Difference between revisions of "Ethanol Precipitation"

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Oxygen has the right combination (of a number of protons with a collective positive charge of eight strongly attracting electrons, a small number of electrons, so that the electrons are highly attracted to the protons in the nucleus and not shielded by repelling each other, and is close to filling its outer orbital, so that two additional electrons beyond six in the outer orbital are very stable causing them to spend more time with the oxygen nucleus), so that it has a very high electronegativity (second only to flourine [https://en.wikipedia.org/wiki/Electronegativity]) and tends to have a partial negative charge when covalently bonded to other elements.
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This partial negative charge of oxygen results in a number of important phenomenon such as hydrogen bonding (in water partially positive hydrogen is attracted to partially negative oxygen of other molecules causing water to expand when it freezes contrary to the behavior of most molecules; this also causes the two strands of DNA to bind with each other) and being miscible with polar as opposed to nonpolar liquids.
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Biological molecules have various levels of ability to remain in solution in water. This can be adjusted with alcohols, salts, silica, and resins that interact with the water and the biological molecules, at various levels to separate nucleic acids (DNA and RNA) from lipids, carbohydrates, proteins, and other biological molecules (metabolites and natural products) resulting from cell lysis.
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The phosphate backbone of DNA is strongly charged because the oxygen pulls electrons away from the phosphate. This allows a large amount of DNA to remain in solution in pure water. However, the DNA molecule is also made up of sugars and bases that contribute less solubility to the entire molecule.
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Revision as of 18:07, 29 July 2018

Oxygen has the right combination (of a number of protons with a collective positive charge of eight strongly attracting electrons, a small number of electrons, so that the electrons are highly attracted to the protons in the nucleus and not shielded by repelling each other, and is close to filling its outer orbital, so that two additional electrons beyond six in the outer orbital are very stable causing them to spend more time with the oxygen nucleus), so that it has a very high electronegativity (second only to flourine [1]) and tends to have a partial negative charge when covalently bonded to other elements.

This partial negative charge of oxygen results in a number of important phenomenon such as hydrogen bonding (in water partially positive hydrogen is attracted to partially negative oxygen of other molecules causing water to expand when it freezes contrary to the behavior of most molecules; this also causes the two strands of DNA to bind with each other) and being miscible with polar as opposed to nonpolar liquids.

Biological molecules have various levels of ability to remain in solution in water. This can be adjusted with alcohols, salts, silica, and resins that interact with the water and the biological molecules, at various levels to separate nucleic acids (DNA and RNA) from lipids, carbohydrates, proteins, and other biological molecules (metabolites and natural products) resulting from cell lysis.

The phosphate backbone of DNA is strongly charged because the oxygen pulls electrons away from the phosphate. This allows a large amount of DNA to remain in solution in pure water. However, the DNA molecule is also made up of sugars and bases that contribute less solubility to the entire molecule.

Links

https://bitesizebio.com/253/the-basics-how-ethanol-precipitation-of-dna-and-rna-works/

https://bitesizebio.com/2839/dna-precipitation-ethanol-vs-isopropanol/

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