Polyvalency (chemistry)

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"Multivalent" redirects here. For other uses, see Polyvalence (disambiguation).
File:Figure 1 Polyvalency.jpg
Fig. 1. Electron sharing in multivalent atomic binding. The dots and crosses represent the outer electrons of the two different species in each molecule. In ammonia (a), N is connected to three H atoms and is trivalent. In carbon tetrachloride (b), C is connected to four Cl atoms and is tetravalent.

In chemistry, polyvalency (or polyvalence, multivalency) is the property of molecules and larger species, such as antibodies, medical drugs, and even nanoparticles surface-functionalized with ligands, like spherical nucleic acids, that exhibit more than one supramolecular interaction.[1][2][3] For the number of chemical bonds of atoms, the term "valence" is used (Fig. 1). For both atoms and larger species, the number of bonds may be specified: divalent species can form two bonds; a trivalent species can form three bonds; and so on.[4]

Species that have polyvalency usually show enhanced or cooperative binding compared to their monovalent counterparts.[5][6][7][8] Nanoparticles with multiple nucleic acid strands on their surfaces (e.g., DNA) can form multiple bonds with one another by DNA hybridization to form hierarchical assemblies, some of which are highly crystalline in nature.[9]

References

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  1. ^ Lua error in Module:Citation/CS1/Configuration at line 2172: attempt to index field '?' (a nil value).
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  3. ^ Lua error in Module:Citation/CS1/Configuration at line 2172: attempt to index field '?' (a nil value).
  4. ^ Cartmell, E.; Fowles, G. W. A. (1983). Valency and Molecular Structure (4th ed.). Lua error in Module:Citation/CS1/Configuration at line 2172: attempt to index field '?' (a nil value)..
  5. ^ Crothers, D.; Metzger, H. (1972). “The influence of polyvalency on the binding properties of antibodies”. Immunochemistry. 9 (3): 341–57. doi: 10.1016/0019-2791(72)90097-3
  6. ^ Davis, K. A.; et al. (1999). “Determination of CD4 antigen density on cells: Role of antibody valency, avidity, clones, and conjugation”. Cytometry Part A. 33 (2):197–205. doi: 10.1002/(SICI)1097-0320(19981001)33:2<197::AID-CYTO14>3.0.CO;2-P
  7. ^ Jones, M. A.; et al. (2015) “Programmable materials and the nature of the DNA bond”. Science. 347 (6224): 840. doi: 10.1126/science.1260901
  8. ^ Hu, X.; et al. (2019) “Valency-Controlled Molecular Spherical Nucleic Acids with Tunable Biosensing Performances”. Anal. Chem. 91 (17): 11374–11379. doi: 10.1021/acs.analchem.9b02614
  9. ^ Macfarlane, R. J.; et al. (2011). "Nanoparticle Superlattice Engineering with DNA". Science. 334 (6053): 204–08. doi:10.1126/science.1210493.
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