.BC 59/1
Pathogen Not pathogenic: Hazard Class 1
Strain Maintenance Sheet SM_MarineGreens.pdf
Toxin Producer Not Toxic / No Data
Type Culture No
Taxonomy WoRMS ID 532029
Formerly Listed in CCAP asChlorella ovalis Butcher 1952

CCAP 211/21A

Chlorella vulgaris