Strain Data

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Strain number		NIES-281
Phylum		Cryptophyta
Class		Cryptophyceae
Scientific name		Cryptomonas curvata Ehrenberg
Synonym		Cryptomonas ovata var. curvata (Ehrenberg) Lemmermann 1903; Cryptomonas rostrata O.V.Troitzkaja 1922; Cryptomonas rostrata Skuja 1948; Cryptomonas rostratiformis Skuja 1950; Cryptomonas lilloensis W.Conrad & H.Kufferath 1954
Former name		Cryptomonas tetrapyrenoidosa Skuja
Common name
Locality (Date of collection)		Minamiizu, Shizuoka, Japan (1983-05-13)
Latitude / Longitude		34.664368 / 138.831395
Habitat (Isolation source)		Freshwater (Pond water)
History		< Ishimitsu, Mayumi
Isolator (Date of isolation)		Ishimitsu, Mayumi (1983-05-14)
Identified by		Suzuki, Shigekatsu (Reidentify)
State of strain		Subculture; Unialgal; Clonal; Axenic[2017 Dec]
Culture condition (Preculture condition)		Medium: VT Temperature: 15 C Light intensity: 24 µmol photons/m²/sec, L/D cycle: 10L:14D Duration: 2 M
Gene information		Plastid genome ( LC648951 ) , 18S rRNA ( LC647556 )
Cell size (min - max)		- 22 μm
Organization		Unicellular; Flagellate
Characteristics		Genome decoded strain (Suzuki et al. 2022)
Other strain no.		Other strain no. : #00073
Remarks		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-278	Cryptomonas rostratiformis		Freshwater (Pond water)
NIES-274	Cryptomonas ovata		Freshwater (Pond water)
NIES-275	Cryptomonas ovata		Freshwater (Pond water)
NIES-345	Cryptomonas sp.		Freshwater (Bog water)	Genome decoded strain (Suzuki et al. 2022)
NIES-715	Cryptomonas paramaecium		Freshwater (Bog water)	Heterotrophic ; Osmotrophic ; Genome decoded strain (Suzuki et al. 2022)

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-282	Cryptomonas tetrapyrenoidosa		Freshwater (Pond water)	Live food (Liu et al. 2016)
NIES-276	Cryptomonas borealis		Freshwater (Pond water)	Genome decoded strain (Suzuki et al. 2022)

Related strain information (Used in same reference)
Strain number	Scientific name	Common name	Habitat (Isolation source)	Characteristics
NIES-2729	Nitzschia palea	Pennate diatom	Freshwater (Stone)	Test strain for AGP etc. (Ishihara, S. et al. 2006) ; Genome decoded strain (Kamikawa et al. 2018)
NIES-1401	Pavlova sp.		Marine (Seawater)	Benthic
NIES-2726	Nitzschia palea	Pennate diatom	Freshwater (Stone)	Test strain for AGP etc. (Ishihara, S. et al. 2006)
NIES-623	Pavlova gyrans		Marine (Seawater)
NIES-15	Olisthodiscus tomasii		Marine (Coastal soil)	Red tide ; Authentic strain, Holotype (Barcytė et al. 2021)

Reference
Ishimitsu, M. & Chihara, M. 1984 Four species of Cryptomonas (Class Cryptophyceae) in Japan. J. Jpn. Bot., 59, 161-169. Strain(s): 274, 275, 276, 277, 278, 279, 280, 281, 282, 345, 347, 348 Mizoguchi, T., Kimura, Y., Yoshitomi, T., Tamiaki, H. 2011 The stereochemistry of chlorophyll-c₃ from the haptophyte Emiliania huxleyi: the (13²R)-enantiomers of chlorophylls-c are exclusively selected as the photosynthetically active pigments in chromophyte algae. Biochim. Biophys. Acta-Bioenerg., 1807, 1467-1473. Keywords: chlorophyll-c; chiral HPLC; enantioimer; chromophyte algae; light-harvesting complexes Strain(s): 71, 281, 696, 837 PubMed: 21806961 DOI: 10.1016/j.bbabio.2011.07.008 Kashiyama Y., Yokoyama A., Kinoshita Y., Shoji S., Miyashiya H., Shiratori T., Suga H., Ishikawa K., Ishikawa A., Inouye I., Ishida K., Fujinuma D., Aoki K., Kobayashi M., Nomoto S., Mizoguchi T., Tamiaki H. 2012 Ubiquity and quantitative significance of detoxification catabolism of chlorophyll associated with protistan herbivory. Proc. Nati. Acad. Sci. U. S. A., 109, 17328-17335. Keywords: phototoxicity of chlorophylls; microbial herbivory; phagocytosis; biodiversity of eukaryotes; microbial loop Strain(s): 281, 3697, 3698 PubMed: 22949677 DOI: 10.1073/pnas.1207347109 Mitani, E., Nakayama, F., Matsuwaki, I., Ichi, I., Kawabata, A., Kawachi, M., Kato, M. 2017 Fatty acid composition profiles of 235 strains of three microalgal divisions within the NIES Microbial Culture Collection. Microb. Resour. Syst., 33, 19-29. Keywords: Cryptophyta; docosahexaenoic acid; eicosapentaenoic acid; fatty acid; Haptophyta; Heterokontophyta; microalgae Strain(s): 1, 8, 9, 14, 15, 17, 71, 115, 223, 225, 233, 234, 265, 274, 275, 276, 277, 278, 279, 280, 281, 282, 284, 293, 323, 324, 330, 333, 345, 347, 348, 350, 353, 372, 377, 388, 391, 395, 407, 408, 409, 413, 414, 417, 461, 462, 466, 487, 534, 548, 553, 556, 557, 558, 559, 560, 562, 587, 588, 589, 590, 603, 605, 622, 623, 695, 696, 697, 698, 699, 700, 701, 702, 703, 704, 705, 706, 707, 708, 710, 711, 712, 713, 714, 715, 716, 741, 765, 766, 805, 837, 997, 1001, 1002, 1003, 1004, 1005, 1006, 1007, 1009, 1011, 1016, 1017, 1044, 1045, 1046, 1047, 1302, 1303, 1324, 1330, 1339, 1340, 1349, 1353, 1370, 1375, 1376, 1379, 1383, 1384, 1385, 1386, 1387, 1391, 1392, 1393, 1395, 1398, 1399, 1400, 1401, 1699, 1700, 1730, 1813, 1815, 1816, 1826, 1827, 1831, 1862, 1863, 1864, 1865, 1874, 1963, 1964, 1965, 1974, 1975, 1976, 2142, 2143, 2144, 2145, 2147, 2148, 2300, 2331, 2332, 2351, 2363, 2364, 2365, 2369, 2370, 2376, 2506, 2533, 2534, 2535, 2536, 2537, 2590, 2633, 2668, 2689, 2690, 2691, 2693, 2694, 2696, 2697, 2707, 2716, 2717, 2718, 2720, 2722, 2723, 2725, 2726, 2729, 2730, 2731, 2732, 2770, 2771, 2772, 2773, 2839, 2840, 2841, 2842, 2843, 2844, 2859, 2872, 2878, 2890, 2899, 3391, 3689, 3690, 3691 DOI: 10.60369/microresys.33.1_19 Suzuki, S., Matsuzaki, R., Yamaguchi, H., Kawachi, M. 2022 What happend before losses of photosynthesis in Cryptophyte algae? Mol. Biol. Evol., 39, msac001 (article ID). Keywords: cryptophyte; Cryptomonas borealis: genome evolution; mixotrophy; photosynthetic loss Strain(s): 276, 281, 345, 348, 698, 703, 715, 1005, 1006, 1375, 1730, 2331, 2332, 2716, 3952 PubMed: 35079797 DOI: 10.1093/molbev/msac001

Reference

Ishimitsu, M. & Chihara, M. 1984 Four species of Cryptomonas (Class Cryptophyceae) in Japan. J. Jpn. Bot., 59, 161-169.
Strain(s): 274, 275, 276, 277, 278, 279, 280, 281, 282, 345, 347, 348

Mizoguchi, T., Kimura, Y., Yoshitomi, T., Tamiaki, H. 2011 The stereochemistry of chlorophyll-c₃ from the haptophyte Emiliania huxleyi: the (13²R)-enantiomers of chlorophylls-c are exclusively selected as the photosynthetically active pigments in chromophyte algae. Biochim. Biophys. Acta-Bioenerg., 1807, 1467-1473.
Keywords: chlorophyll-c; chiral HPLC; enantioimer; chromophyte algae; light-harvesting complexes
Strain(s): 71, 281, 696, 837
PubMed: 21806961
DOI: 10.1016/j.bbabio.2011.07.008

Kashiyama Y., Yokoyama A., Kinoshita Y., Shoji S., Miyashiya H., Shiratori T., Suga H., Ishikawa K., Ishikawa A., Inouye I., Ishida K., Fujinuma D., Aoki K., Kobayashi M., Nomoto S., Mizoguchi T., Tamiaki H. 2012 Ubiquity and quantitative significance of detoxification catabolism of chlorophyll associated with protistan herbivory. Proc. Nati. Acad. Sci. U. S. A., 109, 17328-17335.
Keywords: phototoxicity of chlorophylls; microbial herbivory; phagocytosis; biodiversity of eukaryotes; microbial loop
Strain(s): 281, 3697, 3698
PubMed: 22949677
DOI: 10.1073/pnas.1207347109

Mitani, E., Nakayama, F., Matsuwaki, I., Ichi, I., Kawabata, A., Kawachi, M., Kato, M. 2017 Fatty acid composition profiles of 235 strains of three microalgal divisions within the NIES Microbial Culture Collection. Microb. Resour. Syst., 33, 19-29.
Keywords: Cryptophyta; docosahexaenoic acid; eicosapentaenoic acid; fatty acid; Haptophyta; Heterokontophyta; microalgae
Strain(s): 1, 8, 9, 14, 15, 17, 71, 115, 223, 225, 233, 234, 265, 274, 275, 276, 277, 278, 279, 280, 281, 282, 284, 293, 323, 324, 330, 333, 345, 347, 348, 350, 353, 372, 377, 388, 391, 395, 407, 408, 409, 413, 414, 417, 461, 462, 466, 487, 534, 548, 553, 556, 557, 558, 559, 560, 562, 587, 588, 589, 590, 603, 605, 622, 623, 695, 696, 697, 698, 699, 700, 701, 702, 703, 704, 705, 706, 707, 708, 710, 711, 712, 713, 714, 715, 716, 741, 765, 766, 805, 837, 997, 1001, 1002, 1003, 1004, 1005, 1006, 1007, 1009, 1011, 1016, 1017, 1044, 1045, 1046, 1047, 1302, 1303, 1324, 1330, 1339, 1340, 1349, 1353, 1370, 1375, 1376, 1379, 1383, 1384, 1385, 1386, 1387, 1391, 1392, 1393, 1395, 1398, 1399, 1400, 1401, 1699, 1700, 1730, 1813, 1815, 1816, 1826, 1827, 1831, 1862, 1863, 1864, 1865, 1874, 1963, 1964, 1965, 1974, 1975, 1976, 2142, 2143, 2144, 2145, 2147, 2148, 2300, 2331, 2332, 2351, 2363, 2364, 2365, 2369, 2370, 2376, 2506, 2533, 2534, 2535, 2536, 2537, 2590, 2633, 2668, 2689, 2690, 2691, 2693, 2694, 2696, 2697, 2707, 2716, 2717, 2718, 2720, 2722, 2723, 2725, 2726, 2729, 2730, 2731, 2732, 2770, 2771, 2772, 2773, 2839, 2840, 2841, 2842, 2843, 2844, 2859, 2872, 2878, 2890, 2899, 3391, 3689, 3690, 3691
DOI: 10.60369/microresys.33.1_19

Suzuki, S., Matsuzaki, R., Yamaguchi, H., Kawachi, M. 2022 What happend before losses of photosynthesis in Cryptophyte algae? Mol. Biol. Evol., 39, msac001 (article ID).
Keywords: cryptophyte; Cryptomonas borealis: genome evolution; mixotrophy; photosynthetic loss
Strain(s): 276, 281, 345, 348, 698, 703, 715, 1005, 1006, 1375, 1730, 2331, 2332, 2716, 3952
PubMed: 35079797
DOI: 10.1093/molbev/msac001

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