Chromatography: Difference between revisions
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Chromatography is a technique for the purification and separation of [[Molecule|molecules]] in the laboratory.<br> | Chromatography is a technique for the purification and separation of [[Molecule|molecules]] in the laboratory.<br> | ||
Examples of common chromatography methods include: [[Ion exchange chromatography|ion exchange chromatography]], [[Size exclusion chromatography|size exclusion chromatography]], [[Affinity binding chromatography|affinity binding chromatography]] and [[Hydrophobic interaction chromatography|hydrophobic interaction chromatography]]. | Examples of common chromatography methods include: [[Ion exchange chromatography|ion exchange chromatography]], [[Size exclusion chromatography|size exclusion chromatography]], [[Affinity binding chromatography|affinity binding chromatography]] and [[Hydrophobic interaction chromatography|hydrophobic interaction chromatography]]. | ||
Ion exchange chromatography separates molecules according to their overall charge. Positively charged molecules stick to the column whereas negatively charged molecules are eluted first with the buffer. Salt can be added to the column to elute the positively charged molecules afterwards. | |||
Types of chromatography include: [[Two-dimensional chromatography|two-dimensional chromatography]], [[Thin layer chromatography|thin layer chromatography]] (TLC) and [[Paper chromatography|paper chromatography]].<br> | |||
Without chromatography, and the work of [[Banting|Banting]], [[Best|Best]] and a biochemist called [[Collip|Collip]] (who perfected the purification), we would have no treatment for [[Diabetes|type I diabetes]], that is, [[Insulin|insulin]] would not have been discovered. Without chromatography we wouldn’t be able to sequence [[DNA|DNA]], perform [[PCR|PCR]], and many drugs and biological mechanisms would not have been discovered. | Without chromatography, and the work of [[Banting|Banting]], [[Best|Best]] and a biochemist called [[Collip|Collip]] (who perfected the purification), we would have no treatment for [[Diabetes|type I diabetes]], that is, [[Insulin|insulin]] would not have been discovered. Without chromatography we wouldn’t be able to sequence [[DNA|DNA]], perform [[PCR|PCR]], and many drugs and biological mechanisms would not have been discovered. | ||
Revision as of 12:36, 29 November 2012
Chromatography is a technique for the purification and separation of molecules in the laboratory.
Examples of common chromatography methods include: ion exchange chromatography, size exclusion chromatography, affinity binding chromatography and hydrophobic interaction chromatography.
Ion exchange chromatography separates molecules according to their overall charge. Positively charged molecules stick to the column whereas negatively charged molecules are eluted first with the buffer. Salt can be added to the column to elute the positively charged molecules afterwards.
Types of chromatography include: two-dimensional chromatography, thin layer chromatography (TLC) and paper chromatography.
Without chromatography, and the work of Banting, Best and a biochemist called Collip (who perfected the purification), we would have no treatment for type I diabetes, that is, insulin would not have been discovered. Without chromatography we wouldn’t be able to sequence DNA, perform PCR, and many drugs and biological mechanisms would not have been discovered.