Magnesium (BioDeep_00000004410)

Main id: BioDeep_00000641216

Secondary id: BioDeep_00001868610

human metabolite blood metabolite

代谢物信息卡片

Magnesium Cation

化学式: Mg+2 (23.9851)
中文名称:
谱图信息: 最多检出来源 () 0%

分子结构信息

SMILES: [Mg+2]
InChI: InChI=1S/Mg/q+2

描述信息

同义名列表

3 个代谢物同义名

Magnesium Cation; magnesium ion; Magnesium cation

数据库引用编号

14 个数据库交叉引用编号

ChEBI: CHEBI:18420
ChEBI: CHEBI:39127
KEGG: C00305
PubChem: 888
DrugBank: DB01378
CAS: 102781-35-1
CAS: 102980-04-1
CAS: 133361-35-0
CAS: 22537-22-0
PMhub: MS000016845
PubChem: 3599
PDB-CCD: MG
NIKKAJI: J3.728A
KNApSAcK: 18420

分类词条

Homogeneous alkaline earth metal compounds

代谢反应

417 个相关的代谢反应过程信息。

Reactome(266)

Metabolism: 1-3-oxo-THA-CoA + CoA-SH ⟶ DHA-CoA + propionyl CoA
Carbohydrate metabolism: D-glucuronate + H+ + TPNH ⟶ L-gulonate + TPN
Glycogen metabolism: ATP + PGYL dimer b form ⟶ ADP + PGYL dimer a form
Glycogen synthesis: G1P + UTP ⟶ PPi + UDP-Glc
Disease: ADORA2B + Ade-Rib ⟶ ADORA2B:Ade-Rib
Infectious disease: ADORA2B + Ade-Rib ⟶ ADORA2B:Ade-Rib
Viral Infection Pathways: NAD + p-S177-N ⟶ ADPr-p-S177-N + H+ + NAM
Respiratory Syncytial Virus Infection Pathway: GTP + H2O + S-adenosyl-L-methionine + hRSV A nascent mRNAs:RdRP:p-M2-1 ⟶ PPi + Pi + RSV m7GpppG-mRNAs:RdRP:p-M2-1 + S-adenosyl-L-homocysteine
Respiratory syncytial virus (RSV) genome replication, transcription and translation: GTP + H2O + S-adenosyl-L-methionine + hRSV A nascent mRNAs:RdRP:p-M2-1 ⟶ PPi + Pi + RSV m7GpppG-mRNAs:RdRP:p-M2-1 + S-adenosyl-L-homocysteine
Maturation of hRSV A proteins: Nascent M2-1 + Zn2+ ⟶ M2-1:Zn2+
Metabolism: 3alpha,7alpha,12alpha-trihydroxy-5beta-cholest-24-one-CoA + CoA-SH ⟶ choloyl-CoA + propionyl CoA
Integration of energy metabolism: A0A3Q1LHN3 + cAMP ⟶ RAPGEF3:cAMP complex
Regulation of insulin secretion: A0A3Q1LHN3 + cAMP ⟶ RAPGEF3:cAMP complex
Metabolism: 1-3-oxo-THA-CoA + CoA-SH ⟶ DHA-CoA + propionyl CoA
Integration of energy metabolism: F1PW07 + cAMP ⟶ RAPGEF3:cAMP complex
Regulation of insulin secretion: F1PW07 + cAMP ⟶ RAPGEF3:cAMP complex
Metabolism: 1-3-oxo-THA-CoA + CoA-SH ⟶ DHA-CoA + propionyl CoA
Integration of energy metabolism: Epac + cAMP ⟶ RAPGEF3:cAMP complex
Regulation of insulin secretion: Epac + cAMP ⟶ RAPGEF3:cAMP complex
Metabolism: 2MACA-CoA + CoA ⟶ Ac-CoA + PROP-CoA
Integration of energy metabolism: A0A3Q2UAA9 + cAMP ⟶ RAPGEF3:cAMP complex
Regulation of insulin secretion: A0A3Q2UAA9 + cAMP ⟶ RAPGEF3:cAMP complex
Metabolism: 3alpha,7alpha,12alpha-trihydroxy-5beta-cholest-24-one-CoA + CoA-SH ⟶ choloyl-CoA + propionyl CoA
Integration of energy metabolism: PKA:AKAP79:IQGAP1 Complex + cAMP ⟶ PRKACA,PRKACB,PRKACG + cAMP:PKA:AKAP79:IQGAP1 Complex
Regulation of insulin secretion: PKA:AKAP79:IQGAP1 Complex + cAMP ⟶ PRKACA,PRKACB,PRKACG + cAMP:PKA:AKAP79:IQGAP1 Complex
Metabolism: 1-3-oxo-THA-CoA + CoA-SH ⟶ DHA-CoA + propionyl CoA
Integration of energy metabolism: Q8VCC8 + cAMP ⟶ RAPGEF3:cAMP complex
Regulation of insulin secretion: Q8VCC8 + cAMP ⟶ RAPGEF3:cAMP complex
Metabolism: 2MACA-CoA + CoA ⟶ Ac-CoA + PROP-CoA
Integration of energy metabolism: Q9Z1C8 + cAMP ⟶ RAPGEF3:cAMP complex
Regulation of insulin secretion: Q9Z1C8 + cAMP ⟶ RAPGEF3:cAMP complex
Metabolism: ATP + PROP-CoA + carbon dioxide ⟶ ADP + MEMA-CoA + Pi
Integration of energy metabolism: I3L7Z0 + cAMP ⟶ RAPGEF3:cAMP complex
Regulation of insulin secretion: I3L7Z0 + cAMP ⟶ RAPGEF3:cAMP complex
Integration of energy metabolism: AMP + AMPK heterotrimer (inactive) ⟶ AMPK heterotrimer:AMP
Regulation of insulin secretion: Homologues of RAPGEF4 + cAMP ⟶ RAPGEF4:cAMP Complex
Metabolism: 1-3-oxo-THA-CoA + CoA-SH ⟶ DHA-CoA + propionyl CoA
Integration of energy metabolism: F6PS10 + cAMP ⟶ RAPGEF3:cAMP complex
Regulation of insulin secretion: F6PS10 + cAMP ⟶ RAPGEF3:cAMP complex
Neuronal System: DA + SAM ⟶ 3MT + SAH
Transmission across Chemical Synapses: DA + SAM ⟶ 3MT + SAH
Neurotransmitter receptors and postsynaptic signal transmission: Kainate Receptors + L-Glu ⟶ Kainate receptor-glutamate complex
GABA receptor activation: (Gi alpha1:GDP:Adenylate cyclase):(G alpha-olf:GDP) ⟶ Adenylate cyclase (Mg2+ cofactor) + G alpha-olf:GDP complex + G-protein alpha (i):GDP
GABA B receptor activation: (Gi alpha1:GDP:Adenylate cyclase):(G alpha-olf:GDP) ⟶ Adenylate cyclase (Mg2+ cofactor) + G alpha-olf:GDP complex + G-protein alpha (i):GDP
Activation of GABAB receptors: (Gi alpha1:GDP:Adenylate cyclase):(G alpha-olf:GDP) ⟶ Adenylate cyclase (Mg2+ cofactor) + G alpha-olf:GDP complex + G-protein alpha (i):GDP
Inhibition of adenylate cyclase pathway: G alpha-olf:GTP + G-protein alpha (i):GTP:Adenylate cyclase ⟶ (Gi alpha1:GTP:Adenylate cyclase):(G alpha-olf:GTP)
Adenylate cyclase inhibitory pathway: (Gi alpha1:GDP:Adenylate cyclase):(G alpha-olf:GDP) ⟶ Adenylate cyclase (Mg2+ cofactor) + G alpha-olf:GDP complex + G-protein alpha (i):GDP
Signaling Pathways: ADORA2A,B + Ade-Rib ⟶ ADORA2A,B:Ade-Rib
Signaling by GPCR: ADORA2A,B + Ade-Rib ⟶ ADORA2A,B:Ade-Rib
GPCR downstream signalling: H2O + cAMP ⟶ AMP
G alpha (i) signalling events: ATP ⟶ PPi + cAMP
Opioid Signalling: ATP ⟶ PPi + cAMP
G-protein mediated events: ATP ⟶ PPi + cAMP
Neuronal System: PKA tetramer + cAMP ⟶ PKA tetramer:4xcAMP
Transmission across Chemical Synapses: PKA tetramer + cAMP ⟶ PKA tetramer:4xcAMP
Neurotransmitter receptors and postsynaptic signal transmission: PKA tetramer + cAMP ⟶ PKA tetramer:4xcAMP
GABA receptor activation: (Gi alpha1:GDP:Adenylate cyclase):(G alpha-olf:GDP) ⟶ Adenylate cyclase (Mg2+ cofactor) + G alpha-olf:GDP complex + G-protein alpha (i):GDP
GABA B receptor activation: (Gi alpha1:GDP:Adenylate cyclase):(G alpha-olf:GDP) ⟶ Adenylate cyclase (Mg2+ cofactor) + G alpha-olf:GDP complex + G-protein alpha (i):GDP
Activation of GABAB receptors: (Gi alpha1:GDP:Adenylate cyclase):(G alpha-olf:GDP) ⟶ Adenylate cyclase (Mg2+ cofactor) + G alpha-olf:GDP complex + G-protein alpha (i):GDP
Inhibition of adenylate cyclase pathway: G alpha-olf:GTP + G-protein alpha (i):GTP:Adenylate cyclase ⟶ (Gi alpha1:GTP:Adenylate cyclase):(G alpha-olf:GTP)
Adenylate cyclase inhibitory pathway: (Gi alpha1:GDP:Adenylate cyclase):(G alpha-olf:GDP) ⟶ Adenylate cyclase (Mg2+ cofactor) + G alpha-olf:GDP complex + G-protein alpha (i):GDP
Signaling Pathways: AcK685- p-Y705,S727-STAT3 dimer + H2O ⟶ CH3COO- + p-Y705,S727-STAT3 dimer
Signaling by GPCR: Ade-Rib ⟶ ADORA2A,B:Ade-Rib
GPCR downstream signalling: Heterotrimeric G-protein Gi (inactive) + Ligand:GPCR complexes that activate Gi ⟶ Ligand:GPCR complexes that activate Gi:Heterotrimeric G-protein Gi (inactive)
G alpha (i) signalling events: Heterotrimeric G-protein Gi (inactive) + Ligand:GPCR complexes that activate Gi ⟶ Ligand:GPCR complexes that activate Gi:Heterotrimeric G-protein Gi (inactive)
Opioid Signalling: PKA tetramer + cAMP ⟶ PKA tetramer:4xcAMP
G-protein mediated events: PKA tetramer + cAMP ⟶ PKA tetramer:4xcAMP
Signaling Pathways: AcK685- p-Y705,S727-STAT3 dimer + H2O ⟶ CH3COO- + p-Y705,S727-STAT3 dimer
Signaling by GPCR: ADORA1,3 + Ade-Rib ⟶ ADORA1,3:Ade-Rib
GPCR downstream signalling: Heterotrimeric G-protein Gi (inactive) + Ligand:GPCR complexes that activate Gi ⟶ Ligand:GPCR complexes that activate Gi:Heterotrimeric G-protein Gi (inactive)
G alpha (i) signalling events: Heterotrimeric G-protein Gi (inactive) + Ligand:GPCR complexes that activate Gi ⟶ Ligand:GPCR complexes that activate Gi:Heterotrimeric G-protein Gi (inactive)
Opioid Signalling: PKA tetramer + cAMP ⟶ PKA tetramer:4xcAMP
G-protein mediated events: PKA tetramer + cAMP ⟶ PKA tetramer:4xcAMP
Adenylate cyclase inhibitory pathway: (Gi alpha1:GDP:Adenylate cyclase):(G alpha-olf:GDP) ⟶ Adenylate cyclase (Mg2+ cofactor) + G alpha-olf:GDP complex + G-protein alpha (i):GDP
Neuronal System: DA + SAM ⟶ 3MT + SAH
Transmission across Chemical Synapses: DA + SAM ⟶ 3MT + SAH
Neurotransmitter receptors and postsynaptic signal transmission: PKA tetramer + cAMP ⟶ PKA tetramer:4xcAMP
GABA receptor activation: (Gi alpha1:GDP:Adenylate cyclase):(G alpha-olf:GDP) ⟶ Adenylate cyclase (Mg2+ cofactor) + G alpha-olf:GDP complex + G-protein alpha (i):GDP
GABA B receptor activation: (Gi alpha1:GDP:Adenylate cyclase):(G alpha-olf:GDP) ⟶ Adenylate cyclase (Mg2+ cofactor) + G alpha-olf:GDP complex + G-protein alpha (i):GDP
Activation of GABAB receptors: (Gi alpha1:GDP:Adenylate cyclase):(G alpha-olf:GDP) ⟶ Adenylate cyclase (Mg2+ cofactor) + G alpha-olf:GDP complex + G-protein alpha (i):GDP
Inhibition of adenylate cyclase pathway: G alpha-olf:GTP + G-protein alpha (i):GTP:Adenylate cyclase ⟶ (Gi alpha1:GTP:Adenylate cyclase):(G alpha-olf:GTP)
Signaling Pathways: AcK685- p-Y705,S727-STAT3 dimer + H2O ⟶ CH3COO- + p-Y705,S727-STAT3 dimer
Signaling by GPCR: Ade-Rib ⟶ ADORA1,3:Ade-Rib
GPCR downstream signalling: Heterotrimeric G-protein Gi (inactive) + Ligand:GPCR complexes that activate Gi ⟶ Ligand:GPCR complexes that activate Gi:Heterotrimeric G-protein Gi (inactive)
G alpha (i) signalling events: Heterotrimeric G-protein Gi (inactive) + Ligand:GPCR complexes that activate Gi ⟶ Ligand:GPCR complexes that activate Gi:Heterotrimeric G-protein Gi (inactive)
Opioid Signalling: PKA tetramer + cAMP ⟶ PKA tetramer:4xcAMP
G-protein mediated events: PKA tetramer + cAMP ⟶ PKA tetramer:4xcAMP
Adenylate cyclase inhibitory pathway: (Gi alpha1:GDP:Adenylate cyclase):(G alpha-olf:GDP) ⟶ Adenylate cyclase (Mg2+ cofactor) + G alpha-olf:GDP complex + G-protein alpha (i):GDP
Neuronal System: DA + SAM ⟶ 3MT + SAH
Transmission across Chemical Synapses: DA + SAM ⟶ 3MT + SAH
Neurotransmitter receptors and postsynaptic signal transmission: PKA tetramer + cAMP ⟶ PKA tetramer:4xcAMP
GABA receptor activation: (Gi alpha1:GDP:Adenylate cyclase):(G alpha-olf:GDP) ⟶ Adenylate cyclase (Mg2+ cofactor) + G alpha-olf:GDP complex + G-protein alpha (i):GDP
GABA B receptor activation: (Gi alpha1:GDP:Adenylate cyclase):(G alpha-olf:GDP) ⟶ Adenylate cyclase (Mg2+ cofactor) + G alpha-olf:GDP complex + G-protein alpha (i):GDP
Activation of GABAB receptors: (Gi alpha1:GDP:Adenylate cyclase):(G alpha-olf:GDP) ⟶ Adenylate cyclase (Mg2+ cofactor) + G alpha-olf:GDP complex + G-protein alpha (i):GDP
Inhibition of adenylate cyclase pathway: G alpha-olf:GTP + G-protein alpha (i):GTP:Adenylate cyclase ⟶ (Gi alpha1:GTP:Adenylate cyclase):(G alpha-olf:GTP)
Signaling Pathways: AcK685- p-Y705,S727-STAT3 dimer + H2O ⟶ CH3COO- + p-Y705,S727-STAT3 dimer
Signaling by GPCR: H2O + cAMP ⟶ AMP
GPCR downstream signalling: H2O + cAMP ⟶ AMP
G alpha (i) signalling events: ATP ⟶ PPi + cAMP
Opioid Signalling: ATP ⟶ PPi + cAMP
G-protein mediated events: ATP ⟶ PPi + cAMP
Adenylate cyclase inhibitory pathway: (Gi alpha1:GDP:Adenylate cyclase):(G alpha-olf:GDP) ⟶ Adenylate cyclase (Mg2+ cofactor) + G alpha-olf:GDP complex + G-protein alpha (i):GDP
Neuronal System: 3MT + H2O + Oxygen ⟶ H2O2 + HVA + ammonia
Transmission across Chemical Synapses: 3MT + H2O + Oxygen ⟶ H2O2 + HVA + ammonia
Neurotransmitter receptors and postsynaptic signal transmission: (Gi alpha1:GDP:Adenylate cyclase):(G alpha-olf:GDP) ⟶ Adenylate cyclase (Mg2+ cofactor) + G alpha-olf:GDP complex + G-protein alpha (i):GDP
GABA receptor activation: (Gi alpha1:GDP:Adenylate cyclase):(G alpha-olf:GDP) ⟶ Adenylate cyclase (Mg2+ cofactor) + G alpha-olf:GDP complex + G-protein alpha (i):GDP
GABA B receptor activation: (Gi alpha1:GDP:Adenylate cyclase):(G alpha-olf:GDP) ⟶ Adenylate cyclase (Mg2+ cofactor) + G alpha-olf:GDP complex + G-protein alpha (i):GDP
Activation of GABAB receptors: (Gi alpha1:GDP:Adenylate cyclase):(G alpha-olf:GDP) ⟶ Adenylate cyclase (Mg2+ cofactor) + G alpha-olf:GDP complex + G-protein alpha (i):GDP
Inhibition of adenylate cyclase pathway: G alpha-olf:GTP + G-protein alpha (i):GTP:Adenylate cyclase ⟶ (Gi alpha1:GTP:Adenylate cyclase):(G alpha-olf:GTP)
Signaling Pathways: AcK685- p-Y705,S727-STAT3 dimer + H2O ⟶ CH3COO- + p-Y705,S727-STAT3 dimer
Signaling by GPCR: Ade-Rib + AdoR ⟶ ADORA1,3:Ade-Rib
GPCR downstream signalling: Heterotrimeric G-protein Gi (inactive) + Ligand:GPCR complexes that activate Gi ⟶ Ligand:GPCR complexes that activate Gi:Heterotrimeric G-protein Gi (inactive)
G alpha (i) signalling events: Heterotrimeric G-protein Gi (inactive) + Ligand:GPCR complexes that activate Gi ⟶ Ligand:GPCR complexes that activate Gi:Heterotrimeric G-protein Gi (inactive)
Opioid Signalling: PKA tetramer + cAMP ⟶ PKA tetramer:4xcAMP
G-protein mediated events: PKA tetramer + cAMP ⟶ PKA tetramer:4xcAMP
Adenylate cyclase inhibitory pathway: (Gi alpha1:GDP:Adenylate cyclase):(G alpha-olf:GDP) ⟶ Adenylate cyclase (Mg2+ cofactor) + G alpha-olf:GDP complex + G-protein alpha (i):GDP
Neuronal System: PKA tetramer + cAMP ⟶ PKA tetramer:4xcAMP
Transmission across Chemical Synapses: PKA tetramer + cAMP ⟶ PKA tetramer:4xcAMP
Neurotransmitter receptors and postsynaptic signal transmission: PKA tetramer + cAMP ⟶ PKA tetramer:4xcAMP
GABA receptor activation: (Gi alpha1:GDP:Adenylate cyclase):(G alpha-olf:GDP) ⟶ Adenylate cyclase (Mg2+ cofactor) + G alpha-olf:GDP complex + G-protein alpha (i):GDP
GABA B receptor activation: (Gi alpha1:GDP:Adenylate cyclase):(G alpha-olf:GDP) ⟶ Adenylate cyclase (Mg2+ cofactor) + G alpha-olf:GDP complex + G-protein alpha (i):GDP
Activation of GABAB receptors: (Gi alpha1:GDP:Adenylate cyclase):(G alpha-olf:GDP) ⟶ Adenylate cyclase (Mg2+ cofactor) + G alpha-olf:GDP complex + G-protein alpha (i):GDP
Inhibition of adenylate cyclase pathway: G alpha-olf:GTP + G-protein alpha (i):GTP:Adenylate cyclase ⟶ (Gi alpha1:GTP:Adenylate cyclase):(G alpha-olf:GTP)
Neuronal System: DA + SAM ⟶ 3MT + SAH
Transmission across Chemical Synapses: DA + SAM ⟶ 3MT + SAH
Neurotransmitter receptors and postsynaptic signal transmission: PKA tetramer + cAMP ⟶ PKA tetramer:4xcAMP
GABA receptor activation: (Gi alpha1:GDP:Adenylate cyclase):(G alpha-olf:GDP) ⟶ Adenylate cyclase (Mg2+ cofactor) + G alpha-olf:GDP complex + G-protein alpha (i):GDP
GABA B receptor activation: (Gi alpha1:GDP:Adenylate cyclase):(G alpha-olf:GDP) ⟶ Adenylate cyclase (Mg2+ cofactor) + G alpha-olf:GDP complex + G-protein alpha (i):GDP
Activation of GABAB receptors: (Gi alpha1:GDP:Adenylate cyclase):(G alpha-olf:GDP) ⟶ Adenylate cyclase (Mg2+ cofactor) + G alpha-olf:GDP complex + G-protein alpha (i):GDP
Inhibition of adenylate cyclase pathway: G alpha-olf:GTP + G-protein alpha (i):GTP:Adenylate cyclase ⟶ (Gi alpha1:GTP:Adenylate cyclase):(G alpha-olf:GTP)
Adenylate cyclase inhibitory pathway: (Gi alpha1:GDP:Adenylate cyclase):(G alpha-olf:GDP) ⟶ Adenylate cyclase (Mg2+ cofactor) + G alpha-olf:GDP complex + G-protein alpha (i):GDP
Signaling Pathways: AcK685- p-Y705,S727-STAT3 dimer + H2O ⟶ CH3COO- + p-Y705,S727-STAT3 dimer
Signaling by GPCR: ADORA1,3 + Ade-Rib ⟶ ADORA1,3:Ade-Rib
GPCR downstream signalling: Heterotrimeric G-protein Gi (inactive) + Ligand:GPCR complexes that activate Gi ⟶ Ligand:GPCR complexes that activate Gi:Heterotrimeric G-protein Gi (inactive)
G alpha (i) signalling events: Heterotrimeric G-protein Gi (inactive) + Ligand:GPCR complexes that activate Gi ⟶ Ligand:GPCR complexes that activate Gi:Heterotrimeric G-protein Gi (inactive)
Opioid Signalling: PKA tetramer + cAMP ⟶ PKA tetramer:4xcAMP
G-protein mediated events: PKA tetramer + cAMP ⟶ PKA tetramer:4xcAMP
Signaling Pathways: AcK685- p-Y705,S727-STAT3 dimer + H2O ⟶ CH3COO- + p-Y705,S727-STAT3 dimer
Signaling by GPCR: ADORA1,3 + Ade-Rib ⟶ ADORA1,3:Ade-Rib
GPCR downstream signalling: Heterotrimeric G-protein Gi (inactive) + Ligand:GPCR complexes that activate Gi ⟶ Ligand:GPCR complexes that activate Gi:Heterotrimeric G-protein Gi (inactive)
G alpha (i) signalling events: Heterotrimeric G-protein Gi (inactive) + Ligand:GPCR complexes that activate Gi ⟶ Ligand:GPCR complexes that activate Gi:Heterotrimeric G-protein Gi (inactive)
Opioid Signalling: PKA tetramer + cAMP ⟶ PKA tetramer:4xcAMP
G-protein mediated events: PKA tetramer + cAMP ⟶ PKA tetramer:4xcAMP
Adenylate cyclase inhibitory pathway: (Gi alpha1:GDP:Adenylate cyclase):(G alpha-olf:GDP) ⟶ Adenylate cyclase (Mg2+ cofactor) + G alpha-olf:GDP complex + G-protein alpha (i):GDP
Neuronal System: DA + SAM ⟶ 3MT + SAH
Transmission across Chemical Synapses: DA + SAM ⟶ 3MT + SAH
Neurotransmitter receptors and postsynaptic signal transmission: PKA tetramer + cAMP ⟶ PKA tetramer:4xcAMP
GABA receptor activation: (Gi alpha1:GDP:Adenylate cyclase):(G alpha-olf:GDP) ⟶ Adenylate cyclase (Mg2+ cofactor) + G alpha-olf:GDP complex + G-protein alpha (i):GDP
GABA B receptor activation: (Gi alpha1:GDP:Adenylate cyclase):(G alpha-olf:GDP) ⟶ Adenylate cyclase (Mg2+ cofactor) + G alpha-olf:GDP complex + G-protein alpha (i):GDP
Activation of GABAB receptors: (Gi alpha1:GDP:Adenylate cyclase):(G alpha-olf:GDP) ⟶ Adenylate cyclase (Mg2+ cofactor) + G alpha-olf:GDP complex + G-protein alpha (i):GDP
Inhibition of adenylate cyclase pathway: Adenylate cyclase (Mg2+ cofactor) + G alpha (i): GTP ⟶ G-protein alpha (i):GTP:Adenylate cyclase
Signaling Pathways: AcK685- p-Y705,S727-STAT3 dimer + H2O ⟶ CH3COO- + p-Y705,S727-STAT3 dimer
Signaling by GPCR: ADORA2A,B + Ade-Rib ⟶ ADORA2A,B:Ade-Rib
GPCR downstream signalling: Heterotrimeric G-protein Gi (inactive) + Ligand:GPCR complexes that activate Gi ⟶ Ligand:GPCR complexes that activate Gi:Heterotrimeric G-protein Gi (inactive)
G alpha (i) signalling events: Heterotrimeric G-protein Gi (inactive) + Ligand:GPCR complexes that activate Gi ⟶ Ligand:GPCR complexes that activate Gi:Heterotrimeric G-protein Gi (inactive)
Opioid Signalling: PKA tetramer + cAMP ⟶ PKA tetramer:4xcAMP
G-protein mediated events: PKA tetramer + cAMP ⟶ PKA tetramer:4xcAMP
Adenylate cyclase inhibitory pathway: (Gi alpha1:GDP:Adenylate cyclase):(G alpha-olf:GDP) ⟶ Adenylate cyclase (Mg2+ cofactor) + G alpha-olf:GDP complex + G-protein alpha (i):GDP
Neuronal System: DA + SAM ⟶ 3MT + SAH
Transmission across Chemical Synapses: DA + SAM ⟶ 3MT + SAH
Neurotransmitter receptors and postsynaptic signal transmission: PKA tetramer + cAMP ⟶ PKA tetramer:4xcAMP
GABA receptor activation: (Gi alpha1:GDP:Adenylate cyclase):(G alpha-olf:GDP) ⟶ Adenylate cyclase (Mg2+ cofactor) + G alpha-olf:GDP complex + G-protein alpha (i):GDP
GABA B receptor activation: (Gi alpha1:GDP:Adenylate cyclase):(G alpha-olf:GDP) ⟶ Adenylate cyclase (Mg2+ cofactor) + G alpha-olf:GDP complex + G-protein alpha (i):GDP
Activation of GABAB receptors: (Gi alpha1:GDP:Adenylate cyclase):(G alpha-olf:GDP) ⟶ Adenylate cyclase (Mg2+ cofactor) + G alpha-olf:GDP complex + G-protein alpha (i):GDP
Inhibition of adenylate cyclase pathway: G alpha-olf:GTP + G-protein alpha (i):GTP:Adenylate cyclase ⟶ (Gi alpha1:GTP:Adenylate cyclase):(G alpha-olf:GTP)
Neuronal System: DA + SAM ⟶ 3MT + SAH
Transmission across Chemical Synapses: DA + SAM ⟶ 3MT + SAH
Neurotransmitter receptors and postsynaptic signal transmission: PKA tetramer + cAMP ⟶ PKA tetramer:4xcAMP
GABA receptor activation: (Gi alpha1:GDP:Adenylate cyclase):(G alpha-olf:GDP) ⟶ Adenylate cyclase (Mg2+ cofactor) + G alpha-olf:GDP complex + G-protein alpha (i):GDP
GABA B receptor activation: (Gi alpha1:GDP:Adenylate cyclase):(G alpha-olf:GDP) ⟶ Adenylate cyclase (Mg2+ cofactor) + G alpha-olf:GDP complex + G-protein alpha (i):GDP
Activation of GABAB receptors: (Gi alpha1:GDP:Adenylate cyclase):(G alpha-olf:GDP) ⟶ Adenylate cyclase (Mg2+ cofactor) + G alpha-olf:GDP complex + G-protein alpha (i):GDP
Inhibition of adenylate cyclase pathway: G alpha-olf:GTP + G-protein alpha (i):GTP:Adenylate cyclase ⟶ (Gi alpha1:GTP:Adenylate cyclase):(G alpha-olf:GTP)
Adenylate cyclase inhibitory pathway: (Gi alpha1:GDP:Adenylate cyclase):(G alpha-olf:GDP) ⟶ Adenylate cyclase (Mg2+ cofactor) + G alpha-olf:GDP complex + G-protein alpha (i):GDP
Signaling Pathways: AcK685- p-Y705,S727-STAT3 dimer + H2O ⟶ CH3COO- + p-Y705,S727-STAT3 dimer
Signaling by GPCR: ADORA1,3 + Ade-Rib ⟶ ADORA1,3:Ade-Rib
GPCR downstream signalling: PKA tetramer + cAMP ⟶ PKA tetramer:4xcAMP
G alpha (i) signalling events: PKA tetramer + cAMP ⟶ PKA tetramer:4xcAMP
Opioid Signalling: PKA tetramer + cAMP ⟶ PKA tetramer:4xcAMP
G-protein mediated events: PKA tetramer + cAMP ⟶ PKA tetramer:4xcAMP
Signaling Pathways: AcK685- p-Y705,S727-STAT3 dimer + H2O ⟶ CH3COO- + p-Y705,S727-STAT3 dimer
Signaling by GPCR: ADORA1,3 + Ade-Rib ⟶ ADORA1,3:Ade-Rib
GPCR downstream signalling: Heterotrimeric G-protein Gi (inactive) + Ligand:GPCR complexes that activate Gi ⟶ Ligand:GPCR complexes that activate Gi:Heterotrimeric G-protein Gi (inactive)
G alpha (i) signalling events: Heterotrimeric G-protein Gi (inactive) + Ligand:GPCR complexes that activate Gi ⟶ Ligand:GPCR complexes that activate Gi:Heterotrimeric G-protein Gi (inactive)
Opioid Signalling: ATP ⟶ PPi + cAMP
G-protein mediated events: ATP ⟶ PPi + cAMP
Adenylate cyclase inhibitory pathway: (Gi alpha1:GDP:Adenylate cyclase):(G alpha-olf:GDP) ⟶ Adenylate cyclase (Mg2+ cofactor) + G alpha-olf:GDP complex + G-protein alpha (i):GDP
Neuronal System: DA + SAM ⟶ 3MT + SAH
Transmission across Chemical Synapses: DA + SAM ⟶ 3MT + SAH
Neurotransmitter receptors and postsynaptic signal transmission: Edited Kainate receptors + L-Glu ⟶ Edited Kainate Receptor-glutamate complex
GABA receptor activation: (Gi alpha1:GDP:Adenylate cyclase):(G alpha-olf:GDP) ⟶ Adenylate cyclase (Mg2+ cofactor) + G alpha-olf:GDP complex + G-protein alpha (i):GDP
GABA B receptor activation: (Gi alpha1:GDP:Adenylate cyclase):(G alpha-olf:GDP) ⟶ Adenylate cyclase (Mg2+ cofactor) + G alpha-olf:GDP complex + G-protein alpha (i):GDP
Activation of GABAB receptors: (Gi alpha1:GDP:Adenylate cyclase):(G alpha-olf:GDP) ⟶ Adenylate cyclase (Mg2+ cofactor) + G alpha-olf:GDP complex + G-protein alpha (i):GDP
Inhibition of adenylate cyclase pathway: G alpha-olf:GTP + G-protein alpha (i):GTP:Adenylate cyclase ⟶ (Gi alpha1:GTP:Adenylate cyclase):(G alpha-olf:GTP)
Signaling Pathways: AMP + p-AMPK heterotrimer ⟶ p-AMPK heterotrimer:AMP
Signaling by GPCR: H2O + cAMP ⟶ AMP
GPCR downstream signalling: H2O + cAMP ⟶ AMP
G alpha (i) signalling events: H2O + cAMP ⟶ AMP
Opioid Signalling: H2O + cAMP ⟶ AMP
G-protein mediated events: H2O + cAMP ⟶ AMP
Adenylate cyclase activating pathway: ATP ⟶ PPi + cAMP
Adenylate cyclase inhibitory pathway: G alpha-olf:GTP + G-protein alpha (i):GTP:Adenylate cyclase ⟶ (Gi alpha1:GTP:Adenylate cyclase):(G alpha-olf:GTP)
Neuronal System: DA + SAM ⟶ 3MT + SAH
Transmission across Chemical Synapses: DA + SAM ⟶ 3MT + SAH
Neurotransmitter receptors and postsynaptic signal transmission: ATP + Ca2+ ⟶ Ca2+ + PPi + cAMP
GABA receptor activation: G alpha-olf:GTP + G-protein alpha (i):GTP:Adenylate cyclase ⟶ (Gi alpha1:GTP:Adenylate cyclase):(G alpha-olf:GTP)
GABA B receptor activation: G alpha-olf:GTP + G-protein alpha (i):GTP:Adenylate cyclase ⟶ (Gi alpha1:GTP:Adenylate cyclase):(G alpha-olf:GTP)
Activation of GABAB receptors: G alpha-olf:GTP + G-protein alpha (i):GTP:Adenylate cyclase ⟶ (Gi alpha1:GTP:Adenylate cyclase):(G alpha-olf:GTP)
Inhibition of adenylate cyclase pathway: G alpha-olf:GTP + G-protein alpha (i):GTP:Adenylate cyclase ⟶ (Gi alpha1:GTP:Adenylate cyclase):(G alpha-olf:GTP)
Neuronal System: DA + SAM ⟶ 3MT + SAH
Transmission across Chemical Synapses: DA + SAM ⟶ 3MT + SAH
Neurotransmitter receptors and postsynaptic signal transmission: PKA tetramer + cAMP ⟶ PKA tetramer:4xcAMP
GABA receptor activation: GABA + GABBR1:GABBR2 ⟶ GABBR1:GABBR2:GABA
GABA B receptor activation: GABA + GABBR1:GABBR2 ⟶ GABBR1:GABBR2:GABA
Activation of GABAB receptors: GABA B receptor G-protein beta-gamma complex + Kir heterotetramers ⟶ GABA B receptor G-protein beta-gamma and Kir3 channel complex
Inhibition of adenylate cyclase pathway: G alpha-olf:GTP + G-protein alpha (i):GTP:Adenylate cyclase ⟶ (Gi alpha1:GTP:Adenylate cyclase):(G alpha-olf:GTP)
Adenylate cyclase inhibitory pathway: G alpha-olf:GTP + G-protein alpha (i):GTP:Adenylate cyclase ⟶ (Gi alpha1:GTP:Adenylate cyclase):(G alpha-olf:GTP)
Signaling Pathways: AcK685- p-Y705,S727-STAT3 dimer + H2O ⟶ CH3COO- + p-Y705,S727-STAT3 dimer
Signaling by GPCR: ADORA1,3 + Ade-Rib ⟶ ADORA1,3:Ade-Rib
GPCR downstream signalling: PKA tetramer + cAMP ⟶ PKA tetramer:4xcAMP
G alpha (i) signalling events: PKA tetramer + cAMP ⟶ PKA tetramer:4xcAMP
Opioid Signalling: PKA tetramer + cAMP ⟶ PKA tetramer:4xcAMP
G-protein mediated events: PKA tetramer + cAMP ⟶ PKA tetramer:4xcAMP
Activation of NMDA receptors and postsynaptic events: PKA tetramer + cAMP ⟶ PKA tetramer:4xcAMP
Unblocking of NMDA receptors, glutamate binding and activation: GRIN1:GRIN2 NMDA receptors:PSD proteins + Mg2+ ⟶ GRIN1:GRIN2 NMDA receptors:PSD proteins:Mg2+
Transport of small molecules: Oxygen + TPNH + heme ⟶ BV + CO + Fe2+ + H2O + TPN
Aquaporin-mediated transport: PKA tetramer + cAMP ⟶ PKA tetramer:4xcAMP
Vasopressin regulates renal water homeostasis via Aquaporins: PKA tetramer + cAMP ⟶ PKA tetramer:4xcAMP
Signaling by Receptor Tyrosine Kinases: H2O + cAMP ⟶ AMP
Signaling by VEGF: ATP + H0Z2U9 ⟶ ADP + phospho-p-S,2T-MAPKAPK3
VEGFA-VEGFR2 Pathway: ATP + H0Z2U9 ⟶ ADP + phospho-p-S,2T-MAPKAPK3
G alpha (s) signalling events: H2O + cAMP ⟶ AMP
G alpha (z) signalling events: GTP + Ligand:GPCR complexes that activate Gz:Heterotrimeric G-protein Gz (inactive) ⟶ ADRA2A-C:Catecholamine:Heterotrimeric G-protein Gz (active) + GDP
Glucagon signaling in metabolic regulation: ATP ⟶ PPi + cAMP
Developmental Biology: ATP + H0YPU3 ⟶ NCAM-1:ATP
Axon guidance: ATP + H0YPU3 ⟶ NCAM-1:ATP
Netrin-1 signaling: ATP + NTN1:DCC oligomer:p-Y397-PTK2:MyrG-p-Y419-SRC,MyrG-p-Y420-FYN ⟶ ADP + NTN1:p-Y1420-DCC oligomer:p-Y397-PTK2:MyrG-p-Y419-SRC,MyrG-p-Y420-FYN
DSCAM interactions: ATP + Homologues of MAPK8 ⟶ ADP + Homologues of p-T,Y-MAPK8
Hemostasis: H2O + PAF ⟶ CH3COO- + lyso-PAF
Platelet homeostasis: H2O + PAF ⟶ CH3COO- + lyso-PAF
Nitric oxide stimulates guanylate cyclase: L-Arg + Oxygen + TPNH ⟶ L-Cit + NO + TPN
Muscle contraction: Guanylate cyclase, soluble + NO ⟶ Guanylate cyclase:NO
Smooth Muscle Contraction: Guanylate cyclase, soluble + NO ⟶ Guanylate cyclase:NO
Muscle contraction: AHCYL1:NAD+ + ITPR:I(1,4,5)P3 tetramer ⟶ AHCYL1:NAD+:ITPR1:I(1,4,5)P3 tetramer
Smooth Muscle Contraction: Ca2+ + Inactive Myosin Actin Contractile Complex ⟶ Calcium Bound Myosin Actin Complex
Muscle contraction: AHCYL1:NAD+ + ITPR:I(1,4,5)P3 tetramer ⟶ AHCYL1:NAD+:ITPR1:I(1,4,5)P3 tetramer
Smooth Muscle Contraction: ATP + Smooth Muscle Myosin Light Chain ⟶ ADP + Phosphorylated Smooth Muscle Myosin Light Chain
Muscle contraction: AHCYL1:NAD+ + ITPR:I(1,4,5)P3 tetramer ⟶ AHCYL1:NAD+:ITPR1:I(1,4,5)P3 tetramer
Smooth Muscle Contraction: ATP ⟶ ADP
Muscle contraction: AHCYL1:NAD+ + ITPR:I(1,4,5)P3 tetramer ⟶ AHCYL1:NAD+:ITPR1:I(1,4,5)P3 tetramer
Smooth Muscle Contraction: ATP + Calcium Bound Myosin Actin Complex ⟶ ATP:Calcium Bound Myosin Actin Complex
Muscle contraction: AHCYL1:NAD+ + ITPR:I(1,4,5)P3 tetramer ⟶ AHCYL1:NAD+:ITPR1:I(1,4,5)P3 tetramer
Smooth Muscle Contraction: ATP + Smooth Muscle Myosin Light Chain ⟶ ADP + Phosphorylated Smooth Muscle Myosin Light Chain
Muscle contraction: AHCYL1:NAD+ + ITPR:I(1,4,5)P3 tetramer ⟶ AHCYL1:NAD+:ITPR1:I(1,4,5)P3 tetramer
Smooth Muscle Contraction: ATP + Smooth Muscle Myosin Light Chain ⟶ ADP + Phosphorylated Smooth Muscle Myosin Light Chain
Muscle contraction: AHCYL1:NAD+ + ITPR:I(1,4,5)P3 tetramer ⟶ AHCYL1:NAD+:ITPR1:I(1,4,5)P3 tetramer
Smooth Muscle Contraction: ATP + Smooth Muscle Myosin Light Chain ⟶ ADP + Phosphorylated Smooth Muscle Myosin Light Chain
Muscle contraction: AHCYL1:NAD+ + ITPR:I(1,4,5)P3 tetramer ⟶ AHCYL1:NAD+:ITPR1:I(1,4,5)P3 tetramer
Smooth Muscle Contraction: Ca2+ + Inactive Myosin Actin Contractile Complex ⟶ Calcium Bound Myosin Actin Complex
Immune System: ATP + Mg2+ ⟶ AMP + E1 bound ubiquitin + Mg2+ + PPi
Adaptive Immune System: ATP + Mg2+ ⟶ AMP + E1 bound ubiquitin + Mg2+ + PPi
Class I MHC mediated antigen processing & presentation: ATP + Mg2+ ⟶ AMP + E1 bound ubiquitin + Mg2+ + PPi
Antigen processing: Ubiquitination & Proteasome degradation: ATP + Mg2+ ⟶ AMP + E1 bound ubiquitin + Mg2+ + PPi
Immune System: ATP + Mg2+ ⟶ AMP + E1 bound ubiquitin + Mg2+ + PPi
Adaptive Immune System: ATP + Mg2+ ⟶ AMP + E1 bound ubiquitin + Mg2+ + PPi
Class I MHC mediated antigen processing & presentation: ATP + Mg2+ ⟶ AMP + E1 bound ubiquitin + Mg2+ + PPi
Antigen processing: Ubiquitination & Proteasome degradation: ATP + Mg2+ ⟶ AMP + E1 bound ubiquitin + Mg2+ + PPi

BioCyc(4)

chlorophyll a degradation II: H₂O + pheophytin a ⟶ H⁺ + pheophorbide a + phytol
chlorophyll a degradation III: H₂O + chlorophyll a ⟶ H⁺ + chlorophyllide a + phytol
chlorophyll a degradation I: H₂O + chlorophyll a ⟶ H⁺ + chlorophyllide a + phytol
dinoflagellate bioluminescence: O₂ + chlorophyllide a ⟶ Mg²⁺ + dinoflagellate luciferin

WikiPathways(0)

Plant Reactome(0)

INOH(0)

PlantCyc(147)

chlorophyll a degradation II: H₂O + pheophytin a ⟶ H⁺ + pheophorbide a + phytol
chlorophyll a degradation II: H₂O + pheophytin a ⟶ H⁺ + pheophorbide a + phytol
chlorophyll a degradation II: H₂O + pheophytin a ⟶ H⁺ + pheophorbide a + phytol
chlorophyll a degradation II: H₂O + pheophytin a ⟶ H⁺ + pheophorbide a + phytol
chlorophyll a degradation II: H₂O + pheophytin a ⟶ H⁺ + pheophorbide a + phytol
chlorophyll a degradation II: H₂O + pheophytin a ⟶ H⁺ + pheophorbide a + phytol
chlorophyll a degradation II: H₂O + pheophytin a ⟶ H⁺ + pheophorbide a + phytol
chlorophyll a degradation II: H₂O + pheophytin a ⟶ H⁺ + pheophorbide a + phytol
chlorophyll a degradation II: H₂O + pheophytin a ⟶ H⁺ + pheophorbide a + phytol
chlorophyll a degradation II: H₂O + pheophytin a ⟶ H⁺ + pheophorbide a + phytol
chlorophyll a degradation II: H₂O + pheophytin a ⟶ H⁺ + pheophorbide a + phytol
chlorophyll a degradation II: H₂O + pheophytin a ⟶ H⁺ + pheophorbide a + phytol
chlorophyll a degradation II: H₂O + pheophytin a ⟶ H⁺ + pheophorbide a + phytol
chlorophyll a degradation II: H₂O + pheophytin a ⟶ H⁺ + pheophorbide a + phytol
chlorophyll a degradation II: H₂O + pheophytin a ⟶ H⁺ + pheophorbide a + phytol
chlorophyll a degradation II: H₂O + pheophytin a ⟶ H⁺ + pheophorbide a + phytol
chlorophyll a degradation II: H₂O + pheophytin a ⟶ H⁺ + pheophorbide a + phytol
chlorophyll a degradation II: H₂O + pheophytin a ⟶ H⁺ + pheophorbide a + phytol
chlorophyll a degradation II: H₂O + pheophytin a ⟶ H⁺ + pheophorbide a + phytol
chlorophyll a degradation II: H₂O + pheophytin a ⟶ H⁺ + pheophorbide a + phytol
chlorophyll a degradation II: H₂O + pheophytin a ⟶ H⁺ + pheophorbide a + phytol
chlorophyll a degradation II: H₂O + pheophytin a ⟶ H⁺ + pheophorbide a + phytol
chlorophyll a degradation II: H₂O + pheophytin a ⟶ H⁺ + pheophorbide a + phytol
chlorophyll a degradation II: H₂O + pheophytin a ⟶ H⁺ + pheophorbide a + phytol
chlorophyll a degradation II: H₂O + pheophytin a ⟶ H⁺ + pheophorbide a + phytol
chlorophyll a degradation II: H₂O + pheophytin a ⟶ H⁺ + pheophorbide a + phytol
chlorophyll a degradation II: H₂O + pheophytin a ⟶ H⁺ + pheophorbide a + phytol
chlorophyll a degradation II: H₂O + pheophytin a ⟶ H⁺ + pheophorbide a + phytol
chlorophyll a degradation II: H₂O + pheophytin a ⟶ H⁺ + pheophorbide a + phytol
chlorophyll a degradation II: H₂O + pheophytin a ⟶ H⁺ + pheophorbide a + phytol
chlorophyll a degradation II: H₂O + pheophytin a ⟶ H⁺ + pheophorbide a + phytol
chlorophyll a degradation II: H₂O + pheophytin a ⟶ H⁺ + pheophorbide a + phytol
chlorophyll a degradation II: H₂O + pheophytin a ⟶ H⁺ + pheophorbide a + phytol
chlorophyll a degradation II: H₂O + pheophytin a ⟶ H⁺ + pheophorbide a + phytol
chlorophyll a degradation II: H₂O + pheophytin a ⟶ H⁺ + pheophorbide a + phytol
chlorophyll a degradation II: H₂O + pheophytin a ⟶ H⁺ + pheophorbide a + phytol
chlorophyll a degradation II: H₂O + pheophytin a ⟶ H⁺ + pheophorbide a + phytol
chlorophyll a degradation II: H₂O + pheophytin a ⟶ H⁺ + pheophorbide a + phytol
chlorophyll a degradation II: H₂O + pheophytin a ⟶ H⁺ + pheophorbide a + phytol
chlorophyll a degradation II: H₂O + pheophytin a ⟶ H⁺ + pheophorbide a + phytol
chlorophyll a degradation II: H₂O + pheophytin a ⟶ H⁺ + pheophorbide a + phytol
chlorophyll a degradation II: H₂O + pheophytin a ⟶ H⁺ + pheophorbide a + phytol
chlorophyll a degradation II: H₂O + pheophytin a ⟶ H⁺ + pheophorbide a + phytol
chlorophyll a degradation II: H₂O + pheophytin a ⟶ H⁺ + pheophorbide a + phytol
chlorophyll a degradation II: H₂O + pheophytin a ⟶ H⁺ + pheophorbide a + phytol
chlorophyll a degradation II: H₂O + pheophytin a ⟶ H⁺ + pheophorbide a + phytol
chlorophyll a degradation II: H₂O + pheophytin a ⟶ H⁺ + pheophorbide a + phytol
chlorophyll a degradation II: H₂O + pheophytin a ⟶ H⁺ + pheophorbide a + phytol
chlorophyll a degradation II: H₂O + pheophytin a ⟶ H⁺ + pheophorbide a + phytol
chlorophyll a degradation II: H₂O + pheophytin a ⟶ H⁺ + pheophorbide a + phytol
chlorophyll a degradation II: H₂O + pheophytin a ⟶ H⁺ + pheophorbide a + phytol
chlorophyll a degradation II: H₂O + pheophytin a ⟶ H⁺ + pheophorbide a + phytol
chlorophyll a degradation II: H₂O + pheophytin a ⟶ H⁺ + pheophorbide a + phytol
chlorophyll a degradation II: H₂O + pheophytin a ⟶ H⁺ + pheophorbide a + phytol
chlorophyll a degradation II: H₂O + pheophytin a ⟶ H⁺ + pheophorbide a + phytol
chlorophyll a degradation II: H₂O + pheophytin a ⟶ H⁺ + pheophorbide a + phytol
chlorophyll a degradation II: H₂O + pheophytin a ⟶ H⁺ + pheophorbide a + phytol
chlorophyll a degradation II: H₂O + pheophytin a ⟶ H⁺ + pheophorbide a + phytol
chlorophyll a degradation II: H₂O + pheophytin a ⟶ H⁺ + pheophorbide a + phytol
chlorophyll a degradation II: H₂O + pheophytin a ⟶ H⁺ + pheophorbide a + phytol
chlorophyll a degradation II: H₂O + pheophytin a ⟶ H⁺ + pheophorbide a + phytol
chlorophyll a degradation II: H₂O + pheophytin a ⟶ H⁺ + pheophorbide a + phytol
chlorophyll a degradation II: H₂O + pheophytin a ⟶ H⁺ + pheophorbide a + phytol
chlorophyll a degradation II: H₂O + pheophytin a ⟶ H⁺ + pheophorbide a + phytol
chlorophyll a degradation II: H₂O + pheophytin a ⟶ H⁺ + pheophorbide a + phytol
chlorophyll a degradation II: H₂O + pheophytin a ⟶ H⁺ + pheophorbide a + phytol
chlorophyll a degradation II: H₂O + pheophytin a ⟶ H⁺ + pheophorbide a + phytol
chlorophyll a degradation II: H₂O + pheophytin a ⟶ H⁺ + pheophorbide a + phytol
chlorophyll a degradation II: H₂O + pheophytin a ⟶ H⁺ + pheophorbide a + phytol
chlorophyll a degradation II: H₂O + pheophytin a ⟶ H⁺ + pheophorbide a + phytol
chlorophyll a degradation II: H₂O + pheophytin a ⟶ H⁺ + pheophorbide a + phytol
chlorophyll a degradation II: H₂O + pheophytin a ⟶ H⁺ + pheophorbide a + phytol
chlorophyll a degradation II: H₂O + pheophytin a ⟶ H⁺ + pheophorbide a + phytol
chlorophyll a degradation II: H₂O + pheophytin a ⟶ H⁺ + pheophorbide a + phytol
chlorophyll a degradation II: H₂O + pheophytin a ⟶ H⁺ + pheophorbide a + phytol
chlorophyll a degradation II: H₂O + pheophytin a ⟶ H⁺ + pheophorbide a + phytol
chlorophyll a degradation II: H₂O + pheophytin a ⟶ H⁺ + pheophorbide a + phytol
chlorophyll a degradation II: H₂O + pheophytin a ⟶ H⁺ + pheophorbide a + phytol
chlorophyll a degradation II: H₂O + pheophytin a ⟶ H⁺ + pheophorbide a + phytol
chlorophyll a degradation II: H₂O + pheophytin a ⟶ H⁺ + pheophorbide a + phytol
chlorophyll a degradation II: H₂O + pheophytin a ⟶ H⁺ + pheophorbide a + phytol
chlorophyll a degradation II: H₂O + pheophytin a ⟶ H⁺ + pheophorbide a + phytol
chlorophyll a degradation II: H₂O + pheophytin a ⟶ H⁺ + pheophorbide a + phytol
chlorophyll a degradation II: H₂O + pheophytin a ⟶ H⁺ + pheophorbide a + phytol
chlorophyll a degradation II: H₂O + pheophytin a ⟶ H⁺ + pheophorbide a + phytol
chlorophyll a degradation II: H₂O + pheophytin a ⟶ H⁺ + pheophorbide a + phytol
chlorophyll a degradation II: H₂O + pheophytin a ⟶ H⁺ + pheophorbide a + phytol
chlorophyll a degradation II: H₂O + pheophytin a ⟶ H⁺ + pheophorbide a + phytol
chlorophyll a degradation II: H₂O + pheophytin a ⟶ H⁺ + pheophorbide a + phytol
chlorophyll a degradation II: H₂O + pheophytin a ⟶ H⁺ + pheophorbide a + phytol
chlorophyll a degradation II: H₂O + pheophytin a ⟶ H⁺ + pheophorbide a + phytol
chlorophyll a degradation II: H₂O + pheophytin a ⟶ H⁺ + pheophorbide a + phytol
chlorophyll a degradation II: H₂O + pheophytin a ⟶ H⁺ + pheophorbide a + phytol
chlorophyll a degradation II: H₂O + pheophytin a ⟶ H⁺ + pheophorbide a + phytol
chlorophyll a degradation II: H₂O + pheophytin a ⟶ H⁺ + pheophorbide a + phytol
chlorophyll a degradation II: H₂O + pheophytin a ⟶ H⁺ + pheophorbide a + phytol
chlorophyll a degradation II: H₂O + pheophytin a ⟶ H⁺ + pheophorbide a + phytol
chlorophyll a degradation II: H₂O + pheophytin a ⟶ H⁺ + pheophorbide a + phytol
chlorophyll a degradation II: H₂O + pheophytin a ⟶ H⁺ + pheophorbide a + phytol
chlorophyll a degradation II: H₂O + pheophytin a ⟶ H⁺ + pheophorbide a + phytol
chlorophyll a degradation II: H₂O + pheophytin a ⟶ H⁺ + pheophorbide a + phytol
chlorophyll a degradation II: H₂O + pheophytin a ⟶ H⁺ + pheophorbide a + phytol
chlorophyll a degradation II: H₂O + pheophytin a ⟶ H⁺ + pheophorbide a + phytol
chlorophyll a degradation II: H₂O + pheophytin a ⟶ H⁺ + pheophorbide a + phytol
chlorophyll a degradation II: H₂O + pheophytin a ⟶ H⁺ + pheophorbide a + phytol
chlorophyll a degradation II: H₂O + pheophytin a ⟶ H⁺ + pheophorbide a + phytol
chlorophyll a degradation II: H₂O + pheophytin a ⟶ H⁺ + pheophorbide a + phytol
chlorophyll a degradation II: H₂O + pheophytin a ⟶ H⁺ + pheophorbide a + phytol
chlorophyll a degradation II: H₂O + pheophytin a ⟶ H⁺ + pheophorbide a + phytol
chlorophyll a degradation II: H₂O + pheophytin a ⟶ H⁺ + pheophorbide a + phytol
chlorophyll a degradation II: H₂O + pheophytin a ⟶ H⁺ + pheophorbide a + phytol
chlorophyll a degradation II: H₂O + pheophytin a ⟶ H⁺ + pheophorbide a + phytol
chlorophyll a degradation II: H₂O + pheophytin a ⟶ H⁺ + pheophorbide a + phytol
chlorophyll a degradation II: H₂O + pheophytin a ⟶ H⁺ + pheophorbide a + phytol
chlorophyll a degradation II: H₂O + pheophytin a ⟶ H⁺ + pheophorbide a + phytol
chlorophyll a degradation II: H₂O + pheophytin a ⟶ H⁺ + pheophorbide a + phytol
chlorophyll a degradation II: H₂O + pheophytin a ⟶ H⁺ + pheophorbide a + phytol
chlorophyll a degradation II: H₂O + pheophytin a ⟶ H⁺ + pheophorbide a + phytol
chlorophyll a degradation II: H₂O + pheophytin a ⟶ H⁺ + pheophorbide a + phytol
chlorophyll a degradation II: H₂O + pheophytin a ⟶ H⁺ + pheophorbide a + phytol
chlorophyll a degradation II: H₂O + pheophytin a ⟶ H⁺ + pheophorbide a + phytol
chlorophyll a degradation II: H₂O + pheophytin a ⟶ H⁺ + pheophorbide a + phytol
chlorophyll a degradation II: H₂O + pheophytin a ⟶ H⁺ + pheophorbide a + phytol
chlorophyll a degradation II: H₂O + pheophytin a ⟶ H⁺ + pheophorbide a + phytol
chlorophyll a degradation II: H₂O + pheophytin a ⟶ H⁺ + pheophorbide a + phytol
chlorophyll a degradation II: H₂O + pheophytin a ⟶ H⁺ + pheophorbide a + phytol
chlorophyll a degradation II: H⁺ + chlorophyll a ⟶ Mg²⁺ + pheophytin 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

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9 个相关的物种来源信息

85549 - Artemia salina:
183260 - Hibiscus sabdariffa: 10.21608/BFSA.1998.67837
98504 - Matricaria chamomilla: 10.1556/AALIM.29.2000.1.5
166987 - Montanoa frutescens: 10.1016/0010-7824(83)90003-3
166988 - Montanoa grandiflora: 10.1016/0010-7824(83)90003-3
166995 - Montanoa leucantha: 10.1016/0010-7824(83)90003-3
167007 - Montanoa tomentosa: 10.1016/0010-7824(83)90003-3
115506 - Phytelephas aequatorialis: 10.1007/BF02907355
3641 - Theobroma cacao: 10.1515/ZNC-1998-9-1002

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
Cytoplasm	11	ANG, AXIN2, BGLAP, CA1, MYLK, PC, PKM, PMP2, POLB, PRKX, TUBB4B
Endoplasmic reticulum membrane	1	SPP1
Nucleus	7	ANG, AXIN2, PKM, PMP2, POLB, PRKX, TUBB4B
cytosol	8	ANG, AXIN2, CA1, MYLK, PC, PKM, PMP2, TUBB4B
dendrite	1	BGLAP
centrosome	1	AXIN2
nucleoplasm	3	ATP2B1, POLB, PRKX
Cell membrane	5	ATP2B1, SLC41A1, SPP1, TRPM6, TRPM7
Cleavage furrow	1	MYLK
lamellipodium	1	MYLK
Multi-pass membrane protein	5	ATP2B1, SLC41A1, SPP1, TRPM6, TRPM7
Synapse	2	ATP2B1, MYLK
glutamatergic synapse	1	ATP2B1
Golgi apparatus	1	SPP1
Golgi membrane	1	INS
growth cone	1	ANG
neuronal cell body	1	ANG
presynaptic membrane	1	ATP2B1
plasma membrane	8	ATP2B1, AXIN2, F9, MYLK, SLC41A1, SPP1, TRPM6, TRPM7
synaptic vesicle membrane	1	ATP2B1
Membrane	4	ATP2B1, SLC41A1, TRPM6, TRPM7
apical plasma membrane	1	TRPM6
basolateral plasma membrane	2	ATP2B1, SLC41A1
extracellular exosome	8	ATP2B1, BMP3, CA1, F9, PKM, PMP2, SPP1, TUBB4B
extracellular space	7	ANG, BGLAP, BMP3, F9, INS, PTH, SPP1
perinuclear region of cytoplasm	1	SPP1
mitochondrion	2	PC, PKM
protein-containing complex	2	POLB, SLC41A1
intracellular membrane-bounded organelle	1	ATP2B1
Secreted	6	ANG, BGLAP, BMP3, F9, INS, SPP1
extracellular region	9	ANG, BGLAP, BMP3, F9, INS, PKM, PTH, SPP1, TUBB4B
Mitochondrion matrix	1	PC
mitochondrial matrix	1	PC
Cytoplasmic vesicle, secretory vesicle, synaptic vesicle membrane	1	ATP2B1
Extracellular vesicle	2	PKM, TUBB4B
actin cytoskeleton	2	ANG, MYLK
perikaryon	1	BGLAP
beta-catenin destruction complex	1	AXIN2
cytoplasmic vesicle	1	TRPM7
microtubule cytoskeleton	1	TUBB4B
nucleolus	1	ANG
vesicle	2	BGLAP, PKM
Apical cell membrane	1	TRPM6
Cell projection, lamellipodium	1	MYLK
Cytoplasm, cytoskeleton	1	TUBB4B
microtubule	2	POLB, TUBB4B
basement membrane	1	ANG
collagen-containing extracellular matrix	2	F9, PKM
lateral plasma membrane	1	ATP2B1
ruffle	1	TRPM7
cilium	1	PKM
cell projection	2	ATP2B1, SPP1
mitotic spindle	1	TUBB4B
Chromosome	1	ANG
cytoskeleton	1	TUBB4B
brush border membrane	1	TRPM6
Nucleus, nucleolus	1	ANG
Basolateral cell membrane	2	ATP2B1, SLC41A1
intercellular bridge	1	TUBB4B
Cytoplasm, cytoskeleton, flagellum axoneme	1	TUBB4B
sperm flagellum	1	TUBB4B
endosome lumen	1	INS
axonemal microtubule	1	TUBB4B
Cytoplasmic vesicle membrane	1	TRPM7
Cytoplasm, Stress granule	1	ANG
cytoplasmic stress granule	1	ANG
Presynaptic cell membrane	1	ATP2B1
myelin sheath	1	PMP2
stress fiber	1	MYLK
ficolin-1-rich granule lumen	1	PKM
secretory granule lumen	2	INS, PKM
Golgi lumen	3	BGLAP, F9, INS
endoplasmic reticulum lumen	4	BGLAP, F9, INS, SPP1
endocytic vesicle	1	ANG
transport vesicle	1	INS
azurophil granule lumen	1	TUBB4B
Endoplasmic reticulum-Golgi intermediate compartment membrane	1	INS
immunological synapse	1	ATP2B1
Cytoplasm, cytoskeleton, stress fiber	1	MYLK
spindle microtubule	1	POLB
Rough endoplasmic reticulum	1	PKM
angiogenin-PRI complex	1	ANG
photoreceptor ribbon synapse	1	ATP2B1
[Isoform M2]: Cytoplasm	1	PKM
[Isoform M1]: Cytoplasm	1	PKM
[TRPM7 kinase, cleaved form]: Nucleus	1	TRPM7
[TRPM6 kinase, cleaved form]: Nucleus	1	TRPM6

文献列表

Heather L Hartman, Katherine E Bowers, Carol A Fierke. Lysine beta311 of protein geranylgeranyltransferase type I partially replaces magnesium. The Journal of biological chemistry. 2004 Jul; 279(29):30546-53. doi: 10.1074/jbc.m403469200. [PMID: 15131129]
O Ferment, Y Touitou. Magnesium: metabolism and hormonal regulation in different species. Comparative biochemistry and physiology. A, Comparative physiology. 1985; 82(4):753-8. doi: 10.1016/0300-9629(85)90478-5. [PMID: 14570081]
J P Baker, A S Detsky, S Stewart, J Whitwell, E B Marliss, K N Jeejeebhoy. Randomized trial of total parenteral nutrition in critically ill patients: metabolic effects of varying glucose-lipid ratios as the energy source. Gastroenterology. 1984 Jul; 87(1):53-9. doi: 10.1016/0016-5085(84)90125-2. [PMID: 6427057]