- organic phosphonate metabolic process
The chemical reactions and pathways involving phosphonates, any organic compounds containing one or more C-PO(OH)2 or C-PO(OR)2 (with R=alkyl, aryl) groups. Metabolism of phosphonic acid itself, an inorganic compound without the biochemically relevant C-P bond, is not included.
- organic phosphonate catabolic process
The chemical reactions and pathways resulting in the breakdown of phosphonates, any organic compound containing one or more C-PO(OH)2 or C-PO(OR)2 (with R=alkyl, aryl) groups. Catabolism of phosphonic acid itself, an inorganic compound without the biochemically relevant C-P bond, is not included.
- organic phosphonate biosynthetic process
The chemical reactions and pathways resulting in the formation of phosphonates, any organic compound containing one or more C-PO(OH)2 or C-PO(OR)2 (with R=alkyl, aryl) groups. Synthesis of phosphonic acid itself, an inorganic compound without the biochemically relevant C-P bond, is not included.
- SET domain binding
Binding to a SET domain of a protein. SET domains are named after three Drosophila proteins that contain this domain: Su(var), E(z) and trithorax. SET domains are associated with histone lysine methylation.
- ESC/E(Z) complex
A multimeric protein complex that can methylate lysine-27 and lysine-9 residues of histone H3. In Drosophila the core subunits of the complex include ESC, E(Z), CAF1 (NURF-55) and SU(Z)12. In mammals the core subunits of the complex include EED, EZH2, SUZ12 and RBBP4.
- acetyltransferase activator activity
Binds to and increases the activity of an acetyltransferase, an enzyme which catalyzes the transfer of an acetyl group to an acceptor molecule.
- IgG binding
Binding to an immunoglobulin of an IgG isotype.
- acid phosphatase activity
Catalysis of the reaction: an orthophosphoric monoester + H2O = an alcohol + phosphate, with an acid pH optimum.