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• NCIT_C38780 NCIT_NHC0 "C38780" @default.
• NCIT_C38780 NCIT_P106 "Functional Concept" @default.
• NCIT_C38780 NCIT_P108 "Aminophosphonate Metabolism Pathway" @default.
• NCIT_C38780 NCIT_P207 "C1510872" @default.
• NCIT_C38780 NCIT_P215 "map00440" @default.
• NCIT_C38780 NCIT_P325 "Natural products containing carbon-phosphorous bonds, so-called C-P compounds, are derivatives of phosphonate and phosphinate with substitution of alkyl group for hydrogen of phosphorus-hydrogen bonds. C-P compounds have been found in many organisms, but only protists and bacteria, mostly Actinobacteria, have biosynthetic capacity. A common reaction in the biosynthetic pathway is C-P bond forming reaction from phosphoenolpyruvate (PEP) to phosphonopyruvate (PnPy) catalyzed by PEP phosphomutase. 2-Aminoethylphosphonate (AEP) is the most abundant C-P compound in the natural world. AEP derivatives include phosphonoprotein, phosphonoglycan, and phosphonolipid. Other known C-P compounds are bioactive substances used in medicine (antibiotics) and agriculture (herbicide) such as fosfomycin, FR-33289, rhizocticin, and bialaphos." @default.
• NCIT_C38780 NCIT_P366 "Aminophosphonate_Metabolism_Pathway" @default.
• NCIT_C38780 normalizedInformationContent "100" @default.
• NCIT_C38780 referenceCount "1" @default.
• NCIT_C38780 hasExactSynonym "Aminophosphonate Metabolism Pathway" @default.
• NCIT_C38780 hasExactSynonym "Aminophosphonate Metabolism" @default.
• NCIT_C38780 hasExactSynonym "Phosphonate and phosphinate metabolism" @default.
• NCIT_C38780 type Class @default.
• NCIT_C38780 isDefinedBy ncit.owl @default.
• NCIT_C38780 label "Aminophosphonate Metabolism Pathway" @default.
• NCIT_C38780 subClassOf NCIT_C18611 @default.
• NCIT_C38780 subClassOf NCIT_C20633 @default.
• NCIT_C38780 subClassOf NCIT_C38780 @default.
• NCIT_C38780 subClassOf NCIT_C39731 @default.