Neurosporene (BioDeep_00000005818)
Secondary id: BioDeep_00000638803
human metabolite Endogenous blood metabolite
代谢物信息卡片
(6E,8E,10E,12E,14E,16E,18E,20E,22E,26E)-2,6,10,14,19,23,27,31-Octamethyldotriaconta-2,6,8,10,12,14,16,18,20,22,26,30-dodecaene
化学式: C40H58 (538.4538268)
中文名称:
谱图信息:
最多检出来源 Homo sapiens(blood) 0.12%
分子结构信息
SMILES: CC(=CCCC(=CCCC(=CC=CC(=CC=CC=C(C)C=CC=C(C)C=CC=C(C)CCC=C(C)C)C)C)C)C
InChI: InChI=1S/C40H58/c1-33(2)19-13-23-37(7)27-17-31-39(9)29-15-25-35(5)21-11-12-22-36(6)26-16-30-40(10)32-18-28-38(8)24-14-20-34(3)4/h11-12,15-17,19-22,25-31H,13-14,18,23-24,32H2,1-10H3/b12-11+,25-15+,26-16+,31-17+,35-21+,36-22+,37-27+,38-28+,39-29+,40-30+
描述信息
Neurosporene, also known as all-trans-neurosporene or 7,8-dihydro-ψ,ψ-carotene, is a member of the class of compounds known as carotenes. Carotenes are a type of unsaturated hydrocarbons containing eight consecutive isoprene units. They are characterized by the presence of two end-groups (mostly cyclohexene rings, but also cyclopentene rings or acyclic groups) linked by a long branched alkyl chain. Carotenes belonging form a subgroup of the carotenoids family. Thus, neurosporene is considered to be an isoprenoid lipid molecule. Neurosporene can be found in a number of food items such as chicory, poppy, silver linden, and towel gourd, which makes neurosporene a potential biomarker for the consumption of these food products. Neurosporene can be found primarily in blood and breast milk. Neurosporene is a carotenoid pigment. It is an intermediate in the biosynthesis of lycopene and a variety of bacterial carotenoids .
Neurosporene is a triterpenoid carotenoid identified in human plasma, (PMID: 1416048), serum (PMID: 1416048), milk (PMID: 9164160), and tissues of the human eye (PMID: 11180970).
D020011 - Protective Agents > D000975 - Antioxidants > D002338 - Carotenoids
同义名列表
9 个代谢物同义名
(6E,8E,10E,12E,14E,16E,18E,20E,22E,26E)-2,6,10,14,19,23,27,31-Octamethyldotriaconta-2,6,8,10,12,14,16,18,20,22,26,30-dodecaene; (9Z,7Z,9Z)-7,8-Dihydrolycopene; 7,8-Dihydro-psi,psi-carotene; 7,8-Dihydro-ψ,ψ-carotene; 1,2-Dihydroneurosporene; all-trans neurosporene; all-trans-Neurosporene; Neurosporene; Neurosporin
数据库引用编号
18 个数据库交叉引用编号
- ChEBI: CHEBI:16833
- KEGG: C05431
- PubChem: 5280789
- PubChem: 164636
- HMDB: HMDB0003114
- Metlin: METLIN3591
- Wikipedia: Neurosporene
- MetaCyc: NEUROSPORENE
- MetaCyc: CPD-7524
- KNApSAcK: C00000912
- foodb: FDB030661
- chemspider: 4444347
- CAS: 502-64-7
- PMhub: MS000018707
- PubChem: 7795
- LipidMAPS: LMPR01070086
- 3DMET: B00777
- NIKKAJI: J12.234C
分类词条
相关代谢途径
Reactome(0)
BioCyc(6)
代谢反应
304 个相关的代谢反应过程信息。
Reactome(0)
BioCyc(13)
- β-carotene biosynthesis (engineered):
all-trans phytofluene + A ⟶ all-trans-ζ-carotene + A(H2) - neurosporene biosynthesis:
all-trans phytofluene + A ⟶ all-trans-ζ-carotene + A(H2) - trans-lycopene biosynthesis I:
all-trans phytofluene + A ⟶ all-trans-ζ-carotene + A(H2) - neurosporene biosynthesis:
all-trans-ζ-carotene + A ⟶ all-trans neurosporene + A(H2) - neurosporene biosynthesis:
15-cis-phytoene + A ⟶ all-trans phytofluene + A(H2) - trans-lycopene biosynthesis I (bacteria):
all-trans neurosporene + A ⟶ all-trans-lycopene + A(H2) - trans-lycopene biosynthesis I (bacteria):
all-trans neurosporene + A ⟶ all-trans-lycopene + A(H2) - neurosporene biosynthesis:
15-cis-phytoene + A ⟶ all-trans phytofluene + A(H2) - neurosporene biosynthesis:
15-cis-phytoene + A ⟶ all-trans phytofluene + A(H2) - trans-lycopene biosynthesis I (bacteria):
all-trans neurosporene + A ⟶ all-trans-lycopene + A(H2) - okenone biosynthesis:
A + thiothece-474 ⟶ A(H2) + okenone - spirilloxanthin and 2,2'-diketo-spirilloxanthin biosynthesis:
2-oxospirilloxanthin + H+ + O2 + a reduced ferredoxin [iron-sulfur] cluster ⟶ 2,2'-dioxospirilloxanthin + H2O + an oxidized ferredoxin [iron-sulfur] cluster - spheroidene and spheroidenone biosynthesis:
1-hydroxyneurosporene ⟶ all-trans neurosporene + H2O
WikiPathways(0)
Plant Reactome(228)
- Metabolism and regulation:
ATP + CoA + propionate ⟶ AMP + PPi + PROP-CoA - Secondary metabolism:
GPP + H2O ⟶ PPi + geraniol - Carotenoid biosynthesis:
Oxygen + beta-cryptoxanthin + hydrogen donor ⟶ H2O + hydrogen acceptor + zeaxanthin - Metabolism and regulation:
CoA + NAD + methylmalonate-semialdehyde ⟶ NADH + PROP-CoA + carbon dioxide - Secondary metabolism:
ATP + CoA-SH + ferulate ⟶ AMP + PPi + feruloyl-CoA - Carotenoid biosynthesis:
Oxygen + TPNH + zeinoxanthin ⟶ H2O + TPN + lutein - Metabolism and regulation:
CoA + NAD + methylmalonate-semialdehyde ⟶ NADH + PROP-CoA + carbon dioxide - Secondary metabolism:
ATP + CoA-SH + ferulate ⟶ AMP + PPi + feruloyl-CoA - Carotenoid biosynthesis:
Oxygen + TPNH + zeinoxanthin ⟶ H2O + TPN + lutein - Metabolism and regulation:
CoA + NAD + methylmalonate-semialdehyde ⟶ NADH + PROP-CoA + carbon dioxide - Secondary metabolism:
DMAPP + genistein ⟶ PPi + lupiwighteone - Carotenoid biosynthesis:
Oxygen + TPNH + zeinoxanthin ⟶ H2O + TPN + lutein - Metabolism and regulation:
FAD + PROP-CoA ⟶ FADH2 + acryloyl-CoA - Secondary metabolism:
ATP + CoA-SH + ferulate ⟶ AMP + PPi + feruloyl-CoA - Carotenoid biosynthesis:
Oxygen + TPNH + zeinoxanthin ⟶ H2O + TPN + lutein - Metabolism and regulation:
CoA + NAD + methylmalonate-semialdehyde ⟶ NADH + PROP-CoA + carbon dioxide - Secondary metabolism:
ATP + CoA-SH + ferulate ⟶ AMP + PPi + feruloyl-CoA - Carotenoid biosynthesis:
Oxygen + TPNH + zeinoxanthin ⟶ H2O + TPN + lutein - Metabolism and regulation:
CoA + NAD + methylmalonate-semialdehyde ⟶ NADH + PROP-CoA + carbon dioxide - Secondary metabolism:
ATP + CoA-SH + ferulate ⟶ AMP + PPi + feruloyl-CoA - Carotenoid biosynthesis:
Oxygen + TPNH + zeinoxanthin ⟶ H2O + TPN + lutein - Metabolism and regulation:
CoA + NAD + methylmalonate-semialdehyde ⟶ NADH + PROP-CoA + carbon dioxide - Secondary metabolism:
ATP + CoA-SH + ferulate ⟶ AMP + PPi + feruloyl-CoA - Carotenoid biosynthesis:
Oxygen + TPNH + zeinoxanthin ⟶ H2O + TPN + lutein - Metabolism and regulation:
FAD + PROP-CoA ⟶ FADH2 + acryloyl-CoA - Secondary metabolism:
ATP + CoA-SH + ferulate ⟶ AMP + PPi + feruloyl-CoA - Carotenoid biosynthesis:
Oxygen + TPNH + zeinoxanthin ⟶ H2O + TPN + lutein - Metabolism and regulation:
CoA + NAD + methylmalonate-semialdehyde ⟶ NADH + PROP-CoA + carbon dioxide - Secondary metabolism:
ATP + CoA-SH + ferulate ⟶ AMP + PPi + feruloyl-CoA - Carotenoid biosynthesis:
Oxygen + TPNH + zeinoxanthin ⟶ H2O + TPN + lutein - Metabolism and regulation:
CoA + NAD + methylmalonate-semialdehyde ⟶ NADH + PROP-CoA + carbon dioxide - Secondary metabolism:
ATP + CoA-SH + ferulate ⟶ AMP + PPi + feruloyl-CoA - Carotenoid biosynthesis:
Oxygen + TPNH + zeinoxanthin ⟶ H2O + TPN + lutein - Metabolism and regulation:
CoA + NAD + methylmalonate-semialdehyde ⟶ NADH + PROP-CoA + carbon dioxide - Secondary metabolism:
ATP + CoA-SH + ferulate ⟶ AMP + PPi + feruloyl-CoA - Carotenoid biosynthesis:
Oxygen + TPNH + zeinoxanthin ⟶ H2O + TPN + lutein - Metabolism and regulation:
CoA + NAD + methylmalonate-semialdehyde ⟶ NADH + PROP-CoA + carbon dioxide - Secondary metabolism:
ATP + CoA-SH + ferulate ⟶ AMP + PPi + feruloyl-CoA - Carotenoid biosynthesis:
Oxygen + TPNH + zeinoxanthin ⟶ H2O + TPN + lutein - Metabolism and regulation:
CoA + NAD + methylmalonate-semialdehyde ⟶ NADH + PROP-CoA + carbon dioxide - Secondary metabolism:
ATP + CoA-SH + ferulate ⟶ AMP + PPi + feruloyl-CoA - Carotenoid biosynthesis:
Oxygen + TPNH + zeinoxanthin ⟶ H2O + TPN + lutein - Metabolism and regulation:
FAD + PROP-CoA ⟶ FADH2 + acryloyl-CoA - Secondary metabolism:
ATP + CoA-SH + ferulate ⟶ AMP + PPi + feruloyl-CoA - Carotenoid biosynthesis:
Oxygen + TPNH + zeinoxanthin ⟶ H2O + TPN + lutein - Metabolism and regulation:
CoA + NAD + methylmalonate-semialdehyde ⟶ NADH + PROP-CoA + carbon dioxide - Secondary metabolism:
ATP + CoA-SH + ferulate ⟶ AMP + PPi + feruloyl-CoA - Carotenoid biosynthesis:
Oxygen + TPNH + zeinoxanthin ⟶ H2O + TPN + lutein - Metabolism and regulation:
FAD + PROP-CoA ⟶ FADH2 + acryloyl-CoA - Secondary metabolism:
ATP + CoA-SH + ferulate ⟶ AMP + PPi + feruloyl-CoA - Carotenoid biosynthesis:
Oxygen + TPNH + zeinoxanthin ⟶ H2O + TPN + lutein - Metabolism and regulation:
FAD + PROP-CoA ⟶ FADH2 + acryloyl-CoA - Secondary metabolism:
ATP + CoA-SH + ferulate ⟶ AMP + PPi + feruloyl-CoA - Carotenoid biosynthesis:
Oxygen + TPNH + zeinoxanthin ⟶ H2O + TPN + lutein - Metabolism and regulation:
L-Glu + imidazole acetol-phosphate ⟶ 2OG + L-histidinol-phosphate - Secondary metabolism:
DMAPP + genistein ⟶ PPi + lupiwighteone - Carotenoid biosynthesis:
gamma-carotene ⟶ beta-carotene - Metabolism and regulation:
CoA + NAD + methylmalonate-semialdehyde ⟶ NADH + PROP-CoA + carbon dioxide - Secondary metabolism:
ATP + CoA-SH + ferulate ⟶ AMP + PPi + feruloyl-CoA - Carotenoid biosynthesis:
Oxygen + TPNH + zeinoxanthin ⟶ H2O + TPN + lutein - Metabolism and regulation:
FAD + PROP-CoA ⟶ FADH2 + acryloyl-CoA - Secondary metabolism:
ATP + CoA-SH + ferulate ⟶ AMP + PPi + feruloyl-CoA - Carotenoid biosynthesis:
Oxygen + TPNH + zeinoxanthin ⟶ H2O + TPN + lutein - Metabolism and regulation:
CoA + NAD + methylmalonate-semialdehyde ⟶ NADH + PROP-CoA + carbon dioxide - Secondary metabolism:
ATP + CoA-SH + ferulate ⟶ AMP + PPi + feruloyl-CoA - Carotenoid biosynthesis:
Oxygen + TPNH + zeinoxanthin ⟶ H2O + TPN + lutein - Metabolism and regulation:
CoA + NAD + methylmalonate-semialdehyde ⟶ NADH + PROP-CoA + carbon dioxide - Secondary metabolism:
ATP + CoA-SH + ferulate ⟶ AMP + PPi + feruloyl-CoA - Carotenoid biosynthesis:
Oxygen + TPNH + zeinoxanthin ⟶ H2O + TPN + lutein - Metabolism and regulation:
CoA + NAD + methylmalonate-semialdehyde ⟶ NADH + PROP-CoA + carbon dioxide - Secondary metabolism:
ATP + CoA-SH + ferulate ⟶ AMP + PPi + feruloyl-CoA - Carotenoid biosynthesis:
Oxygen + TPNH + zeinoxanthin ⟶ H2O + TPN + lutein - Metabolism and regulation:
CoA + NAD + methylmalonate-semialdehyde ⟶ NADH + PROP-CoA + carbon dioxide - Secondary metabolism:
ATP + CoA-SH + ferulate ⟶ AMP + PPi + feruloyl-CoA - Carotenoid biosynthesis:
Oxygen + TPNH + zeinoxanthin ⟶ H2O + TPN + lutein - Metabolism and regulation:
FAD + PROP-CoA ⟶ FADH2 + acryloyl-CoA - Secondary metabolism:
ATP + CoA-SH + ferulate ⟶ AMP + PPi + feruloyl-CoA - Carotenoid biosynthesis:
Oxygen + TPNH + zeinoxanthin ⟶ H2O + TPN + lutein - Metabolism and regulation:
CoA + NAD + methylmalonate-semialdehyde ⟶ NADH + PROP-CoA + carbon dioxide - Secondary metabolism:
ATP + CoA-SH + ferulate ⟶ AMP + PPi + feruloyl-CoA - Carotenoid biosynthesis:
Oxygen + TPNH + zeinoxanthin ⟶ H2O + TPN + lutein - Metabolism and regulation:
CoA + NAD + methylmalonate-semialdehyde ⟶ NADH + PROP-CoA + carbon dioxide - Secondary metabolism:
ATP + CoA-SH + ferulate ⟶ AMP + PPi + feruloyl-CoA - Carotenoid biosynthesis:
Oxygen + TPNH + zeinoxanthin ⟶ H2O + TPN + lutein - Metabolism and regulation:
FAD + PROP-CoA ⟶ FADH2 + acryloyl-CoA - Secondary metabolism:
ATP + CoA-SH + ferulate ⟶ AMP + PPi + feruloyl-CoA - Carotenoid biosynthesis:
Oxygen + TPNH + zeinoxanthin ⟶ H2O + TPN + lutein - Metabolism and regulation:
CoA + NAD + methylmalonate-semialdehyde ⟶ NADH + PROP-CoA + carbon dioxide - Secondary metabolism:
ATP + CoA-SH + ferulate ⟶ AMP + PPi + feruloyl-CoA - Carotenoid biosynthesis:
Oxygen + TPNH + zeinoxanthin ⟶ H2O + TPN + lutein - Metabolism and regulation:
CoA + NAD + methylmalonate-semialdehyde ⟶ NADH + PROP-CoA + carbon dioxide - Secondary metabolism:
ATP + CoA-SH + ferulate ⟶ AMP + PPi + feruloyl-CoA - Carotenoid biosynthesis:
Oxygen + TPNH + zeinoxanthin ⟶ H2O + TPN + lutein - Metabolism and regulation:
CoA + NAD + methylmalonate-semialdehyde ⟶ NADH + PROP-CoA + carbon dioxide - Secondary metabolism:
ATP + CoA-SH + ferulate ⟶ AMP + PPi + feruloyl-CoA - Carotenoid biosynthesis:
gamma-carotene ⟶ beta-carotene - Metabolism and regulation:
CoA + NAD + methylmalonate-semialdehyde ⟶ NADH + PROP-CoA + carbon dioxide - Secondary metabolism:
ATP + CoA-SH + ferulate ⟶ AMP + PPi + feruloyl-CoA - Carotenoid biosynthesis:
Oxygen + TPNH + zeinoxanthin ⟶ H2O + TPN + lutein - Metabolism and regulation:
CoA + NAD + methylmalonate-semialdehyde ⟶ NADH + PROP-CoA + carbon dioxide - Secondary metabolism:
ATP + CoA-SH + ferulate ⟶ AMP + PPi + feruloyl-CoA - Carotenoid biosynthesis:
Oxygen + TPNH + zeinoxanthin ⟶ H2O + TPN + lutein - Metabolism and regulation:
FAD + PROP-CoA ⟶ FADH2 + acryloyl-CoA - Secondary metabolism:
ATP + CoA-SH + ferulate ⟶ AMP + PPi + feruloyl-CoA - Carotenoid biosynthesis:
Oxygen + TPNH + zeinoxanthin ⟶ H2O + TPN + lutein - Metabolism and regulation:
FAD + PROP-CoA ⟶ FADH2 + acryloyl-CoA - Secondary metabolism:
ATP + CoA-SH + ferulate ⟶ AMP + PPi + feruloyl-CoA - Carotenoid biosynthesis:
Oxygen + TPNH + zeinoxanthin ⟶ H2O + TPN + lutein - Metabolism and regulation:
CoA + NAD + methylmalonate-semialdehyde ⟶ NADH + PROP-CoA + carbon dioxide - Secondary metabolism:
ATP + CoA-SH + ferulate ⟶ AMP + PPi + feruloyl-CoA - Carotenoid biosynthesis:
Oxygen + TPNH + zeinoxanthin ⟶ H2O + TPN + lutein - Metabolism and regulation:
FAD + PROP-CoA ⟶ FADH2 + acryloyl-CoA - Secondary metabolism:
ATP + CoA-SH + ferulate ⟶ AMP + PPi + feruloyl-CoA - Carotenoid biosynthesis:
gamma-carotene ⟶ beta-carotene - Metabolism and regulation:
CoA + NAD + methylmalonate-semialdehyde ⟶ NADH + PROP-CoA + carbon dioxide - Secondary metabolism:
ATP + CoA-SH + ferulate ⟶ AMP + PPi + feruloyl-CoA - Carotenoid biosynthesis:
Oxygen + TPNH + zeinoxanthin ⟶ H2O + TPN + lutein - Metabolism and regulation:
FAD + PROP-CoA ⟶ FADH2 + acryloyl-CoA - Secondary metabolism:
ATP + CoA-SH + ferulate ⟶ AMP + PPi + feruloyl-CoA - Carotenoid biosynthesis:
Oxygen + TPNH + zeinoxanthin ⟶ H2O + TPN + lutein - Metabolism and regulation:
CoA + NAD + methylmalonate-semialdehyde ⟶ NADH + PROP-CoA + carbon dioxide - Secondary metabolism:
ATP + CoA-SH + ferulate ⟶ AMP + PPi + feruloyl-CoA - Carotenoid biosynthesis:
Oxygen + TPNH + zeinoxanthin ⟶ H2O + TPN + lutein - Metabolism and regulation:
CoA + NAD + methylmalonate-semialdehyde ⟶ NADH + PROP-CoA + carbon dioxide - Secondary metabolism:
ATP + CoA-SH + ferulate ⟶ AMP + PPi + feruloyl-CoA - Carotenoid biosynthesis:
Oxygen + TPNH + zeinoxanthin ⟶ H2O + TPN + lutein - Metabolism and regulation:
FAD + PROP-CoA ⟶ FADH2 + acryloyl-CoA - Secondary metabolism:
ATP + CoA-SH + ferulate ⟶ AMP + PPi + feruloyl-CoA - Carotenoid biosynthesis:
Oxygen + hydrogen donor + neurosporene ⟶ H2O + hydrogen acceptor + lycopene - Metabolism and regulation:
FAD + PROP-CoA ⟶ FADH2 + acryloyl-CoA - Secondary metabolism:
ATP + CoA-SH + ferulate ⟶ AMP + PPi + feruloyl-CoA - Carotenoid biosynthesis:
Oxygen + TPNH + zeinoxanthin ⟶ H2O + TPN + lutein - Metabolism and regulation:
CoA + NAD + methylmalonate-semialdehyde ⟶ NADH + PROP-CoA + carbon dioxide - Secondary metabolism:
ATP + CoA-SH + ferulate ⟶ AMP + PPi + feruloyl-CoA - Carotenoid biosynthesis:
Oxygen + TPNH + zeinoxanthin ⟶ H2O + TPN + lutein - Metabolism and regulation:
CoA + NAD + methylmalonate-semialdehyde ⟶ NADH + PROP-CoA + carbon dioxide - Secondary metabolism:
ATP + CoA-SH + ferulate ⟶ AMP + PPi + feruloyl-CoA - Carotenoid biosynthesis:
Oxygen + TPNH + zeinoxanthin ⟶ H2O + TPN + lutein - Metabolism and regulation:
L-Glu + imidazole acetol-phosphate ⟶ 2OG + L-histidinol-phosphate - Secondary metabolism:
DMAPP + genistein ⟶ PPi + lupiwighteone - Carotenoid biosynthesis:
gamma-carotene ⟶ beta-carotene - Metabolism and regulation:
CoA + NAD + methylmalonate-semialdehyde ⟶ NADH + PROP-CoA + carbon dioxide - Secondary metabolism:
ATP + CoA-SH + ferulate ⟶ AMP + PPi + feruloyl-CoA - Carotenoid biosynthesis:
gamma-carotene ⟶ beta-carotene - Metabolism and regulation:
CoA + NAD + methylmalonate-semialdehyde ⟶ NADH + PROP-CoA + carbon dioxide - Secondary metabolism:
ATP + CoA-SH + ferulate ⟶ AMP + PPi + feruloyl-CoA - Carotenoid biosynthesis:
Oxygen + TPNH + zeinoxanthin ⟶ H2O + TPN + lutein - Metabolism and regulation:
FAD + PROP-CoA ⟶ FADH2 + acryloyl-CoA - Secondary metabolism:
ATP + CoA-SH + ferulate ⟶ AMP + PPi + feruloyl-CoA - Carotenoid biosynthesis:
Oxygen + TPNH + zeinoxanthin ⟶ H2O + TPN + lutein - Metabolism and regulation:
CoA + NAD + methylmalonate-semialdehyde ⟶ NADH + PROP-CoA + carbon dioxide - Secondary metabolism:
ATP + CoA-SH + ferulate ⟶ AMP + PPi + feruloyl-CoA - Carotenoid biosynthesis:
Oxygen + TPNH + zeinoxanthin ⟶ H2O + TPN + lutein - Metabolism and regulation:
CoA + NAD + methylmalonate-semialdehyde ⟶ NADH + PROP-CoA + carbon dioxide - Secondary metabolism:
ATP + CoA-SH + ferulate ⟶ AMP + PPi + feruloyl-CoA - Carotenoid biosynthesis:
Oxygen + TPNH + zeinoxanthin ⟶ H2O + TPN + lutein - Metabolism and regulation:
CoA + NAD + methylmalonate-semialdehyde ⟶ NADH + PROP-CoA + carbon dioxide - Secondary metabolism:
L-Phe ⟶ ammonia + trans-cinnamate - Carotenoid biosynthesis:
Oxygen + TPNH + zeinoxanthin ⟶ H2O + TPN + lutein - Metabolism and regulation:
CoA + NAD + methylmalonate-semialdehyde ⟶ NADH + PROP-CoA + carbon dioxide - Secondary metabolism:
ATP + CoA-SH + ferulate ⟶ AMP + PPi + feruloyl-CoA - Carotenoid biosynthesis:
Oxygen + TPNH + zeinoxanthin ⟶ H2O + TPN + lutein - Metabolism and regulation:
CoA + NAD + methylmalonate-semialdehyde ⟶ NADH + PROP-CoA + carbon dioxide - Secondary metabolism:
ATP + CoA-SH + ferulate ⟶ AMP + PPi + feruloyl-CoA - Carotenoid biosynthesis:
Oxygen + TPNH + zeinoxanthin ⟶ H2O + TPN + lutein - Metabolism and regulation:
CoA + NAD + methylmalonate-semialdehyde ⟶ NADH + PROP-CoA + carbon dioxide - Secondary metabolism:
ATP + CoA-SH + ferulate ⟶ AMP + PPi + feruloyl-CoA - Carotenoid biosynthesis:
Oxygen + TPNH + zeinoxanthin ⟶ H2O + TPN + lutein - Metabolism and regulation:
FAD + PROP-CoA ⟶ FADH2 + acryloyl-CoA - Secondary metabolism:
ATP + CoA-SH + ferulate ⟶ AMP + PPi + feruloyl-CoA - Carotenoid biosynthesis:
Oxygen + TPNH + zeinoxanthin ⟶ H2O + TPN + lutein - Metabolism and regulation:
CoA + NAD + methylmalonate-semialdehyde ⟶ NADH + PROP-CoA + carbon dioxide - Secondary metabolism:
ATP + CoA-SH + ferulate ⟶ AMP + PPi + feruloyl-CoA - Carotenoid biosynthesis:
Oxygen + TPNH + zeinoxanthin ⟶ H2O + TPN + lutein - Metabolism and regulation:
FAD + PROP-CoA ⟶ FADH2 + acryloyl-CoA - Secondary metabolism:
ATP + CoA-SH + ferulate ⟶ AMP + PPi + feruloyl-CoA - Carotenoid biosynthesis:
Oxygen + TPNH + zeinoxanthin ⟶ H2O + TPN + lutein - Metabolism and regulation:
FAD + PROP-CoA ⟶ FADH2 + acryloyl-CoA - Secondary metabolism:
ATP + CoA-SH + ferulate ⟶ AMP + PPi + feruloyl-CoA - Carotenoid biosynthesis:
Oxygen + TPNH + zeinoxanthin ⟶ H2O + TPN + lutein - Metabolism and regulation:
FAD + PROP-CoA ⟶ FADH2 + acryloyl-CoA - Secondary metabolism:
ATP + CoA-SH + ferulate ⟶ AMP + PPi + feruloyl-CoA - Carotenoid biosynthesis:
Oxygen + TPNH + zeinoxanthin ⟶ H2O + TPN + lutein - Metabolism and regulation:
CoA + NAD + methylmalonate-semialdehyde ⟶ NADH + PROP-CoA + carbon dioxide - Secondary metabolism:
ATP + CoA-SH + ferulate ⟶ AMP + PPi + feruloyl-CoA - Carotenoid biosynthesis:
Oxygen + TPNH + zeinoxanthin ⟶ H2O + TPN + lutein - Metabolism and regulation:
CoA + NAD + methylmalonate-semialdehyde ⟶ NADH + PROP-CoA + carbon dioxide - Secondary metabolism:
ATP + CoA-SH + ferulate ⟶ AMP + PPi + feruloyl-CoA - Carotenoid biosynthesis:
Oxygen + TPNH + zeinoxanthin ⟶ H2O + TPN + lutein - Metabolism and regulation:
CoA + NAD + methylmalonate-semialdehyde ⟶ NADH + PROP-CoA + carbon dioxide - Secondary metabolism:
ATP + CoA-SH + ferulate ⟶ AMP + PPi + feruloyl-CoA - Carotenoid biosynthesis:
Oxygen + TPNH + zeinoxanthin ⟶ H2O + TPN + lutein - Metabolism and regulation:
L-Glu + imidazole acetol-phosphate ⟶ 2OG + L-histidinol-phosphate - Secondary metabolism:
Fru(6)P + L-Gln ⟶ GlcN6P + L-Glu - Carotenoid biosynthesis:
Oxygen + hydrogen donor + neurosporene ⟶ H2O + hydrogen acceptor + lycopene - Metabolism and regulation:
FAD + PROP-CoA ⟶ FADH2 + acryloyl-CoA - Secondary metabolism:
ATP + CoA-SH + ferulate ⟶ AMP + PPi + feruloyl-CoA - Carotenoid biosynthesis:
Oxygen + TPNH + zeinoxanthin ⟶ H2O + TPN + lutein - Metabolism and regulation:
FAD + PROP-CoA ⟶ FADH2 + acryloyl-CoA - Secondary metabolism:
ATP + CoA-SH + ferulate ⟶ AMP + PPi + feruloyl-CoA - Carotenoid biosynthesis:
Oxygen + TPNH + zeinoxanthin ⟶ H2O + TPN + lutein - Metabolism and regulation:
CoA + NAD + methylmalonate-semialdehyde ⟶ NADH + PROP-CoA + carbon dioxide - Secondary metabolism:
ATP + CoA-SH + ferulate ⟶ AMP + PPi + feruloyl-CoA - Carotenoid biosynthesis:
Oxygen + TPNH + zeinoxanthin ⟶ H2O + TPN + lutein - Metabolism and regulation:
CoA + NAD + methylmalonate-semialdehyde ⟶ NADH + PROP-CoA + carbon dioxide - Secondary metabolism:
ATP + CoA-SH + ferulate ⟶ AMP + PPi + feruloyl-CoA - Carotenoid biosynthesis:
Oxygen + TPNH + zeinoxanthin ⟶ H2O + TPN + lutein - Metabolism and regulation:
CoA + NAD + methylmalonate-semialdehyde ⟶ NADH + PROP-CoA + carbon dioxide - Secondary metabolism:
ATP + CoA-SH + ferulate ⟶ AMP + PPi + feruloyl-CoA - Carotenoid biosynthesis:
Oxygen + TPNH + zeinoxanthin ⟶ H2O + TPN + lutein - Metabolism and regulation:
CoA + NAD + methylmalonate-semialdehyde ⟶ NADH + PROP-CoA + carbon dioxide - Secondary metabolism:
ATP + CoA-SH + ferulate ⟶ AMP + PPi + feruloyl-CoA - Carotenoid biosynthesis:
Oxygen + TPNH + zeinoxanthin ⟶ H2O + TPN + lutein - Metabolism and regulation:
CoA + NAD + methylmalonate-semialdehyde ⟶ NADH + PROP-CoA + carbon dioxide - Secondary metabolism:
ATP + CoA-SH + ferulate ⟶ AMP + PPi + feruloyl-CoA - Carotenoid biosynthesis:
Oxygen + TPNH + zeinoxanthin ⟶ H2O + TPN + lutein - Metabolism and regulation:
CoA + NAD + methylmalonate-semialdehyde ⟶ NADH + PROP-CoA + carbon dioxide - Secondary metabolism:
ATP + CoA-SH + ferulate ⟶ AMP + PPi + feruloyl-CoA - Carotenoid biosynthesis:
Oxygen + TPNH + zeinoxanthin ⟶ H2O + TPN + lutein - Metabolism and regulation:
CoA + NAD + methylmalonate-semialdehyde ⟶ NADH + PROP-CoA + carbon dioxide - Secondary metabolism:
ATP + CoA-SH + ferulate ⟶ AMP + PPi + feruloyl-CoA - Carotenoid biosynthesis:
Oxygen + TPNH + zeinoxanthin ⟶ H2O + TPN + lutein - Metabolism and regulation:
CoA + NAD + methylmalonate-semialdehyde ⟶ NADH + PROP-CoA + carbon dioxide - Secondary metabolism:
ATP + CoA-SH + ferulate ⟶ AMP + PPi + feruloyl-CoA - Carotenoid biosynthesis:
Oxygen + TPNH + zeinoxanthin ⟶ H2O + TPN + lutein - Metabolism and regulation:
CoA + NAD + methylmalonate-semialdehyde ⟶ NADH + PROP-CoA + carbon dioxide - Secondary metabolism:
ATP + CoA-SH + ferulate ⟶ AMP + PPi + feruloyl-CoA - Carotenoid biosynthesis:
Oxygen + TPNH + zeinoxanthin ⟶ H2O + TPN + lutein
INOH(0)
PlantCyc(63)
- neurosporene biosynthesis:
all-trans phytofluene + A ⟶ all-trans-ζ-carotene + A(H2) - neurosporene biosynthesis:
all-trans phytofluene + A ⟶ all-trans-ζ-carotene + A(H2) - neurosporene biosynthesis:
15-cis-phytoene + A ⟶ all-trans phytofluene + A(H2) - neurosporene biosynthesis:
all-trans phytofluene + A ⟶ all-trans-ζ-carotene + A(H2) - neurosporene biosynthesis:
15-cis-phytoene + A ⟶ all-trans phytofluene + A(H2) - neurosporene biosynthesis:
15-cis-phytoene + A ⟶ all-trans phytofluene + A(H2) - neurosporene biosynthesis:
15-cis-phytoene + A ⟶ all-trans phytofluene + A(H2) - neurosporene biosynthesis:
all-trans phytofluene + A ⟶ all-trans-ζ-carotene + A(H2) - neurosporene biosynthesis:
all-trans phytofluene + A ⟶ all-trans-ζ-carotene + A(H2) - neurosporene biosynthesis:
15-cis-phytoene + A ⟶ all-trans phytofluene + A(H2) - neurosporene biosynthesis:
all-trans phytofluene + A ⟶ all-trans-ζ-carotene + A(H2) - neurosporene biosynthesis:
all-trans phytofluene + A ⟶ all-trans-ζ-carotene + A(H2) - neurosporene biosynthesis:
15-cis-phytoene + A ⟶ all-trans phytofluene + A(H2) - neurosporene biosynthesis:
15-cis-phytoene + A ⟶ all-trans phytofluene + A(H2) - neurosporene biosynthesis:
all-trans phytofluene + A ⟶ all-trans-ζ-carotene + A(H2) - neurosporene biosynthesis:
all-trans phytofluene + A ⟶ all-trans-ζ-carotene + A(H2) - neurosporene biosynthesis:
15-cis-phytoene + A ⟶ all-trans phytofluene + A(H2) - neurosporene biosynthesis:
15-cis-phytoene + A ⟶ all-trans phytofluene + A(H2) - neurosporene biosynthesis:
15-cis-phytoene + A ⟶ all-trans phytofluene + A(H2) - neurosporene biosynthesis:
all-trans phytofluene + A ⟶ all-trans-ζ-carotene + A(H2) - neurosporene biosynthesis:
15-cis-phytoene + A ⟶ all-trans phytofluene + A(H2) - neurosporene biosynthesis:
all-trans phytofluene + A ⟶ all-trans-ζ-carotene + A(H2) - neurosporene biosynthesis:
15-cis-phytoene + A ⟶ all-trans phytofluene + A(H2) - neurosporene biosynthesis:
15-cis-phytoene + A ⟶ all-trans phytofluene + A(H2) - neurosporene biosynthesis:
15-cis-phytoene + A ⟶ all-trans phytofluene + A(H2) - neurosporene biosynthesis:
15-cis-phytoene + A ⟶ all-trans phytofluene + A(H2) - neurosporene biosynthesis:
all-trans phytofluene + A ⟶ all-trans-ζ-carotene + A(H2) - neurosporene biosynthesis:
15-cis-phytoene + A ⟶ all-trans phytofluene + A(H2) - neurosporene biosynthesis:
15-cis-phytoene + A ⟶ all-trans phytofluene + A(H2) - neurosporene biosynthesis:
15-cis-phytoene + A ⟶ all-trans phytofluene + A(H2) - neurosporene biosynthesis:
15-cis-phytoene + A ⟶ all-trans phytofluene + A(H2) - neurosporene biosynthesis:
15-cis-phytoene + A ⟶ all-trans phytofluene + A(H2) - neurosporene biosynthesis:
15-cis-phytoene + A ⟶ all-trans phytofluene + A(H2) - neurosporene biosynthesis:
15-cis-phytoene + A ⟶ all-trans phytofluene + A(H2) - neurosporene biosynthesis:
15-cis-phytoene + A ⟶ all-trans phytofluene + A(H2) - neurosporene biosynthesis:
all-trans phytofluene + A ⟶ all-trans-ζ-carotene + A(H2) - neurosporene biosynthesis:
all-trans phytofluene + A ⟶ all-trans-ζ-carotene + A(H2) - neurosporene biosynthesis:
15-cis-phytoene + A ⟶ all-trans phytofluene + A(H2) - neurosporene biosynthesis:
15-cis-phytoene + A ⟶ all-trans phytofluene + A(H2) - neurosporene biosynthesis:
15-cis-phytoene + A ⟶ all-trans phytofluene + A(H2) - neurosporene biosynthesis:
15-cis-phytoene + A ⟶ all-trans phytofluene + A(H2) - neurosporene biosynthesis:
15-cis-phytoene + A ⟶ all-trans phytofluene + A(H2) - β-carotene biosynthesis (engineered):
all-trans-ζ-carotene + A ⟶ all-trans neurosporene + A(H2) - trans-lycopene biosynthesis I:
all-trans-ζ-carotene + A ⟶ all-trans neurosporene + A(H2) - neurosporene biosynthesis:
all-trans-ζ-carotene + A ⟶ all-trans neurosporene + A(H2) - neurosporene biosynthesis:
15-cis-phytoene + A ⟶ all-trans phytofluene + A(H2) - neurosporene biosynthesis:
15-cis-phytoene + A ⟶ all-trans phytofluene + A(H2) - neurosporene biosynthesis:
15-cis-phytoene + A ⟶ all-trans phytofluene + A(H2) - neurosporene biosynthesis:
15-cis-phytoene + A ⟶ all-trans phytofluene + A(H2) - neurosporene biosynthesis:
15-cis-phytoene + A ⟶ all-trans phytofluene + A(H2) - neurosporene biosynthesis:
15-cis-phytoene + A ⟶ all-trans phytofluene + A(H2) - neurosporene biosynthesis:
15-cis-phytoene + A ⟶ all-trans phytofluene + A(H2) - neurosporene biosynthesis:
15-cis-phytoene + A ⟶ all-trans phytofluene + A(H2) - neurosporene biosynthesis:
15-cis-phytoene + A ⟶ all-trans phytofluene + A(H2) - neurosporene biosynthesis:
15-cis-phytoene + A ⟶ all-trans phytofluene + A(H2) - neurosporene biosynthesis:
15-cis-phytoene + A ⟶ all-trans phytofluene + A(H2) - neurosporene biosynthesis:
15-cis-phytoene + A ⟶ all-trans phytofluene + A(H2) - neurosporene biosynthesis:
all-trans phytofluene + A ⟶ all-trans-ζ-carotene + A(H2) - neurosporene biosynthesis:
15-cis-phytoene + A ⟶ all-trans phytofluene + A(H2) - neurosporene biosynthesis:
15-cis-phytoene + A ⟶ all-trans phytofluene + A(H2) - neurosporene biosynthesis:
15-cis-phytoene + A ⟶ all-trans phytofluene + A(H2) - neurosporene biosynthesis:
15-cis-phytoene + A ⟶ all-trans phytofluene + A(H2) - neurosporene biosynthesis:
all-trans phytofluene + A ⟶ all-trans-ζ-carotene + A(H2)
COVID-19 Disease Map(0)
PathBank(0)
PharmGKB(0)
65 个相关的物种来源信息
- 264483 Phaffia rhodozyma: 10.1016/S0031-9422(00)84390-3
- 1069 Rhodomicrobium vannielii: 10.1016/0031-9422(75)80358-X
- 267261 Rosa villosa: 10.1002/HLCA.19830660211
- 4837 Phycomyces blakesleeanus: 10.1016/0031-9422(90)85164-B
- 1071 Rhodopila globiformis: 10.3891/ACTA.CHEM.SCAND.27-3040
- 78168 Passiflora edulis: 10.1021/JF9801724
- 237 Flavobacterium: 10.1016/S0378-1119(96)00624-5
- 28974 Averrhoa carambola: 10.1016/S0031-9422(00)84040-6
- 5141 Neurospora crassa: 10.1016/J.PHYTOCHEM.2008.09.016
- 549 Pantoea agglomerans:
- 3708 Brassica napus: 10.1002/JSFA.2740100607
- 1061 Rhodobacter capsulatus:
- 1911 Streptomyces griseus:
- 1085 Rhodospirillum rubrum: 10.1042/BJ1160101
- 5127 Fusarium fujikuroi: 10.1016/0304-4165(88)90119-5
- 95627 Flavocetraria nivalis: 10.1016/0305-1978(87)90002-0
- 264483 Phaffia rhodozyma: 10.1016/S0031-9422(00)84390-3
- 1069 Rhodomicrobium vannielii: 10.1016/0031-9422(75)80358-X
- 4577 Zea mays: 10.1016/S0031-9422(00)83636-5
- 267261 Rosa villosa: 10.1002/HLCA.19830660211
- 4837 Phycomyces blakesleeanus: 10.1016/0031-9422(90)85164-B
- 1071 Rhodopila globiformis: 10.3891/ACTA.CHEM.SCAND.27-3040
- 78168 Passiflora edulis: 10.1021/JF9801724
- 28068 Rubrivivax gelatinosus: 10.1111/J.1751-1097.1996.TB02472.X
- 237 Flavobacterium: 10.1016/S0378-1119(96)00624-5
- 28974 Averrhoa carambola: 10.1016/S0031-9422(00)84040-6
- 5141 Neurospora crassa: 10.1016/J.PHYTOCHEM.2008.09.016
- 553 Pantoea ananatis: 10.1128/JB.172.12.6704-6712.1990
- 3708 Brassica napus: 10.1002/JSFA.2740100607
- 4120 Ipomoea batatas: 10.1016/0889-1575(88)90034-8
- 1911 Streptomyces griseus: 10.1007/BF02173971
- 1085 Rhodospirillum rubrum: 10.1042/BJ1160101
- 264483 Phaffia rhodozyma: 10.1016/S0031-9422(00)84390-3
- 1069 Rhodomicrobium vannielii: 10.1016/0031-9422(75)80358-X
- 267261 Rosa villosa: 10.1002/HLCA.19830660211
- 4837 Phycomyces blakesleeanus: 10.1016/0031-9422(90)85164-B
- 1071 Rhodopila globiformis: 10.3891/ACTA.CHEM.SCAND.27-3040
- 78168 Passiflora edulis: 10.1021/JF9801724
- 237 Flavobacterium: 10.1016/S0378-1119(96)00624-5
- 28974 Averrhoa carambola: 10.1016/S0031-9422(00)84040-6
- 5141 Neurospora crassa: 10.1016/J.PHYTOCHEM.2008.09.016
- 549 Pantoea agglomerans:
- 3708 Brassica napus: 10.1002/JSFA.2740100607
- 1061 Rhodobacter capsulatus:
- 1911 Streptomyces griseus:
- 1085 Rhodospirillum rubrum: 10.1042/BJ1160101
- 5127 Fusarium fujikuroi: 10.1016/0304-4165(88)90119-5
- 95627 Flavocetraria nivalis: 10.1016/0305-1978(87)90002-0
- 264483 Phaffia rhodozyma: 10.1016/S0031-9422(00)84390-3
- 1069 Rhodomicrobium vannielii: 10.1016/0031-9422(75)80358-X
- 4577 Zea mays: 10.1016/S0031-9422(00)83636-5
- 267261 Rosa villosa: 10.1002/HLCA.19830660211
- 4837 Phycomyces blakesleeanus: 10.1016/0031-9422(90)85164-B
- 1071 Rhodopila globiformis: 10.3891/ACTA.CHEM.SCAND.27-3040
- 78168 Passiflora edulis: 10.1021/JF9801724
- 28068 Rubrivivax gelatinosus: 10.1111/J.1751-1097.1996.TB02472.X
- 237 Flavobacterium: 10.1016/S0378-1119(96)00624-5
- 28974 Averrhoa carambola: 10.1016/S0031-9422(00)84040-6
- 5141 Neurospora crassa: 10.1016/J.PHYTOCHEM.2008.09.016
- 553 Pantoea ananatis: 10.1128/JB.172.12.6704-6712.1990
- 3708 Brassica napus: 10.1002/JSFA.2740100607
- 4120 Ipomoea batatas: 10.1016/0889-1575(88)90034-8
- 1911 Streptomyces griseus: 10.1007/BF02173971
- 1085 Rhodospirillum rubrum: 10.1042/BJ1160101
- 9606 Homo sapiens: -
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
- Jessica L Cooperstone, Robin A Ralston, Ken M Riedl, Thomas C Haufe, Ralf M Schweiggert, Samantha A King, Cynthia D Timmers, David M Francis, Gregory B Lesinski, Steven K Clinton, Steven J Schwartz. Enhanced bioavailability of lycopene when consumed as cis-isomers from tangerine compared to red tomato juice, a randomized, cross-over clinical trial.
Molecular nutrition & food research.
2015 Apr; 59(4):658-69. doi:
10.1002/mnfr.201400658. [PMID: 25620547] - Elio Fantini, Giulia Falcone, Sarah Frusciante, Leonardo Giliberto, Giovanni Giuliano. Dissection of tomato lycopene biosynthesis through virus-induced gene silencing.
Plant physiology.
2013 Oct; 163(2):986-98. doi:
10.1104/pp.113.224733. [PMID: 24014574] - P Shalem Raj, E V V Ramaprasad, S Vaseef, Ch Sasikala, Ch V Ramana. Rhodobacter viridis sp. nov., a phototrophic bacterium isolated from mud of a stream.
International journal of systematic and evolutionary microbiology.
2013 Jan; 63(Pt 1):181-186. doi:
10.1099/ijs.0.038471-0. [PMID: 22389279] - LingLin Wan, Juan Han, Min Sang, AiFen Li, Hong Wu, ShunJi Yin, ChengWu Zhang. De novo transcriptomic analysis of an oleaginous microalga: pathway description and gene discovery for production of next-generation biofuels.
PloS one.
2012; 7(4):e35142. doi:
10.1371/journal.pone.0035142. [PMID: 22536352] - Michael Wormit, Philipp H P Harbach, Jan M Mewes, Sergiu Amarie, Josef Wachtveitl, Andreas Dreuw. Excitation energy transfer and carotenoid radical cation formation in light harvesting complexes - a theoretical perspective.
Biochimica et biophysica acta.
2009 Jun; 1787(6):738-46. doi:
10.1016/j.bbabio.2009.01.021. [PMID: 19366605] - Lee Gyan Kwa, Dominik Wegmann, Britta Brügger, Felix T Wieland, Gerhard Wanner, Paula Braun. Mutation of a single residue, beta-glutamate-20, alters protein-lipid interactions of light harvesting complex II.
Molecular microbiology.
2008 Jan; 67(1):63-77. doi:
10.1111/j.1365-2958.2007.06017.x. [PMID: 18034796] - Yuan Liu, Yongqiang Wu, Chunhe Xu. Elimination of polarity in the carotenoid terminus promotes the exposure of B850-binding sites (Tyr 44, 45) and ANS-mediated energy transfer in LH2 complexes of Rhodobacter sphaeroides.
Biochemical and biophysical research communications.
2004 Dec; 325(2):600-4. doi:
10.1016/j.bbrc.2004.10.067. [PMID: 15530435] - L Tao, S Picataggio, P E Rouvière, Q Cheng. Asymmetrically acting lycopene beta-cyclases (CrtLm) from non-photosynthetic bacteria.
Molecular genetics and genomics : MGG.
2004 Mar; 271(2):180-8. doi:
10.1007/s00438-003-0969-1. [PMID: 14740205] - Liu Yuan, Zhang Wei, Wu Yongqiang, Xu Chunhe. Acquirement and characterization of a carotenoid mutant (GM309) of Rhodobacter sphaeroides 601.
Science in China. Series C, Life sciences.
2004 Feb; 47(1):52-8. doi:
10.1360/02yc0254. [PMID: 15382676] - Frederick Khachik, Lorena Carvalho, Paul S Bernstein, Garth J Muir, Da-You Zhao, Nikita B Katz. Chemistry, distribution, and metabolism of tomato carotenoids and their impact on human health.
Experimental biology and medicine (Maywood, N.J.).
2002 Nov; 227(10):845-51. doi:
10.1177/153537020222701002. [PMID: 12424324] - Nancy A Eckardt. Tangerine dreams: cloning of carotenoid isomerase from Arabidopsis and tomato.
The Plant cell.
2002 Feb; 14(2):289-92. doi:
10.1105/tpc.140210. [PMID: 11884674] - J Harada, K V Nagashima, S Takaichi, N Misawa, K Matsuura, K Shimada. Phytoene desaturase, CrtI, of the purple photosynthetic bacterium, Rubrivivax gelatinosus, produces both neurosporene and lycopene.
Plant & cell physiology.
2001 Oct; 42(10):1112-8. doi:
10.1093/pcp/pce140. [PMID: 11673627] - S Takaichi, G Sandmann, G Schnurr, Y Satomi, A Suzuki, N Misawa. The carotenoid 7,8-dihydro-psi end group can be cyclized by the lycopene cyclases from the bacterium Erwinia uredovora and the higher plant Capsicum annuum.
European journal of biochemistry.
1996 Oct; 241(1):291-6. doi:
10.1111/j.1432-1033.1996.0291t.x. [PMID: 8898919] - . .
.
. doi:
. [PMID: 10491195] - . .
.
. doi:
. [PMID: 15503129]