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

Tetradecanoic acid (Myristic acid)

Delta notation: 14:0

Other Names: Myristic acid; 1-Tetradecanoic acid; 1-Tridecanecarboxylic acid; ; n-Tetradecanoic acid; n-Tetradecoic acid

Formula: C14 H28 O2

Mass: 228.37

IUPAC name: tetradecanoic acid

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

External Database IDs:
CAS registry: 544-63-8
SOFA Mol: M_027
Lipid Maps: LMFA01010014
PubChem: 11005
ChEBI:

inchi: InChI=1/C14H28O2/c1-2-3-4-5-6-7-8-9-10-11-12-13-14(15)16/h2-13H2,1H3,(H,15,16)/f/h15H

stdinchi: InChI=1S/C14H28O2/c1-2-3-4-5-6-7-8-9-10-11-12-13-14(15)16/h2-13H2,1H3,(H,15,16)

stdinchikey: TUNFSRHWOTWDNC-UHFFFAOYSA-N

smiles: C(CCCCCCCCCCCCC)(=O)O

Results

Displaying datapoints 301 - 350 of 5910 in total
PlantSort off PublicationSort off ValueSort off UnitSort off
Cuphea thymoides CUPHEA - THE 1ST ANNUAL OIL PLANT FOR THE PRODUCTION OF MIDDLE CHAIN TRIGLYCERIDES (MCT) Hirsinger, F. Fette Seifen Anstrichmittel (1980) 82 385-389 11.9 GLC-Area-%
Phoenix sylvestris The component acids of ten seed oils Daulatabad, C. D.; Ankalgi, R. F. Journal of the Oil Technologists' Association of India (Mumbai, India) (1978) 10(2) 36-9 11.9 GLC-Area-%
Garcinia oligantha Merr. 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 11.7 weight-%
Croton tiglium 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) 11.5 weight-%
Washingtonia robusta Taxonomic patterns in the fat content, fatty acid composition, and triglyceride composition of Palmae seeds Litchfield, C. Chemistry and Physics of Lipids (1970) 4 96-103 11.2 * weight-%
Cuphea lutea FATTY-ACIDS OF CUPHEA (LYTHRACEAE) SEED LIPIDS AND THEIR SYSTEMATIC SIGNIFICANCE Graham, S. A.; Hirsinger, F.; Robbelen, G. American Journal of Botany (1981) 68 908-917 11.1 GLC-Area-%
Combretum elaeagnoides NEW TROPICAL SEED OILS .2. COMPONENT ACIDS OF LEGUMINOUS AND OTHER SEED OILS Gunstone, F. D.; Taylor, G. M.; Corneliu.Ja,; Hammonds, T. W. Journal of the Science of Food and Agriculture (1968) 19 706-& 11.0 GLC-Area-%
Caryota urens WILD PALMS IN MADAGASCAR - FATTY-ACID COMPOSITION OF OILS EXTRACTED FROM THE FRUITS OF 26 SPECIES Rabarisoa, I.; Gaydou, E. M.; Bianchini, J. P. Oleagineux (1993) 48 251-255 11.0 GLC-Area-%
Phoenix dactylifera Characteristics and some potential applications of date palm (Phoenix dactylifera L.) seeds and seed oil Devshony, S.; Eteshola, E.; Shani, A. Journal of the American Oil Chemists Society (1992) 69 595-597 10.9 GLC-Area-%
Thuja koraiensis 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 10.9 weight-%
Trachycarpus fortunei Taxonomic patterns in the fat content, fatty acid composition, and triglyceride composition of Palmae seeds Litchfield, C. Chemistry and Physics of Lipids (1970) 4 96-103 10.8 * weight-%
Chrysalidocarpus madagascariensis lucubensis Nouveau dictionnaire des huiles végétales : compositions en acides gras Ucciani, Eugène Book (1995) 10.8 GLC-Area-%
Cuphea acinifolia Composition of seed oils in some Latin American Cuphea (Lythraceae) Graham, S. A.; Kleiman, R. Industrial Crops and Products (1992) 1 31-34 10.7 GLC-Area-%
Phoenix dactylifera Utilization of some untraditional sources of high oleic acid oils for improving vegetable oils stability Allam, S. S. H. Rivista Italiana delle Sostanze Grasse (2001) 78 337-341 10.68 GLC-Area-%
Cuphea carthagenensis Cuphea: A new plant source of medium‐chain fatty acids Graham, Shirley A.; Knapp, Steven J. Critical Reviews in Food Science and Nutrition (1989,1) 28 139-173 10.5 GLC-Area-%
Nigella sativa Fatty acid profiles of 80 vegetable oils with regard to their nutritional potential Dubois, V.; Breton, S.; Linder, M.; Fanni, J.; Parmentier, M. European Journal of Lipid Science and Technology (2007) 109 710-732 10.5 GLC-Area-%
Sabal palmetto SEED LIPIDS OF THE PALM FAMILY Idiemopute, F. Journal of the American Oil Chemists Society (1979) 56 528-530 10.4 GLC-Area-%
Urginea indica The composition of the oil of Urginea indica Kunth seeds Gangrade, Harish; Kaushal, R. Journal of the Oil Technologists' Association of India (Mumbai, India) (1979) 11 103 10.3 GLC-Area-%
Attalea sp. Estimation by ion exchange chromatography of hydroxyproline as a measure of collagen content of food, pharmaceutical and cosmetic products Cardillo, M.; Fedeli, E.; Oliveira, M. N. Rivista Italiana delle Sostanze Grasse (1993) 70 501-503 10.3 GLC-Area-%
Stereospermum suaveolens Chemical examination of the oil from the seed of Stereospermum suaveolens Tandon, Sant P.; Tiwari, K. P.; Tripathi, K. C. Indian Oil and Soap Journal (1968) 34 103-6 10.23 GLC-Area-%
Ulmus pumila L. 新疆伽师瓜籽油理化性质及脂肪酸组成分析_张正方 . Fatty acids composition and physicochemical properties of Jiashi melon seeds oil from Xinjiang ZHANG Zhengfang; BAI Xi LIU Ruiting; TANG Jun; WANG Qiang China Oils and Fats (2011) 36(9) 63-65 10.21 weight-%
Arecastrum romanzoffianum FRUIT FLESH AND KERNEL OIL FROM 2 URUGUAYAN PALM-TREES Grompone, M. A. Revue Francaise Des Corps Gras (1985) 32 117-120 10.2 GLC-Area-%
Sabal palmetto Taxonomic patterns in the fat content, fatty acid composition, and triglyceride composition of Palmae seeds Litchfield, C. Chemistry and Physics of Lipids (1970) 4 96-103 10.2 GLC-Area-%
Agastache rugosa (Fisch. & C.A. Mey.) Kuntze 秦巴山区野生藿香籽中脂肪酸的测定与抗氧化性_田光辉 . Determination and Anti-oxidation of Fatty Acids in Wild Agastache rugosa Seeds from Qinba Mountainous Area TIAN Guang-hui; LIU Cun-fang; LAI Pu-hui; SUN Zhi-feng; LI Xing-cai  GUIZHOU AGRICULTURAL SCIENCES (2011) 39(4) 42-44 10.2 weight-%
Caryota mitis The component acids of ten seed oils Daulatabad, C. D.; Ankalgi, R. F. Journal of the Oil Technologists' Association of India (Mumbai, India) (1978) 10(2) 36-9 10.2 GLC-Area-%
Cuphea mimuloides Cuphea: A new plant source of medium‐chain fatty acids Graham, Shirley A.; Knapp, Steven J. Critical Reviews in Food Science and Nutrition (1989,1) 28 139-173 10.0 GLC-Area-%
Litsea fruticosa (Hemsl.) Gamble 西北油脂植物 Oil Plants in the Northwest Northwest Institute of Botany of Chinese Academy of Sciences Shaanxi People’s Press. (1977) 9.96 weight-%
Bunium hissaricum 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 9.9 GLC-Area-%
Diospyros melanoxylon Minor seed oils. I. Component fatty acids of some seed oils Daulatabad, C.D. Ankalagi, R.F. Journal of Food Science and Technology (India) (1982) 19 112-113 9.9 GLC-Area-%
Litsea greenmaniana C.K. Allen 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) 9.9 weight-%
Phoenix dactylifera Date seeds: Chemical composition and characteristic profiles of the lipid fraction Besbes, S.; Blecker, C.; Deroanne, C.; Drira, N. E.; Attia, H. Food Chemistry (2004) 84 577-584 9.84 GLC-Area-%
Phoenix dactylifera Heating effects on some quality characteristics of date seed oil Besbes, S.; Blecker, C.; Deroanne, C.; Lognay, G.; Drira, N. E.; Attia, H. Food Chemistry (2005) 91 469-476 9.84 weight-%
Balanites aegyptiacus Chemical and Physical Studies on Balanites aegyptiaca Oil Abdel-Rahim; E.A. El-Sadany, S.S. et al. Grasas y Aceites (1986) 37 81 9.81 GLC-Area-%
Lindera megaphylla Hemsl. 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) 9.8 weight-%
Phoenix dactylifera Nature of the lipids in the germ and reserve tissues of seeds Lotti, G.; Galoppini, C. Rivista Italiana delle Sostanze Grasse (1965) 42 289-97 9.75 GLC-Area-%
Sabal maritima Fatty acid composition and oil yield in fruits of five arecaceae species grown in Cuba Rodríguez-Leyes, E. A.; Canavaciolo, V. L. G.; Delange, D. M.; Enríquez, A. R. S.; Fajardo, Y. A. JAOCS, Journal of the American Oil Chemists' Society (2007) 84 765-767 9.7 GLC-Area-%
Neolitsea cambodiana Lecomte 广西植物油脂的研究_五十种植物种子的油脂成分_程菊英 . Study on plant fats and oils from Guangxi I. Constituents of seed oils of fifty species Juying Cheng; Silian Luo; Yufa Pan; Qinghua Lǚ; Shengqiu Lin; Bin Lu Guihaia (1980) (2) 26-34 9.54 weight-%
Cuphea laminuligera FATTY-ACIDS OF CUPHEA (LYTHRACEAE) SEED LIPIDS AND THEIR SYSTEMATIC SIGNIFICANCE Graham, S. A.; Hirsinger, F.; Robbelen, G. American Journal of Botany (1981) 68 908-917 9.5 GLC-Area-%
Corydalis pumila Fatty acid composition of seeds of the papaveraceae and fumariaceae Marin, P.; Sajdl, V.; Kapor, S.; Tatic, B. Phytochemistry (1989) 28 133-137 9.5 GLC-Area-%
Sloanea hemsleyana (Ito) Rehder & E.H. Wilson 响应面法优化火麻仁油冷榨提取工艺_周鸿翔 . Optimization of Cold-Pressed Extraction Process for Hemp Seed Oil by Response Surface Methodology ZHOU Hong-xiang; HUANG Xiao-huan; WANG Guang-li; QIU Shu-yi; CHENG Yan-bo Food Science (2012) 33(18) 67-72 9.45 weight-%
Roystonea regia Fatty acid composition and oil yield in fruits of five arecaceae species grown in Cuba Rodríguez-Leyes, E. A.; Canavaciolo, V. L. G.; Delange, D. M.; Enríquez, A. R. S.; Fajardo, Y. A. JAOCS, Journal of the American Oil Chemists' Society (2007) 84 765-767 9.4 GLC-Area-%
Livistona chinensis Taxonomic patterns in the fat content, fatty acid composition, and triglyceride composition of Palmae seeds Litchfield, C. Chemistry and Physics of Lipids (1970) 4 96-103 9.3 GLC-Area-%
Sabal mexicana SEED LIPIDS OF THE PALM FAMILY Idiemopute, F. Journal of the American Oil Chemists Society (1979) 56 528-530 9.2 GLC-Area-%
Cuphea glossostoma FATTY-ACIDS OF CUPHEA (LYTHRACEAE) SEED LIPIDS AND THEIR SYSTEMATIC SIGNIFICANCE Graham, S. A.; Hirsinger, F.; Robbelen, G. American Journal of Botany (1981) 68 908-917 9.2 GLC-Area-%
Citrullus colocynthis Fatty acid profiles of 80 vegetable oils with regard to their nutritional potential Dubois, V.; Breton, S.; Linder, M.; Fanni, J.; Parmentier, M. European Journal of Lipid Science and Technology (2007) 109 710-732 9.2 GLC-Area-%
Cuphea appendiculata Cuphea: A new plant source of medium‐chain fatty acids Graham, Shirley A.; Knapp, Steven J. Critical Reviews in Food Science and Nutrition (1989,1) 28 139-173 9.1 GLC-Area-%
Pinus cembroides FATTY-ACID COMPOSITION OF MEXICAN PINE NUT (PINUS-CEMBROIDES) OIL FROM 3 SEED COAT PHENOTYPES Sagreronieves, L. Journal of the Science of Food and Agriculture (1992) 59 413-414 9.1 GLC-Area-%
Cuphea carthagenensis CUPHEA - THE 1ST ANNUAL OIL PLANT FOR THE PRODUCTION OF MIDDLE CHAIN TRIGLYCERIDES (MCT) Hirsinger, F. Fette Seifen Anstrichmittel (1980) 82 385-389 9.0 GLC-Area-%
Syagrus coronata Der Schleppdampf-(Einblasedampf-) Verbrauch bei der ein- und zweistufigen destillativen Entsauerung Liebing, H. Lau, J. Seifen-Oele-Fette-Wachse (1971) 97 387 9.0 GLC-Area-%
Cuphea ingrata CUPHEA - THE 1ST ANNUAL OIL PLANT FOR THE PRODUCTION OF MIDDLE CHAIN TRIGLYCERIDES (MCT) Hirsinger, F. Fette Seifen Anstrichmittel (1980) 82 385-389 9.0 GLC-Area-%
* Converted from mol %