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

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 5251 - 5300 of 5910 in total
PlantSort off PublicationSort off ValueSort off UnitSort off
Idesia polycarpa var. vestita Diels 毛叶山桐子油中脂肪酸组成分析_陈福北 . Analysis of Fatty Components in Oil from Idesia polycarpa Maxim.Var.vestita Diels CHEN Fu-bei; CHEN Shao-dong  Technology & Development of Chemical Industry (2013) 42(1) 32-34 3.83 weight-%
Chamaecyparis lawsoniana The leaf lipids of some conifer species Jamieson, G. R.; Reid, E. H. Phytochemistry (1972) 11 269-275 3.9 GLC-Area-%
Hemiptelea davidii The fatty acid compositions of seed oils and their significance in the taxonomy of the family Ulmaceae Wang Jing-Ping, Meng Shao-Jiang, Zhang Qing-Hua and He Guan-Fu Acta Phytotaxonomica Sinica (1981) 19 416-420 3.9 GLC-Area-%
Cuphea nitidula 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 3.9 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 3.9 GLC-Area-%
Neolitsea cambodiana Studies on the distribution of fatty acids in the oils of the Family Lauraceae Wang Jing-ping Meng Shao-jiang Li Jing-min Acta Botanica Sinica (1985) 27 177-185 3.9 GLC-Area-%
Ficus carica ON THE CONTENTS AND FATTY-ACID COMPOSITION VALUES OF TOTAL LIPIDS (FOLCH) FROM NON GILY PULPS OF EDIBLE FRUITS Sanchez, M. A.; Cattaneo, P. Anales De La Asociacion Quimica Argentina (1987) 75 531-549 3.9 GLC-Area-%
Delavaya toxocarpa Franch. 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 3.9 weight-%
Capsicum annuum L. 红线椒籽油中脂肪酸组成分析_李聚源 . Analysis of Fatty Acid Composition in Seeds Oil Made from Red Thin Cayenne Peppers LI Ju yuan China Oils and Fats (2003) 28(6) 43-44 3.9 weight-%
Hemiptelea davidii (Hance) Planch. 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) 3.9 weight-%
Lindera praecox (Siebold & Zucc.) Blume 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) 3.9 weight-%
Cuphea glutinosa 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 3.9 GLC-Area-%
Hemiptelea davidii (Hance) Planch. 玉米油的制备及脂肪酸的分析_回瑞华 . Preparation of Corn Oil and Determination of Fatty Acids in Corn Oil HUI Rui-hua; HOU Dong-yan; LI Xue-cheng; LIU Xiao-yuan; HAN Yang Food Science (2006) 27(11) 418-420 3.9 weight-%
Cupressus macrocarpa Studies on minor seed oils Ahmad, I.; Kaur, A. Journal of the Oil Technologists' Association of India (1998) 30 114-116 3.9 GLC-Area-%
Lindera obtusiloba Unpublished unpublished results MRI (1995/1996) 4.0 GLC-Area-%
Corydalis solida Fatty acid composition of seeds of the papaveraceae and fumariaceae Marin, P.; Sajdl, V.; Kapor, S.; Tatic, B. Phytochemistry (1989) 28 133-137 4.0 GLC-Area-%
Litsea zeylanica The seed and fruit-coat fats of Neolitsea involucrata. Gunde, BG, Hilditch, TP JOURNAL OF THE CHEMICAL SOCIETY (1938) None 1610-1614 4.0 GLC-Area-%
Litsea zeylanica Commercial Possibilities of a New Detergent and Some Related Lauryl Compounds Puntambeker, S. V. J. Indian Chem. Soc. (1938) 15 19-24 4.0 GLC-Area-%
Ulmus sp. Studien zur Glyceridstruktur von Fetten. 9. Mitt. Zusammensetzung des Ulmensamenfettes Cl. Franzke Kroll, J. Nahrung (1977) 21 177 4.0 GLC-Area-%
Lindera obtusiloba Fatty Acid Composition of Seed and Mesocarp Oils of Actinodaphne lancifolia (Sieb. et Zucc.) Meisn, Parabenzoin trilobum (Sieb. et Zucc.) Nakai, Lindera umbellata Thunb, Lindera obtusiloba Blume, Lindera glauca (Sieb. et Zucc.) Blume, and Machilus thunbergii (Sieb. et Zucc.) NII, Hiromichi; HANAFUSA, Masayoshi; FURUKAWA, Kiyoshi; IWAKIRI, Mitsuo; KUBOTA, Takashi Journal of Japan Oil Chemists' Society (1983) 32 277-280 4.0 GLC-Area-%
Litsea zeylanica BUTTER FROM PLANTS Banerji, R.; Chowdhury, A. R.; Misra, G.; Nigam, S. K. Fette Seifen Anstrichmittel (1984) 86 279-284 4.0 GLC-Area-%
Juglans mandshurica Maxim. 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) 4.0 weight-%
Ipomoea involucrata MINOR SEED OILS .16. EXAMINATION OF 15 SEED OILS Badami, R. C.; Thakkar, J. Fette Seifen Anstrichmittel (1984) 86 115-117 4.0 GLC-Area-%
Prunus armeniaca 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 4.0 GLC-Area-%
Cuphea parsonsia Natural Fats and Oils—Renewable Raw Materials for the Chemical Industry Baumann, Horst; Bühler, Matthias; Fochem, Heinz; Hirsinger, Frank; Zoebelein, Hans; Falbe, Jürgen Angewandte Chemie International Edition in English (1988) 27 41-62 4.0 GLC-Area-%
Lindera obtusiloba Fatty Acid Composition of Seed and Mesocarp Oils of Actinodaphne lancifolia (Sieb. et Zucc.) Meisn, Parabenzoin trilobum (Sieb. et Zucc.) Nakai, Lindera umbellata Thunb, Lindera obtusiloba Blume, Lindera glauca (Sieb. et Zucc.) Blume, and Machilus thunbergii (Sieb. et Zucc.) NII, Hiromichi; HANAFUSA, Masayoshi; FURUKAWA, Kiyoshi; IWAKIRI, Mitsuo; KUBOTA, Takashi Journal of Japan Oil Chemists' Society (1983) 32 277-280 4.0 GLC-Area-%
Croton tiglium L. 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) 4.0 weight-%
Sapium sebiferum Der Schleppdampf-(Einblasedampf-) Verbrauch bei der ein- und zweistufigen destillativen Entsauerung Liebing, H. Lau, J. Seifen-Oele-Fette-Wachse (1971) 97 387 4.0 GLC-Area-%
Cuphea calophylla 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 4.1 GLC-Area-%
Acacia parviceps Seed components and taxonomy of some Acacia species Lamarque, Alicia L.; Fortunato, Renée H.; Maestri, Damián M.; Guzmán, Carlos A. Biochemical Systematics and Ecology (2000) 28 53-60 4.1 weight-%
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 4.1 GLC-Area-%
Chamaecyparis pisifera 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 4.1 weight-%
Cuphea calaminthifolia Fatty acid composition of cuphea seed oils Wolf, R. B.; Graham, S. A.; Kleiman, R. Journal of the American Oil Chemists' Society (1983) 60 103-104 4.1 GLC-Area-%
Cuphea jorullensis Fatty acid composition of cuphea seed oils Wolf, R. B.; Graham, S. A.; Kleiman, R. Journal of the American Oil Chemists' Society (1983) 60 103-104 4.1 GLC-Area-%
Cuphea lophostoma 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 4.1 GLC-Area-%
Paeonia emodi Analysis of Paeonia emodi root oil Asif, M.; Ahmad, M. S.; Mannan, A.; Itohc, T.; Matsumoto, T. Journal of the American Oil Chemists' Society (1983) 60 581-583 4.1 GLC-Area-%
Thevetia peruviana Oil Characteristics of Thevita peruviana (Yellow oleander) and Plumeria alba (White frangipani) Oderinde, R. A. Oladimeji, G. R. Riv. Ital. Sostanze Grasse (1990) 67 635-637 4.14 GLC-Area-%
Opuntia nagelis 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 4.14 GLC-Area-%
Astrocaryum gynacanthum FATTY ACID COMPOSITION OF THE OIL FROM THE FRUIT OF THREE SPECIES OF PALM TREES FOUND IN THE AMAZON: Astrocaryum gynacanthum, Geonoma deversa, AND Iriartella setigera M. C. O. Moura, L. A. M. A. Costa, and A. Flach Chemistry of Natural Compounds (2020) 56 706-708 4.19 weight-%
Aconitum turczaninowii Unpublished unpublished results MRI (1993) 4.2 GLC-Area-%
Sapium sebiferum INVESTIGATIONS ON THE STRUCTURE OF CHINESE TALLOW USING AGNO3-TLC AND HPLC Xin, Y. N.; Aitzetmuller, K. Fett Wissenschaft Technologie-Fat Science Technology (1992) 94 123-130 4.2 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 4.2 GLC-Area-%
Albizia lebbeck ANALYSIS OF ALBIZZIA LEBBECK FLOWER OIL Asif, M.; Mannan, A.; Itoh, T.; Matsumoto, T. Fette Seifen Anstrichmittel (1986) 88 180-182 4.2 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 4.2 GLC-Area-%
Cuphea retroscabra 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 4.2 GLC-Area-%
Indigofera wightii COMPONENT ACIDS OF SOME ORNAMENTAL SEED OILS Daulatabad, C. D.; Ankalgi, R. F.; Kulkarni, J. S. Journal of Food Science and Technology-Mysore (1982) 19 110-111 4.2 GLC-Area-%
Fumaria officinalis Fatty acid composition of seeds of the papaveraceae and fumariaceae Marin, P.; Sajdl, V.; Kapor, S.; Tatic, B. Phytochemistry (1989) 28 133-137 4.2 GLC-Area-%
Haematostaphis barteri 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 4.2 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 4.2 GLC-Area-%
Cuphea tolucana Effect of seed maturity on seed oil, fatty acid and crude protein content of eight Cuphea species Thompson, A. E.; Kleiman, R. Journal of the American Oil Chemists' Society (1988) 65 139-146 4.2 GLC-Area-%