3-Epicycloeucalenol (BioDeep_00000004856)

human metabolite PANOMIX_OTCML-2023 Endogenous Volatile Flavor Compounds natural product

代谢物信息卡片

7,12,16-trimethyl-15-(6-methyl-5-methylideneheptan-2-yl)pentacyclo[9.7.0.0¹,³.0³,⁸.0¹²,¹⁶]octadecan-6-ol

化学式: C30H50O (426.386145)
中文名称: 环桉烯醇, CYCLOEUCALENOL
谱图信息: 最多检出来源 Viridiplantae(plant) 20.16%

分子结构信息

SMILES: C=C(CCC(C)C1CCC2(C)C3CCC4C(C)C(O)CCC45CC35CCC12C)C(C)C
InChI: InChI=1S/C30H50O/c1-19(2)20(3)8-9-21(4)23-12-14-28(7)26-11-10-24-22(5)25(31)13-15-29(24)18-30(26,29)17-16-27(23,28)6/h19,21-26,31H,3,8-18H2,1-2,4-7H3

描述信息

3-Epicycloeucalenol is found in fruits. 3-Epicycloeucalenol is a constituent of Musa sapientum (banana) fruit peel
Constituent of Musa sapientum (banana) fruit peel. 3-Epicycloeucalenol is found in fruits.

同义名列表

4 个代谢物同义名

7,12,16-trimethyl-15-(6-methyl-5-methylideneheptan-2-yl)pentacyclo[9.7.0.0¹,³.0³,⁸.0¹²,¹⁶]octadecan-6-ol; 3-epicycloeucalenol; Cycloeucalenol; Cycloeucalenol

数据库引用编号

21 个数据库交叉引用编号

ChEBI: CHEBI:175435
ChEBI: CHEBI:16653
KEGG: C02141
PubChem: 101690
PubChem: 543796
HMDB: HMDB0031957
Metlin: METLIN63311
ChEMBL: CHEMBL225634
MetaCyc: CYCLOEUCALENOL
KNApSAcK: C00049087
foodb: FDB008649
chemspider: 473373
CAS: 469-39-6
PMhub: MS000017478
PubChem: 5220
LipidMAPS: LMST01100011
KNApSAcK: C00007367
3DMET: B01539
NIKKAJI: J11.336K
KNApSAcK: 16653
LOTUS: LTS0042683

分类词条

代谢反应

184 个相关的代谢反应过程信息。

Reactome(0)

BioCyc(0)

WikiPathways(0)

Plant Reactome(66)

Metabolism and regulation: FAD + PROP-CoA ⟶ FADH2 + acryloyl-CoA
Secondary metabolism: ATP + CoA-SH + ferulate ⟶ AMP + PPi + feruloyl-CoA
Sterol biosynthesis: H+ + Oxygen + TPNH + obtusifoliol ⟶ 4alpha-methyl-5alpha-ergosta-8,14,24(28)-trien-3beta-ol + H2O + HCOOH + TPN
Metabolism and regulation: FAD + PROP-CoA ⟶ FADH2 + acryloyl-CoA
Secondary metabolism: ATP + CoA-SH + ferulate ⟶ AMP + PPi + feruloyl-CoA
Sterol biosynthesis: 4alpha-methyl-5alpha-ergosta-8,14,24(28)-trien-3beta-ol + TPNH ⟶ 4alpha-methylfecosterol + TPN
Metabolism and regulation: FAD + PROP-CoA ⟶ FADH2 + acryloyl-CoA
Secondary metabolism: ATP + CoA-SH + ferulate ⟶ AMP + PPi + feruloyl-CoA
Sterol biosynthesis: H+ + Oxygen + TPNH + obtusifoliol ⟶ 4alpha-methyl-5alpha-ergosta-8,14,24(28)-trien-3beta-ol + H2O + HCOOH + TPN
Metabolism and regulation: FAD + PROP-CoA ⟶ FADH2 + acryloyl-CoA
Secondary metabolism: ATP + CoA-SH + ferulate ⟶ AMP + PPi + feruloyl-CoA
Sterol biosynthesis: H+ + Oxygen + TPNH + obtusifoliol ⟶ 4alpha-methyl-5alpha-ergosta-8,14,24(28)-trien-3beta-ol + H2O + HCOOH + TPN
Metabolism and regulation: FAD + PROP-CoA ⟶ FADH2 + acryloyl-CoA
Secondary metabolism: ATP + CoA-SH + ferulate ⟶ AMP + PPi + feruloyl-CoA
Sterol biosynthesis: 4alpha-methyl-5alpha-ergosta-8,14,24(28)-trien-3beta-ol + TPNH ⟶ 4alpha-methylfecosterol + TPN
Metabolism and regulation: FAD + PROP-CoA ⟶ FADH2 + acryloyl-CoA
Secondary metabolism: ATP + CoA-SH + ferulate ⟶ AMP + PPi + feruloyl-CoA
Sterol biosynthesis: H+ + Oxygen + TPNH + obtusifoliol ⟶ 4alpha-methyl-5alpha-ergosta-8,14,24(28)-trien-3beta-ol + H2O + HCOOH + TPN
Metabolism and regulation: FAD + PROP-CoA ⟶ FADH2 + acryloyl-CoA
Secondary metabolism: ATP + CoA-SH + ferulate ⟶ AMP + PPi + feruloyl-CoA
Sterol biosynthesis: H+ + Oxygen + TPNH + obtusifoliol ⟶ 4alpha-methyl-5alpha-ergosta-8,14,24(28)-trien-3beta-ol + H2O + HCOOH + TPN
Metabolism and regulation: FAD + PROP-CoA ⟶ FADH2 + acryloyl-CoA
Secondary metabolism: ATP + CoA-SH + ferulate ⟶ AMP + PPi + feruloyl-CoA
Sterol biosynthesis: H+ + Oxygen + TPNH + obtusifoliol ⟶ 4alpha-methyl-5alpha-ergosta-8,14,24(28)-trien-3beta-ol + H2O + HCOOH + TPN
Metabolism and regulation: FAD + PROP-CoA ⟶ FADH2 + acryloyl-CoA
Secondary metabolism: ATP + CoA-SH + ferulate ⟶ AMP + PPi + feruloyl-CoA
Sterol biosynthesis: 4alpha-methyl-5alpha-ergosta-8,14,24(28)-trien-3beta-ol + TPNH ⟶ 4alpha-methylfecosterol + TPN
Metabolism and regulation: FAD + PROP-CoA ⟶ FADH2 + acryloyl-CoA
Secondary metabolism: ATP + CoA-SH + ferulate ⟶ AMP + PPi + feruloyl-CoA
Sterol biosynthesis: 4alpha-methylfecosterol ⟶ 24-methylenelophenol
Metabolism and regulation: FAD + PROP-CoA ⟶ FADH2 + acryloyl-CoA
Secondary metabolism: ATP + CoA-SH + ferulate ⟶ AMP + PPi + feruloyl-CoA
Sterol biosynthesis: H+ + Oxygen + TPNH + obtusifoliol ⟶ 4alpha-methyl-5alpha-ergosta-8,14,24(28)-trien-3beta-ol + H2O + HCOOH + TPN
Metabolism and regulation: FAD + PROP-CoA ⟶ FADH2 + acryloyl-CoA
Secondary metabolism: ATP + CoA-SH + ferulate ⟶ AMP + PPi + feruloyl-CoA
Sterol biosynthesis: H+ + Oxygen + TPNH + obtusifoliol ⟶ 4alpha-methyl-5alpha-ergosta-8,14,24(28)-trien-3beta-ol + H2O + HCOOH + TPN
Metabolism and regulation: FAD + PROP-CoA ⟶ FADH2 + acryloyl-CoA
Secondary metabolism: ATP + CoA-SH + ferulate ⟶ AMP + PPi + feruloyl-CoA
Sterol biosynthesis: 4alpha-methyl-5alpha-ergosta-8,14,24(28)-trien-3beta-ol + TPNH ⟶ 4alpha-methylfecosterol + TPN
Metabolism and regulation: FAD + PROP-CoA ⟶ FADH2 + acryloyl-CoA
Secondary metabolism: ATP + CoA-SH + ferulate ⟶ AMP + PPi + feruloyl-CoA
Sterol biosynthesis: H+ + Oxygen + TPNH + obtusifoliol ⟶ 4alpha-methyl-5alpha-ergosta-8,14,24(28)-trien-3beta-ol + H2O + HCOOH + TPN
Metabolism and regulation: CoA + NAD + methylmalonate-semialdehyde ⟶ NADH + PROP-CoA + carbon dioxide
Secondary metabolism: ATP + CoA-SH + ferulate ⟶ AMP + PPi + feruloyl-CoA
Sterol biosynthesis: 4alpha-methyl-5alpha-ergosta-8,14,24(28)-trien-3beta-ol + TPNH ⟶ 4alpha-methylfecosterol + TPN
Metabolism and regulation: FAD + PROP-CoA ⟶ FADH2 + acryloyl-CoA
Secondary metabolism: ATP + CoA-SH + ferulate ⟶ AMP + PPi + feruloyl-CoA
Sterol biosynthesis: H+ + Oxygen + TPNH + obtusifoliol ⟶ 4alpha-methyl-5alpha-ergosta-8,14,24(28)-trien-3beta-ol + H2O + HCOOH + TPN
Metabolism and regulation: FAD + PROP-CoA ⟶ FADH2 + acryloyl-CoA
Secondary metabolism: ATP + CoA-SH + ferulate ⟶ AMP + PPi + feruloyl-CoA
Sterol biosynthesis: H+ + Oxygen + TPNH + obtusifoliol ⟶ 4alpha-methyl-5alpha-ergosta-8,14,24(28)-trien-3beta-ol + H2O + HCOOH + TPN
Metabolism and regulation: FAD + PROP-CoA ⟶ FADH2 + acryloyl-CoA
Secondary metabolism: ATP + CoA-SH + ferulate ⟶ AMP + PPi + feruloyl-CoA
Sterol biosynthesis: H+ + Oxygen + TPNH + obtusifoliol ⟶ 4alpha-methyl-5alpha-ergosta-8,14,24(28)-trien-3beta-ol + H2O + HCOOH + TPN
Metabolism and regulation: FAD + PROP-CoA ⟶ FADH2 + acryloyl-CoA
Secondary metabolism: ATP + CoA-SH + ferulate ⟶ AMP + PPi + feruloyl-CoA
Sterol biosynthesis: H+ + Oxygen + TPNH + obtusifoliol ⟶ 4alpha-methyl-5alpha-ergosta-8,14,24(28)-trien-3beta-ol + H2O + HCOOH + TPN
Metabolism and regulation: FAD + PROP-CoA ⟶ FADH2 + acryloyl-CoA
Secondary metabolism: ATP + CoA-SH + ferulate ⟶ AMP + PPi + feruloyl-CoA
Sterol biosynthesis: H+ + Oxygen + TPNH + obtusifoliol ⟶ 4alpha-methyl-5alpha-ergosta-8,14,24(28)-trien-3beta-ol + H2O + HCOOH + TPN
Metabolism and regulation: ATP + CoA + propionate ⟶ AMP + PPi + PROP-CoA
Secondary metabolism: GPP + H2O ⟶ PPi + geraniol
Sterol biosynthesis: delta24-25-sitosterol ⟶ sitosterol
Metabolism and regulation: CoA + NAD + methylmalonate-semialdehyde ⟶ NADH + PROP-CoA + carbon dioxide
Secondary metabolism: ATP + CoA-SH + ferulate ⟶ AMP + PPi + feruloyl-CoA
Sterol biosynthesis: H+ + Oxygen + TPNH + obtusifoliol ⟶ 4alpha-methyl-5alpha-ergosta-8,14,24(28)-trien-3beta-ol + H2O + HCOOH + TPN

INOH(0)

PlantCyc(118)

phytosterol biosynthesis (plants): Δ^24-25-sitosterol + H⁺ + NADPH ⟶ NADP⁺ + sitosterol
phytosterol biosynthesis (plants): Δ^24-25-sitosterol + H⁺ + NADPH ⟶ NADP⁺ + sitosterol
phytosterol biosynthesis (plants): Δ^24-25-sitosterol + H⁺ + NADPH ⟶ NADP⁺ + sitosterol
phytosterol biosynthesis (plants): Δ^24-25-sitosterol + H⁺ + NADPH ⟶ NADP⁺ + sitosterol
phytosterol biosynthesis (plants): Δ^24-25-sitosterol + H⁺ + NADPH ⟶ NADP⁺ + sitosterol
phytosterol biosynthesis (plants): Δ^24-25-sitosterol + H⁺ + NADPH ⟶ NADP⁺ + sitosterol
phytosterol biosynthesis (plants): Δ^24-25-sitosterol + H⁺ + NADPH ⟶ NADP⁺ + sitosterol
phytosterol biosynthesis (plants): Δ^24-25-sitosterol + H⁺ + NADPH ⟶ NADP⁺ + sitosterol
phytosterol biosynthesis (plants): Δ^24-25-sitosterol + H⁺ + NADPH ⟶ NADP⁺ + sitosterol
phytosterol biosynthesis (plants): Δ^24-25-sitosterol + H⁺ + NADPH ⟶ NADP⁺ + sitosterol
phytosterol biosynthesis (plants): Δ^24-25-sitosterol + H⁺ + NADPH ⟶ NADP⁺ + sitosterol
phytosterol biosynthesis (plants): Δ^24-25-sitosterol + H⁺ + NADPH ⟶ NADP⁺ + sitosterol
phytosterol biosynthesis (plants): Δ^24-25-sitosterol + H⁺ + NADPH ⟶ NADP⁺ + sitosterol
phytosterol biosynthesis (plants): Δ^24-25-sitosterol + H⁺ + NADPH ⟶ NADP⁺ + sitosterol
phytosterol biosynthesis (plants): O₂ + a reduced [NADPH-hemoprotein reductase] + sitosterol ⟶ H₂O + an oxidized [NADPH-hemoprotein reductase] + stigmasterol
phytosterol biosynthesis (plants): Δ^24-25-sitosterol + H⁺ + NADPH ⟶ NADP⁺ + sitosterol
phytosterol biosynthesis (plants): Δ^24-25-sitosterol + H⁺ + NADPH ⟶ NADP⁺ + sitosterol
phytosterol biosynthesis (plants): Δ^24-25-sitosterol + H⁺ + NADPH ⟶ NADP⁺ + sitosterol
phytosterol biosynthesis (plants): Δ^24-25-sitosterol + H⁺ + NADPH ⟶ NADP⁺ + sitosterol
phytosterol biosynthesis (plants): Δ^24-25-sitosterol + H⁺ + NADPH ⟶ NADP⁺ + sitosterol
phytosterol biosynthesis (plants): Δ^24-25-sitosterol + H⁺ + NADPH ⟶ NADP⁺ + sitosterol
phytosterol biosynthesis (plants): Δ^24-25-sitosterol + H⁺ + NADPH ⟶ NADP⁺ + sitosterol
phytosterol biosynthesis (plants): Δ^24-25-sitosterol + H⁺ + NADPH ⟶ NADP⁺ + sitosterol
phytosterol biosynthesis (plants): 4α-carboxy-4β,14α-dimethyl-9β,19-cyclo-5α-ergost-24(24¹)-en-3β-ol + NAD⁺ ⟶ CO₂ + NADH + cycloeucalenone
phytosterol biosynthesis (plants): isofucosterol ⟶ Δ^24-25-sitosterol
phytosterol biosynthesis (plants): Δ^24-25-sitosterol + H⁺ + NADPH ⟶ NADP⁺ + sitosterol
phytosterol biosynthesis (plants): Δ^24-25-sitosterol + H⁺ + NADPH ⟶ NADP⁺ + sitosterol
phytosterol biosynthesis (plants): Δ^24-25-sitosterol + H⁺ + NADPH ⟶ NADP⁺ + sitosterol
phytosterol biosynthesis (plants): Δ^24-25-sitosterol + H⁺ + NADPH ⟶ NADP⁺ + sitosterol
phytosterol biosynthesis (plants): Δ^24-25-sitosterol + H⁺ + NADPH ⟶ NADP⁺ + sitosterol
phytosterol biosynthesis (plants): Δ^24-25-sitosterol + H⁺ + NADPH ⟶ NADP⁺ + sitosterol
phytosterol biosynthesis (plants): Δ^24-25-sitosterol + H⁺ + NADPH ⟶ NADP⁺ + sitosterol
phytosterol biosynthesis (plants): Δ^24-25-sitosterol + H⁺ + NADPH ⟶ NADP⁺ + sitosterol
phytosterol biosynthesis (plants): Δ^24-25-sitosterol + H⁺ + NADPH ⟶ NADP⁺ + sitosterol
phytosterol biosynthesis (plants): Δ^24-25-sitosterol + H⁺ + NADPH ⟶ NADP⁺ + sitosterol
phytosterol biosynthesis (plants): Δ^24-25-sitosterol + H⁺ + NADPH ⟶ NADP⁺ + sitosterol
phytosterol biosynthesis (plants): Δ^24-25-sitosterol + H⁺ + NADPH ⟶ NADP⁺ + sitosterol
phytosterol biosynthesis (plants): Δ^24-25-sitosterol + H⁺ + NADPH ⟶ NADP⁺ + sitosterol
phytosterol biosynthesis (plants): Δ^24-25-sitosterol + H⁺ + NADPH ⟶ NADP⁺ + sitosterol
phytosterol biosynthesis (plants): Δ^24-25-sitosterol + H⁺ + NADPH ⟶ NADP⁺ + sitosterol
phytosterol biosynthesis (plants): Δ^24-25-sitosterol + H⁺ + NADPH ⟶ NADP⁺ + sitosterol
phytosterol biosynthesis (plants): Δ^24-25-sitosterol + H⁺ + NADPH ⟶ NADP⁺ + sitosterol
phytosterol biosynthesis (plants): Δ^24-25-sitosterol + H⁺ + NADPH ⟶ NADP⁺ + sitosterol
phytosterol biosynthesis (plants): Δ^24-25-sitosterol + H⁺ + NADPH ⟶ NADP⁺ + sitosterol
phytosterol biosynthesis (plants): Δ^24-25-sitosterol + H⁺ + NADPH ⟶ NADP⁺ + sitosterol
phytosterol biosynthesis (plants): Δ^24-25-sitosterol + H⁺ + NADPH ⟶ NADP⁺ + sitosterol
phytosterol biosynthesis (plants): Δ^24-25-sitosterol + H⁺ + NADPH ⟶ NADP⁺ + sitosterol
phytosterol biosynthesis (plants): Δ^24-25-sitosterol + H⁺ + NADPH ⟶ NADP⁺ + sitosterol
phytosterol biosynthesis (plants): Δ^24-25-sitosterol + H⁺ + NADPH ⟶ NADP⁺ + sitosterol
phytosterol biosynthesis (plants): Δ^24-25-sitosterol + H⁺ + NADPH ⟶ NADP⁺ + sitosterol
phytosterol biosynthesis (plants): Δ^24-25-sitosterol + H⁺ + NADPH ⟶ NADP⁺ + sitosterol
phytosterol biosynthesis (plants): Δ^24-25-sitosterol + H⁺ + NADPH ⟶ NADP⁺ + sitosterol
phytosterol biosynthesis (plants): Δ^24-25-sitosterol + H⁺ + NADPH ⟶ NADP⁺ + sitosterol
phytosterol biosynthesis (plants): Δ^24-25-sitosterol + H⁺ + NADPH ⟶ NADP⁺ + sitosterol
phytosterol biosynthesis (plants): Δ^24-25-sitosterol + H⁺ + NADPH ⟶ NADP⁺ + sitosterol
phytosterol biosynthesis (plants): Δ^24-25-sitosterol + H⁺ + NADPH ⟶ NADP⁺ + sitosterol
phytosterol biosynthesis (plants): Δ^24-25-sitosterol + H⁺ + NADPH ⟶ NADP⁺ + sitosterol
phytosterol biosynthesis (plants): Δ^24-25-sitosterol + H⁺ + NADPH ⟶ NADP⁺ + sitosterol
phytosterol biosynthesis (plants): Δ^24-25-sitosterol + H⁺ + NADPH ⟶ NADP⁺ + sitosterol
phytosterol biosynthesis (plants): Δ^24-25-sitosterol + H⁺ + NADPH ⟶ NADP⁺ + sitosterol
phytosterol biosynthesis (plants): Δ^24-25-sitosterol + H⁺ + NADPH ⟶ NADP⁺ + sitosterol
phytosterol biosynthesis (plants): Δ^24-25-sitosterol + H⁺ + NADPH ⟶ NADP⁺ + sitosterol
phytosterol biosynthesis (plants): Δ^24-25-sitosterol + H⁺ + NADPH ⟶ NADP⁺ + sitosterol
phytosterol biosynthesis (plants): Δ^24-25-sitosterol + H⁺ + NADPH ⟶ NADP⁺ + sitosterol
phytosterol biosynthesis (plants): Δ^24-25-sitosterol + H⁺ + NADPH ⟶ NADP⁺ + sitosterol
phytosterol biosynthesis (plants): O₂ + a reduced [NADPH-hemoprotein reductase] + sitosterol ⟶ H₂O + an oxidized [NADPH-hemoprotein reductase] + stigmasterol
phytosterol biosynthesis (plants): Δ^24-25-sitosterol + H⁺ + NADPH ⟶ NADP⁺ + sitosterol
phytosterol biosynthesis (plants): Δ^24-25-sitosterol + H⁺ + NADPH ⟶ NADP⁺ + sitosterol
phytosterol biosynthesis (plants): Δ^24-25-sitosterol + H⁺ + NADPH ⟶ NADP⁺ + sitosterol
phytosterol biosynthesis (plants): Δ^24-25-sitosterol + H⁺ + NADPH ⟶ NADP⁺ + sitosterol
phytosterol biosynthesis (plants): Δ^24-25-sitosterol + H⁺ + NADPH ⟶ NADP⁺ + sitosterol
phytosterol biosynthesis (plants): Δ^24-25-sitosterol + H⁺ + NADPH ⟶ NADP⁺ + sitosterol
phytosterol biosynthesis (plants): Δ^24-25-sitosterol + H⁺ + NADPH ⟶ NADP⁺ + sitosterol
phytosterol biosynthesis (plants): Δ^24-25-sitosterol + H⁺ + NADPH ⟶ NADP⁺ + sitosterol
phytosterol biosynthesis (plants): Δ^24-25-sitosterol + H⁺ + NADPH ⟶ NADP⁺ + sitosterol
phytosterol biosynthesis (plants): Δ^24-25-sitosterol + H⁺ + NADPH ⟶ NADP⁺ + sitosterol
phytosterol biosynthesis (plants): Δ^24-25-sitosterol + H⁺ + NADPH ⟶ NADP⁺ + sitosterol
phytosterol biosynthesis (plants): Δ^24-25-sitosterol + H⁺ + NADPH ⟶ NADP⁺ + sitosterol
phytosterol biosynthesis (plants): Δ^24-25-sitosterol + H⁺ + NADPH ⟶ NADP⁺ + sitosterol
phytosterol biosynthesis (plants): Δ^24-25-sitosterol + H⁺ + NADPH ⟶ NADP⁺ + sitosterol
phytosterol biosynthesis (plants): Δ^24-25-sitosterol + H⁺ + NADPH ⟶ NADP⁺ + sitosterol
phytosterol biosynthesis (plants): Δ^24-25-sitosterol + H⁺ + NADPH ⟶ NADP⁺ + sitosterol
phytosterol biosynthesis (plants): Δ^24-25-sitosterol + H⁺ + NADPH ⟶ NADP⁺ + sitosterol
phytosterol biosynthesis (plants): Δ^24-25-sitosterol + H⁺ + NADPH ⟶ NADP⁺ + sitosterol
phytosterol biosynthesis (plants): Δ^24-25-sitosterol + H⁺ + NADPH ⟶ NADP⁺ + sitosterol
phytosterol biosynthesis (plants): Δ^24-25-sitosterol + H⁺ + NADPH ⟶ NADP⁺ + sitosterol
phytosterol biosynthesis (plants): Δ^24-25-sitosterol + H⁺ + NADPH ⟶ NADP⁺ + sitosterol
phytosterol biosynthesis (plants): Δ^24-25-sitosterol + H⁺ + NADPH ⟶ NADP⁺ + sitosterol
phytosterol biosynthesis (plants): NADP⁺ + isofucosterol ⟶ 5-dehydroavenasterol + H⁺ + NADPH
phytosterol biosynthesis (plants): Δ^24-25-sitosterol + H⁺ + NADPH ⟶ NADP⁺ + sitosterol
phytosterol biosynthesis (plants): Δ^24-25-sitosterol + H⁺ + NADPH ⟶ NADP⁺ + sitosterol
phytosterol biosynthesis (plants): Δ^24-25-sitosterol + H⁺ + NADPH ⟶ NADP⁺ + sitosterol
phytosterol biosynthesis (plants): Δ^24-25-sitosterol + H⁺ + NADPH ⟶ NADP⁺ + sitosterol
phytosterol biosynthesis (plants): Δ^24-25-sitosterol + H⁺ + NADPH ⟶ NADP⁺ + sitosterol
phytosterol biosynthesis (plants): Δ^24-25-sitosterol + H⁺ + NADPH ⟶ NADP⁺ + sitosterol
phytosterol biosynthesis (plants): Δ^24-25-sitosterol + H⁺ + NADPH ⟶ NADP⁺ + sitosterol
phytosterol biosynthesis (plants): isofucosterol ⟶ Δ^24-25-sitosterol
phytosterol biosynthesis (plants): Δ^24-25-sitosterol + H⁺ + NADPH ⟶ NADP⁺ + sitosterol
phytosterol biosynthesis (plants): Δ^24-25-sitosterol + H⁺ + NADPH ⟶ NADP⁺ + sitosterol
phytosterol biosynthesis (plants): Δ^24-25-sitosterol + H⁺ + NADPH ⟶ NADP⁺ + sitosterol
phytosterol biosynthesis (plants): Δ^24-25-sitosterol + H⁺ + NADPH ⟶ NADP⁺ + sitosterol
phytosterol biosynthesis (plants): Δ^24-25-sitosterol + H⁺ + NADPH ⟶ NADP⁺ + sitosterol
phytosterol biosynthesis (plants): Δ^24-25-sitosterol + H⁺ + NADPH ⟶ NADP⁺ + sitosterol
phytosterol biosynthesis (plants): Δ^24-25-sitosterol + H⁺ + NADPH ⟶ NADP⁺ + sitosterol
phytosterol biosynthesis (plants): Δ^24-25-sitosterol + H⁺ + NADPH ⟶ NADP⁺ + sitosterol
phytosterol biosynthesis (plants): Δ^24-25-sitosterol + H⁺ + NADPH ⟶ NADP⁺ + sitosterol
phytosterol biosynthesis (plants): Δ^24-25-sitosterol + H⁺ + NADPH ⟶ NADP⁺ + sitosterol
phytosterol biosynthesis (plants): Δ^24-25-sitosterol + H⁺ + NADPH ⟶ NADP⁺ + sitosterol
phytosterol biosynthesis (plants): Δ^24-25-sitosterol + H⁺ + NADPH ⟶ NADP⁺ + sitosterol
phytosterol biosynthesis (plants): Δ^24-25-sitosterol + H⁺ + NADPH ⟶ NADP⁺ + sitosterol
phytosterol biosynthesis (plants): Δ^24-25-sitosterol + H⁺ + NADPH ⟶ NADP⁺ + sitosterol
phytosterol biosynthesis (plants): Δ^24-25-sitosterol + H⁺ + NADPH ⟶ NADP⁺ + sitosterol
phytosterol biosynthesis (plants): Δ^24-25-sitosterol + H⁺ + NADPH ⟶ NADP⁺ + sitosterol
phytosterol biosynthesis (plants): Δ^24-25-sitosterol + H⁺ + NADPH ⟶ NADP⁺ + sitosterol
phytosterol biosynthesis (plants): Δ^24-25-sitosterol + H⁺ + NADPH ⟶ NADP⁺ + sitosterol
phytosterol biosynthesis (plants): Δ^24-25-sitosterol + H⁺ + NADPH ⟶ NADP⁺ + sitosterol
phytosterol biosynthesis (plants): Δ^24-25-sitosterol + H⁺ + NADPH ⟶ NADP⁺ + sitosterol
phytosterol biosynthesis (plants): Δ^24-25-sitosterol + H⁺ + NADPH ⟶ NADP⁺ + sitosterol

COVID-19 Disease Map(0)

PathBank(0)

PharmGKB(0)

62 个相关的物种来源信息

4668 - Amaryllidaceae: LTS0042683
180131 - Ammocharis: LTS0042683
180132 - Ammocharis coranica: 10.1016/S0031-9422(00)00039-X
180132 - Ammocharis coranica: LTS0042683
4056 - Apocynaceae: LTS0042683
3702 - Arabidopsis thaliana: 10.1111/J.1365-313X.2004.02039.X
6544 - Bivalvia: LTS0042683
124946 - Cedrela: LTS0042683
124947 - Cedrela odorata: 10.1016/S0031-9422(96)00747-9
124947 - Cedrela odorata: LTS0042683
87658 - Corymbia: LTS0042683
34329 - Corymbia citriodora: 10.1002/JCCS.200000074
34329 - Corymbia citriodora: LTS0042683
289802 - Dilodendron: LTS0042683
289803 - Dilodendron bipinnatum: 10.1590/S0100-40422010001000014
289803 - Dilodendron bipinnatum: LTS0042683
2759 - Eukaryota: LTS0042683
3990 - Euphorbia: LTS0042683
334664 - Euphorbia antiquorum: 10.1016/0031-9422(90)80134-3
334664 - Euphorbia antiquorum: LTS0042683
1138347 - Euphorbia guyoniana: 10.1016/J.PHYTOCHEM.2007.01.017
1138347 - Euphorbia guyoniana: LTS0042683
1031525 - Euphorbia kopetdaghi: 10.1016/J.PHYTOCHEM.2007.01.017
1091645 - Euphorbia retusa: 10.1021/NP900127J
1091645 - Euphorbia retusa: LTS0042683
1130020 - Euphorbia royleana: 10.1016/J.PHYTOCHEM.2007.01.017
1091647 - Euphorbia sulcata: 10.1021/NP900127J
3977 - Euphorbiaceae: LTS0042683
9606 - Homo sapiens: -
52831 - Hoya: LTS0042683
141487 - Hoya australis: 10.1055/S-0028-1097228
141487 - Hoya australis: LTS0042683
4136 - Lamiaceae: LTS0042683
4447 - Liliopsida: LTS0042683
3398 - Magnoliopsida: LTS0042683
43708 - Melia: LTS0042683
155640 - Melia azedarach: 10.1055/S-0028-1097188
155640 - Melia azedarach: LTS0042683
43707 - Meliaceae: LTS0042683
33208 - Metazoa: LTS0042683
6447 - Mollusca: LTS0042683
4640 - Musa: LTS0042683
89151 - Musa × paradisiaca: 10.1016/S0031-9422(98)80081-2
4637 - Musaceae: LTS0042683
3931 - Myrtaceae: LTS0042683
78815 - Nervilia: LTS0042683
163058 - Nervilia plicata: 10.1016/0040-4039(81)80127-X
163058 - Nervilia plicata: LTS0042683
4747 - Orchidaceae: LTS0042683
4527 - Oryza: LTS0042683
4479 - Poaceae: LTS0042683
23672 - Sapindaceae: LTS0042683
4139 - Scutellaria: LTS0042683
1383557 - Scutellaria discolor: 10.1248/CPB.44.1540
1383557 - Scutellaria discolor: LTS0042683
121179 - Semelidae: LTS0042683
155231 - Sideritis: LTS0042683
403019 - Sideritis discolor: 10.1016/J.PHYTOCHEM.2009.05.011
403019 - Sideritis discolor: LTS0042683
35493 - Streptophyta: LTS0042683
58023 - Tracheophyta: LTS0042683
33090 - Viridiplantae: LTS0042683

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

Saravanan Kandasamy, Sasikala Ramu, Somaradhya Mallikarjuna Aradhya. In vitro functional properties of crude extracts and isolated compounds from banana pseudostem and rhizome. Journal of the science of food and agriculture. 2016 Mar; 96(4):1347-55. doi: 10.1002/jsfa.7229. [PMID: 25914102]
Panawan Suttiarporn, Watcharapong Chumpolsri, Sugunya Mahatheeranont, Suwaporn Luangkamin, Somsuda Teepsawang, Vijittra Leardkamolkarn. Structures of phytosterols and triterpenoids with potential anti-cancer activity in bran of black non-glutinous rice. Nutrients. 2015 Mar; 7(3):1672-87. doi: 10.3390/nu7031672. [PMID: 25756784]
Emmanuel Adekanmi Adewusi, Paul Steenkamp, Gerda Fouche, Vanessa Steenkamp. Isolation of cycloeucalenol from Boophone disticha and evaluation of its cytotoxicity. Natural product communications. 2013 Sep; 8(9):1213-6. doi: . [PMID: 24273848]
Xia Liu, Yan-Ling Liu, Xiao-Feng Niu, Lin Qi. [Study on the chemical constituents of Chloranthus multistachys]. Zhong yao cai = Zhongyaocai = Journal of Chinese medicinal materials. 2012 Aug; 35(8):1254-6. doi: . [PMID: 23320357]
Markus Schröder, Walter Vetter. Investigation of unsaponifiable matter of plant oils and isolation of eight phytosterols by means of high-speed counter-current chromatography. Journal of chromatography. A. 2012 May; 1237(?):96-105. doi: 10.1016/j.chroma.2012.03.033. [PMID: 22481107]
Naïm Stiti, Marie-Andrée Hartmann. Nonsterol Triterpenoids as Major Constituents of Olea europaea. Journal of lipids. 2012; 2012(?):476595. doi: 10.1155/2012/476595. [PMID: 22523691]
Theerawut Klangjareonchai, Chulaporn Roongpisuthipong. The effect of Tinospora crispa on serum glucose and insulin levels in patients with type 2 diabetes mellitus. Journal of biomedicine & biotechnology. 2012; 2012(?):808762. doi: 10.1155/2012/808762. [PMID: 22131824]
Rahele Ghanbari, Farooq Anwar, Khalid M Alkharfy, Anwarul-Hassan Gilani, Nazamid Saari. Valuable nutrients and functional bioactives in different parts of olive (Olea europaea L.)-a review. International journal of molecular sciences. 2012; 13(3):3291-3340. doi: 10.3390/ijms13033291. [PMID: 22489153]
Chunchao Zhao, Jianhua Shao, Xian Li. [Chemical constituents from fruits of Ailanthus altissima]. Zhongguo Zhong yao za zhi = Zhongguo zhongyao zazhi = China journal of Chinese materia medica. 2009 Sep; 34(17):2197-9. doi: . [PMID: 19943484]
Hui-Fang Pi, Peng Zhang, Han-Li Ruan, Yong-Hui Zhang, Han-Dong Sun, Ji-Zhou Wu. Two new triterpenoids from the leaves and stems of Fritillaria hupehensis. Journal of Asian natural products research. 2009 Sep; 11(9):779-82. doi: 10.1080/10286020903071050. [PMID: 20183324]
Yong-Hui Li, Yi-Fang Yang, Kun Li, Li-Li Jin, Nian-Yun Yang, De-Yun Kong. 5 alpha-reductase and aromatase inhibitory constituents from Brassica rapa L. pollen. Chemical & pharmaceutical bulletin. 2009 Apr; 57(4):401-4. doi: 10.1248/cpb.57.401. [PMID: 19336936]
Thitima Rukachaisirikul, Amporn Saekee, Chatchana Tharibun, Sudarut Watkuolham, Apichart Suksamrarn. Biological activities of the chemical constituents of Erythrina stricta and Erythrina subumbrans. Archives of pharmacal research. 2007 Nov; 30(11):1398-403. doi: 10.1007/bf02977363. [PMID: 18087807]
Lei Wang, Zhi-qi Yin, Lei-hong Zhang, Wen-cai Ye, Xiao-qi Zhang, Wen-bin Shen, Shou-xun Zhao. [Chemical constituents from root barks of Periploca sepium]. Zhongguo Zhong yao za zhi = Zhongguo zhongyao zazhi = China journal of Chinese materia medica. 2007 Jul; 32(13):1300-2. doi: . [PMID: 17879730]
Hamada Haba, Catherine Lavaud, Hassina Harkat, Abdulmagid Alabdul Magid, Laurence Marcourt, Mohammed Benkhaled. Diterpenoids and triterpenoids from Euphorbia guyoniana. Phytochemistry. 2007 May; 68(9):1255-60. doi: 10.1016/j.phytochem.2007.01.017. [PMID: 17337022]
Jin-bo Fang, Hong-quan Duan, Yan-wen Zhang, Takaishi Yoshihisa. [Chemical constituents from herb of Alternanthera philoxeroides]. Zhongguo Zhong yao za zhi = Zhongguo zhongyao zazhi = China journal of Chinese materia medica. 2006 Jul; 31(13):1072-5. doi: . [PMID: 17048605]
Ngampong Kongkathip, Prasan Dhumma-upakorn, Boonsong Kongkathip, Khanittha Chawananoraset, Prapasri Sangchomkaeo, Som Hatthakitpanichakul. Study on cardiac contractility of cycloeucalenol and cycloeucalenone isolated from Tinospora crispa. Journal of ethnopharmacology. 2002 Nov; 83(1-2):95-9. doi: 10.1016/s0378-8741(02)00210-6. [PMID: 12413712]
Marie-Andrée Hartmann, Anne-Marie Perret, Jean-Pierre Carde, Claude Cassagne, Patrick Moreau. Inhibition of the sterol pathway in leek seedlings impairs phosphatidylserine and glucosylceramide synthesis but triggers an accumulation of triacylglycerols. Biochimica et biophysica acta. 2002 Aug; 1583(3):285-96. doi: 10.1016/s1388-1981(02)00249-4. [PMID: 12176396]