CHEBI:167156 - [P-6)-α-D-ManpN,3(4)Ac2-(1-P-6)-α-D-ManpN,4(3)Ac2-(1-P-6)-α-D-ManpN,3(4)Ac2-(1-P-6)-α-D-ManpN,4(3)Ac2-(1-P-6)-α-D-ManpN,3(4)Ac2-(1-]

Main ChEBI Ontology Automatic Xrefs Reactions Pathways Models
ChEBI Name [P-6)-α-D-ManpN,3(4)Ac2-(1-P-6)-α-D-ManpN,4(3)Ac2-(1-P-6)-α-D-ManpN,3(4)Ac2-(1-P-6)-α-D-ManpN,4(3)Ac2-(1-P-6)-α-D-ManpN,3(4)Ac2-(1-]
ChEBI ID CHEBI:167156
ChEBI ASCII Name [P-6)-alpha-D-ManpN,3(4)Ac2-(1-P-6)-alpha-D-ManpN,4(3)Ac2-(1-P-6)-alpha-D-ManpN,3(4)Ac2-(1-P-6)-alpha-D-ManpN,4(3)Ac2-(1-P-6)-alpha-D-ManpN,3(4)Ac2-(1-]
Definition A phosphate-linked oligosaccharide analogue consisting of five 3(4)-O-acetyl-α-N-acetyl-D-mannosaminyl residues, joined by (1→6)-phosphodiester linkages. It is a constituent 5-repeating-unit segment of Neisseria meningitidis serogroup A capsular polysaccharide (MenA), the structural diagram of which shows hydroxy groups partly acetylated at either positions 3 or 4, along with parts of phosphodiester linkages which are present at both the reducing and non-reducing ends of the pentasaccharide unit.
Stars This entity has been manually annotated by the ChEBI Team.
Download Molfile XML SDF
Roles Classification
Biological Role(s): epitope
The biological role played by a material entity when bound by a receptor of the adaptive immune system. Specific site on an antigen to which an antibody binds.
(via [P-6)-alpha-D-ManpN,3(4)Ac2-(1-P-6)-alpha-D-ManpN,4(3)Ac2-(1-P-6)-alpha-D-ManpN,3(4)Ac2-(1-P-6)-alpha-D-ManpN,4(3)Ac2-(1-P-6)-alpha-D-ManpN,3(4)Ac2-(1-] )
Related Structures
[P-6)-α-D-ManpN,3(4)Ac2-(1-P-6)-α-D-ManpN,4(3)Ac2-(1-P-6)-α-D-ManpN,3(4)Ac2-(1-P-6)-α-D-ManpN,4(3)Ac2-(1-P-6)-α-D-ManpN,3(4)Ac2-(1-] is a Structural Derivative of
phosphoric acid
Mass : 97.99520
Formula : H3O4P
26078 		phosphorus oxoacid
Definition : A pnictogen oxoacid which contains phosphorus and oxygen, at least one hydrogen atom bound to oxygen, and forms an ion by the loss of one or more protons.
 oxoacid
Definition : A compound which contains oxygen, at least one other element, and at least one hydrogen bound to oxygen, and which produces a conjugate base by loss of positive hydrogen ion(s) (hydrons).
Graph View Tree View
panning
Move up
Move left
Move down
Move right
Graph compression

Simplified view Show me the possible minimal nodes in this graph
Full view Show me all the nodes in this graph
Personalised view Create your own personalised ontology view, if you wish to remove any entity from your future visualisations please right click the entity (e.g. molecular entity)
My hidden entities
Edit
+Zoom in
-Zoom out
Download
Enter fullscreen