PlantFAdb: 18:0; Stearic acid; Octadecanoic acid; Stearic acid; n-Octadecanoic acid

Exploring Phylogenetic Relationships between Hundreds of Plant Fatty Acids Synthesized by Thousands of Plants. more details ...

Delta notation: 18:0

Other Names: Stearic acid; n-Octadecanoic acid

Formula: C18 H36 O2

Mass: 284.48

IUPAC name: octadecanoic acid

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

External Database IDs:
CAS registry: 57-11-4
SOFA Mol: M_058
Lipid Maps: LMFA01010018
PubChem: 5281
ChEBI:

inchi: InChI=1/C18H36O2/c1-2-3-4-5-6-7-8-9-10-11-12-13-14-15-16-17-18(19)20/h2-17H2,1H3,(H,19,20)/f/h19H

stdinchi: InChI=1S/C18H36O2/c1-2-3-4-5-6-7-8-9-10-11-12-13-14-15-16-17-18(19)20/h2-17H2,1H3,(H,19,20)

stdinchikey: QIQXTHQIDYTFRH-UHFFFAOYSA-N

smiles: C(CCCCCCCCCCCCCCCCC)(=O)O

Results

Displaying datapoints 4301 - 4350 of 12481 in total

Plant	Publication	Value	Unit
Filicium decipiens	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	1.9	weight-%
Berberis amurensis Rupr.	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)	1.9	weight-%
Thapsia maxima	The genus Thapsia as a source of petroselinic acid Avato, P.; Fanizzi, F. P.; Rosito, I. Lipids (2001) 36 845-850	1.9	GLC-Area-%
Colliguaja integerrima	SEEDS FROM COLLIGUAYA-INTERGERRIMA GILLIES - HOOKER (EUPHORBIACEAE) - CHEMICAL-COMPOSITION OF THE SOLVENT (HEXANE) EXTRACTED SEED OIL AND THE RESIDUAL DEFATTED MEAL Malec, L. S.; Vigo, M. S.; Cattaneo, P. Anales De La Asociacion Quimica Argentina (1986) 74 229-235	1.9	GLC-Area-%
Acer carpinifolium	Identification of n-6 Monounsaturated Fatty Acids in Acer Seed Oils Sun, Jin-Yue; Wang, Xin-Kun; Smith, Mark A. Journal of the American Oil Chemists' Society (2018) 95 21-27	1.9	weight-%
Elsholtzia densa Benth.	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)	1.9	weight-%
Agrimonia pilosa Ledeb.	河南油脂植物 Oil Plants in Henan Junpu Zhang, J. L., and Huaishan W. Book: China’s International Broadcasting Press. (1996)	1.9	weight-%
Sanguisorba officinalis L.	河南油脂植物 Oil Plants in Henan Junpu Zhang, J. L., and Huaishan W. Book: China’s International Broadcasting Press. (1996)	1.9	weight-%
Osyris wightiana Wall. ex Wight	四川油脂植物 Oil Plants in Sichuan. Zongying He, S. C., Zhonghui, T., Xun, Z., Longji, H. Book: Published by Sichuan Science and Technology Press, Chengdu, 1987 (1987)	1.9	weight-%
Hypericum ascyron L.	河南油脂植物 Oil Plants in Henan Junpu Zhang, J. L., and Huaishan W. Book: China’s International Broadcasting Press. (1996)	1.9	weight-%
Styrax dasyanthus Perkins	河南油脂植物 Oil Plants in Henan Junpu Zhang, J. L., and Huaishan W. Book: China’s International Broadcasting Press. (1996)	1.9	weight-%
Draba aurea	Chemotaxonomic value of tocopherols in Brassicaceae Goffman, F. D.; Thies, W.; Velasco, L. Phytochemistry (1999) 50 793-798	1.9	GLC-Area-%
Euphorbia lathyris L.	河南油脂植物 Oil Plants in Henan Junpu Zhang, J. L., and Huaishan W. Book: China’s International Broadcasting Press. (1996)	1.9	weight-%
Hakea salicifolia	The fatty acid composition of the seed oils of proteaceae: A chemotaxonomic study Vickery, J. R. Phytochemistry (1971) 10 123-130	1.9	GLC-Area-%
Passiflora edulis edulis	Chemical composition of purple passion fruit (Passiflora edulis var. Sims edulis) seed oil Giuffre, A. M. Rivista Italiana Delle Sostanze Grasse (2007) 84 87-93	1.9	GLC-Area-%
Corchorus capsularis	STUDIES ON HERBACEOUS SEED OILS .2 Ahmad, F.; Ahmad, M. U.; Ahmad, I.; Ansari, A. A.; Osman, S. M. Fette Seifen Anstrichmittel (1978) 80 190-192	1.9	GLC-Area-%
Cereus validus	Phytochemical and chemotaxonomic studies on seeds of Cactaceae, sub-family Cereoideae grown in Argentina Serrano, Claudia E.; Guzmán, Carlos A. Biochemical Systematics and Ecology (1994) 22 79-83	1.9	GLC-Area-%
Hibiscus ellisii	CYCLOPROPENOIC FATTY-ACIDS OF MALVACEAE SEED OILS BY GAS-LIQUID-CHROMATOGRAPHY Gaydou, E. M.; Ramanoelina, A. R. P. Fette Seifen Anstrichmittel (1984) 86 82-84	1.9	GLC-Area-%
Jatropha euphorbiaceae	Mandara seed and its oil Bhushan, Dinesh; Ram, Atma; Prakash, Om J. & Proc. Oil. Technol. Assoc. Kanpur, India (1951) 7 78-83	1.9	GLC-Area-%
Hibiscus leptocladus	Cyclopropene fatty acids of six seed oils from malvaceae Rao, K. Sundar; Jones, Gwyn P.; Rivett, Donald E.; Tucker, Daryl J. Journal of the American Oil Chemists Society (1989,3) 66 360-361	1.9	GLC-Area-%
Dimorphotheca pluvialis	Extraction and characterization of Dimorphotheca pluvialis seed oil Muuse, B. G.; Petrus Cuperus, F.; Derksen, J. T. P. Journal of the American Oil Chemists' Society (1994) 71 313-317	1.9	GLC-Area-%
Corydalis bracteata	Fatty acid composition of seeds of the papaveraceae and fumariaceae Marin, P.; Sajdl, V.; Kapor, S.; Tatic, B. Phytochemistry (1989) 28 133-137	1.9	GLC-Area-%
Nicotiana tomentosiformis	The fatty acid composition of seeds and leaves of Nicotiana species Koiwai, A.; Suzuki, F.; Matsuzaki, T.; Kawashima, N. Phytochemistry (1983) 22 1409-1412	1.9	GLC-Area-%
Lesquerella fendleri	Analysis of oil and meal from Lesquerella fendleri seed Carlson, K. D.; Chaudhry, A.; Bagby, M. O. Journal of the American Oil Chemists' Society (1990) 67 438-442	1.9	GLC-Area-%
Gahnia lacera	Seed fats of some New Zealand cyperaceae Morice, I. M. Phytochemistry (1977) 16 571-574	1.9	GLC-Area-%
Juglans regia	The sterol composition of walnut, hazelnut, almond and avocado oils Colombini, M.; Vanoni, M. C.; Amelotti, G. Rivista Italiana delle Sostanze Grasse (1979) 56 391-392	1.9	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	1.9	GLC-Area-%
Juglans regia	Oil characteristics of Iranian walnuts Mehran, M. Journal of the American Oil Chemists Society (1974) 51 477-478	1.9	GLC-Area-%
Papaver somniferum	Fatty acid composition of seeds of the papaveraceae and fumariaceae Marin, P.; Sajdl, V.; Kapor, S.; Tatic, B. Phytochemistry (1989) 28 133-137	1.9	GLC-Area-%
Pinus thunbergii	General characteristics of Pinus spp. seed fatty acid compositions, and importance of Delta 5-olefinic acids in the taxonomy and phylogeny of the genus Wolff, R. L.; Pedrono, F.; Pasquier, E.; Marpeau, A. M. Lipids (2000) 35 1-22	1.9	GLC-Area-%
Iva xanthifolia	Fatty acid composition of oils extracted from Canadian weed seeds Daun, J. K.; Tkachuk, R. Journal of the American Oil Chemists' Society (1976) 53 661-662	1.9	GLC-Area-%
Pinus nigra	Is the Profile of Fatty Acids, Tocopherols, and Amino Acids Suitable to Differentiate Pinus armandii Suspicious to Be Responsible for the Pine Nut Syndrome from Other Pinus Species? Matthäus, Bertrand; Li, Peiwu; Ma, Fei; Zhou, Haiyan; Jiang, Jun; Özcan, Mehmet Musa Chemistry & Biodiversity (2017) 15 e1700323	1.9	weight-%
Camellia meiocarpa	OBTAIN, PROPERTIES AND UTILIZATION OF CHINESE TEASEED OIL Tang, L.; Bayer, E.; Zhuang, R. Fett Wissenschaft Technologie-Fat Science Technology (1993) 95 23-27	1.9	GLC-Area-%
Corydalis cava	Fatty acid composition of seeds of the papaveraceae and fumariaceae Marin, P.; Sajdl, V.; Kapor, S.; Tatic, B. Phytochemistry (1989) 28 133-137	1.9	GLC-Area-%
Alyssum corymbosum	Chemotaxonomic value of tocopherols in Brassicaceae Goffman, F. D.; Thies, W.; Velasco, L. Phytochemistry (1999) 50 793-798	1.9	GLC-Area-%
Keteleeria davidiana (Bertrand) Beissn.	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)	1.9	weight-%
Corylus avellana	Unpublished unpublished results MRI (1979)	1.9	GLC-Area-%
Sapium rotundifolium Hemsl.	广西河池、百色和梧州油茶种子含油率和脂肪酸组成测定(GC-MS) . Oil Content and Fatty Acid Composition of Camellia oleifera Seed in Guangxi CHEN Yu-jing; WANG Lin-lin; CHEN Xiao-peng; LI Ying Food Science (2011) 32 (8) 172-176	1.9	weight-%
Pinus sylvestris	Is the Profile of Fatty Acids, Tocopherols, and Amino Acids Suitable to Differentiate Pinus armandii Suspicious to Be Responsible for the Pine Nut Syndrome from Other Pinus Species? Matthäus, Bertrand; Li, Peiwu; Ma, Fei; Zhou, Haiyan; Jiang, Jun; Özcan, Mehmet Musa Chemistry & Biodiversity (2017) 15 e1700323	1.9	weight-%
Gymnocalycium schickendantzii	Phytochemical and chemotaxonomic studies on seeds of Cactaceae, sub-family Cereoideae grown in Argentina Serrano, Claudia E.; Guzmán, Carlos A. Biochemical Systematics and Ecology (1994) 22 79-83	1.9	GLC-Area-%
Hibiscus cannabinus Dowling	Fatty Acid Profile of Kenaf Seed Oil Razon, Luis F.; Bacani, Florinda T.; Evangelista, Roque L.; Knothe, Gerhard Journal of the American Oil Chemists' Society (2013) 90 835-840	1.9	weight-%
Asperugo procumbens L.	草莓籽油脂肪酸组分分析_罗仓学 . Fatty acid compositions of strawberry seed oil LUO Cang-xue; ZHANG Guang-dong; CHEN Ran China Oils and Fats (2006) 31(5) 68-69	1.9	weight-%
Acer tataricum semenovii	Identification of n-6 Monounsaturated Fatty Acids in Acer Seed Oils Sun, Jin-Yue; Wang, Xin-Kun; Smith, Mark A. Journal of the American Oil Chemists' Society (2018) 95 21-27	1.9	weight-%
Podocarpus nagi	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	1.9	GLC-Area-%
Iberis odorata	Unpublished Data(ref. Osman S. M. & Ahmad, F.: Forest Oilsees; in: Pryde, E. H. et al.: New Sources of Fats and Oils; AOCS 1981, p. 109 Osman, S. M. ref. Osman S. M. & Ahmad, F.: Forest Oilseeds; in: Pryde, E. H. et al.: New Sources of Fats and Oils; AOCS 1981, p. 109	1.9	GLC-Area-%
Corylus avellana	Unpublished unpublished results MRI (1979)	1.9	GLC-Area-%
Cornus controversa Hemsl.	东北油脂植物及油脂成分测定法 Oil Plants in the Northeast and Determination of Lipid Component Tingru Zhu, Y. D., Xiabing, L.i, Yu, G., Yecheng, W., Hongdou, W. Book: Liaoning People’s Publishing House. (1980)	1.9	weight-%
Cardiospermum grandiflorum	Fatty acids variation in Sapindaceae Abburra, R. E.; Zygadlo, J. A.; Guzman, C. A. Biochemical Systematics and Ecology (1992) 20 469-471	1.9	GLC-Area-%
Pavonia hastata	The fatty acid composition of seed oils from ten plant families with particular reference to cyclopropene and dihydrosterculic acids Vickery, J. R. Journal of the American Oil Chemists' Society (1980) 57 87-91	1.9	GLC-Area-%
Dioscorea bulbifera L.	42份非木本油料植物资源的能源利用潜力评价 . Evaluation on the potential of energy utilization for 42 kinds of non-woody oil plants in China WEI Wenliang; JIN Mengyang China Oils and Fats (2008) 33(5) 73-76	1.9	weight-%

Octadecanoic acid (Stearic acid)

Results