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High-performance liquid chromatography
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===Bioaffinity chromatography=== {{further|Affinity chromatography}} High performance affinity chromatography (HPAC)<ref>{{Cite journal |last1=Zhang |first1=Chenhua |last2=Rodriguez |first2=Elliott |last3=Bi |first3=Cong |last4=Zheng |first4=Xiwei |last5=Suresh |first5=Doddavenkatana |last6=Suh |first6=Kyungah |last7=Li |first7=Zhao |last8=Elsebaei |first8=Fawzi |last9=Hage |first9=David S. |date=2018 |title=High performance affinity chromatography and related separation methods for the analysis of biological and pharmaceutical agents |journal=Analyst |language=en |volume=143 |issue=2 |pages=374β391 |doi=10.1039/C7AN01469D |issn=1364-5528 |pmc=5768458 |pmid=29200216|bibcode=2018Ana...143..374Z }}</ref> works by passing a sample solution through a column packed with a stationary phase that contains an immobilized biologically active ligand. The ligand is in fact a substrate that has a specific binding affinity for the target molecule in the sample solution. The target molecule binds to the ligand, while the other molecules in the sample solution pass through the column, having little or no retention. The target molecule is then eluted from the column using a suitable elution buffer. This chromatographic process relies on the capability of the bonded active substances to form stable, specific, and reversible complexes thanks to their biological recognition of certain specific sample components. The formation of these complexes involves the participation of common molecular forces such as the [[Van der Waals interaction]], electrostatic interaction, dipole-dipole interaction, hydrophobic interaction, and the hydrogen bond. An efficient, biospecific bond is formed by a simultaneous and concerted action of several of these forces in the complementary binding sites.
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