Van Slyke determination: Difference between revisions
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One of Van Slyke's first professional achievements was the quantification of amino acids by the Van Slyke determination reaction.<ref>Donald D. van Slyke (1910) [https://babel.hathitrust.org/cgi/pt?id=mdp.39015026351448;view=1up;seq=396 "Eine Methode zur quantitativen Bestimmung der aliphatischen Aminogruppen; einige Anwenungen derselben in der Chemi der Proteine, des Harns und der Enzyme"] (A method for the quantitative determination of aliphatic amino groups: some applications of it in the chemistry of proteins, urine, and enzymes), ''Berichte der Deutschen Chemischen Gesellschaft'', '''43''' : 3170-3181.</ref> To quantify aliphatic [[amino acids]], the sample is diluted in [[glycerol]] and then treated with a solution of [[sodium nitrite]], water and [[acetic acid]]. The resulting [[diazotisation]] reaction produces [[nitrogen]] gas which can be observed qualitatively or measured quantitatively.<ref>{{Cite journal|title = The Measurement of Blood Gases and the Manometric Techniques Developed by Donald Dexter Van Slyke|url = http://www.jbc.org/content/277/27/e16|journal = Journal of Biological Chemistry|date = 2002-07-05|issn = 0021-9258|pmid = 12091502|pages = e16|volume = 277|issue = 27|first = Robert D.|last = Simoni|first2 = Robert L.|last2 = Hill|first3 = Martha|last3 = Vaughan}}</ref> |
One of Van Slyke's first professional achievements was the quantification of amino acids by the Van Slyke determination reaction.<ref>Donald D. van Slyke (1910) [https://babel.hathitrust.org/cgi/pt?id=mdp.39015026351448;view=1up;seq=396 "Eine Methode zur quantitativen Bestimmung der aliphatischen Aminogruppen; einige Anwenungen derselben in der Chemi der Proteine, des Harns und der Enzyme"] (A method for the quantitative determination of aliphatic amino groups: some applications of it in the chemistry of proteins, urine, and enzymes), ''Berichte der Deutschen Chemischen Gesellschaft'', '''43''' : 3170-3181.</ref> To quantify aliphatic [[amino acids]], the sample is diluted in [[glycerol]] and then treated with a solution of [[sodium nitrite]], water and [[acetic acid]]. The resulting [[diazotisation]] reaction produces [[nitrogen]] gas which can be observed qualitatively or measured quantitatively.<ref>{{Cite journal|title = The Measurement of Blood Gases and the Manometric Techniques Developed by Donald Dexter Van Slyke|url = http://www.jbc.org/content/277/27/e16|journal = Journal of Biological Chemistry|date = 2002-07-05|issn = 0021-9258|pmid = 12091502|pages = e16|volume = 277|issue = 27|first = Robert D.|last = Simoni|first2 = Robert L.|last2 = Hill|first3 = Martha|last3 = Vaughan}}</ref> |
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Van Slyke Reaction: |
Van Slyke Reaction:<ref>{{Cite journal|title = Modified Van Slyke Method for Microquantitative Determination of Aliphatic Amino Groups|journal = Analytical Chemistry|date = 1952-10-01|issn = 0003-2700|pages = 1642–1644|volume = 24|issue = 10|doi = 10.1021/ac60070a043|first = A. S.|last = Hussey|first2 = J. E.|last2 = Maurer}}</ref> |
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<chem>R-NH2 + HONO -> ROH + N2 + H2O </chem> |
<chem>R-NH2 + HONO -> ROH + N2 + H2O </chem> |
Revision as of 02:18, 27 February 2021
The Van Slyke determination is a chemical test for the determination of amino acids containing a primary amine group. It is named after the biochemist Donald Dexter Van Slyke (1883-1971).[1]
One of Van Slyke's first professional achievements was the quantification of amino acids by the Van Slyke determination reaction.[2] To quantify aliphatic amino acids, the sample is diluted in glycerol and then treated with a solution of sodium nitrite, water and acetic acid. The resulting diazotisation reaction produces nitrogen gas which can be observed qualitatively or measured quantitatively.[3]
Van Slyke Reaction:[4]
In addition, Van Slyke developed the so-called Van Slyke apparatus, which can be used to determine the concentration of respiratory gases in the blood, especially the concentration of sodium bicarbonate. This was of high importance to be able to recognize a beginning acidosis in diabetic patients as early as possible, in order to start alkali treatment. The Van Slyke apparatus became a standard equipment in clinical laboratories around the world and the results of Van Slyke's research are still used today to determine abnormalities in the acid-base homeostasis. Later on, Van Slyke further improved his apparatus, increasing its accuracy and sensitivity. Using the new method, he was able to further investigate the role of gas and electrolyte equilibria in the blood and how they change in response to respiration.[5][6]
References
- ^ "Donald Dexter Van Slyke" (PDF).
- ^ Donald D. van Slyke (1910) "Eine Methode zur quantitativen Bestimmung der aliphatischen Aminogruppen; einige Anwenungen derselben in der Chemi der Proteine, des Harns und der Enzyme" (A method for the quantitative determination of aliphatic amino groups: some applications of it in the chemistry of proteins, urine, and enzymes), Berichte der Deutschen Chemischen Gesellschaft, 43 : 3170-3181.
- ^ Simoni, Robert D.; Hill, Robert L.; Vaughan, Martha (2002-07-05). "The Measurement of Blood Gases and the Manometric Techniques Developed by Donald Dexter Van Slyke". Journal of Biological Chemistry. 277 (27): e16. ISSN 0021-9258. PMID 12091502.
- ^ Hussey, A. S.; Maurer, J. E. (1952-10-01). "Modified Van Slyke Method for Microquantitative Determination of Aliphatic Amino Groups". Analytical Chemistry. 24 (10): 1642–1644. doi:10.1021/ac60070a043. ISSN 0003-2700.
- ^ Simoni, Robert D.; Hill, Robert L.; Vaughan, Martha (2002-07-05). "The Measurement of Blood Gases and the Manometric Techniques Developed by Donald Dexter Van Slyke". Journal of Biological Chemistry. 277 (27): e16. ISSN 0021-9258. PMID 12091502.
- ^ "Van Slyke apparatus". TheFreeDictionary.com. Retrieved 2015-11-05.
External links
- Van Slyke reaction mechanism scheme
- Modified Van Slyke Method for Determination of Aliphatic Amino Groups
- The Measurement of Blood Gases and the Manometric Techniques developed by Donald Dexter Van Slyke