3-[(3S,4S)-9-ethenyl-14-ethyl-4,8,13,18-tetramethyl-20-oxophorbin-3-yl]propanoate (BioDeep_00000899199)
代谢物信息卡片
化学式: C33H33N4O3- (533.2553)
中文名称:
谱图信息:
最多检出来源 Viridiplantae(plant) 100%
分子结构信息
SMILES: CCC1=C(C2=NC1=CC3=C(C4=C(CC(=C5C(C(C(=CC6=NC(=C2)C(=C6C)C=C)N5)C)CCC(=O)[O-])C4=N3)O)C)C
InChI: InChI=1S/C33H34N4O3/c1-7-19-15(3)23-12-25-17(5)21(9-10-30(39)40)32(36-25)22-11-29(38)31-18(6)26(37-33(22)31)14-28-20(8-2)16(4)24(35-28)13-27(19)34-23/h7,12-14,17,21,36,38H,1,8-11H2,2-6H3,(H,39,40)/p-1/t17-,21-/m0/s1
描述信息
同义名列表
相关代谢途径
Reactome(0)
BioCyc(0)
PlantCyc(0)
代谢反应
109 个相关的代谢反应过程信息。
Reactome(0)
BioCyc(0)
WikiPathways(0)
Plant Reactome(0)
INOH(0)
PlantCyc(109)
- chlorophyll a degradation I:
H2O + chlorophyll a ⟶ H+ + chlorophyllide a + phytol
- chlorophyll a degradation I:
H+ + H2O + pheophorbide a ⟶ CO2 + MeOH + pyropheophorbide a
- chlorophyll a degradation I:
H+ + H2O + pheophorbide a ⟶ CO2 + MeOH + pyropheophorbide a
- chlorophyll a degradation I:
H+ + H2O + pheophorbide a ⟶ CO2 + MeOH + pyropheophorbide a
- chlorophyll a degradation I:
H+ + H2O + pheophorbide a ⟶ CO2 + MeOH + pyropheophorbide a
- chlorophyll a degradation I:
H+ + H2O + pheophorbide a ⟶ CO2 + MeOH + pyropheophorbide a
- chlorophyll a degradation I:
H+ + H2O + pheophorbide a ⟶ CO2 + MeOH + pyropheophorbide a
- chlorophyll a degradation I:
H+ + H2O + pheophorbide a ⟶ CO2 + MeOH + pyropheophorbide a
- chlorophyll a degradation I:
H+ + H2O + pheophorbide a ⟶ CO2 + MeOH + pyropheophorbide a
- chlorophyll a degradation I:
H+ + H2O + pheophorbide a ⟶ CO2 + MeOH + pyropheophorbide a
- chlorophyll a degradation I:
H+ + H2O + pheophorbide a ⟶ CO2 + MeOH + pyropheophorbide a
- chlorophyll a degradation I:
H+ + H2O + pheophorbide a ⟶ CO2 + MeOH + pyropheophorbide a
- chlorophyll a degradation I:
H+ + H2O + pheophorbide a ⟶ CO2 + MeOH + pyropheophorbide a
- chlorophyll a degradation I:
H+ + H2O + pheophorbide a ⟶ CO2 + MeOH + pyropheophorbide a
- chlorophyll a degradation I:
H+ + H2O + pheophorbide a ⟶ CO2 + MeOH + pyropheophorbide a
- chlorophyll a degradation I:
H+ + H2O + pheophorbide a ⟶ CO2 + MeOH + pyropheophorbide a
- chlorophyll a degradation I:
H+ + H2O + pheophorbide a ⟶ CO2 + MeOH + pyropheophorbide a
- chlorophyll a degradation I:
H+ + H2O + pheophorbide a ⟶ CO2 + MeOH + pyropheophorbide a
- chlorophyll a degradation I:
H+ + H2O + pheophorbide a ⟶ CO2 + MeOH + pyropheophorbide a
- chlorophyll a degradation I:
H+ + H2O + pheophorbide a ⟶ CO2 + MeOH + pyropheophorbide a
- chlorophyll a degradation I:
H+ + H2O + pheophorbide a ⟶ CO2 + MeOH + pyropheophorbide a
- chlorophyll a degradation I:
H+ + H2O + pheophorbide a ⟶ CO2 + MeOH + pyropheophorbide a
- chlorophyll a degradation I:
H+ + H2O + pheophorbide a ⟶ CO2 + MeOH + pyropheophorbide a
- chlorophyll a degradation I:
H+ + H2O + pheophorbide a ⟶ CO2 + MeOH + pyropheophorbide a
- chlorophyll a degradation I:
H+ + H2O + pheophorbide a ⟶ CO2 + MeOH + pyropheophorbide a
- chlorophyll a degradation I:
H+ + H2O + pheophorbide a ⟶ CO2 + MeOH + pyropheophorbide a
- chlorophyll a degradation I:
H+ + H2O + pheophorbide a ⟶ CO2 + MeOH + pyropheophorbide a
- chlorophyll a degradation I:
H+ + H2O + pheophorbide a ⟶ CO2 + MeOH + pyropheophorbide a
- chlorophyll a degradation I:
H+ + H2O + pheophorbide a ⟶ CO2 + MeOH + pyropheophorbide a
- chlorophyll a degradation I:
H+ + H2O + pheophorbide a ⟶ CO2 + MeOH + pyropheophorbide a
- chlorophyll a degradation I:
H+ + H2O + pheophorbide a ⟶ CO2 + MeOH + pyropheophorbide a
- chlorophyll a degradation I:
H+ + H2O + pheophorbide a ⟶ CO2 + MeOH + pyropheophorbide a
- chlorophyll a degradation I:
H+ + H2O + pheophorbide a ⟶ CO2 + MeOH + pyropheophorbide a
- chlorophyll a degradation I:
H+ + H2O + pheophorbide a ⟶ CO2 + MeOH + pyropheophorbide a
- chlorophyll a degradation I:
H+ + H2O + pheophorbide a ⟶ CO2 + MeOH + pyropheophorbide a
- chlorophyll a degradation I:
H+ + H2O + pheophorbide a ⟶ CO2 + MeOH + pyropheophorbide a
- chlorophyll a degradation I:
H+ + H2O + pheophorbide a ⟶ CO2 + MeOH + pyropheophorbide a
- chlorophyll a degradation I:
H+ + H2O + pheophorbide a ⟶ CO2 + MeOH + pyropheophorbide a
- chlorophyll a degradation I:
H+ + H2O + pheophorbide a ⟶ CO2 + MeOH + pyropheophorbide a
- chlorophyll a degradation I:
H+ + H2O + pheophorbide a ⟶ CO2 + MeOH + pyropheophorbide a
- chlorophyll a degradation I:
H+ + H2O + pheophorbide a ⟶ CO2 + MeOH + pyropheophorbide a
- chlorophyll a degradation I:
H+ + H2O + pheophorbide a ⟶ CO2 + MeOH + pyropheophorbide a
- chlorophyll a degradation I:
H+ + H2O + pheophorbide a ⟶ CO2 + MeOH + pyropheophorbide a
- chlorophyll a degradation I:
H+ + H2O + pheophorbide a ⟶ CO2 + MeOH + pyropheophorbide a
- chlorophyll a degradation I:
H+ + H2O + pheophorbide a ⟶ CO2 + MeOH + pyropheophorbide a
- chlorophyll a degradation I:
H+ + H2O + pheophorbide a ⟶ CO2 + MeOH + pyropheophorbide a
- chlorophyll a degradation I:
H+ + H2O + pheophorbide a ⟶ CO2 + MeOH + pyropheophorbide a
- chlorophyll a degradation I:
H+ + H2O + pheophorbide a ⟶ CO2 + MeOH + pyropheophorbide a
- chlorophyll a degradation I:
H+ + H2O + pheophorbide a ⟶ CO2 + MeOH + pyropheophorbide a
- chlorophyll a degradation I:
H+ + H2O + pheophorbide a ⟶ CO2 + MeOH + pyropheophorbide a
- chlorophyll a degradation I:
H+ + H2O + pheophorbide a ⟶ CO2 + MeOH + pyropheophorbide a
- chlorophyll a degradation I:
H+ + H2O + pheophorbide a ⟶ CO2 + MeOH + pyropheophorbide a
- chlorophyll a degradation I:
H+ + H2O + pheophorbide a ⟶ CO2 + MeOH + pyropheophorbide a
- chlorophyll a degradation I:
H+ + H2O + pheophorbide a ⟶ CO2 + MeOH + pyropheophorbide a
- chlorophyll a degradation I:
H+ + H2O + pheophorbide a ⟶ CO2 + MeOH + pyropheophorbide a
- chlorophyll a degradation I:
H+ + H2O + pheophorbide a ⟶ CO2 + MeOH + pyropheophorbide a
- chlorophyll a degradation I:
H+ + H2O + pheophorbide a ⟶ CO2 + MeOH + pyropheophorbide a
- chlorophyll a degradation I:
H+ + H2O + pheophorbide a ⟶ CO2 + MeOH + pyropheophorbide a
- chlorophyll a degradation I:
H+ + H2O + pheophorbide a ⟶ CO2 + MeOH + pyropheophorbide a
- chlorophyll a degradation I:
H+ + H2O + pheophorbide a ⟶ CO2 + MeOH + pyropheophorbide a
- chlorophyll a degradation I:
H+ + H2O + pheophorbide a ⟶ CO2 + MeOH + pyropheophorbide a
- chlorophyll a degradation I:
H+ + H2O + pheophorbide a ⟶ CO2 + MeOH + pyropheophorbide a
- chlorophyll a degradation I:
H+ + H2O + pheophorbide a ⟶ CO2 + MeOH + pyropheophorbide a
- chlorophyll a degradation I:
H+ + H2O + pheophorbide a ⟶ CO2 + MeOH + pyropheophorbide a
- chlorophyll a degradation I:
H+ + H2O + pheophorbide a ⟶ CO2 + MeOH + pyropheophorbide a
- chlorophyll a degradation I:
H+ + H2O + pheophorbide a ⟶ CO2 + MeOH + pyropheophorbide a
- chlorophyll a degradation I:
H+ + H2O + pheophorbide a ⟶ CO2 + MeOH + pyropheophorbide a
- chlorophyll a degradation I:
H+ + H2O + pheophorbide a ⟶ CO2 + MeOH + pyropheophorbide a
- chlorophyll a degradation I:
H+ + H2O + pheophorbide a ⟶ CO2 + MeOH + pyropheophorbide a
- chlorophyll a degradation I:
H+ + H2O + pheophorbide a ⟶ CO2 + MeOH + pyropheophorbide a
- chlorophyll a degradation I:
H2O + chlorophyll a ⟶ H+ + chlorophyllide a + phytol
- chlorophyll a degradation I:
H+ + H2O + pheophorbide a ⟶ CO2 + MeOH + pyropheophorbide a
- chlorophyll a degradation I:
H+ + H2O + pheophorbide a ⟶ CO2 + MeOH + pyropheophorbide a
- chlorophyll a degradation I:
H+ + H2O + pheophorbide a ⟶ CO2 + MeOH + pyropheophorbide a
- chlorophyll a degradation I:
H+ + H2O + pheophorbide a ⟶ CO2 + MeOH + pyropheophorbide a
- chlorophyll a degradation I:
H+ + H2O + pheophorbide a ⟶ CO2 + MeOH + pyropheophorbide a
- chlorophyll a degradation I:
H+ + H2O + pheophorbide a ⟶ CO2 + MeOH + pyropheophorbide a
- chlorophyll a degradation I:
H+ + H2O + pheophorbide a ⟶ CO2 + MeOH + pyropheophorbide a
- chlorophyll a degradation I:
H2O + chlorophyll a ⟶ H+ + chlorophyllide a + phytol
- chlorophyll a degradation I:
H+ + H2O + pheophorbide a ⟶ CO2 + MeOH + pyropheophorbide a
- chlorophyll a degradation I:
H+ + H2O + pheophorbide a ⟶ CO2 + MeOH + pyropheophorbide a
- chlorophyll a degradation I:
H+ + H2O + pheophorbide a ⟶ CO2 + MeOH + pyropheophorbide a
- chlorophyll a degradation I:
H+ + H2O + pheophorbide a ⟶ CO2 + MeOH + pyropheophorbide a
- chlorophyll a degradation I:
H+ + H2O + pheophorbide a ⟶ CO2 + MeOH + pyropheophorbide a
- chlorophyll a degradation I:
H+ + H2O + pheophorbide a ⟶ CO2 + MeOH + pyropheophorbide a
- chlorophyll a degradation I:
H+ + H2O + pheophorbide a ⟶ CO2 + MeOH + pyropheophorbide a
- chlorophyll a degradation I:
H+ + H2O + pheophorbide a ⟶ CO2 + MeOH + pyropheophorbide a
- chlorophyll a degradation I:
H+ + H2O + pheophorbide a ⟶ CO2 + MeOH + pyropheophorbide a
- chlorophyll a degradation I:
H+ + H2O + pheophorbide a ⟶ CO2 + MeOH + pyropheophorbide a
- chlorophyll a degradation I:
H+ + H2O + pheophorbide a ⟶ CO2 + MeOH + pyropheophorbide a
- chlorophyll a degradation I:
H+ + H2O + pheophorbide a ⟶ CO2 + MeOH + pyropheophorbide a
- chlorophyll a degradation I:
H+ + H2O + pheophorbide a ⟶ CO2 + MeOH + pyropheophorbide a
- chlorophyll a degradation I:
H+ + H2O + pheophorbide a ⟶ CO2 + MeOH + pyropheophorbide a
- chlorophyll a degradation I:
H+ + H2O + pheophorbide a ⟶ CO2 + MeOH + pyropheophorbide a
- chlorophyll a degradation I:
H+ + H2O + pheophorbide a ⟶ CO2 + MeOH + pyropheophorbide a
- chlorophyll a degradation I:
H+ + H2O + pheophorbide a ⟶ CO2 + MeOH + pyropheophorbide a
- chlorophyll a degradation I:
H+ + H2O + pheophorbide a ⟶ CO2 + MeOH + pyropheophorbide a
- chlorophyll a degradation I:
H+ + H2O + pheophorbide a ⟶ CO2 + MeOH + pyropheophorbide a
- chlorophyll a degradation I:
H+ + H2O + pheophorbide a ⟶ CO2 + MeOH + pyropheophorbide a
- chlorophyll a degradation I:
H+ + H2O + pheophorbide a ⟶ CO2 + MeOH + pyropheophorbide a
- chlorophyll a degradation I:
H+ + H2O + pheophorbide a ⟶ CO2 + MeOH + pyropheophorbide a
- chlorophyll a degradation I:
H+ + H2O + pheophorbide a ⟶ CO2 + MeOH + pyropheophorbide a
- chlorophyll a degradation I:
H+ + H2O + pheophorbide a ⟶ CO2 + MeOH + pyropheophorbide a
- chlorophyll a degradation I:
H+ + H2O + pheophorbide a ⟶ CO2 + MeOH + pyropheophorbide a
- chlorophyll a degradation I:
H+ + H2O + pheophorbide a ⟶ CO2 + MeOH + pyropheophorbide a
- chlorophyll a degradation I:
H+ + H2O + pheophorbide a ⟶ CO2 + MeOH + pyropheophorbide a
- chlorophyll a degradation I:
H+ + H2O + pheophorbide a ⟶ CO2 + MeOH + pyropheophorbide a
- chlorophyll a degradation I:
H+ + H2O + pheophorbide a ⟶ CO2 + MeOH + pyropheophorbide a
- chlorophyll a degradation I:
H+ + chlorophyllide a ⟶ Mg2+ + pheophorbide a
COVID-19 Disease Map(0)
PathBank(0)
PharmGKB(0)
0 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。
亚细胞结构定位 | 关联基因列表 |
---|