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Eicosanoic acid (Arachidic acid)

Delta notation: 20:0

Other Names: Arachic acid; Arachidic acid; Icosanoic acid; NSC 93983; n-Eicosanic acid; n-Eicosanoic acid

Formula: C20 H40 O2

Mass: 312.53

IUPAC name: icosanoic acid

Eicosanoic acid
Structure drawn at OPSIN (opsin.ch.cam.uk)

External Database IDs:
CAS registry: 506-30-9
SOFA Mol: M_119
Lipid Maps: LMFA01010020
PubChem: 10467
ChEBI:

inchi: InChI=1/C20H40O2/c1-2-3-4-5-6-7-8-9-10-11-12-13-14-15-16-17-18-19-20(21)22/h2-19H2,1H3,(H,21,22)/f/h21H

stdinchi: InChI=1S/C20H40O2/c1-2-3-4-5-6-7-8-9-10-11-12-13-14-15-16-17-18-19-20(21)22/h2-19H2,1H3,(H,21,22)

stdinchikey: VKOBVWXKNCXXDE-UHFFFAOYSA-N

smiles: C(CCCCCCCCCCCCCCCCCCC)(=O)O

Results

Displaying datapoints 501 - 550 of 5933 in total
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Microula sikkimensis (C.B. Clarke) Hemsl. 微孔草籽油脂肪酸的HPLC_MS分析_曹越 . HPLC-MS analysis of fatty acids in Microula sikkimensis Hemsl seed oil CAO Yue; ZHAO Xian'en; SUO Yourui CHINA OILS AND FATS (2010) 35(4) 72-76 3.54 weight-%
Leucas helianthimifolia Fatty acid profiling and multivariate analysis in the genus Leucas reveals its nutritional, pharmaceutical and chemotaxonomic significance Choudhary, Ashish Kumar; Sunojkumar, P.; Mishra, Girish Phytochemistry (2017) 143 72-80 3.52 weight-%
Moringa oleifera Characterisation of Moringa stenopetala seed oil variety "Marigat" from island Kokwa Lalas, S.; Tsaknis, J.; Sflomos, K. European Journal of Lipid Science and Technology (2003) 105 23-31 3.52 GLC-Area-%
Rosa canina Lipid composition of Bulgarian chokeberry, black currant and rose hip seed oils Zlatanov, M. D. Journal of the Science of Food and Agriculture (1999) 79 1620-1624 3.5 GLC-Area-%
Clitoria ternatea Oil Content and Fatty Acids Composition of Clitoria ternatea L. Vianni, R. et al. Arq. Univ. Fed. Rural Rio de Janeiro (1971) 1 47-50 3.5 GLC-Area-%
Coffea charrieriana Effectiveness of the fatty acid and sterol composition of seeds for the chemotaxonomy of Coffea subgenus Coffea Dussert, Stéphane; Laffargue, Andréina; Kochko, Alexandre de; Joët, Thierry Phytochemistry (2008) 69 2950-2960 3.5 weight-%
Acacia mellifera Chemical composition of acacia seeds Chowdhury, A. R.; Banerji, R.; Misra, G.; Nigam, S. K. Journal of the American Oil Chemists' Society (1983) 60 1893-1894 3.5 GLC-Area-%
Moringa oleifera Interprovenance variation in the composition of Moringa oleifera oilseeds from Pakistan Anwar, F.; Ashraf, M.; Bhanger, M. I. Journal of the American Oil Chemists Society (2005) 82 45-51 3.5 GLC-Area-%
Quamoclit coccinea CHARACTERISTICS AND COMPOSITION OF SOME CONVOLVULACEAE AND LEGUMINOSAE SEEDS AND THE OILS Kittur, M. H.; Mahajanshetti, C. S.; Lakshminarayana, G. Fett Wissenschaft Technologie-Fat Science Technology (1987) 89 269-270 3.5 GLC-Area-%
Coffea sessiliflora Bridson Effectiveness of the fatty acid and sterol composition of seeds for the chemotaxonomy of Coffea subgenus Coffea Dussert, Stéphane; Laffargue, Andréina; Kochko, Alexandre de; Joët, Thierry Phytochemistry (2008) 69 2950-2960 3.5 weight-%
Trigonella foenum-graecum FENUGREEK OIL - COMPOSITION, PROPERTIES, POSSIBLE USES IN PAINTS AND VARNISHES INDUSTRY Baccou, J. C.; Sauvaire, Y.; Olle, M.; Petit, J. Revue Francaise Des Corps Gras (1978) 25 353-359 3.5 GLC-Area-%
Acacia mollissima CHEMICAL INVESTIGATION OF ACACIA SEED OILS Jamal, S.; Farooqi, J. A.; Ahmad, M. S.; Mannan, A. Journal of the Science of Food and Agriculture (1987) 39 203-206 3.5 GLC-Area-%
Coffea kapakata (A.Chev.) Bridson Effectiveness of the fatty acid and sterol composition of seeds for the chemotaxonomy of Coffea subgenus Coffea Dussert, Stéphane; Laffargue, Andréina; Kochko, Alexandre de; Joët, Thierry Phytochemistry (2008) 69 2950-2960 3.5 weight-%
Quamoclit phoenicea Epoxy oleic acid in Quamoclit seed oils Daulatabad, C. D.; Desai, V. A.; Hosamani, K. M.; Hiremath, V. B. Journal of the American Oil Chemists' Society (1992) 69 190-191 3.5 GLC-Area-%
Agathis australis Taxonomy of gymnospermae: multivariate analyses of leaf fatty acid composition Mongrand, Sébastien; Badoc, Alain; Patouille, Brigitte; Lacomblez, Chantal; Chavent, Marie; Cassagne, Claude; Bessoule, Jean-Jacques Phytochemistry (2001) 58 101-115 3.5 weight-%
Acacia farnesiana HIGH CONTENT OF CHOLESTEROL IN THE LIPID OF ACACIA-FARNESIANA LEAVES Andhiwal, C. K.; Kishore, K. Journal of the Indian Chemical Society (1982) 59 1079-1080 3.5 GLC-Area-%
Condalia buxifolia SOME CHARACTERISTICS OF SEED LIPIDS OF 3 SPECIES OF THE GENUS CONDALIA (RAMNACEAE) Zygadlo, J. A.; Guzman, C. A. Anales De La Asociacion Quimica Argentina (1986) 74 41-44 3.5 GLC-Area-%
Sophora japonica Lipid Components of the Seed and the Flower of Sophora japonica L. Mitsuhashi, Tatsuo; Ichihara, Masami; Endo, Setsuko; Okazaki, Kaoru Bulletin of Tokyo Gakugei University. Series IV,Mathematics and natural sciences(ISSN:03716813) (1973) 25 107-110 3.5 GLC-Area-%
Diplusodon glaucescens Seed lipids of the lythraceae Graham, S. A.; Kleiman, R. Biochemical Systematics and Ecology (1987) 15 433-439 3.5 GLC-Area-%
Acacia farnesiana MINOR SEED OILS .16. EXAMINATION OF 15 SEED OILS Badami, R. C.; Thakkar, J. Fette Seifen Anstrichmittel (1984) 86 115-117 3.5 GLC-Area-%
Taxodium distichum imbricatum Taxonomy of gymnospermae: multivariate analyses of leaf fatty acid composition Mongrand, Sébastien; Badoc, Alain; Patouille, Brigitte; Lacomblez, Chantal; Chavent, Marie; Cassagne, Claude; Bessoule, Jean-Jacques Phytochemistry (2001) 58 101-115 3.5 weight-%
Papaver somniferum Evaluation of Fatty Acids as Biochemical Markers for Source Identification of Indian Opium Krishna Reddy, M. M.; Jayshankar, G.; Sashidhar, R. B.; Varshney, K. M.; Sarin, R. K. LC/GC Europe (2005) October None 3.48 GLC-Area-%
Brachystegia eurycoma Oil content and fatty acid composition of some underutilized legumes from Nigeria Ajayi, I. A.; Oderinde, R. A.; Kajogbola, D. O.; Uponi, J. I. Food Chemistry (2006) 99 115-120 3.47 GLC-Area-%
Papaver somniferum Evaluation of Fatty Acids as Biochemical Markers for Source Identification of Indian Opium Krishna Reddy, M. M.; Jayshankar, G.; Sashidhar, R. B.; Varshney, K. M.; Sarin, R. K. LC/GC Europe (2005) October None 3.44 GLC-Area-%
Pinus armandii Franch. 山东月见草调查研究 GC . Investigation of Oenothera biennis L. in Shandong Province Bihua Li; Pichan Sun; Shangjun Xing Journal of Shandong Forestry Science and Technology (1989) (2) 64-67 3.43 weight-%
Albizia julibrissin Component Acids of Tamarindus indica, Peltophorum ferrugineum, and Albizzia julibrissin Badami, R. C. Daulatabad, C. D. J. Karnatak Univ. (1969) 14 20-24 3.4 GLC-Area-%
Serjania salzmanniana Comparative Study of the Physicochemical Properties of FAME from Seed Oils of Some Native Species of Brazilian Atlantic Forest Coutinho, Diogenes José Gusmão; Barbosa, Mariana Oliveira; de Souza, Renata Janaína Carvalho; da Silva, Adervando Sebastião; da Silva, Suzene Izídio; de Oliveira, Antonio Fernando Morais Journal of the American Oil Chemists' Society (2016) 93 1519-1528 3.4 weight-%
Cupania racemosa Fatty-Acid Composition of Seeds and Chemotaxonomic Evaluation of Sixteen Sapindaceae Species Coutinho, Diogenes J. Gusmão; Barbosa, Mariana O.; Silva, Rejane M.; da Silva, Suzene I.; de Oliveira, Antonio Fernando M. Chemistry & Biodiversity (2015) 12 1271-1280 3.4 weight-%
Alchornea cordifolia Oil-bearing plants of Zaire. III. Botanical families providing oils of relatively high unsaturation Ngiefu, C. K.; Paquot, C.; Vieux, A. Oleagineux (1977) 32 535-537 3.4 GLC-Area-%
Rhus succedanea CHARACTERISTICS OF MAJOR FATTY-ACID COMPONENTS OF HAZE WAX FROM DIFFERENT CULTIVARS AND HABITATS Xu, J.; Kawachi, S. Mokuzai Gakkaishi (1988) 34 436-442 3.4 GLC-Area-%
Moringa oleifera Unpublished unpublished results MRI Bundesforschungsanstalt Muenster (1992) 3.4 GLC-Area-%
Serjania salzmanniana Fatty-Acid Composition of Seeds and Chemotaxonomic Evaluation of Sixteen Sapindaceae Species Coutinho, Diogenes J. Gusmão; Barbosa, Mariana O.; Silva, Rejane M.; da Silva, Suzene I.; de Oliveira, Antonio Fernando M. Chemistry & Biodiversity (2015) 12 1271-1280 3.4 weight-%
Rosa sp. Studies on the Seed Oils from Two Species of Rosaceae ENDO, Setsuko Journal of Japan Oil Chemists' Society (1970) 19 254-257 3.4 GLC-Area-%
Pentaclethra macrophylla INVESTIGATION INTO PENTACLETHRA-MACROPHYLLA SEED OIL - IDENTIFICATION OF HEXACOSANOIC (C26-0) AND OCTACOSANOIC (C28-0) FATTY-ACIDS Jones, A. C.; Robinson, J. M.; Southwell, K. H. Journal of the Science of Food and Agriculture (1987) 40 189-194 3.4 GLC-Area-%
Azadirachta indica Triglyceride composition of Amoora rohituka seed oil Sengupta, A.; Mazumder, U. K. Journal of the American Oil Chemists Society (1976) 53 478-479 3.4 GLC-Area-%
Moringa oleifera Unpublished unpublished results MRI Bundesforschungsanstalt Muenster (1995) 3.4 GLC-Area-%
Pentaclethra macrophylla INVESTIGATION INTO PENTACLETHRA-MACROPHYLLA SEED OIL - IDENTIFICATION OF HEXACOSANOIC (C26-0) AND OCTACOSANOIC (C28-0) FATTY-ACIDS Jones, A. C.; Robinson, J. M.; Southwell, K. H. Journal of the Science of Food and Agriculture (1987) 40 189-194 3.4 GLC-Area-%
Catharanthus roseus (L.) G. Don 珍烯油料树种琴叶风吹楠种子含油量及脂肪酸成分分析_许玉兰 . Oil Content and Fatty Acid Components in Seeds of Horsfieldia pandurifolia(a Rare Oil Tree Species)in Yunnan XU Yu-lan; WU Yu; ZHANG Kua-yun; CAI Nian-hui; YANG Xiao-ling; YI Xiao-quan; DUAN An-an Guizhou Agricultural Sciences (2010) 38(7) 163-166 3.4 weight-%
Dolichos lablab Book: Manual of Gas-liquid Chromatography of Organic Acids (in Russian) Gorjaev, M. I. Evdakova, N. A. Book: Spravočnik po gazožidkostnoj chromatografii organičeskich kislot (1977) Nauka Alma-Ata None 3.4 GLC-Area-%
Dodonaea filifolia Fatty Acid Composition of Newer Seed Oils Sundar Rao, K.; Jones, G. P.; Rivett, D. E.; Tucker, D. J. Fett Wissenschaft Technologie/Fat Science Technology (1992) 94 37-38 3.3 GLC-Area-%
Albizia chinensis (Osbeck) Merr. 中国油脂植物 Chinese Oil Plants Jia Liangzhi; Zhou Jun Book: Chinese Oil Plants. Beijing: Science Press: Edited by Jia Liangzhi & Zhou Jun (1987) 3.3 weight-%
Camellia oleifera Abel 超临界CO_2萃取_GC_MS法测定藿香籽中脂肪酸含量_孙晓丽 . Analysis of fatty acids in Agastache rugosa seed by supercritical CO2 extraction and GC-MS method SUN Xiao-li; JIA Chun-xiao; MAO Duo-bin; NIU Ji-ping; SHEN Jin-chao Journal of Zhengzhou University of Light Industry(Natural Science) (2009) 24(2) 27-29 3.3 weight-%
Ipomoea tuberosa MINOR SEED OILS .19. EXAMINATION OF CONVOLVULACEAE SEED OILS Badami, R. C.; Thakkar, J. Fette Seifen Anstrichmittel (1984) 86 203-204 3.3 GLC-Area-%
Pentachlaena latifolia A survey of the sarcolaenaceae for cyclopropene fatty acids Gaydou, E. M.; Ramanoelina, A. R. P. Phytochemistry (1983) 22 1725-1728 3.3 GLC-Area-%
Nephelium malaiense Unpublished unpublished results MRI Bundesforschungsanstalt Muenster (1996) 3.3 GLC-Area-%
Olea europaea L. 中国主要茶树(Camellia Sinensis O. ktze)品种茶籽油脂肪酸组成的研究_朱全芬(GC) . Study on Fatty Acid Composition of Seed Oil from Camellia Sinensis O. ktze in China Quanfen Zhu; Jiehua Tian; Chunhua Xia China Oils and Fats (1987) (2) 31-37 3.3 weight-%
Bombax costatum Physico-chemical properties of seed and fatty acid composition of Bombax costatum seed oil Ogbobe, O.; Ezeukwu, A. O.; Ozoh, N. G. Rivista Italiana delle Sostanze Grasse (1996) 73 271-272 3.3 GLC-Area-%
Nelumbo nucifera CHARACTERIZATION OF THE CHEMICAL COMPOSITION OF LOTUS PLUMULE OIL BI, YANLAN; YANG, GUOLONG; LI, HONG; ZHANG, GENWANG AND J. Agric. Food Chem (2006) 54 7672-7677 3.3 GLC-Area-%
Podocarpus macrophyllus Taxonomy of gymnospermae: multivariate analyses of leaf fatty acid composition Mongrand, Sébastien; Badoc, Alain; Patouille, Brigitte; Lacomblez, Chantal; Chavent, Marie; Cassagne, Claude; Bessoule, Jean-Jacques Phytochemistry (2001) 58 101-115 3.3 weight-%
Robinia pseudoacacia The oil of the seeds ofRobinia pseudacacia andMelilotus officinalis Akramova, A. S.; Umarov, A. U.; Markman, A. L. Chemistry of Natural Compounds (1968,9) 4 265-265 3.3 GLC-Area-%