Strain Data

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Strain number		NIES-2499
Phylum		Chlorophyta
Class		Chlorophyceae
Scientific name		Chlamydomonas eustigma Ettl
Synonym
Former name
Common name		Green alga
Locality (Date of collection)		Matsukawa River, Takayama Vil., Nagano, Japan (1992-08-**)
Latitude / Longitude		36.65944444 / 138.52055555
Habitat (Isolation source)		Freshwater (Microfilm)
History		< Higuchi, Sumio
Isolator (Date of isolation)		Higuchi, Sumio (1992-10-**)
Identified by		Nozaki, Hisayoshi
State of strain		Cryopreservation; Unialgal; Clonal; Axenic[2017 Dec]
Culture condition (Preculture condition)		Medium: M-Allen Temperature: 20 C Light intensity: 9-18 µmol photons/m²/sec, L/D cycle: 10L:14D Duration: 3 M
Gene information		Whole-genome ( BEGY01000000 ) , 18S rRNA ( AB701493 )
Cell size (min - max)
Organization		Unicellular; Flagellate
Characteristics		Acidophilic ; Phototaxis ; Arsenic tolerance (Hirooka et al. 2017) ; Genome decoded strain (Hirooka et al. 2017)
Other strain no.
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-2235	Chlamydomonas reinhardtii	Green alga		Phototaxis ; Starch production (Kuchitsu et al. 1988) ; Genome decoded strain ; Mating type (−) ; Crosses with NIES-2239 (IAM C-562) ; Live food (Liu et al. 2016)
NIES-2236	Chlamydomonas reinhardtii	Green alga	Terrestrial (Soil)	Phototaxis ; Mating type (+)
NIES-2237	Chlamydomonas reinhardtii	Green alga		Phototaxis ; D-Threonine aldolase (Hirato et al. 2007) ; D-amino acids ; Cell wall less mutant of NIES-2238 ; Loss of nitrate reductase ; Unable to use nitrate as nitrogen source (Pröschold et al. 2005)
NIES-2238	Chlamydomonas reinhardtii	Green alga	Terrestrial (Soil)	Phototaxis ; Mating type (+) ; Loss of nitrate reductase ; Unable to use nitrate as nitrogen source (Pröschold et al. 2005)
NIES-2463	Chlamydomonas reinhardtii	Green alga	Freshwater (Soil)	Phototaxis ; Heterothallic ; Dioecious ; Isogamous ; Mating type (+)

Related strain information (Whose relevance due to simultaneous purchases and other information is inferred by AI)
Strain number	Scientific name	Common name	Habitat (Isolation source)	Characteristics
NIES-2212	Chlamydomonas debaryana	Green alga		Phototaxis ; Starch production (Toyoshima et al. 2015) ; Genome decoded strain (Hirashima et al. 2016)
NIES-2464	Chlamydomonas reinhardtii	Green alga	Freshwater (Soil)	Phototaxis ; Heterothallic ; Dioecious ; Isogamous ; Mating type (−)

Related strain information (Used in same reference)
Strain number	Scientific name	Common name	Habitat (Isolation source)	Characteristics
NIES-3753	Chloromonas krienitzii	Green alga ; Snow alga	Terrestrial (Snow)	Cryophilic ; Authentic strain (Matsuzaki et al. 2015)
NIES-3284	Chlamydomonas reinhardtii	Green alga		Phototaxis ; Mating type (−)
NIES-2324	Chlamydomonas sp.	Green alga	Marine (Seawater)	Phototaxis
NIES-438	Microglena sp.	Green alga	Freshwater (Lake water)	Phototaxis
NIES-2225	Chlamydomonas nasuta	Green alga	(Soil)	Phototaxis

Reference
Yumoto, K., Kasai, F., Kawachi, M. 2013 Taxonomic re-examination of Chlamydomonas strains maintained in the NIES-Collection. Microbiol. Cult. Coll., 29, 1-12. Strain(s): 158, 437, 438, 440, 884, 968, 1021, 1022, 1048, 1733, 1848, 1849, 2201, 2202, 2203, 2204, 2206, 2207, 2208, 2209, 2210, 2211, 2212, 2213, 2214, 2215, 2216, 2218, 2219, 2220, 2222, 2223, 2224, 2225, 2228, 2229, 2230, 2231, 2233, 2234, 2235, 2236, 2237, 2238, 2239, 2240, 2241, 2242, 2243, 2246, 2247, 2248, 2314, 2315, 2316, 2317, 2318, 2319, 2320, 2321, 2322, 2323, 2324, 2462, 2463, 2499, 2575, 2576, 2577, 2578, 2579, 3284 DOI: 10.60369/microresys.29.1_1 Sakurai, K., Mori, N., Sato, N. 2014 Detection and characterization of phosphatidylcholine in various strains of the genus Chlamydomonas (Volvocales, Chlorophyceae). J. Plant Res., 127, 641-650. Keywords: Chlamydomonas; Delta 5 desaturase; Diacylglyceryl-N,N,N-trimethylhomoserine; Fatty acid; Phosphatidylcholine Strain(s): 2202, 2207, 2212, 2215, 2219, 2225, 2230, 2242, 2316, 2462, 2499 PubMed: 24947506 DOI: 10.1007/s10265-014-0644-0 Matsuzaki, R., Suzuki, S., Yamaguchi, H., Kawachi, M., Kanesaki, Y., Yoshikawa, H., Mori, T., Nozaki, H. 2021 The Rubisco small subunits in the green algal genus Chloromonas provide insights into evolutionary loss of the eukaryotic carbon-concentrating organelle, the pyrenoid. BMC Ecol. Evol., 21, 11 (article ID). Keywords: Chloromonas; Evolution; Green algae; Hydrophobicity of RBCS helices; Pyrenoid; Pyrenoid loss; Rubisco small subunit (RBCS) Strain(s): 144, 424, 425, 2207, 2212, 2215, 2242, 2243, 2499, 3753, 4284 PubMed: 33514317 DOI: 10.1186/s12862-020-01733-1 Barcytė, D., Pusztai, M., Škaloud, P., Eliáš, M. 2022 When you like other algae: Adglutina synurophila gen. et sp. nov. (Moewusinia, Chlorophyceae), a clingy green microalga associated with Synura colonies. Protist, 173, 125858 (article ID). Keywords: Diversity; epibionts; green algae; taxonomy; Volvocales Strain(s): 2225, 2499 PubMed: 35220204 DOI: 10.1016/j.protis.2022.125858 Pang, X., Nawrocki, W. J., Cardol, P., Zheng, M., Jiang, J., Fang, Y., Yang, W., Croce, R., Tian, L. 2023 Weak acids produced during anaerobic respiration suppress both photosynthesis and aerobic respiration. Nat. Commun., 14, 4207 (article ID). Strain(s): 2499 PubMed: 37452043 DOI: 10.1038/s41467-023-39898-0 Hirooka, S., Hirose, Y., Kanesaki, Y., Higuchi, S., Fujiwara, T., Onuma, R., Era, A., Ohbayashi, R., Uzuka, A., Nozaki, H., Yoshikawa, H., Miyagishima, SY. 2017 Acidophilic green algal genome provides insights into adaptation to an acidic environment. Proc. Natl. Acad. Sci. U. S. A., 114, E8304–E8313. Keywords: acidic environment; acidophilic alga; comparative genomics; comparative transcriptomics; environmental adaptation Strain(s): 2499 PubMed: 28893987 DOI: 10.1073/pnas.1707072114

Reference

Yumoto, K., Kasai, F., Kawachi, M. 2013 Taxonomic re-examination of Chlamydomonas strains maintained in the NIES-Collection. Microbiol. Cult. Coll., 29, 1-12.
Strain(s): 158, 437, 438, 440, 884, 968, 1021, 1022, 1048, 1733, 1848, 1849, 2201, 2202, 2203, 2204, 2206, 2207, 2208, 2209, 2210, 2211, 2212, 2213, 2214, 2215, 2216, 2218, 2219, 2220, 2222, 2223, 2224, 2225, 2228, 2229, 2230, 2231, 2233, 2234, 2235, 2236, 2237, 2238, 2239, 2240, 2241, 2242, 2243, 2246, 2247, 2248, 2314, 2315, 2316, 2317, 2318, 2319, 2320, 2321, 2322, 2323, 2324, 2462, 2463, 2499, 2575, 2576, 2577, 2578, 2579, 3284
DOI: 10.60369/microresys.29.1_1

Sakurai, K., Mori, N., Sato, N. 2014 Detection and characterization of phosphatidylcholine in various strains of the genus Chlamydomonas (Volvocales, Chlorophyceae). J. Plant Res., 127, 641-650.
Keywords: Chlamydomonas; Delta 5 desaturase; Diacylglyceryl-N,N,N-trimethylhomoserine; Fatty acid; Phosphatidylcholine
Strain(s): 2202, 2207, 2212, 2215, 2219, 2225, 2230, 2242, 2316, 2462, 2499
PubMed: 24947506
DOI: 10.1007/s10265-014-0644-0

Matsuzaki, R., Suzuki, S., Yamaguchi, H., Kawachi, M., Kanesaki, Y., Yoshikawa, H., Mori, T., Nozaki, H. 2021 The Rubisco small subunits in the green algal genus Chloromonas provide insights into evolutionary loss of the eukaryotic carbon-concentrating organelle, the pyrenoid. BMC Ecol. Evol., 21, 11 (article ID).
Keywords: Chloromonas; Evolution; Green algae; Hydrophobicity of RBCS helices; Pyrenoid; Pyrenoid loss; Rubisco small subunit (RBCS)
Strain(s): 144, 424, 425, 2207, 2212, 2215, 2242, 2243, 2499, 3753, 4284
PubMed: 33514317
DOI: 10.1186/s12862-020-01733-1

Barcytė, D., Pusztai, M., Škaloud, P., Eliáš, M. 2022 When you like other algae: Adglutina synurophila gen. et sp. nov. (Moewusinia, Chlorophyceae), a clingy green microalga associated with Synura colonies. Protist, 173, 125858 (article ID).
Keywords: Diversity; epibionts; green algae; taxonomy; Volvocales
Strain(s): 2225, 2499
PubMed: 35220204
DOI: 10.1016/j.protis.2022.125858

Pang, X., Nawrocki, W. J., Cardol, P., Zheng, M., Jiang, J., Fang, Y., Yang, W., Croce, R., Tian, L. 2023 Weak acids produced during anaerobic respiration suppress both photosynthesis and aerobic respiration. Nat. Commun., 14, 4207 (article ID).
Strain(s): 2499
PubMed: 37452043
DOI: 10.1038/s41467-023-39898-0

Hirooka, S., Hirose, Y., Kanesaki, Y., Higuchi, S., Fujiwara, T., Onuma, R., Era, A., Ohbayashi, R., Uzuka, A., Nozaki, H., Yoshikawa, H., Miyagishima, SY. 2017 Acidophilic green algal genome provides insights into adaptation to an acidic environment. Proc. Natl. Acad. Sci. U. S. A., 114, E8304–E8313.
Keywords: acidic environment; acidophilic alga; comparative genomics; comparative transcriptomics; environmental adaptation
Strain(s): 2499
PubMed: 28893987
DOI: 10.1073/pnas.1707072114

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