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Aziridines

October 26, 2023

For the parent compound, see Aziridine.

In organic chemistry, aziridines are organic compounds containing the aziridine functional group (chemical structure (R−)4C2N−R), a three-membered heterocycle with one amine (>NR) and two methylene bridges (>CR2).[2][3][4] The parent compound is aziridine (or ethylene imine), with molecular formula C2H4NH. Several drugs feature aziridine rings, including mitomycin C, porfiromycin, and azinomycin B (carzinophilin).[5]

Mitomycin C, an aziridine, is used as a chemotherapeutic agent by virtue of its antitumour activity.[1]

Structure Edit

The bond angles in aziridine are approximately 60°, considerably less than the normal hydrocarbon bond angle of 109.5°, which results in angle strain as in the comparable cyclopropane and ethylene oxide molecules. A banana bond model explains bonding in such compounds. Aziridine is less basic than acyclic aliphatic amines, with a pKa of 7.9 for the conjugate acid, due to increased s character of the nitrogen free electron pair. Angle strain in aziridine also increases the barrier to nitrogen inversion. This barrier height permits the isolation of separate invertomers, for example the cis and trans invertomers of N-chloro-2-methylaziridine.

Synthesis Edit

Several routes have been developed for the syntheses of aziridines (aziridination).

Cyclization of haloamines and amino alcohols Edit

An amine functional group displaces the adjacent halide in an intramolecular nucleophilic substitution reaction to generate an aziridine. The parent aziridine is produced industrially from aminoethanol via two related routes. The Nippon Shokubai process requires an oxide catalyst and high temperatures to effect the dehydration. In the Wenker synthesis, the aminoethanol is converted to the sulfate ester, which undergoes base-induced sulfate elimination.[6]

Nitrene addition Edit

Nitrene addition to alkenes is a well-established method for the synthesis of aziridines. Photolysis or thermolysis of organic azides are good ways to generate nitrenes. Nitrenes can also be prepared in situ from iodosobenzene diacetate and sulfonamides, or the ethoxycarbonylnitrene from the N-sulfonyloxy precursor.[7]

 
Nitrene addition

From triazolines, epoxides, and oximes Edit

Thermolysis or photolysis of triazolines expels nitrogen, producing an aziridine. One method involves the ring-opening reaction of an epoxide with sodium azide, followed by reduction of the azide with triphenylphosphine accompanied by expulsion of nitrogen gas:[8]

 
Aziridine synthesis Hili 2006

Another method involves the ring-opening reaction of an epoxide with amines, followed by ring closing with the Mitsunobu reaction.[9]

The Hoch-Campbell ethylenimine synthesis involves the reaction of certain oximes with Grignard reagents, which affords aziridines.[10]

 
Hoch-Campbell Ethylenimine Synthesis

From alkenes using DPH Edit

Aziridines are obtained by treating a mono-, di-, tri- or tetra- substituted alkene (olefin) with O-(2,4-dinitrophenyl)hydroxylamine (DPH) in the presence of rhodium catalysis.

Alkene + DPH   Aziridine

For instance, Ph-Aziridine-Me can be synthesized by this method and then converted by ring opening reaction to (D)-amphetamine and (L)-amphetamine (the two active ingredients in Adderall).[11]

From α-chloroimines Edit

The De Kimpe aziridine synthesis allows for the generation of aziridines by reacting an α-chloroimine with a nucleophile, such as hydride, cyanide, or a Grignard reagent.[12][13]

From 2-azido alcohols Edit

2-azido alcohols can be converted into aziridines with the use of trialkyl phosphines such as trimethylphosphine or tributylphosphine.[14][15]

Reactions Edit

Nucleophilic ring opening Edit

Aziridines are reactive substrates in ring-opening reactions with many nucleophiles due to their ring strain. Alcoholysis and aminolysis are basically the reverse reactions of the cyclizations. Carbon nucleophiles such as organolithium reagents and organocuprates are also effective.[16][17]

One application of a ring-opening reaction in asymmetric synthesis is that of trimethylsilylazide TMSN
3 with an asymmetric ligand[18] in scheme 2[19] in an organic synthesis of oseltamivir:

 
Scheme 2. Synthesis of Tamiflu via a Catalytic Asymmetric Ring-Opening of meso-Aziridines with TMSN3

1,3-dipole formation Edit

Certain N-substituted azirines with electron withdrawing groups on both carbons form azomethine ylides in an electrocyclic thermal or photochemical ring-opening reaction.[20][21] These ylides can be trapped with a suitable dipolarophile in a 1,3-dipolar cycloaddition.[22]

 

When the N-substituent is an electron-withdrawing group such as a tosyl group, the carbon-nitrogen bond breaks, forming another zwitterion TsN
–CH
2–CH+
2–R[23]

 

This reaction type requires a Lewis acid catalyst such as boron trifluoride. In this way 2-phenyl-N-tosylaziridine reacts with alkynes, nitriles, ketones and alkenes. Certain 1,4-dipoles form from azetidines.

Other Edit

N-unsubstituted aziridines can be opened with olefins in the presence of strong Lewis acid B(C
6F
5)
3.[24]

Safety Edit

As electrophiles, aziridines are subject to attack and ring-opening by endogenous nucleophiles such as nitrogenous bases in DNA base pairs, resulting in potential mutagenicity.[25][26][27]

The International Agency for Research on Cancer (IARC) classifies aziridine compounds as possibly carcinogenic to humans (IARC Group 2B).[28] In making the overall evaluation, the IARC Working Group took into consideration that aziridine is a direct-acting alkylating agent, which is mutagenic in a wide range of test systems and forms DNA adducts that are promutagenic. The features that are responsible for their mutagenicity are relevant to their beneficial medicinal properties.[5]

See also Edit

References Edit

  1. ^ Tomasz, Maria (September 1995). "Mitomycin C: small, fast and deadly (but very selective)". Chemistry and Biology. 2 (9): 575–579. doi:10.1016/1074-5521(95)90120-5. PMID 9383461.
  2. ^ Gilchrist, T.L. (1987). Heterocyclic chemistry. ISBN 978-0-582-01421-3.
  3. ^ Epoxides and Aziridines – A Mini Review Albert Padwa and S. Shaun Murphree Arkivoc (JC-1522R) pp. 6–33 Online article
  4. ^ Sweeney, J. B. (2002). "Aziridines: Epoxides' ugly cousins?". Chem. Soc. Rev. 31 (5): 247–258. doi:10.1039/B006015L. PMID 12357722.
  5. ^ a b Ismail, Fyaz M.D.; Levitsky, Dmitri O.; Dembitsky, Valery M. (2009). "Aziridine alkaloids as potential therapeutic agents". European Journal of Medicinal Chemistry. 44 (9): 3373–3387. doi:10.1016/j.ejmech.2009.05.013. PMID 19540628.
  6. ^ Steuerle, Ulrich; Feuerhake, Robert (2006). "Aziridines". Ullmann's Encyclopedia of Industrial Chemistry. Weinheim: Wiley-VCH. doi:10.1002/14356007.a03_239.pub2.
  7. ^ M. Antonietta Loreto; Lucio Pellacani; Paolo A. Tardella; Elena Toniato (1984). "Addition reactions of ethoxycarbonylnitrene and ethoxycarbonylnitrenium ion to allylic ethers". Tetrahedron Letters. 25 (38): 4271–4. doi:10.1016/S0040-4039(01)81414-3.
  8. ^ Ryan Hili; Andrei K. Yudin (2006). "Readily Available Unprotected Amino Aldehydes". J. Am. Chem. Soc. 128 (46): 14772–3. doi:10.1021/ja065898s. PMID 17105264.
  9. ^ B. Pulipaka; Stephen C. Bergmeier (2008). "Synthesis of Hexahydro-1 H -benzo[ c ]chromen-1-amines via the Intramolecular Ring-Opening Reof Aziridines by π-Nucleophiles". Synthesis. 2008 (9): 1420–30. doi:10.1055/s-2008-1072561.
  10. ^ "Hoch-Campbell Reaction". Comprehensive Organic Name Reactions and Reagents. 2010. doi:10.1002/9780470638859.conrr320. ISBN 9780470638859.
  11. ^ Jat, Jawahar L.; Paudyal, Mahesh P.; Gao, Hongyin; Xu, Qing-Long; Yousufuddin, Muhammed; Devarajan, Deepa; Ess, Daniel H.; Kürti, László; Falck, John R. (2014-01-03). "Direct Stereospecific Synthesis of Unprotected N-H and N-Me Aziridines from Olefins". Science. 343 (6166): 61–65. Bibcode:2014Sci...343...61J. doi:10.1126/science.1245727. ISSN 0036-8075. PMC 4175444. PMID 24385626.
  12. ^ De Kimpe, Norbert; Moens, Luc (6 February 1990). "Synthesis of 1,2,3-trisubstituted and 1,2,2,3-tetrasubstituted aziridines from α-chloroketimines". Tetrahedron. 46 (8): 2965–2974. doi:10.1016/S0040-4020(01)88388-5.
  13. ^ "Asymmetric Synthesis of Aziridines by Reduction of N-tert-Butanesulfinyl α-Chloro Imines". The Journal of Organic Chemistry. 72 (9): 3211–3217. 31 March 2007. doi:10.1021/jo0624795. PMID 17397222.
  14. ^ Ittah, Ytzhak; Sasson, Yoel; Shahak, Israel; Tsaroom, Shalom; Blum, Jochanan (1 October 1978). "A new aziridine synthesis from 2-azido alcohols and tertiary phosphines. Preparation of phenanthrene 9,10-imine". The Journal of Organic Chemistry. 43 (22): 4271–4273. doi:10.1021/jo00416a003.
  15. ^ Breuning, Alexander; Vicik, Radim; Schirmeister, Tanja (31 October 2003). "An improved synthesis of aziridine-2,3-dicarboxylates via azido alcohols—epimerization studies". Tetrahedron: Asymmetry. 14 (21): 3301–3312. doi:10.1016/j.tetasy.2003.09.015.
  16. ^ Hu, X.Eric (2004). "Nucleophilic ring opening of aziridines". Tetrahedron. 60 (12): 2701–2743. doi:10.1016/j.tet.2004.01.042.
  17. ^ McCoull, William; Davis, Franklin A. (2000). "Recent Synthetic Applications of Chiral Aziridines". Synthesis. 2000 (10): 1347–1365. doi:10.1055/s-2000-7097. S2CID 97141326.
  18. ^ Yuhei Fukuta; Tsuyoshi Mita; Nobuhisa Fukuda; Motomu Kanai; Masakatsu Shibasaki (2006). "De Novo Synthesis of Tamiflu via a Catalytic Asymmetric Ring-Opening of meso-Aziridines with TMSN3". J. Am. Chem. Soc. 128 (19): 6312–3. doi:10.1021/ja061696k. PMID 16683784.
  19. ^ The catalyst is based on yttrium with three isopropyloxy substituents and the ligand a phosphine oxide (Ph = phenyl), with 91% enantiomeric excess (ee)
  20. ^ Harold W. Heine; Richard Peavy (1965). "Aziridines XI. Reaction of 1,2,3-triphenylaziridine with diethylacetylene dicarboxylate and maleic anhydride". Tetrahedron Letters. 6 (35): 3123–6. doi:10.1016/S0040-4039(01)89232-7.
  21. ^ Albert Padwa; Lewis Hamilton (1965). "Reactions of aziridines with dimethylacetylene dicarboxylate". Tetrahedron Letters. 6 (48): 4363–7. doi:10.1016/S0040-4039(00)71101-4.
  22. ^ Philippe Dauban; Guillaume Malik (2009). "A Masked 1,3-Dipole Revealed from Aziridines". Angew. Chem. Int. Ed. 48 (48): 9026–9. doi:10.1002/anie.200904941. PMID 19882612.
  23. ^ Ioana Ungureanua; Cristian Bologab; Saïd Chayera; André Mann (16 July 1999). "Phenylaziridine as a 1,3-dipole. Application to the synthesis of functionalized pyrrolidines". Tetrahedron Letters. 40 (29): 5315–8. doi:10.1016/S0040-4039(99)01002-3.
  24. ^ Aravinda B. Pulipaka; Stephen C. Bergmeier (2008). "A Synthesis of 6-Azabicyclo[3.2.1]octanes. The Role of N-Substitution". J. Org. Chem. 73 (4): 1462–7. doi:10.1021/jo702444c. PMID 18211092.
  25. ^ Kanerva L, Keskinen H, Autio P, Estlander T, Tuppurainen M, Jolanki R (May 1995). "Occupational respiratory and skin sensitization caused by polyfunctional aziridine hardener". Clin Exp Allergy. 25 (5): 432–9. doi:10.1111/j.1365-2222.1995.tb01074.x. PMID 7553246. S2CID 28101810.
  26. ^ Sartorelli P, Pistolesi P, Cioni F, Napoli R, Sisinni AG, Bellussi L, Passali GC, Cherubini Di Simplicio E, Flori L (2003). "Skin and respiratory allergic disease caused by polyfunctional aziridine". Med Lav. 94 (3): 285–95. PMID 12918320.
  27. ^ Mapp CE (2001). "Agents, old and new, causing occupational asthma". Occup. Environ. Med. 58 (5): 354–60. doi:10.1136/oem.58.5.354. PMC 1740131. PMID 11303086.
  28. ^ (PDF). IARC Monographs on the Evaluation of Carcinogenic Risks to Humans. Vol. 9. 1975. ISBN 978-92-832-1209-6. Archived from the original (PDF) on 2009-11-14. Retrieved 2019-11-24.

October 26, 2023
aziridines, parent, compound, aziridine, organic, chemistry, aziridines, organic, compounds, containing, aziridine, functional, group, chemical, structure, 4c2n, three, membered, heterocycle, with, amine, methylene, bridges, parent, compound, aziridine, ethyle. For the parent compound see Aziridine In organic chemistry aziridines are organic compounds containing the aziridine functional group chemical structure R 4C2N R a three membered heterocycle with one amine gt NR and two methylene bridges gt CR2 2 3 4 The parent compound is aziridine or ethylene imine with molecular formula C2H4NH Several drugs feature aziridine rings including mitomycin C porfiromycin and azinomycin B carzinophilin 5 Mitomycin C an aziridine is used as a chemotherapeutic agent by virtue of its antitumour activity 1 Contents 1 Structure 2 Synthesis 2 1 Cyclization of haloamines and amino alcohols 2 2 Nitrene addition 2 3 From triazolines epoxides and oximes 2 4 From alkenes using DPH 2 5 From a chloroimines 2 6 From 2 azido alcohols 3 Reactions 3 1 Nucleophilic ring opening 3 2 1 3 dipole formation 3 3 Other 4 Safety 5 See also 6 ReferencesStructure EditThe bond angles in aziridine are approximately 60 considerably less than the normal hydrocarbon bond angle of 109 5 which results in angle strain as in the comparable cyclopropane and ethylene oxide molecules A banana bond model explains bonding in such compounds Aziridine is less basic than acyclic aliphatic amines with a pKa of 7 9 for the conjugate acid due to increased s character of the nitrogen free electron pair Angle strain in aziridine also increases the barrier to nitrogen inversion This barrier height permits the isolation of separate invertomers for example the cis and trans invertomers of N chloro 2 methylaziridine Synthesis EditSeveral routes have been developed for the syntheses of aziridines aziridination Cyclization of haloamines and amino alcohols Edit An amine functional group displaces the adjacent halide in an intramolecular nucleophilic substitution reaction to generate an aziridine The parent aziridine is produced industrially from aminoethanol via two related routes The Nippon Shokubai process requires an oxide catalyst and high temperatures to effect the dehydration In the Wenker synthesis the aminoethanol is converted to the sulfate ester which undergoes base induced sulfate elimination 6 Nitrene addition Edit Nitrene addition to alkenes is a well established method for the synthesis of aziridines Photolysis or thermolysis of organic azides are good ways to generate nitrenes Nitrenes can also be prepared in situ from iodosobenzene diacetate and sulfonamides or the ethoxycarbonylnitrene from the N sulfonyloxy precursor 7 nbsp Nitrene additionFrom triazolines epoxides and oximes Edit Thermolysis or photolysis of triazolines expels nitrogen producing an aziridine One method involves the ring opening reaction of an epoxide with sodium azide followed by reduction of the azide with triphenylphosphine accompanied by expulsion of nitrogen gas 8 nbsp Aziridine synthesis Hili 2006Another method involves the ring opening reaction of an epoxide with amines followed by ring closing with the Mitsunobu reaction 9 The Hoch Campbell ethylenimine synthesis involves the reaction of certain oximes with Grignard reagents which affords aziridines 10 nbsp Hoch Campbell Ethylenimine SynthesisFrom alkenes using DPH Edit Aziridines are obtained by treating a mono di tri or tetra substituted alkene olefin with O 2 4 dinitrophenyl hydroxylamine DPH in the presence of rhodium catalysis Alkene DPH R h 2 C O 2 R 4 displaystyle xrightarrow Rh 2 CO 2 R 4 nbsp AziridineFor instance Ph Aziridine Me can be synthesized by this method and then converted by ring opening reaction to D amphetamine and L amphetamine the two active ingredients in Adderall 11 From a chloroimines Edit The De Kimpe aziridine synthesis allows for the generation of aziridines by reacting an a chloroimine with a nucleophile such as hydride cyanide or a Grignard reagent 12 13 From 2 azido alcohols Edit 2 azido alcohols can be converted into aziridines with the use of trialkyl phosphines such as trimethylphosphine or tributylphosphine 14 15 Reactions EditNucleophilic ring opening Edit Aziridines are reactive substrates in ring opening reactions with many nucleophiles due to their ring strain Alcoholysis and aminolysis are basically the reverse reactions of the cyclizations Carbon nucleophiles such as organolithium reagents and organocuprates are also effective 16 17 One application of a ring opening reaction in asymmetric synthesis is that of trimethylsilylazide TMSN3 with an asymmetric ligand 18 in scheme 2 19 in an organic synthesis of oseltamivir nbsp Scheme 2 Synthesis of Tamiflu via a Catalytic Asymmetric Ring Opening of meso Aziridines with TMSN31 3 dipole formation Edit Certain N substituted azirines with electron withdrawing groups on both carbons form azomethine ylides in an electrocyclic thermal or photochemical ring opening reaction 20 21 These ylides can be trapped with a suitable dipolarophile in a 1 3 dipolar cycloaddition 22 nbsp When the N substituent is an electron withdrawing group such as a tosyl group the carbon nitrogen bond breaks forming another zwitterion TsN CH2 CH 2 R 23 nbsp This reaction type requires a Lewis acid catalyst such as boron trifluoride In this way 2 phenyl N tosylaziridine reacts with alkynes nitriles ketones and alkenes Certain 1 4 dipoles form from azetidines Other Edit N unsubstituted aziridines can be opened with olefins in the presence of strong Lewis acid B C6 F5 3 24 Safety EditAs electrophiles aziridines are subject to attack and ring opening by endogenous nucleophiles such as nitrogenous bases in DNA base pairs resulting in potential mutagenicity 25 26 27 The International Agency for Research on Cancer IARC classifies aziridine compounds as possibly carcinogenic to humans IARC Group 2B 28 In making the overall evaluation the IARC Working Group took into consideration that aziridine is a direct acting alkylating agent which is mutagenic in a wide range of test systems and forms DNA adducts that are promutagenic The features that are responsible for their mutagenicity are relevant to their beneficial medicinal properties 5 See also EditBinary ethylenimine a dimeric form of aziridineReferences Edit Tomasz Maria September 1995 Mitomycin C small fast and deadly but very selective Chemistry and Biology 2 9 575 579 doi 10 1016 1074 5521 95 90120 5 PMID 9383461 Gilchrist T L 1987 Heterocyclic chemistry ISBN 978 0 582 01421 3 Epoxides and Aziridines A Mini Review Albert Padwa and S Shaun Murphree Arkivoc JC 1522R pp 6 33 Online article Sweeney J B 2002 Aziridines Epoxides ugly cousins Chem Soc Rev 31 5 247 258 doi 10 1039 B006015L PMID 12357722 a b Ismail Fyaz M D Levitsky Dmitri O Dembitsky Valery M 2009 Aziridine alkaloids as potential therapeutic agents European Journal of Medicinal Chemistry 44 9 3373 3387 doi 10 1016 j ejmech 2009 05 013 PMID 19540628 Steuerle Ulrich Feuerhake Robert 2006 Aziridines Ullmann s Encyclopedia of Industrial Chemistry Weinheim Wiley VCH doi 10 1002 14356007 a03 239 pub2 M Antonietta Loreto Lucio Pellacani Paolo A Tardella Elena Toniato 1984 Addition reactions of ethoxycarbonylnitrene and ethoxycarbonylnitrenium ion to allylic ethers Tetrahedron Letters 25 38 4271 4 doi 10 1016 S0040 4039 01 81414 3 Ryan Hili Andrei K Yudin 2006 Readily Available Unprotected Amino Aldehydes J Am Chem Soc 128 46 14772 3 doi 10 1021 ja065898s PMID 17105264 B Pulipaka Stephen C Bergmeier 2008 Synthesis of Hexahydro 1 H benzo c chromen 1 amines via the Intramolecular Ring Opening Reof Aziridines by p Nucleophiles Synthesis 2008 9 1420 30 doi 10 1055 s 2008 1072561 Hoch Campbell Reaction Comprehensive Organic Name Reactions and Reagents 2010 doi 10 1002 9780470638859 conrr320 ISBN 9780470638859 Jat Jawahar L Paudyal Mahesh P Gao Hongyin Xu Qing Long Yousufuddin Muhammed Devarajan Deepa Ess Daniel H Kurti Laszlo Falck John R 2014 01 03 Direct Stereospecific Synthesis of Unprotected N H and N Me Aziridines from Olefins Science 343 6166 61 65 Bibcode 2014Sci 343 61J doi 10 1126 science 1245727 ISSN 0036 8075 PMC 4175444 PMID 24385626 De Kimpe Norbert Moens Luc 6 February 1990 Synthesis of 1 2 3 trisubstituted and 1 2 2 3 tetrasubstituted aziridines from a chloroketimines Tetrahedron 46 8 2965 2974 doi 10 1016 S0040 4020 01 88388 5 Asymmetric Synthesis of Aziridines by Reduction of N tert Butanesulfinyl a Chloro Imines The Journal of Organic Chemistry 72 9 3211 3217 31 March 2007 doi 10 1021 jo0624795 PMID 17397222 Ittah Ytzhak Sasson Yoel Shahak Israel Tsaroom Shalom Blum Jochanan 1 October 1978 A new aziridine synthesis from 2 azido alcohols and tertiary phosphines Preparation of phenanthrene 9 10 imine The Journal of Organic Chemistry 43 22 4271 4273 doi 10 1021 jo00416a003 Breuning Alexander Vicik Radim Schirmeister Tanja 31 October 2003 An improved synthesis of aziridine 2 3 dicarboxylates via azido alcohols epimerization studies Tetrahedron Asymmetry 14 21 3301 3312 doi 10 1016 j tetasy 2003 09 015 Hu X Eric 2004 Nucleophilic ring opening of aziridines Tetrahedron 60 12 2701 2743 doi 10 1016 j tet 2004 01 042 McCoull William Davis Franklin A 2000 Recent Synthetic Applications of Chiral Aziridines Synthesis 2000 10 1347 1365 doi 10 1055 s 2000 7097 S2CID 97141326 Yuhei Fukuta Tsuyoshi Mita Nobuhisa Fukuda Motomu Kanai Masakatsu Shibasaki 2006 De Novo Synthesis of Tamiflu via a Catalytic Asymmetric Ring Opening of meso Aziridines with TMSN3 J Am Chem Soc 128 19 6312 3 doi 10 1021 ja061696k PMID 16683784 The catalyst is based on yttrium with three isopropyloxy substituents and the ligand a phosphine oxide Ph phenyl with 91 enantiomeric excess ee Harold W Heine Richard Peavy 1965 Aziridines XI Reaction of 1 2 3 triphenylaziridine with diethylacetylene dicarboxylate and maleic anhydride Tetrahedron Letters 6 35 3123 6 doi 10 1016 S0040 4039 01 89232 7 Albert Padwa Lewis Hamilton 1965 Reactions of aziridines with dimethylacetylene dicarboxylate Tetrahedron Letters 6 48 4363 7 doi 10 1016 S0040 4039 00 71101 4 Philippe Dauban Guillaume Malik 2009 A Masked 1 3 Dipole Revealed from Aziridines Angew Chem Int Ed 48 48 9026 9 doi 10 1002 anie 200904941 PMID 19882612 Ioana Ungureanua Cristian Bologab Said Chayera Andre Mann 16 July 1999 Phenylaziridine as a 1 3 dipole Application to the synthesis of functionalized pyrrolidines Tetrahedron Letters 40 29 5315 8 doi 10 1016 S0040 4039 99 01002 3 Aravinda B Pulipaka Stephen C Bergmeier 2008 A Synthesis of 6 Azabicyclo 3 2 1 octanes The Role of N Substitution J Org Chem 73 4 1462 7 doi 10 1021 jo702444c PMID 18211092 Kanerva L Keskinen H Autio P Estlander T Tuppurainen M Jolanki R May 1995 Occupational respiratory and skin sensitization caused by polyfunctional aziridine hardener Clin Exp Allergy 25 5 432 9 doi 10 1111 j 1365 2222 1995 tb01074 x PMID 7553246 S2CID 28101810 Sartorelli P Pistolesi P Cioni F Napoli R Sisinni AG Bellussi L Passali GC Cherubini Di Simplicio E Flori L 2003 Skin and respiratory allergic disease caused by polyfunctional aziridine Med Lav 94 3 285 95 PMID 12918320 Mapp CE 2001 Agents old and new causing occupational asthma Occup Environ Med 58 5 354 60 doi 10 1136 oem 58 5 354 PMC 1740131 PMID 11303086 Some Aziridines N S and O Mustards and Selenium PDF IARC Monographs on the Evaluation of Carcinogenic Risks to Humans Vol 9 1975 ISBN 978 92 832 1209 6 Archived from the original PDF on 2009 11 14 Retrieved 2019 11 24 Retrieved from https en wikipedia org w index php title Aziridines amp oldid 1180983666, wikipedia, wiki, book, books, library,

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