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1,2-Dioxetane

April 21, 2023

The chemical substance 1,2-dioxetane (systematically named 1,2-dioxacyclobutane, also known as ethylene peroxide or peroxyethane) is a heterocyclic, organic compound with formula C2O2H4, containing a ring of two adjacent oxygen atoms and two adjacent carbon atoms. It is therefore an organic peroxide, and can be viewed as a dimer of formaldehyde (COH2).

1,2-Dioxetane
Names
Preferred IUPAC name
1,2-Dioxetane
Systematic IUPAC name
1,2-Dioxacyclobutane
Other names
Ethylene peroxide
Peroxyethane
Identifiers
  • 6788-84-7 Y
3D model (JSmol)
  • Interactive image
  • Interactive image
ChemSpider
  • 108850 Y
  • 122029
UNII
  • 142GQA523X Y
  • DTXSID20218105
  • InChI=1S/C2H4O2/c1-2-4-3-1/h1-2H2 Y
    Key: BVTJGGGYKAMDBN-UHFFFAOYSA-N Y
  • InChI=1/C2H4O2/c1-2-4-3-1/h1-2H2
    Key: BVTJGGGYKAMDBN-UHFFFAOYAG
  • C1OOC1
  • O1OCC1
Properties
C2H4O2
Molar mass 60.052 g·mol−1
Except where otherwise noted, data are given for materials in their standard state (at 25 °C [77 °F], 100 kPa).
N verify (what is YN ?)

Luminescence

In the 1960s, biochemists discovered that some derivatives of 1,2-dioxetane have a fleeting existence as intermediates in the reactions responsible for the bioluminescence in fireflies, glow-worms and other luminescent creatures. The luminescence of glowsticks and luminescent bangles and necklaces involves 1,2-dioxetanedione (C2O4), another dioxetane derivative that decomposes to carbon dioxide.[1] Other dioxetane derivatives are used in clinical analysis, where their light emission (which can be measured even at very low levels) allows chemists to detect very low concentrations of body fluid constituents.[2]

Derivatives

The hypothesis could not be proved because these four-membered cyclic peroxides are quite unstable. Then in 1968 the first example of a stable dioxetane derivative was made at the University of Alberta in Edmonton: 3,3,4-trimethyl-1,2-dioxetane, prepared as a yellow solution in benzene. When heated to 333 K, it decomposed smoothly (rather than explosively, as many peroxides do) to acetone and acetaldehyde with the emission of pale blue light.[3]

The second example of a dioxetane derivative was made shortly after: the symmetrical compound 3,3,4,4-tetramethyl-1,2-dioxetane, obtained as pale yellow crystals that sublimed even when kept in the refrigerator. Benzene solutions of this compound also decomposed smoothly with the emission of blue light. By adding compounds that normally fluoresce in UV light the colour of the emitted light could be altered.[4]

Carbon monoxide

The dioxetane intermediate is capable of generating carbon monoxide and has been explored as a carbon monoxide pro-drug.

Peroxidation of the reactive enol of alpha keto acids, such as the tautomer of phenylpyruvic acid at the benzylic carbon, can form a fluorescing 1,2-dioxetane to generate benzaldehyde and oxalic acid.[6] Alternatively, a peroxylactone can form (alpha-keto-beta-peroxylactone) which also forms benzaldehyde but liberates carbon dioxide and carbon monoxide.[7]

See also

References

  1. ^ Vacher, Morgane; Fdez. Galván, Ignacio; Ding, Bo-Wen; Schramm, Stefan; Berraud-Pache, Romain; Naumov, Panče; Ferré, Nicolas; Liu, Ya-Jun; Navizet, Isabelle; Roca-Sanjuán, Daniel; Baader, Wilhelm J.; Lindh, Roland (March 2018). "Chemi- and Bioluminescence of Cyclic Peroxides". Chemical Reviews. 118 (15): 6927–6974. doi:10.1021/acs.chemrev.7b00649. PMID 29493234.
  2. ^ US Patent No. 5,330,900 to Tropix Inc.
  3. ^ Luminescence in the thermal decomposition of 3,3,4-trimethyl-1,2-dioxetane, Canadian Journal of Chemistry, Volume 47, p 709 (1969), K.R.Kopecky and C. Mumford
  4. ^ Preparation and Thermolysis of Some 1,2-Dioxetanes, Canadian Journal of Chemistry, 1975, 53(8): 1103-1122, Karl R. Kopecky, John E. Filby, Cedric Mumford, Peter A. Lockwood, and Jan-Yih Ding.doi:10.1139/v75-154
  5. ^ Berk, Paul D.; Berlin, Nathaniel I. (1977). International Symposium on Chemistry and Physiology of Bile Pigments. U.S. Department of Health, Education, and Welfare, Public Health Service, National Institutes of Health. pp. 27, 50.
  6. ^ a b Hopper, Christopher P.; De La Cruz, Ladie Kimberly; Lyles, Kristin V.; Wareham, Lauren K.; Gilbert, Jack A.; Eichenbaum, Zehava; Magierowski, Marcin; Poole, Robert K.; Wollborn, Jakob; Wang, Binghe (2020-12-23). "Role of Carbon Monoxide in Host–Gut Microbiome Communication". Chemical Reviews. 120 (24): 13273–13311. doi:10.1021/acs.chemrev.0c00586. ISSN 0009-2665. PMID 33089988. S2CID 224824871.
  7. ^ Hopper, Christopher P.; Zambrana, Paige N.; Goebel, Ulrich; Wollborn, Jakob (2021). "A brief history of carbon monoxide and its therapeutic origins". Nitric Oxide. 111–112: 45–63. doi:10.1016/j.niox.2021.04.001. PMID 33838343. S2CID 233205099.

April 21, 2023
dioxetane, chemical, substance, dioxetane, systematically, named, dioxacyclobutane, also, known, ethylene, peroxide, peroxyethane, heterocyclic, organic, compound, with, formula, c2o2h4, containing, ring, adjacent, oxygen, atoms, adjacent, carbon, atoms, there. The chemical substance 1 2 dioxetane systematically named 1 2 dioxacyclobutane also known as ethylene peroxide or peroxyethane is a heterocyclic organic compound with formula C2O2H4 containing a ring of two adjacent oxygen atoms and two adjacent carbon atoms It is therefore an organic peroxide and can be viewed as a dimer of formaldehyde COH2 1 2 Dioxetane NamesPreferred IUPAC name 1 2 DioxetaneSystematic IUPAC name 1 2 DioxacyclobutaneOther names Ethylene peroxidePeroxyethaneIdentifiersCAS Number 6788 84 7 Y3D model JSmol Interactive imageInteractive imageChemSpider 108850 YPubChem CID 122029UNII 142GQA523X YCompTox Dashboard EPA DTXSID20218105InChI InChI 1S C2H4O2 c1 2 4 3 1 h1 2H2 YKey BVTJGGGYKAMDBN UHFFFAOYSA N YInChI 1 C2H4O2 c1 2 4 3 1 h1 2H2Key BVTJGGGYKAMDBN UHFFFAOYAGSMILES C1OOC1O1OCC1PropertiesChemical formula C 2H 4O 2Molar mass 60 052 g mol 1Except where otherwise noted data are given for materials in their standard state at 25 C 77 F 100 kPa N verify what is Y N Infobox references Contents 1 Luminescence 2 Derivatives 3 Carbon monoxide 4 See also 5 ReferencesLuminescence EditIn the 1960s biochemists discovered that some derivatives of 1 2 dioxetane have a fleeting existence as intermediates in the reactions responsible for the bioluminescence in fireflies glow worms and other luminescent creatures The luminescence of glowsticks and luminescent bangles and necklaces involves 1 2 dioxetanedione C2O4 another dioxetane derivative that decomposes to carbon dioxide 1 Other dioxetane derivatives are used in clinical analysis where their light emission which can be measured even at very low levels allows chemists to detect very low concentrations of body fluid constituents 2 Derivatives EditThe hypothesis could not be proved because these four membered cyclic peroxides are quite unstable Then in 1968 the first example of a stable dioxetane derivative was made at the University of Alberta in Edmonton 3 3 4 trimethyl 1 2 dioxetane prepared as a yellow solution in benzene When heated to 333 K it decomposed smoothly rather than explosively as many peroxides do to acetone and acetaldehyde with the emission of pale blue light 3 The second example of a dioxetane derivative was made shortly after the symmetrical compound 3 3 4 4 tetramethyl 1 2 dioxetane obtained as pale yellow crystals that sublimed even when kept in the refrigerator Benzene solutions of this compound also decomposed smoothly with the emission of blue light By adding compounds that normally fluoresce in UV light the colour of the emitted light could be altered 4 Carbon monoxide EditThe dioxetane intermediate is capable of generating carbon monoxide and has been explored as a carbon monoxide pro drug Peroxidation of heme at the alpha methine bridge generates carbon monoxide and forms biliverdin as a non enzymatic alternative pathway to heme oxygenase 5 Lipid peroxidation 6 Peroxidation of the reactive enol of alpha keto acids such as the tautomer of phenylpyruvic acid at the benzylic carbon can form a fluorescing 1 2 dioxetane to generate benzaldehyde and oxalic acid 6 Alternatively a peroxylactone can form alpha keto beta peroxylactone which also forms benzaldehyde but liberates carbon dioxide and carbon monoxide 7 See also Edit1 3 DioxetaneReferences Edit Vacher Morgane Fdez Galvan Ignacio Ding Bo Wen Schramm Stefan Berraud Pache Romain Naumov Pance Ferre Nicolas Liu Ya Jun Navizet Isabelle Roca Sanjuan Daniel Baader Wilhelm J Lindh Roland March 2018 Chemi and Bioluminescence of Cyclic Peroxides Chemical Reviews 118 15 6927 6974 doi 10 1021 acs chemrev 7b00649 PMID 29493234 US Patent No 5 330 900 to Tropix Inc Luminescence in the thermal decomposition of 3 3 4 trimethyl 1 2 dioxetane Canadian Journal of Chemistry Volume 47 p 709 1969 K R Kopecky and C Mumford Preparation and Thermolysis of Some 1 2 Dioxetanes Canadian Journal of Chemistry 1975 53 8 1103 1122 Karl R Kopecky John E Filby Cedric Mumford Peter A Lockwood and Jan Yih Ding doi 10 1139 v75 154 Berk Paul D Berlin Nathaniel I 1977 International Symposium on Chemistry and Physiology of Bile Pigments U S Department of Health Education and Welfare Public Health Service National Institutes of Health pp 27 50 a b Hopper Christopher P De La Cruz Ladie Kimberly Lyles Kristin V Wareham Lauren K Gilbert Jack A Eichenbaum Zehava Magierowski Marcin Poole Robert K Wollborn Jakob Wang Binghe 2020 12 23 Role of Carbon Monoxide in Host Gut Microbiome Communication Chemical Reviews 120 24 13273 13311 doi 10 1021 acs chemrev 0c00586 ISSN 0009 2665 PMID 33089988 S2CID 224824871 Hopper Christopher P Zambrana Paige N Goebel Ulrich Wollborn Jakob 2021 A brief history of carbon monoxide and its therapeutic origins Nitric Oxide 111 112 45 63 doi 10 1016 j niox 2021 04 001 PMID 33838343 S2CID 233205099 Retrieved from https en wikipedia org w index php title 1 2 Dioxetane amp oldid 1145160562, wikipedia, wiki, book, books, library,

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