FA 18:2 (BioDeep_00000628736)

 

Secondary id: BioDeep_00000002676, BioDeep_00000003811, BioDeep_00000003845, BioDeep_00000006722, BioDeep_00000400556, BioDeep_00000400564, BioDeep_00000605502, BioDeep_00000859921, BioDeep_00000863933, BioDeep_00001868791

PANOMIX_OTCML-2023 LipidSearch


代谢物信息卡片


(S)-13-(cyclopent-2-en-1-yl)tridecanoic acid

化学式: C18H32O2 (280.2402172)
中文名称: 9-十八碳烯酸, 塔日酸, 亚麻酸 C18:2, 葡萄籽油, 9(Z),11(E)-十八碳二烯酸
谱图信息: 最多检出来源 Homo sapiens(lipidsearch) 0.01%

分子结构信息

SMILES: C(/C=C/C(/C)=C/[C@@H](C)CCCCCCCCCC)(=O)O
InChI: InChI=1S/C18H32O2/c1-2-3-4-5-6-7-8-9-10-11-12-13-14-15-16-17-18(19)20/h2-15H2,1H3,(H,19,20)

描述信息

Linolelaidic acid (Linoelaidic acid), an omega-6 trans fatty acid, acts as a source of energy. Linolelaidic acid is an essential nutrient, adding in enteral, parenteral, and infant formulas. Linolelaidic acid can be used for heart diseases research[1].
Linolelaidic acid (Linoelaidic acid), an omega-6 trans fatty acid, acts as a source of energy. Linolelaidic acid is an essential nutrient, adding in enteral, parenteral, and infant formulas. Linolelaidic acid can be used for heart diseases research[1].

同义名列表

217 个代谢物同义名

9Z-octadecen-18-olide; 9-octadecenolactone; 9-octadecenolide; FA 18:2; 9Z-octadecen-4R-olide; 9-octadecen-4-olide; trans-3,cis-9-Octadecadienoic acid; 3,9-Octadecadienoic acid, (E,Z)-; E,Z-3,9-Octadecadienoic acid; Octadeca-3t,9c-dienoic acid; 3t,9c-Octadecadienoic acid; 3Z,9Z-Octadecadienoic acid; 11E,15Z-octadecadienoic acid; Vaccelenic acid; 7E-(2S-octylcyclopropylidene)heptanoic acid; Adiantic acid; (S)-13-(cyclopent-2-en-1-yl)tridecanoic acid; 2-Cyclopentene-1-tridecanoic acid, (1S)-; 2-Cyclopentene-1S-tridecanoic acid; 13-(cyclopent-2-enyl)-n-tridecanoic acid; 13-(2-cyclopenten-1-yl)tridecanoic acid; 13R-(2-cyclopentenyl)-tridecanoic acid; 2-cyclopentene-1-tridecanoic acid; chaulmoogric acid; 8,9-methylene-8Z-heptadecenoic acid; Malvalinic acid; Halphenic acid; MALVALIC ACID; Halphen acid; Malvic acid; 5Z,12Z-octadecadienoic acid; Foigeic acid; C18:2n-3,10; 11E,13Z-Octadecadienoic acid; 4Z,11Z-octadecadienoic acid; delta4,11-18:2; 10,13-Octadecadienoic acid; 14,17-Octadecadienoic acid; 7,10-Octadecadienoic acid; 13,16-Octadecadienoic acid; 10,12-Octadecadienoic acid, (10Z,12E)-; 10Z,12E-Octadecadienoic acid; (5S)-octadeca-5,6-dienoic acid; 5S,6-octadecadienoic acid; (S)-laballenic acid; 7-trans,9-cis-octadecadienoic acid; trans-7,cis-9-cctadecadienoate; 7E,9Z-octadecadienoic acid; C18:2n-9,11; 5R,6-octadecadienoic acid; (-)-laballenic acid; (R)-laballenic acid; C18:2n-13; 16-octadecynoic acid; 15-octadecynoic acid; 14-octadecynoic acid; 13-octadecynoic acid; 12-octadecynoic acid; 12-Stearolic acid; 11-octadecynoic acid; 10-octadecynoic acid; 7-octadecynoic acid; 5-Octadecynoic acid; 4-octadecynoic acid; 3-octadecynoic acid; 2-octadecynoic acid; 9-octadecynoic acid; 9-stearolic acid; Steariolic acid; Stearolic acid; 8-octadecynoic acid; 6-Octadecynoic acid; 6,7-Stearolic acid; 6-Stearolic acid; tariric acid; 9,13-octadecadienoic acid; C18:2n-5,9; 8,12-octadecadienoic acid; C18:2n-6,10; 8,11-octadecadienoic acid; C18:2n-7,10; 7Z,11Z-octadecadienoic acid; C18:2n-7,11; 7Z,10Z-octadecadienoic acid; C18:2n-8,11; 7E,12E-octadecadienoic acid; C18:2n-6,11; cis,cis-6,9-octadecadienoic acid; 6Z,9Z-octadecadienoic acid; C18:2n-9,12; (6Z,11Z)-octa­deca-6,11-di­enoic acid; 6Z,11Z-octadecadienoic acid; Cilienic acid; C18:2n-7,12; 6E,9E-octadecadienoic acid; 6E,12E-octadecadienoic acid; C18:2n-6,12; 6E,11Z-octadecadienoic acid; 6E,10E-octadecadienoic acid; C18:2n-8,12; 6,11-octadecadienoic acid; 5Z,9Z-octadecadienoic acid; Taxoleic acid; C18:2n-9,13; 5Z,9E-octadecadienoic acid; 5Z,8Z-octadecadienoic acid; Sebaleic acid; C18:2n-10,13; 5Z,11Z-octadecadienoic acid; Ephedrenic acid; Ephedric acid; C18:2n-7,13; 5E,9Z-octadecadienoic acid; 5,6-octadecadienoic acid; C18:2n-12,13; 5,11-octadecadienoic acid; 5,10-octadecadienoic acid; C18:2n-8,13; 4Z,8Z-octadecadienoic acid; C18:2n-10,14; 4Z,7Z-octadecadienoic acid; C18:2n-11,14; 4E,8E-octadecadienoic acid; 4,9-Octadecadienoic acid; C18:2n-9,14; 3Z,7Z-octadecadienoic acid; C18:2n-11,15; 3Z,6Z-octadecadienoic acid; C18:2n-12,15; 3Z,12Z-octadecadienoic acid; C18:2n-6,15; 3E,7E-octadecadienoic acid; 2Z,6Z-octadecadienoic acid; C18:2n-12,16; 2Z,5Z-octadecadienoic acid; C18:2n-13,16; 2E,6E-octadecadienoic acid; 2,4-octadecadienoic acid; C18:2n-14,16; 14Z,17-octadecadienoic acid; C18:2n-1,4; 13Z,16Z-octadecadienoic acid; C18:2n-2,5; 13E,17-octadecadienoic acid; C18:2n-1,5; 12Z,15Z-octadecadienoic acid; C18:2n-3,6; 12E,16E-octadecadienoic acid; C18:2n-2,6; 11Z,15Z-octadecadienoic acid; C18:2n-3,7; 11Z,14Z-octadecadienoic acid; C18:2n-4,7; 10Z,14Z-octadecadienoic acid; C18:2n-4,8; 10E,14E-octadecadienoic acid; cis-10, cis-13-octadecadienoic acid; 10Z,13Z-octadecadienoic acid; C18:2n-5,8; trans-10, trans-12-octadecadienoic acid; 10E,12E-octadecadienoic acid; Mikuschs acid; C18:2n-6,8; trans-10, cis-12-octadecadienoic acid; 10E,12Z-octadecadienoic acid; 10(E),12(Z)-ODE; cis-10, cis-12-octadecadienoic acid; 10Z,12Z-octadecadienoic acid; 9E,12E-octadecadienoic acid; Linolelaidic acid; Linoelaidic acid; Linelaidic acid; Grape Seed Oil; C18:2n-6,9; trans-9, cis-12-octadecadienoic acid; 9E,12Z-octadecadienoic acid; cis-9, trans-12-octadecadienoic acid; 9Z,12E-octadecadienoic acid; trans-9, trans-11-octadecadienoic acid; 9E,11E-octadecadienoic acid; Isolinoleic acid; 9(E),11(E)-ODE; Mangolds acid; C18:2n-7,9; cis-9, trans-11-octadecadienoic acid; 9Z,11E-octadecadienoic acid; 9(Z)-11(E)-ODE; Rumenic acid; Bovinic acid; cis-9, cis-11-octadecadienoic acid; 9Z,11Z-octadecadienoic acid; Ricinenic acid; cis-8, cis-11-octadecadienoic acid; 8Z,11Z-octadecadienoic acid; trans-8, trans-10-octadecadienoic acid; 8E,10E-octadecadienoic acid; C18:2n-8,10; 6E,8E-octadecadienoic acid; 6,8-octadecadienoic acid; C18:2n-12; trans-5, trans-12-octadecadienoic acid; 5E,12E-octadecadienoic acid; C18:2n-6,13; trans-5, cis12-octadecadienoic acid; 5E,12Z-octadecadienoic acid; cis-5, trans-12-octadecadienoic acid; 5Z,12E-octadecadienoic acid; cis-5, cis-12-octadecadienoic acid; 4-methyl-7Z,11Z-heptadecadienoic acid; 4-Methyl-7,11-heptadecadienoic acid; 4R-methyl-7Z,11Z-heptadecadienoic acid; 5,7S-methyl-2E,4E-hexadecadienoic acid; 16:2(2E,4E)(5Me,7Me[S]); 4,6S-dimethyl-2E,4E-hexadecadienoic acid; 16:2(2E,4E)(4Me,6Me[S]); 16-methyl-9Z,12Z-heptadecadienoic acid; 16-methyl-6Z,9Z-heptadecadienoic acid



数据库引用编号

299 个数据库交叉引用编号

分类词条

相关代谢途径

Reactome(0)

BioCyc(0)

PlantCyc(0)

代谢反应

1 个相关的代谢反应过程信息。

Reactome(0)

BioCyc(0)

WikiPathways(1)

Plant Reactome(0)

INOH(0)

PlantCyc(0)

COVID-19 Disease Map(0)

PathBank(0)

PharmGKB(0)

66 个相关的物种来源信息

在这里通过桑基图来展示出与当前的这个代谢物在我们的BioDeep知识库中具有相关联信息的其他代谢物。在这里进行关联的信息来源主要有:

  • PubMed: 来源于PubMed文献库中的文献信息,我们通过自然语言数据挖掘得到的在同一篇文献中被同时提及的相关代谢物列表,这个列表按照代谢物同时出现的文献数量降序排序,取前10个代谢物作为相关研究中关联性很高的代谢物集合展示在桑基图中。
  • NCBI Taxonomy: 通过文献数据挖掘,得到的代谢物物种来源信息关联。这个关联信息同样按照出现的次数降序排序,取前10个代谢物作为高关联度的代谢物集合展示在桑吉图上。
  • Chemical Taxonomy: 在物质分类上处于同一个分类集合中的其他代谢物
  • Chemical Reaction: 在化学反应过程中,存在为当前代谢物相关联的生化反应过程中的反应底物或者反应产物的关联代谢物信息。

点击图上的相关代谢物的名称,可以跳转到相关代谢物的信息页面。



文献列表

  • Shuo Wang, Wenbin Zhou, Zhongyu Wei, Hang Li, Yuxiu Xiao. Solvent-tuned perovskite heterostructures enable visual linoleic acid assay and edible oil species discrimination via wavelength shift. Food chemistry. 2024 Aug; 449(?):139190. doi: 10.1016/j.foodchem.2024.139190. [PMID: 38579653]
  • Karolina Beton-Mysur, Jakub Surmacki, Beata Brożek-Płuska. Raman-AFM-fluorescence-guided impact of linoleic and eicosapentaenoic acids on subcellular structure and chemical composition of normal and cancer human colon cells. Spectrochimica acta. Part A, Molecular and biomolecular spectroscopy. 2024 Jul; 315(?):124242. doi: 10.1016/j.saa.2024.124242. [PMID: 38581725]
  • Ting Wang, Zhao-Bo Wang, Chun-Miao Jiang, Yang Zhao, Li Tang, Xi-Mei Xiao, Jing Fu. Oroxylin A inhibits inflammatory cytokines in periodontitis via HO‑1. Molecular medicine reports. 2024 Jul; 30(1):. doi: 10.3892/mmr.2024.13249. [PMID: 38785151]
  • Ruifang Feng, Qinye Yu, Yulong Bao, Liang Chen, Yongkang Luo, Yuqing Tan, Hui Hong. Myofibrillar protein lipoxidation in fish induced by linoleic acid and 4-hydroxy-2-nonenal: Insights from LC-MS/MS analysis. Food research international (Ottawa, Ont.). 2024 Jul; 187(?):114357. doi: 10.1016/j.foodres.2024.114357. [PMID: 38763641]
  • Swaraj Kumar Babu, Dibya Ranjan Sahoo, Prajna Parimita Mohanta, Pradeep Kumar Naik. Exploring the antifilarial potential of an important medicinal plant Typhonium trilobatum (L. Schoot): Isolation, characterization, and structural elucidation of bioactive compounds against Brugia malayi. Journal of ethnopharmacology. 2024 May; 326(?):117858. doi: 10.1016/j.jep.2024.117858. [PMID: 38346526]
  • Haifaa Laroui, Thoraya Guemmaz, Fatima Zerargui, Karima Saffidine, Sara Guenifi, Lekhmici Arrar, Seddik Khennouf, Gokhan Zengin, Abderrahmane Baghiani. Antioxidant and anti-inflammatory potentials of Ammodaucus leucotrichus Coss. & Durieu seeds' extracts: In vitro and in vivo studies. Journal of ethnopharmacology. 2024 May; 326(?):117964. doi: 10.1016/j.jep.2024.117964. [PMID: 38401663]
  • Jingzhi Nie, Wenyue Ma, Xueyuan Ma, De Zhu, Xin Li, Caijin Wang, Guofeng Xu, Canni Chen, Dengjie Luo, Sichen Xie, Guanjing Hu, Peng Chen. Integrated Transcriptomic and Metabolomic Analysis Reveal the Dynamic Process of Bama Hemp Seed Development and the Accumulation Mechanism of α-Linolenic Acid and Linoleic Acid. Journal of agricultural and food chemistry. 2024 May; 72(19):10862-10878. doi: 10.1021/acs.jafc.3c09309. [PMID: 38712687]
  • Tianmu He, Lijuan Xiong, Kexin Lin, Jing Yi, Cancan Duan, Jianyong Zhang. Functional metabolomics reveals arsenic-induced inhibition of linoleic acid metabolism in mice kidney in drinking water. Environmental pollution (Barking, Essex : 1987). 2024 May; 349(?):123949. doi: 10.1016/j.envpol.2024.123949. [PMID: 38636836]
  • Xiao-Yu Zhang, Kai-Rou Xia, Ya-Ni Wang, Pei Liu, Er-Xin Shang, Cong-Yan Liu, Yu-Ping Liu, Ding Qu, Wei-Wen Li, Jin-Ao Duan, Yan Chen, Huang-Qin Zhang. Unraveling the pharmacodynamic substances and possible mechanism of Trichosanthis Pericarpium in the treatment of coronary heart disease based on plasma pharmacochemistry, network pharmacology and experimental validation. Journal of ethnopharmacology. 2024 May; 325(?):117869. doi: 10.1016/j.jep.2024.117869. [PMID: 38342153]
  • Zhixiong Chen, Ni Hong, Cui Yan, Zhongbo Zheng, Jie Xi, Ping Cao. The potential of Paeonia lactiflora pall seeds oil as a pure natural cosmetics raw material: In Vitro findings. Journal of cosmetic dermatology. 2024 May; 23(5):1875-1883. doi: 10.1111/jocd.16204. [PMID: 38450923]
  • Xuan Liu, Weifei Wang, Zhong Li, Long Xu, Dongming Lan, Yonghua Wang. Lipidomics analysis unveils the dynamic alterations of lipid degradation in rice bran during storage. Food research international (Ottawa, Ont.). 2024 May; 184(?):114243. doi: 10.1016/j.foodres.2024.114243. [PMID: 38609222]
  • Natalia Łozińska, Julia Maldonado-Valderrama, Teresa Del Castillo-Santaella, Yanija Zhou, Dorota Martysiak-Żurowska, Yuanqi Lu, Christian Jungnickel. Bile conjugation and its effect on in vitro lipolysis of emulsions. Food research international (Ottawa, Ont.). 2024 May; 184(?):114255. doi: 10.1016/j.foodres.2024.114255. [PMID: 38609233]
  • Guiping Gong, Linpei Liu, Bo Wu, Jianting Li, Mingxiong He, Guoquan Hu. Simultaneous production of algal biomass and lipid by heterotrophic cultivation of linoleic acid-rich oleaginous microalga Chlorella sorokiniana using high acetate dosage. Bioresource technology. 2024 May; 399(?):130566. doi: 10.1016/j.biortech.2024.130566. [PMID: 38467262]
  • Zongyao Huyan, Nicoletta Pellegrini, Josep Rubert, Wilma T Steegenga, Edoardo Capuano. Levels of lipid-derived gut microbial metabolites differ among plant matrices in an in vitro model of colon fermentation. Food research international (Ottawa, Ont.). 2024 May; 184(?):114230. doi: 10.1016/j.foodres.2024.114230. [PMID: 38609219]
  • Nobuyuki Fukuoka, Ryusei Watanabe, Tatsuro Hamada. Impact of changes in root biomass on the occurrence of internal browning in radish root. Plant physiology and biochemistry : PPB. 2024 May; 210(?):108563. doi: 10.1016/j.plaphy.2024.108563. [PMID: 38554535]
  • Shiwei Yao, Hongling Lu, Tianhuan Zhou, Qihong Jiang, Chenkai Jiang, Wenjun Hu, Mingqian Li, Chin Ping Tan, Yongcai Feng, Qun Du, Guoxin Shen, Xingwei Xiang, Lin Chen. Sciadonic acid attenuates high-fat diet-induced bone metabolism disorders in mice. Food & function. 2024 Apr; 15(8):4490-4502. doi: 10.1039/d3fo04527g. [PMID: 38566566]
  • Xueyan Gu, Heng Wang, Lei Wang, Kang Zhang, Yuhu Tian, Xiaoya Wang, Guowei Xu, Zhiting Guo, Saad Ahmad, Hanyurwumutima Egide, Jiahui Liu, Jianxi Li, Huub F J Savelkoul, Jingyan Zhang, Xuezhi Wang. The antioxidant activity and metabolomic analysis of the supernatant of Streptococcus alactolyticus strain FGM. Scientific reports. 2024 04; 14(1):8413. doi: 10.1038/s41598-024-58933-8. [PMID: 38600137]
  • Barbara Soldo, Maja Jukić Špika, Igor Pasković, Elma Vuko, Marija Polić Pasković, Ivica Ljubenkov. The Composition of Volatiles and the Role of Non-Traditional LOX on Target Metabolites in Virgin Olive Oil from Autochthonous Dalmatian Cultivars. Molecules (Basel, Switzerland). 2024 Apr; 29(8):. doi: 10.3390/molecules29081696. [PMID: 38675515]
  • Guanglei Ma, Bijie Hu, Siyin Yang, Zixuan Cen, Yiran Zheng, Yan Dong. Benzoxazinoids secreted by wheat root weaken the pathogenicity of Fusarium oxysporum f. sp. fabae by inhibiting linoleic acid and nucleotide metabolisms. Plant cell reports. 2024 Apr; 43(4):109. doi: 10.1007/s00299-024-03188-w. [PMID: 38564014]
  • Kun-Pyo Kim, Kyung-Oh Shin, Sangmin Lee, Jihyeon Yun, Taehoon Lee, Yunhi Cho. PNPLA1 knockdown inhibits esterification of γ-linolenic acid to ceramide 1 in differentiated keratinocytes. Biochemical and biophysical research communications. 2024 Apr; 702(?):149618. doi: 10.1016/j.bbrc.2024.149618. [PMID: 38340658]
  • Keita Nakatsutsumi, Koji Morishita, Todd W Costantini, Tomohiro Adachi, Akira Suekane, Keisuke Suzuki, Mitsuaki Kojima, Makoto Arita, Yasuhiro Otomo. Analysis of lipid metabolites derived from gut microbiota in ischemia-reperfusion model. The journal of trauma and acute care surgery. 2024 Apr; 96(4):542-547. doi: 10.1097/ta.0000000000004230. [PMID: 38079251]
  • Xuefei Li, Wenhua Chen, Dan Liu, Pinghua Chen, Shiyun Wang, Fangfang Li, Qian Chen, Shunyi Lv, Fangyu Li, Chen Chen, Suxia Guo, Weina Yuan, Pan Li, Zhijun Hu. Pathological progression of osteoarthritis: a perspective on subchondral bone. Frontiers of medicine. 2024 Apr; 18(2):237-257. doi: 10.1007/s11684-024-1061-y. [PMID: 38619691]
  • Farah M Joujou, Nada El Darra, Hiba N Rajha, Elie Salem Sokhn, Nisreen Alwan. Evaluation of synergistic/antagonistic antibacterial activities of fatty oils from apricot, date, grape, and black seeds. Scientific reports. 2024 03; 14(1):6532. doi: 10.1038/s41598-024-54850-y. [PMID: 38503788]
  • Linbi Xie, Xu Song, Ling Lei, Chu Chen, Huan Zhao, Jingyi Hu, Yue Yu, Xiaolu Bai, Xia Wu, Xiangfeng Li, Xiao Yang, Bo Yuan, Dongxiao Li, Xiangdong Zhu, Xingdong Zhang. Exploring the potential mechanism of Heng-Gu-Gu-Shang-Yu-He-Ji therapy for osteoporosis based on network pharmacology and transcriptomics. Journal of ethnopharmacology. 2024 Mar; 321(?):117480. doi: 10.1016/j.jep.2023.117480. [PMID: 37995823]
  • Qing Zhang, Jiaping Ke, Piaopiao Long, Mingchun Wen, Zisheng Han, Liang Zhang, Mengting Zhu. Formation of Furan from Linoleic Acid Thermal Oxidation: (E,E)-2,4-Decadienal as a Critical Intermediate Product. Journal of agricultural and food chemistry. 2024 Feb; 72(8):4384-4392. doi: 10.1021/acs.jafc.3c08604. [PMID: 38354408]
  • Akane Suda, Banlanjo Abdulaziz Umaru, Yui Yamamoto, Hiroki Shima, Yuriko Saiki, Yijun Pan, Liang Jin, Jiaqi Sun, Yi Ling Clare Low, Chitose Suzuki, Takaaki Abe, Kazuhiko Igarashi, Toru Furukawa, Yuji Owada, Yoshiteru Kagawa. Polyunsaturated fatty acids-induced ferroptosis suppresses pancreatic cancer growth. Scientific reports. 2024 02; 14(1):4409. doi: 10.1038/s41598-024-55050-4. [PMID: 38388563]
  • Yoshiro Saito, Noriko Noguchi, Etsuo Niki. Cholesterol is more readily oxidized than phospholipid linoleates in cell membranes to produce cholesterol hydroperoxides. Free radical biology & medicine. 2024 Feb; 211(?):89-95. doi: 10.1016/j.freeradbiomed.2023.12.011. [PMID: 38101585]
  • Dandan Yue, Xuyang Hao, Bei Han, Jiao Xu, Weinan Sun, Xiaoping Guo, Xianlong Zhang, Xiyan Yang. GhL1L1 regulates the contents of unsaturated fatty acids by activating the expression of GhFAD2 genes in cotton. Gene. 2024 Jan; 893(?):147899. doi: 10.1016/j.gene.2023.147899. [PMID: 37839764]
  • Ichiro Koshiishi. [What is the Initiating Reaction for the Lipid Radical Chain Reaction System That can Induce Ferroptotic Cell Death at the Lower Oxygen Content?]. Yakugaku zasshi : Journal of the Pharmaceutical Society of Japan. 2024 Jan; ?(?):. doi: 10.1248/yakushi.23-00207. [PMID: 38246655]
  • Nirajan Shrestha, Simone L Sleep, Olivia J Holland, Josif Vidimce, Andrew C Bulmer, James S M Cuffe, Anthony V Perkins, Andrew J McAinch, Deanne H Hryciw. Maternal Diet High in Linoleic Acid Alters Offspring Lipids and Hepatic Regulators of Lipid Metabolism in an Adolescent Rat Model. International journal of molecular sciences. 2024 Jan; 25(2):. doi: 10.3390/ijms25021129. [PMID: 38256199]
  • Xiaoli Yang, Chenglin Chi, Wenjing Li, Yanyan Zhang, Shufang Yang, Ruoxuan Xu, Rongxia Liu. Metabolomics and lipidomics combined with serum pharmacochemistry uncover the potential mechanism of Huang-Lian-Jie-Du decoction alleviates atherosclerosis in ApoE-/- mice. Journal of ethnopharmacology. 2024 Jan; 324(?):117748. doi: 10.1016/j.jep.2024.117748. [PMID: 38216103]
  • Ufaq Fayaz, Syed Zameer Hussain, Bazila Naseer, Syed Sheraz Mahdi, Javid Iqbal Mir, Alokesh Ghosh, Arun Jana, Nazrana Rafique Wani, Abida Jabeen, Fehim J Wani, Sobiya Manzoor. Flavor profiling and gene expression studies of indigenous aromatic rice variety (Mushk Budiji) grown at different altitudes of Highland Himalayan regions. Scientific reports. 2024 01; 14(1):1010. doi: 10.1038/s41598-024-51467-z. [PMID: 38200065]
  • Yunping Yao, Tianliang Wang, Zhiyuan Qiang, Wenqi Du, Changmo Li. Mechanisms of the Formation of Nonvolatile and Volatile Oxidation Products from Methyl Linoleic Acid at High Temperatures. Journal of agricultural and food chemistry. 2024 Jan; 72(1):704-714. doi: 10.1021/acs.jafc.3c04405. [PMID: 38131267]
  • Zumer Naeem, Sven Zukunft, Arnaud Huard, Jiong Hu, Bruce D Hammock, Andreas Weigert, Timo Frömel, Ingrid Fleming. Role of the soluble epoxide hydrolase in keratinocyte proliferation and sensitivity of skin to inflammatory stimuli. Biomedicine & pharmacotherapy = Biomedecine & pharmacotherapie. 2024 Jan; 171(?):116127. doi: 10.1016/j.biopha.2024.116127. [PMID: 38198951]
  • Radosław Kowalski, Grażyna Kowalska, Przemysław Mitura, Rafał Rowiński, Urszula Pankiewicz, Joanna Hawlena. The Effect of Peppermint and Thyme Oils on Stabilizing the Fatty Acid Profile of Sunflower Oil. Molecules (Basel, Switzerland). 2024 Jan; 29(2):. doi: 10.3390/molecules29020292. [PMID: 38257205]
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  • Cheng-Lu Yu, Fang Lu, Dong-Hua Yu, Xiao-Min Xu, Peng Xu, Shu-Min Liu. [Mechanism of acteoside in prevention and treatment of gouty arthritis based on liver metabolomics]. Zhongguo Zhong yao za zhi = Zhongguo zhongyao zazhi = China journal of Chinese materia medica. 2024 Jan; 49(1):224-231. doi: 10.19540/j.cnki.cjcmm.20230808.402. [PMID: 38403355]
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