Strain Data

A big image opens when the thumbnail is clicked.(nies-2279.jpg)

Synonym
Strain number		NIES-2279
Phylum		Chlorophyta
Class		Chlorophyceae
Scientific name		Tetradesmus obliquus (Turpin) M.J.Wynne
Former name		Scenedesmus obliquus (Turpin) Kützing
Common name		Green alga
Locality (Date of collection)
Latitude / Longitude
Habitat (Isolation source)
History		< IAM (2007) < UTEX (1989-07-04);
Isolator (Date of isolation)		Gaffron, H.
Identified by
State of strain		Cryopreservation; Unialgal; Clonal; Axenic[2018 Feb]
Culture condition (Preculture condition)		Medium: C (agar) Temperature: 20 C Light intensity: 3-5 µmol photons/m²/sec, L/D cycle: 10L:14D Duration: 4 M
Gene information		Plastid genome ( DQ396875 ) , 18S-ITS1-5.8S-ITS2-28S ( KP645233 ) , ITS1-5.8S-ITS2 ( AJ249505 ) , 28S rRNA ( KC145458 ) , rbcL ( EF113469 )
Cell size (min - max)		5 - 10 μm
Organization
Characteristics		Thermophilic (opt. 57℃() ; Genome decoded strain
Other strain no.		Other collection strain no. : IAM C-521 (=C-72); CCAP 276/6A; SAG 276-6; UTEX 393 Other strain no. : Gaffron D-3
Remarks		Cryopreserved; Axenic
Movie

Related strain information (Large number of orders and same genus or species)
Strain number	Scientific name	Common name	Habitat (Isolation source)	Characteristics
NIES-92	Tetradesmus acuminatus	Green alga	Freshwater (Lake water)
NIES-2280	Tetradesmus obliquus	Green alga	Starch production (Miyachi et al. 1986)
NIES-93	Tetradesmus dimorphus	Green alga	Freshwater (Lake water)
NIES-119	Tetradesmus dimorphus	Green alga	Freshwater (Bog water)

Related strain information (Used in same reference)
Strain number	Scientific name	Common name	Habitat (Isolation source)	Characteristics
NIES-2273	Scenedesmus bijuga	Green alga
NIES-2194	Ankistrodesmus braunii	Green alga	Freshwater
NIES-2151	Graesiella emersonii	Green alga	Freshwater (Tap water)	Starch production (Takeshita et al. 2014)
NIES-2204	Chlamydomonas applanata	Green alga	Freshwater (Lake mud)	Phototaxis
NIES-2203	Chloromonas sp.	Green alga	Terrestrial (Soil)

Reference
Sakaguchi, T., Horikoshi, T., Nakajima, A. 1978 Uptake of uranium from seawater by microalgae. J. Ferm. Technol., 56, 561-565. Strain(s): 2138, 2139, 2212, 2238, 2279 Sakaguchi, T., Tsuji, T., Nakajima, A., Horikoshi, T. 1979 Accumulation of cadmium by green microalgae. Eur. J. Appl. Microbiol. Biotechnol., 8, 207-215. Strain(s): 2212, 2273, 2274, 2279 DOI: 10.1007/BF00506184 Nakajima, A., Horikoshi, T., Sakaguchi, T. 1979 Uptake of copper ion by green microalgae. Agric. Biol. Chem., 43, 1455-1460. Strain(s): 2212, 2273, 2274, 2279 DOI: 10.1080/00021369.1979.10863659 Brand, J. J. & Wright, J. N. 1989 Hydrogen production by eukaryotic algae. Biotech. Bioeng., 33, 1482-1488. Strain(s): 2151, 2169, 2190, 2194, 2201, 2202, 2203, 2204, 2211, 2213, 2219, 2279, 2291 Nakai, S., Seto, N., Asaoka, S., Okuda, T., Nishijima, W. 2013 Impact of the allelopathic effect of a submerged macrophyte Myriophyllum spicatum on the competition between the cyanobacterium Microcystis aeruginosa and the green alga Scenedesmus obliquus. J. Jpn. Soc. Wat. Environ., 36, 85-90 (in Japanese with English summary). Keywords: Allelopathy; Cyanobacterium; Dominance prevention; Fatty acid; Polyphenol; Submerged macrophyte Strain(s): 87, 2279 DOI: 10.2965/jswe.36.85 Liu, Y., Hao, A., Iseri, Y., Kuba, T., Zhang, A. 2014 A comparison of the mussel Anodonta woodiana's acute physiological responses to different algae diets. JOCET, 2, 126-131. Keywords: Anodonta woodiana; microcystis aeruginosa; scenedesmus obliquus; scope for growth (SFG) Strain(s): 90, 2279 DOI: 10.7763/JOCET.2014.V2.106 Liu, Y., Hao, A., Iseri, Y., Li, C., Zhang, Z., Kuba, T. 2015 Possible survival mechanisms of Sinanodonta woodiana exposed to microcystin. J. JSCE, 3, 259-267. Keywords: Sinanodonta woodiana; selective feeding mechanism; Microcystis-blooming; detoxification mechanism; scope for growth (SFG) Strain(s): 90, 2279 DOI: 10.2208/journalofjsce.3.1_259

Reference

Sakaguchi, T., Horikoshi, T., Nakajima, A. 1978 Uptake of uranium from seawater by microalgae. J. Ferm. Technol., 56, 561-565.
Strain(s): 2138, 2139, 2212, 2238, 2279

Sakaguchi, T., Tsuji, T., Nakajima, A., Horikoshi, T. 1979 Accumulation of cadmium by green microalgae. Eur. J. Appl. Microbiol. Biotechnol., 8, 207-215.
Strain(s): 2212, 2273, 2274, 2279
DOI: 10.1007/BF00506184

Nakajima, A., Horikoshi, T., Sakaguchi, T. 1979 Uptake of copper ion by green microalgae. Agric. Biol. Chem., 43, 1455-1460.
Strain(s): 2212, 2273, 2274, 2279
DOI: 10.1080/00021369.1979.10863659

Brand, J. J. & Wright, J. N. 1989 Hydrogen production by eukaryotic algae. Biotech. Bioeng., 33, 1482-1488.
Strain(s): 2151, 2169, 2190, 2194, 2201, 2202, 2203, 2204, 2211, 2213, 2219, 2279, 2291

Nakai, S., Seto, N., Asaoka, S., Okuda, T., Nishijima, W. 2013 Impact of the allelopathic effect of a submerged macrophyte Myriophyllum spicatum on the competition between the cyanobacterium Microcystis aeruginosa and the green alga Scenedesmus obliquus. J. Jpn. Soc. Wat. Environ., 36, 85-90 (in Japanese with English summary).
Keywords: Allelopathy; Cyanobacterium; Dominance prevention; Fatty acid; Polyphenol; Submerged macrophyte
Strain(s): 87, 2279
DOI: 10.2965/jswe.36.85

Liu, Y., Hao, A., Iseri, Y., Kuba, T., Zhang, A. 2014 A comparison of the mussel Anodonta woodiana's acute physiological responses to different algae diets. JOCET, 2, 126-131.
Keywords: Anodonta woodiana; microcystis aeruginosa; scenedesmus obliquus; scope for growth (SFG)
Strain(s): 90, 2279
DOI: 10.7763/JOCET.2014.V2.106

Liu, Y., Hao, A., Iseri, Y., Li, C., Zhang, Z., Kuba, T. 2015 Possible survival mechanisms of Sinanodonta woodiana exposed to microcystin. J. JSCE, 3, 259-267.
Keywords: Sinanodonta woodiana; selective feeding mechanism; Microcystis-blooming; detoxification mechanism; scope for growth (SFG)
Strain(s): 90, 2279
DOI: 10.2208/journalofjsce.3.1_259

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