Stigmastanol (BioDeep_00000398236)
Main id: BioDeep_00000000630
Secondary id: BioDeep_00000183842
PANOMIX_OTCML-2023 Chemicals and Drugs natural product
代谢物信息卡片
化学式: C29H52O (416.4018)
中文名称: 柱头固醇, β-谷甾烷醇, Stigmastan-3beta-ol, 豆甾烷醇
谱图信息:
最多检出来源 Homo sapiens(lipidomics) 25%
分子结构信息
SMILES: C(C4)C(C(CC4O)3)(C(C(CC3)2)CCC(C21)(C(CC1)C(C)CCC(C(C)C)CC)C)C
InChI: InChI=1S/C29H52O/c1-7-21(19(2)3)9-8-20(4)25-12-13-26-24-11-10-22-18-23(30)14-16-28(22,5)27(24)15-17-29(25,26)6/h19-27,30H,7-18H2,1-6H3/t20-,21-,22+,23+,24+,25-,26+,27+,28+,29-/m1/s1
描述信息
Stigmastanol is a 3-hydroxy steroid that is 5alpha-stigmastane which is substituted at the 3beta position by a hydroxy group. It has a role as an anticholesteremic drug and a plant metabolite. It is a 3-hydroxy steroid and a member of phytosterols. It derives from a hydride of a 5alpha-stigmastane.
Stigmastanol is a natural product found in Alnus japonica, Dracaena cinnabari, and other organisms with data available.
Stigmastanol is a steroid derivative characterized by the hydroxyl group in position C-3 of the steroid skeleton, and a saturated bond in position 5-6 of the B ring.
See also: Saw Palmetto (part of).
A 3-hydroxy steroid that is 5alpha-stigmastane which is substituted at the 3beta position by a hydroxy group.
D057847 - Lipid Regulating Agents > D000960 - Hypolipidemic Agents > D000924 - Anticholesteremic Agents
C1907 - Drug, Natural Product > C28178 - Phytosterol > C68422 - Saturated Phytosterol
D009676 - Noxae > D000963 - Antimetabolites
Disclaimer: While authors make an effort to ensure that the content of this record is accurate, the authors make no representations or warranties in relation to the accuracy or completeness of the record. This record do not reflect any viewpoints of the affiliation and organization to which the authors belong.
Stigmastanol is the 6-amino derivative isolated from Hypericum riparium. Hypericum riparium A. Chev. is a Cameroonian medicinal plant belonging to the family Guttiferae[1][2].
Stigmastanol is the 6-amino derivative isolated from Hypericum riparium. Hypericum riparium A. Chev. is a Cameroonian medicinal plant belonging to the family Guttiferae[1][2].
同义名列表
53 个代谢物同义名
(3S,5S,8R,9S,10S,13R,14S,17R)-17-[(2R,5R)-5-ethyl-6-methylheptan-2-yl]-10,13-dimethyl-2,3,4,5,6,7,8,9,11,12,14,15,16,17-tetradecahydro-1H-cyclopenta[a]phenanthren-3-ol; (3S,5S,8R,9S,10S,13R,14S,17R)-17-[(1R,4R)-4-ethyl-1,5-dimethyl-hexyl]-10,13-dimethyl-2,3,4,5,6,7,8,9,11,12,14,15,16,17-tetradecahydro-1H-cyclopenta[a]phenanthren-3-ol; (3S,10S,13R,17R)-17-((1R,4R)-4-Ethyl-1,5-dimethyl-hexyl)-10,13-dimethyl-hexadecahydro-cyclopenta[a]phenanthren-3-ol; STIGMASTANOL (CONSTITUENT OF SAW PALMETTO) [DSC]; 24 alpha-ethyl-5 beta-cholestan-3 alpha-ol; STIGMASTANOL (CONSTITUENT OF SAW PALMETTO); 24 alpha-ethyl-5 alpha-cholestan-3 beta-ol; 24 alpha-ethyl-5alpha-choestan-3beta-ol; stigmastanol, (3beta,5beta,24S)-isomer; (3beta,5alpha,20S)-stigmastan-3-ol; (3.BETA.,5.ALPHA.)-STIGMASTAN-3-OL; Stigmastan-3-ol, (3beta,5alpha)-; (3 beta,5 alpha)-stigmastan-3-ol; (3beta,5alpha)-Stigmastan-3-ol; 5.alpha.-Stigmastan-3.beta.-ol; (5alpha)-stigmastan-3beta-ol; .beta.-Sitosterol, dihydro-; 5,6-Dihydro-beta-sitosterol; LGJMUZUPVCAVPU-HRJGVYIJSA-N; Stigmastan-3-ol, (3|A,5|A)-; Stigmastan-3-ol,5.alpha.)-; 24.ALPHA.-ETHYLCHOLESTANOL; 5alpha-Stigmastan-3beta-ol; Dihydro-.beta.-sitosterol; beta-Sitosterol, dihydro-; Stigmastan-3-ol, (3b,5a)-; Stigmastan-3-ol, (3?,5?)-; 24alpha-Ethylcholestanol; Dihydro-beta-sitosterol; Stigmastan-3-ol, (3b)-; STIGMASTANOL [WHO-DD]; Stigmastan-3-ol,(3b)-; Stigmastane-3-beta-ol; Stigmastanol, >=95\\%; Dihydro-sitosterol; SITOSTANOL (MART.); SITOSTANOL [MART.]; STIGMASTANOL [MI]; dihydrositosterol; Dihydrositosterin; .beta.-Sitostanol; beta-sitostanol; UNII-C2NJ9WO6O7; Stigmastan-3-ol; Stigmastanol; Spinastanol; sitostanol; Fucostanol; C2NJ9WO6O7; ST 29:0;O; stigmastan-3beta-ol; Stigmastanol; Stigmastan-3beta-ol
数据库引用编号
26 个数据库交叉引用编号
- ChEBI: CHEBI:89400
- KEGG: C19644
- PubChem: 241572
- PubChem: 15559396
- ChEMBL: CHEMBL252364
- Wikipedia: Stigmastanol
- LipidMAPS: LMST01040266
- MeSH: stigmastanol
- ChemIDplus: 0000083454
- CAS: 138126-65-5
- CAS: 83-45-4
- CAS: 19466-47-8
- MoNA: FFF00083
- MoNA: FFF00082
- MoNA: FFF00081
- MoNA: FFF00080
- MoNA: FFF00079
- MoNA: FFF00078
- MoNA: FFF00077
- medchemexpress: HY-113494
- MetaboLights: MTBLC89400
- PubChem: 124490295
- KNApSAcK: C00032163
- RefMet: Dihydro-sitosterol
- LOTUS: LTS0110500
- KNApSAcK: 89400
分类词条
相关代谢途径
Reactome(0)
BioCyc(0)
PlantCyc(0)
代谢反应
0 个相关的代谢反应过程信息。
Reactome(0)
BioCyc(0)
WikiPathways(0)
Plant Reactome(0)
INOH(0)
PlantCyc(0)
COVID-19 Disease Map(0)
PathBank(0)
PharmGKB(0)
178 个相关的物种来源信息
- 3319 - Abies: LTS0110500
- 78264 - Abies sachalinensis: 10.1016/S0031-9422(00)97525-3
- 78264 - Abies sachalinensis: LTS0110500
- 155619 - Agaricomycetes: LTS0110500
- 3515 - Alnus: LTS0110500
- 109063 - Alnus japonica: 10.1016/0031-9422(81)83035-X
- 109063 - Alnus japonica: LTS0110500
- 204585 - Alsophila podophylla: 10.1002/CHIN.200416160
- 204586 - Alsophila spinulosa: 10.1248/CPB.42.228
- 3563 - Amaranthaceae: LTS0110500
- 942673 - Amphilectus: LTS0110500
- 942674 - Amphilectus fucorum: 10.1016/S0040-4020(01)85914-7
- 942674 - Amphilectus fucorum: LTS0110500
- 6101 - Anthozoa: LTS0110500
- 4037 - Apiaceae: LTS0110500
- 3701 - Arabidopsis: LTS0110500
- 3702 - Arabidopsis thaliana: 10.1016/0031-9422(93)85095-9
- 3702 - Arabidopsis thaliana: LTS0110500
- 47424 - Armillaria: LTS0110500
- 47429 - Armillaria mellea: 10.1139/V87-002
- 47429 - Armillaria mellea: LTS0110500
- 30275 - Ascidia: LTS0110500
- 7713 - Ascidiacea: LTS0110500
- 30274 - Ascidiidae: LTS0110500
- 4890 - Ascomycota: LTS0110500
- 40552 - Asparagaceae: LTS0110500
- 4210 - Asteraceae: LTS0110500
- 12958 - Axinella: LTS0110500
- 85778 - Axinella aruensis: 10.1016/0039-128X(89)90015-9
- 85778 - Axinella aruensis: LTS0110500
- 798305 - Axinella cannabina: 10.1039/P19830000147
- 798305 - Axinella cannabina: LTS0110500
- 45118 - Axinellidae: LTS0110500
- 5204 - Basidiomycota: LTS0110500
- 3514 - Betulaceae: LTS0110500
- 3700 - Brassicaceae: LTS0110500
- 3427 - Calycanthaceae: LTS0110500
- 3428 - Calycanthus: LTS0110500
- 3429 - Calycanthus floridus: 10.1039/JR9440000336
- 3429 - Calycanthus floridus: LTS0110500
- 40568 - Campanula: LTS0110500
- 56154 - Campanula medium: 10.1007/S10600-014-1165-8
- 56154 - Campanula medium: LTS0110500
- 4381 - Campanulaceae: LTS0110500
- 3483 - Cannabis sativa: 10.5650/JOS1996.46.1499
- 82715 - Chelonanthus: LTS0110500
- 84873 - Chelonanthus albus: 10.1007/S10600-010-9708-0
- 84873 - Chelonanthus albus: LTS0110500
- 1804623 - Chenopodiaceae: LTS0110500
- 7711 - Chordata: LTS0110500
- 13432 - Clerodendrum: LTS0110500
- 54464 - Clerodendrum chinense: 10.1016/0039-128X(89)90036-6
- 54464 - Clerodendrum chinense: LTS0110500
- 13433 - Clerodendrum fragrans: 10.1016/0039-128X(89)90036-6
- 13433 - Clerodendrum fragrans: LTS0110500
- 6073 - Cnidaria: LTS0110500
- 13446 - Conium: LTS0110500
- 13447 - Conium maculatum: 10.2298/JSC110206128R
- 13447 - Conium maculatum: LTS0110500
- 2172426 - Costus tonkinensis: 10.1016/S0031-9422(97)00101-5
- 3781 - Crassulaceae: LTS0110500
- 79837 - Cymbopogon martinii: 10.1515/ZNC-2000-9-1029
- 55447 - Cymodocea: LTS0110500
- 55448 - Cymodocea nodosa: 10.1016/S0031-9422(00)84109-6
- 55448 - Cymodocea nodosa: LTS0110500
- 25926 - Cymodoceaceae: LTS0110500
- 6042 - Demospongiae: LTS0110500
- 39502 - Dracaena: LTS0110500
- 1142948 - Dracaena cinnabari: 10.1016/0031-9422(94)00743-D
- 1142948 - Dracaena cinnabari: LTS0110500
- 65772 - Drimia: LTS0110500
- 143579 - Drimia sanguinea: 10.1055/S-2006-957644
- 190526 - Dysidea: LTS0110500
- 1336851 - Dysidea fragilis: 10.1016/0039-128X(95)00055-U
- 1336851 - Dysidea fragilis: LTS0110500
- 190525 - Dysideidae: LTS0110500
- 72179 - Esperiopsidae: LTS0110500
- 2759 - Eukaryota: LTS0110500
- 3803 - Fabaceae: LTS0110500
- 1504337 - Festuca hieronymi: 10.1016/0305-1978(96)00011-7
- 4751 - Fungi: LTS0110500
- 21472 - Gentianaceae: LTS0110500
- 7728 - Halocynthia: LTS0110500
- 254849 - Halocynthia aurantium: 10.1007/BF00565153
- 254849 - Halocynthia aurantium: LTS0110500
- 47034 - Hedysarum: LTS0110500
- 2023785 - Hedysarum setigerum: LTS0110500
- 71056 - Heterotheca: LTS0110500
- 3015714 - Heterotheca inuloides: LTS0110500
- 9604 - Hominidae: LTS0110500
- 9605 - Homo: LTS0110500
- 9606 - Homo sapiens: LTS0110500
- 9606 - Homo sapiens: NA
- 44985 - Hyacinthaceae: LTS0110500
- 554633 - Isodictyidae: LTS0110500
- 204130 - Isodon: LTS0110500
- 425908 - Isodon japonicus: 10.1021/JA00398A034
- 425908 - Isodon japonicus: LTS0110500
- 204133 - Isodon lophanthoides: 10.1016/0031-9422(89)85035-6
- 204133 - Isodon lophanthoides: LTS0110500
- 23012 - Kalanchoe: LTS0110500
- 80912 - Kalanchoe petitiana: 10.1016/0031-9422(91)83027-I
- 80912 - Kalanchoe petitiana: LTS0110500
- 206141 - Kali: LTS0110500
- 2116407 - Kali collina: 10.1007/BF00630448
- 2116407 - Kali collinum: 10.1007/BF00630448
- 4136 - Lamiaceae: LTS0110500
- 147547 - Lecanoromycetes: LTS0110500
- 2067288 - Lessingianthus mollissimus: 10.1021/NP50044A031
- 4447 - Liliopsida: LTS0110500
- 3402 - Magnolia: LTS0110500
- 114509 - Magnolia alba: 10.1007/S10600-010-9708-0
- 114509 - Magnolia alba: LTS0110500
- 3401 - Magnoliaceae: LTS0110500
- 3398 - Magnoliopsida: LTS0110500
- 40674 - Mammalia: LTS0110500
- 33208 - Metazoa: LTS0110500
- 190583 - Morella: LTS0110500
- 262757 - Morella rubra: 10.1248/CPB.50.208
- 262757 - Morella rubra: LTS0110500
- 44192 - Muricea: LTS0110500
- 1574066 - Muricea californica: LTS0110500
- 3509 - Myrica: LTS0110500
- 26766 - Myricaceae: LTS0110500
- 22274 - Myristicaceae: LTS0110500
- 3931 - Myrtaceae: LTS0110500
- 44588 - Panax quinquefolius: 10.1021/JF010701V
- 78060 - Parmeliaceae: LTS0110500
- 182825 - Parodia scopa: 10.1016/S0031-9422(00)84774-3
- 68563 - Petrosia: LTS0110500
- 68564 - Petrosia ficiformis: 10.1016/0039-128X(80)90095-1
- 68564 - Petrosia ficiformis: LTS0110500
- 68562 - Petrosiidae: LTS0110500
- 56696 - Phallusia: LTS0110500
- 569429 - Phallusia nigra: 10.1016/0039-128X(82)90021-6
- 569429 - Phallusia nigra: LTS0110500
- 862241 - Physalacriaceae: LTS0110500
- 3318 - Pinaceae: LTS0110500
- 58019 - Pinopsida: LTS0110500
- 586713 - Plagiochasma intermedium: -
- 33090 - Plants: -
- 44191 - Plexauridae: LTS0110500
- 4479 - Poaceae: LTS0110500
- 6040 - Porifera: LTS0110500
- 55487 - Posidonia: LTS0110500
- 55489 - Posidonia oceanica: 10.1016/S0031-9422(00)84109-6
- 55489 - Posidonia oceanica: LTS0110500
- 55435 - Posidoniaceae: LTS0110500
- 88743 - Pseudevernia: LTS0110500
- 136282 - Pseudevernia furfuracea: LTS0110500
- 7727 - Pyuridae: LTS0110500
- 569446 - Salpa: LTS0110500
- 569448 - Salpa thompsoni: 10.1248/CPB.34.4562
- 569448 - Salpa thompsoni: LTS0110500
- 34759 - Salpidae: LTS0110500
- 151233 - Salsola: LTS0110500
- 525237 - Salsola collina: 10.1007/BF00630448
- 525237 - Salsola collina: LTS0110500
- 41629 - Saussurea: LTS0110500
- 254908 - Saussurea controversa: 10.1007/BF00630230
- 254908 - Saussurea controversa: LTS0110500
- 4555 - Setaria italica:
- 4081 - Solanum lycopersicum: 10.5650/JOS.50.259
- 35493 - Streptophyta: LTS0110500
- 178174 - Syzygium: LTS0110500
- 30304 - Thaliacea: LTS0110500
- 324795 - Thomandersia: LTS0110500
- 324797 - Thomandersia laurifolia: 10.1016/0031-9422(94)00930-R
- 324797 - Thomandersia laurifolia: LTS0110500
- 324794 - Thomandersiaceae: LTS0110500
- 58023 - Tracheophyta: LTS0110500
- 3677 - Trichosanthes kirilowii Maxim.: -
- 676073 - Trichosanthes rosthornii Harms: -
- 33090 - Viridiplantae: LTS0110500
- 224865 - Virola: LTS0110500
- 4575 - Zea: LTS0110500
- 4577 - Zea mays: 10.1016/0031-9422(84)83081-2
- 4577 - Zea mays: LTS0110500
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
- María Molina-Gutiérrez, Leonor Rodríguez-Sánchez, Carmen Doñoro, M Jesús Martínez, Alicia Prieto. Sustainable and Green Synthesis of Stanol Esters from Oil Wastes.
Journal of agricultural and food chemistry.
2021 Jan; 69(1):286-293. doi:
10.1021/acs.jafc.0c06581
. [PMID: 33375783] - Emmani B M Nascimento, Maurice Konings, Gert Schaart, Albert K Groen, Dieter Lütjohann, Wouter D van Marken Lichtenbelt, Patrick Schrauwen, Jogchum Plat. In vitro effects of sitosterol and sitostanol on mitochondrial respiration in human brown adipocytes, myotubes and hepatocytes.
European journal of nutrition.
2020 Aug; 59(5):2039-2045. doi:
10.1007/s00394-019-02052-y
. [PMID: 31317217] - Moacir Guimarães de Melo, Brina Aguiar da Silva, Gilcllys de Souza Costa, João Cândido André da Silva Neto, Patrícia Kaori Soares, Adalberto Luis Val, Jamal da Silva Chaar, Hector Henrique Ferreira Koolen, Giovana Anceski Bataglion. Sewage contamination of Amazon streams crossing Manaus (Brazil) by sterol biomarkers.
Environmental pollution (Barking, Essex : 1987).
2019 Jan; 244(?):818-826. doi:
10.1016/j.envpol.2018.10.055
. [PMID: 30390455] - Jogchum Plat, Sabine Baumgartner, Tom Houben, Anita C E Vreugdenhil, Ronald P Mensink, Dieter Lütjohann, Ronit Shiri-Sverdlov. Comment on Tauriainen et al.: Serum, liver and bile sitosterol and sitostanol in obese patients with and without NAFLD.
Bioscience reports.
2018 10; 38(5):. doi:
10.1042/bsr20180505
. [PMID: 30287500] - Hans-Frieder Schött, Sabrina Krautbauer, Marcus Höring, Gerhard Liebisch, Silke Matysik. A Validated, Fast Method for Quantification of Sterols and Gut Microbiome Derived 5α/β-Stanols in Human Feces by Isotope Dilution LC-High-Resolution MS.
Analytical chemistry.
2018 07; 90(14):8487-8494. doi:
10.1021/acs.analchem.8b01278
. [PMID: 29920210] - Milla-Maria Tauriainen, Ville Männistö, Dorota Kaminska, Maija Vaittinen, Vesa Kärjä, Pirjo Käkelä, Sari Venesmaa, Helena Gylling, Jussi Pihlajamäki. Serum, liver and bile sitosterol and sitostanol in obese patients with and without NAFLD.
Bioscience reports.
2018 04; 38(2):. doi:
10.1042/bsr20171274
. [PMID: 29540533] - Rgia A Othman, Semone B Myrie, David Mymin, Jean-Baptiste Roullet, Andrea E DeBarber, Robert D Steiner, Peter J H Jones. Thyroid Hormone Status in Sitosterolemia Is Modified by Ezetimibe.
The Journal of pediatrics.
2017 09; 188(?):198-204.e1. doi:
10.1016/j.jpeds.2017.05.049
. [PMID: 28625503] - Islam J A Hamdan, Lorena Claumarchirant, Guadalupe Garcia-Llatas, Amparo Alegría, María Jesús Lagarda. Sterols in infant formulas: validation of a gas chromatographic method.
International journal of food sciences and nutrition.
2017 Sep; 68(6):695-703. doi:
10.1080/09637486.2017.1287883
. [PMID: 28276904] - Silvia Vaghini, Antonio Cilla, Guadalupe Garcia-Llatas, María Jesús Lagarda. Bioaccessibility study of plant sterol-enriched fermented milks.
Food & function.
2016 Jan; 7(1):110-7. doi:
10.1039/c5fo00458f
. [PMID: 26447847] - Piia Simonen, Jaakko Lommi, Maarit Hallikainen, Satu Helske-Suihko, Kalervo Werkkala, Markku Kupari, Petri T Kovanen, Helena Gylling. Dietary plant stanols or sterols neither accumulate in stenotic aortic valves nor influence their structure or inflammatory status.
Clinical nutrition (Edinburgh, Scotland).
2015 Dec; 34(6):1251-7. doi:
10.1016/j.clnu.2015.01.001
. [PMID: 25614126] - Loïc Harrault, Emilie Jardé, Laurent Jeanneau, Patrice Petitjean. Are fecal stanols suitable to record and identify a pulse of human fecal contamination in short-term exposed shellfish? A microcosm study.
Marine pollution bulletin.
2014 Dec; 89(1-2):40-48. doi:
10.1016/j.marpolbul.2014.10.037
. [PMID: 25455370] - Jaleh Varshosaz, Abbas Jafarian, Golnaz Salehi, Behzad Zolfaghari. Comparing different sterol containing solid lipid nanoparticles for targeted delivery of quercetin in hepatocellular carcinoma.
Journal of liposome research.
2014 Sep; 24(3):191-203. doi:
10.3109/08982104.2013.868476
. [PMID: 24354715] - Loïc Harrault, Emilie Jardé, Laurent Jeanneau, Patrice Petitjean. Development of the analysis of fecal stanols in the oyster Crassostrea gigas and identification of fecal contamination in shellfish harvesting areas.
Lipids.
2014 Jun; 49(6):597-607. doi:
10.1007/s11745-014-3908-5
. [PMID: 24771549] - T J Tse, G Codling, P D Jones, K Thoms, K Liber, J P Giesy, H Wheater, L E Doig. Reconstructing long-term trends in municipal sewage discharge into a small lake in northern Manitoba, Canada.
Chemosphere.
2014 May; 103(?):299-305. doi:
10.1016/j.chemosphere.2013.12.019
. [PMID: 24405965] - Ainara Sistiaga, Carolina Mallol, Bertila Galván, Roger Everett Summons. The Neanderthal meal: a new perspective using faecal biomarkers.
PloS one.
2014; 9(6):e101045. doi:
10.1371/journal.pone.0101045
. [PMID: 24963925] - Moufida Oueslati Arfaoui, Justin Renaud, Hanen Ghazghazi, Sadok Boukhchina, Paul Mayer. Variation in oil content, fatty acid and phytosterols profile of Onopordum acanthium L. during seed development.
Natural product research.
2014; 28(24):2293-300. doi:
10.1080/14786419.2014.940944
. [PMID: 25103576] - Laura Kells Cusack, Maria Luz Fernandez, Jeff S Volek. The food matrix and sterol characteristics affect the plasma cholesterol lowering of phytosterol/phytostanol.
Advances in nutrition (Bethesda, Md.).
2013 Nov; 4(6):633-43. doi:
10.3945/an.113.004507
. [PMID: 24228192] - Wen-Sen He, Mei-Gui Wang, Xiao-Xia Pan, Jing-Jing Li, Cheng-Sheng Jia, Xiao-Ming Zhang, Biao Feng. Role of plant stanol derivatives in the modulation of cholesterol metabolism and liver gene expression in mice.
Food chemistry.
2013 Sep; 140(1-2):9-16. doi:
10.1016/j.foodchem.2013.02.062
. [PMID: 23578608] - M S Valerio, H Minderman, T Mace, A B Awad. β-Sitosterol modulates TLR4 receptor expression and intracellular MyD88-dependent pathway activation in J774A.1 murine macrophages.
Cellular immunology.
2013 Sep; 285(1-2):76-83. doi:
10.1016/j.cellimm.2013.08.007
. [PMID: 24121260] - Maija Marttinen, Essi Päivärinta, Markus Storvik, Laura Huikko, Heli Luoma-Halkola, Vieno Piironen, Anne-Maria Pajari, Marja Mutanen. Plant stanols induce intestinal tumor formation by up-regulating Wnt and EGFR signaling in Apc Min mice.
The Journal of nutritional biochemistry.
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