SAG Strain Number: | 48.87 |
TAXONOMY |
Genus: | Monoraphidium |
Species: | braunii |
Taxonomic position: | Chlorophyta - Chlorophyceae |
Authority: | (Nägeli) Komárková-Legnerová |
Variety: | |
Formerly called: | authentic strain of Monoraphidium neglectum Heynig et Krienitz |
Authentic: | yes |
Division: | Chlorophyta |
Class: | Chlorophyceae |
Common name: | Green Algae - Chlorophytes |
ORIGIN |
General habitat: | freshwater |
Climatic zone: | temperate |
Continent: | Europe |
Country: | Germany |
Locality: | Köthen, basin in greenhouse |
Lat. / Long. (Precision): | 51.746123 / 11.98384 (500m) View on Google Maps |
Year: | 1980 |
Isolated by: | L. Krienitz |
Strain number by isolator: | KR 1980/222 (strain P 50) |
Deposition by: | L. Krienitz |
Deposition date: | 07.1987 |
CULTURE INFORMATION |
Culture medium: | ESP Ag |
Axenic: | axenic |
Strain relatives: | |
Agitation resistance: | yes |
Special properties: | NO known Nagoya Protocol restrictions for this strain |
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PUBLICATIONS |
Publication: | Liu M. et al. (2024) Adaptive evolution of chloroplast division mechanisms during plant terrestrialization. Cell Rep. 43 (3):113950 |
Publication: | Puginier C. et al. (2024) Phylogenomics reveals the evolutionary origins of lichenization in chlorophyte algae. Nat. Comm. 15 (1):4452 |
Publication: | Nelson D.R. et al. (2021) Large-scale genome sequencing reveals the driving forces of viruses in microalgal evolution. Cell Host Microbe 29 (2):250-266 |
Publication: | Garcia da T.S. et al. (2016) Selenastraceae (Sphaeropleales, Chlorophyceae): rbcL, 18S rDNA and ITS-2 secondary structure enlightens traditional taxonomy, with description of two new genera, Messastrum gen. nov. and Curvastrum gen. nov. Fottea 17 (1):1-19 |
Publication: | Steudel B. et al. (2016) Contrasting biodiversity-ecosystem functioning relationships in phylogenetic and functional diversity. New Phytologist 212 (2 ): 409-420 |
Publication: | Bogen C. et al. (2013) Identification of Monoraphidium contortum as a promising species for liquid biofuel production. Bioresource Technology 133:622-626 |
Publication: | Bogen et al. (2013) Reconstruction of the lipid metabolism for the microalga Monoraphidium neglectum from its genome sequence reveals characteristics suitable for biofuel production. BMC Genomics 14 (926) |
Publication: | Steudel B. et al. (2012) Biodiversity effects on ecosystem functioning change along environmental stress gradients. Ecology Letters 15 (12):1397–1405 |
Publication: | Krienitz, L. et al. (2006) The high content of polyunsaturated fatty acids in Nannochloropsis limnetica (Eustigmatophyceae) and its implication for food web interactions, freshwater aquaculture and biotechnology. Limnologica 36 (3):204-210 |
Publication: | Krienitz, L. et al. (2001) TRADITIONAL GENERIC CONCEPTS VERSUS 18S rRNA GENE PHYLOGENY IN THE GREEN ALGAL FAMILY SELENASTRACEAE (CHLOROPHYCEAE, CHLOROPHYTA). J. Phycol. 37 (5):852-865 |
Publication: | Krienitz, L. et al. (1983) Morphologie und Ultrastruktur einiger Arten der Gattung Monoraphidium (Chlorellales). I. Monoraphidium griffithii, M. neglectum und M. tortile. Arch. Hydrobiol. / Algol. Stud. 33 63:401-417 |
Publication: | Heynig, H. et al. (1982) Monoraphidium neglectum n. sp. sowie einige Bemerkungen zu den Gattungen Monoraphidium, Chlorolobion und Keratococcus (Chlorococcales). Archiv für Protistenkunde 125:335-344 |
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SEQUENCE INFORMATION |
Sequencing Project: | PRJNA221625 Monoraphidium neglectum strain SAG 48.87, whole genome shotgun sequencing project |
Sequencing Project: | PRJNA293989 Monoraphidium neglectum strain:SAG 48.87 RefSeq Genome sequencing, curated copy of PRJNA221625 |
Sequence Accession: | AJ300526 partial 18S rRNA gene (1766 bp) |
CRYO |
Cryopreservation: | good survival |
TEACHING |
Recommended for teaching: | no |