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

Delta notation: 12-OH-18:1-delta-9c

Other Names: 9-Octadecenoic acid, 12-hydroxy-, [R-(Z)]-; Ricinoleic acid; (9Z,12R)-12-Hydroxyoctadec-9-enoic acid; (R)-12-Hydroxyoleic acid; 12-D-Hydroxy-9-cis-octadecenoic acid; 12-Hydroxy-cis-9-octadecenoic acid; 12-Hydroxyoctadeca-9-enoic acid; Ricinic acid; Ricinolic acid

Formula: C18 H34 O3

Mass: 298.46

IUPAC name: (Z,12R)-12-hydroxyoctadec-9-enoic acid

9 octadecenoic acid, 12 hydroxy , (9z,12r)
Structure drawn at OPSIN (opsin.ch.cam.uk)

External Database IDs:
CAS registry: 141-22-0
SOFA Mol: M_266
Lipid Maps:
PubChem: 643684
ChEBI:

inchi: InChI=1/C18H34O3/c1-2-3-4-11-14-17(19)15-12-9-7-5-6-8-10-13-16-18(20)21/h9,12,17,19H,2-8,10-11,13-16H2,1H3,(H,20,21)/b12-9-/t17-/m1/s1/f/h20H

stdinchi: InChI=1S/C18H34O3/c1-2-3-4-11-14-17(19)15-12-9-7-5-6-8-10-13-16-18(20)21/h9,12,17,19H,2-8,10-11,13-16H2,1H3,(H,20,21)/b12-9-/t17-/m1/s1

stdinchikey: WBHHMMIMDMUBKC-QJWNTBNXSA-N

smiles: O[C@@H](C\C=C/CCCCCCCC(=O)O)CCCCCC


Results

Displaying datapoints 1 - 50 of 139 in total
PlantSort off a188932510150d45c58d558cc6111e51cf5935fd595ef302e52de85e9e022179 PublicationSort off a188932510150d45c58d558cc6111e51cf5935fd595ef302e52de85e9e022179 ValueSort off a188932510150d45c58d558cc6111e51cf5935fd595ef302e52de85e9e022179 UnitSort off a188932510150d45c58d558cc6111e51cf5935fd595ef302e52de85e9e022179
Ricinus communis Development of New Industrial Oil Crops Röbbelen, G. Fett Wissenschaft Technologie/Fat Science Technology (1987) 89 563 94.5 GLC-Area-%
Ricinus zanzibarinus Not found Steger J. Soc. Chem. Ind. (1936) 55 415 91.0 GLC-Area-%
Ricinus communis Chromatographic analysis of seed oils. Fatty-acid composition of castor oil Binder, R. G.; et al., Journal of the American Oil Chemists Society (1962) 39 513-17 90.4 GLC-Area-%
Ricinus communis The Lipid Handbook Gunstone, F. D.; Harwood, John L.; Padley, F. B. Book (1986) None None 90.0 GLC-Area-%
Ricinus communis THE BIOTECHNOLOGY OF FATS - A CHALLENGE AND AN OPPORTUNITY Werdelmann, B. W.; Schmid, R. D. Fette Seifen Anstrichmittel (1982) 84 436-443 90.0 GLC-Area-%
Ricinus communis Vulcanized meadowfoam oil Erhan, S. M.; Kleiman, R. Journal of the American Oil Chemists' Society (1990) 67 670-674 89.5 GLC-Area-%
Ricinus communis COMPONENT FATTY ACIDS + GLYCERIDES OF CASTOR OIL Achaya, K. T.; Craig, B. M.; Youngs, C. G. Journal of the American Oil Chemists Society (1964) 41 783-& 89.4 GLC-Area-%
Ricinus communis COMPONENT FATTY ACIDS + GLYCERIDES OF CASTOR OIL Achaya, K. T.; Craig, B. M.; Youngs, C. G. Journal of the American Oil Chemists Society (1964) 41 783-& 89.2 GLC-Area-%
Ricinus communis COMPONENT FATTY ACIDS + GLYCERIDES OF CASTOR OIL Achaya, K. T.; Craig, B. M.; Youngs, C. G. Journal of the American Oil Chemists Society (1964) 41 783-& 89.0 GLC-Area-%
Ricinus communis Characteristics and composition of newer varieties of indian castor seed and oil Lakshminarayana, G.; Paulose, M. M.; Kumari, B. Neeta J Am Oil Chem Soc (1984,12) 61 1871-1872 88.3 GLC-Area-%
Ricinus communis Analysis of seed oil from Ricinus communis and Dimorphoteca pluvialis by gas and supercritical fluid chromatography BorchJensen, C.; Jensen, B.; Mathiasen, K.; Mollerup, J. Journal of the American Oil Chemists Society (1997) 74 277-284 87.7 GLC-Area-%
Ricinus communis Analysis of seed oil from Ricinus communis and Dimorphoteca pluvialis by gas and supercritical fluid chromatography BorchJensen, C.; Jensen, B.; Mathiasen, K.; Mollerup, J. Journal of the American Oil Chemists Society (1997) 74 277-284 87.5 GLC-Area-%
Ricinus communis Quantitative analysis of the castor oil (studies on the fatty area. 76. Communication) Kaufmann, H. P.; Bornhardt, H. Fette Seifen (1939) 46 444-446 87.0 GLC-Area-%
Ricinus communis Der Schleppdampf-(Einblasedampf-) Verbrauch bei der ein- und zweistufigen destillativen Entsauerung Liebing, H. Lau, J. Seifen-Oele-Fette-Wachse (1971) 97 387 87.0 GLC-Area-%
Ricinus communis L. 9个杂交蓖麻品种蓖麻籽中不同脂肪酸含量分析_李凤娟 . Fatty acid composition of the castor seed of nine castor hybrids LI Fengjuan; WANG Changlu; WANG Yurong; CHEN Zhiqiang; CHEN Mianhua; GAO Lifei China Oils and Fats (2008) 33(1) 62-64 86.43 weight-%
Ricinus communis L. 内蒙古非粮油脂植物资源调查及五种植物油脂理化性质分析_刘慧娟(GC) . The Investigation of Non-grain Oil Plants in Inner Mongolia and Analgsis on Physical and Chemical Properties of Five Plant Species Huijuan Liu Thesis-Inner Mongolia Agricultural University (2013) 85.75 weight-%
Ricinus communis STUDIES OF OILS OF UNUSUAL FATTY-ACIDS Raie, M. Y.; Zaka, S.; Khan, S.; Khan, S. A. Fette Seifen Anstrichmittel (1985) 87 324-326 85.6 GLC-Area-%
Ricinus communis L. 蓖麻遗传多样性-脂肪酸组分分析及种子发育过程观察GC-MS . Analysis on Castor Bean’s Phytogenetic Relationships and Fatty Acid Components and Observation of Seed Development Tingting Guo Thesis-Hunan Agricultural University (2012) 82.61 weight-%
Ricinus communis 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 77.1 weight-%
Ricinus communis L. 蓖麻籽脂质提取与甲酯化衍生优化及其脂肪酸组成分析_楼乔明 . Optimization of Castor Bean Lipid Extraction and Methyl Ester Derivation and Analysis of Fatty Acid Composition Lou Qiaoming; Yang Wenge; Xu Dalun; Jin Miao; Wu Dongxiao; Zheng Xianmeng Journal of the Chinese Cereals and Oils Association (2012) 27(12) 69-72 76.43 weight-%
Ricinus communis ON THE FATTY-ACID COMPOSITION OF TURKISH VEGETABLE-OILS Yazicioglu, T.; Karaali, A. Fette Seifen Anstrichmittel (1983) 85 23-29 70.9 GLC-Area-%
Althaea rosea Althaea rosea seed oil - a rich source of ricinoleic acid Daulatabad, C. D.; Jamkhandi, A. M Journal of the Oil Technologists' Association of India (2000) 32 8-9 61.7 weight-%
Agonandra brasiliensis Not found Gurgel, L. de Amorim, T. F. Mem. Inst. Chim. Rio de Janeiro (1929) 2 31 45.0 GLC-Area-%
Poliothyrsis sinensis Investigation of Plant Species with Identified Seed Oil Fatty Acids in Chinese Literature and Analysis of Five Unsurveyed Chinese Endemic Species Li, Changsheng; Cheng, Xiaojun; Jia, Qingli; Song, Huan; Liu, Xiangling; Wang, Kai; Zhao, Cuizhu; Zhang, Yansheng; Ohlrogge, John; Zhang, Meng Frontiers in Plant Science (2017) 8 31.24 weight-%
Anogeissus latifolia Anogiessus latifolia seed oil: co-occurrence of 12-hydroxyoctadec- cis-9-enoic acid, 7-(2-octacyclopropen-1-yl) heptanoic acid and 8-(2-octacyclopropen-1-yl) octanoic acid Hosamani, K. M. Journal of the Oil Technologists' Association of India (1994) 26 69-72 26.6 GLC-Area-%
Alternanthera triandra Alternanthera triandra seed oil: A moderate source of ricinoleic acid and its possible industrial utilisation Hosamani, K. M.; Ganjihal, S. S.; Chavadi, D. V. Industrial Crops and Products (2004) 19 133-136 22.1 GLC-Area-%
Linum mucronatum Separation of tetra-, penta-, and hexaacyl triglycerides by high performance liquid chromatography Payne-Wahl, K.; Plattner, R. D.; Spencer, G. F.; Kleiman, R. Lipids (1979) 14 601-605 15.0 GLC-Area-%
Lesquerella inflata Evaluation of new Lesquerella and Physaria (Brassicaceae) oilseed germplasm Salywon, A. M.; Dierig, D. A.; Rebman, J. P.; de Rodriguez, D. J. American Journal of Botany (2005) 92 53-62 14.7 weight-%
Jatropha euphorbiaceae Mandara seed and its oil Bhushan, Dinesh; Ram, Atma; Prakash, Om J. & Proc. Oil. Technol. Assoc. Kanpur, India (1951) 7 78-83 12.9 GLC-Area-%
Aegle marmelos Unique occurrence of unusual fatty acid in the seed oil of Aegle marmelos Corre: Screening the rich source of seed oil for bio-energy production Katagi, Kariyappa S.; Munnolli, Ravindra S.; Hosamani, Kallappa M. Applied Energy (2011) 88 1797-1802 12.5 weight-%
Lesquerella densipila Fatty-acid profile of Lesquerella germplasm in the National Plant Germplasm System collection Jenderek, M.M.; Dierig, D.A.; Isbell, T.A. Industrial Crops and Products (2009) 29 154-164 11.2 weight-%
Lesquerella lescurii Fatty-acid profile of Lesquerella germplasm in the National Plant Germplasm System collection Jenderek, M.M.; Dierig, D.A.; Isbell, T.A. Industrial Crops and Products (2009) 29 154-164 10.9 weight-%
Lesquerella lyrata Fatty-acid profile of Lesquerella germplasm in the National Plant Germplasm System collection Jenderek, M.M.; Dierig, D.A.; Isbell, T.A. Industrial Crops and Products (2009) 29 154-164 10.8 weight-%
Lesquerella perforata Fatty-acid profile of Lesquerella germplasm in the National Plant Germplasm System collection Jenderek, M.M.; Dierig, D.A.; Isbell, T.A. Industrial Crops and Products (2009) 29 154-164 10.6 weight-%
Argyreia cuneata Unusual fatty acids in Argyreia cuneata seed oil Daulatabad Chirag Mahmood, Jehan D. et al. Chem. and Ind. (London) (1987) 19 695-696 10.0 GLC-Area-%
Crotalaria retusa UNUSUAL FATTY-ACIDS OF CROTOLARIA-RETUSA SEED OIL Daulatabad, Cmjd; Hosamani, K. M.; Mulla, G. M. M. Journal of the Science of Food and Agriculture (1989) 47 253-255 9.8 GLC-Area-%
Azima tetracantha Novel fatty acids in azima tetracantha seed oil Daulatabad, C. D.; Desai, V. A.; Hosamani, K. M.; Jamkhandi, A. M. Journal of the American Oil Chemists Society (1991) 68 978-979 9.8 GLC-Area-%
Crotalaria retusa Epoxy oleic acid Daulatabad, C.D.,Mirajkar A.M J. Oil Technol. Assoc. India (1988) 20 124 9.8 GLC-Area-%
Cassia absus Chemical Examination of the Oil from the Seeds of Cassia absus Linn. Gupta; R. et al. Research bulletin of the Panjab University. Science. (1954) 48 63 9.8 GLC-Area-%
Sesbania aculeata (Z)-12-Hydroxyoctadec-9-enoic acid in Sesbania aculeata seed oil Parveen, Humaira; Rauf, Abdul Industrial Crops and Products (2008) 27 118-122 9.24 weight-%
Lesquerella ludoviciana Fatty-acid profile of Lesquerella germplasm in the National Plant Germplasm System collection Jenderek, M.M.; Dierig, D.A.; Isbell, T.A. Industrial Crops and Products (2009) 29 154-164 9.1 weight-%
Lesquerella stonensis Fatty-acid profile of Lesquerella germplasm in the National Plant Germplasm System collection Jenderek, M.M.; Dierig, D.A.; Isbell, T.A. Industrial Crops and Products (2009) 29 154-164 9.0 weight-%
Lesquerella densipila Evaluation of new Lesquerella and Physaria (Brassicaceae) oilseed germplasm Salywon, A. M.; Dierig, D. A.; Rebman, J. P.; de Rodriguez, D. J. American Journal of Botany (2005) 92 53-62 8.0 weight-%
Polygonum aviculare L. 扁蓄种子的营养成分 . Nutritional Components of Polygomun Aviculane L. Seeds HU Hao-Bin; ZHENG Xu-Dong Chinese Journal of Spectroscopy Laboratory (2005) 22(2) 413-415 7.84 weight-%
Artocarpus integrifolius Ricinoleic acid in Artocarpus integrifolia seed oil Daulatabad, C. D.; Mirajkar, A. M. Journal of the American Oil Chemists Society (1989) 66 1631-1631 7.2 GLC-Area-%
Lesquerella perforata Evaluation of new Lesquerella and Physaria (Brassicaceae) oilseed germplasm Salywon, A. M.; Dierig, D. A.; Rebman, J. P.; de Rodriguez, D. J. American Journal of Botany (2005) 92 53-62 6.9 weight-%
Morinda citrifolia Ricinoleic acid in Morinda citrifolia seed oil Daulatabad, C. D.; Mulla, G. M.; Mirajkar, A. M. Journal of the Oil Technologists' Association of India (1989) 21 26-27 6.8 GLC-Area-%
Lesquerella auriculata Tetra-acid triglycerides containing a new hydroxy eicosadienoyl moiety in Lesquerella auriculata seed oil Kleiman, R.; Spencer, G. F.; Earle, F. R.; Nieschlag, H. J.; Barclay, A. S. Lipids (1972) 7 660-665 5.3 GLC-Area-%
Linum mucronatum The occurrence of ricinoleic acid in Linum seed oils Green, A. G. Journal of the American Oil Chemists' Society (1984) 61 939-940 5.1 GLC-Area-%
Brunfelsia americana Vernolic acid in tabebuia argentia seed oil: A moderate source of oil Daulatabad, C. D.; Hosamani, K. M. Journal of the American Oil Chemists' Society (1991) 68 520-521 5.0 GLC-Area-%