Porphine
Names
Other names
Porphin
Identifiers
3D model (JSmol)
ChEBI
ChemSpider
ECHA InfoCard 100.002.690
UNII
  • InChI=1S/C20H14N4/c1-2-14-10-16-5-6-18(23-16)12-20-8-7-19(24-20)11-17-4-3-15(22-17)9-13(1)21-14/h1-12,21,24H/b13-9-,14-10-,15-9-,16-10-,17-11-,18-12-,19-11-,20-12- checkY
    Key: RKCAIXNGYQCCAL-CEVVSZFKSA-N checkY
  • InChI=1/C20H14N4/c1-2-14-10-16-5-6-18(23-16)12-20-8-7-19(24-20)11-17-4-3-15(22-17)9-13(1)21-14/h1-12,21,24H/b13-9-,14-10-,15-9-,16-10-,17-11-,18-12-,19-11-,20-12-
    Key: RKCAIXNGYQCCAL-CEVVSZFKBA
  • C1=CC2=CC5=CC=C(C=C4C=CC(C=C3C=CC(=CC1=N2)N3)=N4)N5
Properties
C20H14N4
Molar mass 310.35196 g/mol
Appearance Dark red, shiny leaflets
Melting point N/A
Except where otherwise noted, data are given for materials in their standard state (at 25 °C [77 °F], 100 kPa).
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Infobox references

Porphine or porphin is an organic compound of empirical formula C20H14N4. It is heterocyclic and aromatic. The molecule is a flat macrocycle, consisting of four pyrrole-like rings joined by four methine bridges, which makes it the simplest of the tetrapyrroles.[1]

The nonpolar tetrapyrrolic ring structure of porphine means it is poorly soluble in most organic solvents and hardly water soluble.[2] As a result, porphine is mostly of theoretical interest. It has been detected in GC-MS of certain fractions of Piper betle.[3]

Porphine derivatives: porphyrins

Substituted derivatives of porphine are called porphyrins. Many porphyrins are found in nature with the dominant example being protoporphyrin IX.[4] Many synthetic porphyrins are also known, including octaethylporphyrin[5] and tetraphenylporphyrin.[6]

Two resonance structures of porphine.

Further reading

  • Budavari, Susan (1989). "7574. Porphine". The Merck Index (11th ed.). Merck & Co., Inc. p. 1210. ISBN 0-911910-28-X. LCCN 89-60001.

References

  1. "Porphyrin". Encyclopedia of Inorganic and Bioinorganic Chemistry. Wiley-VCH. 2011. doi:10.1002/9781119951438.eibd0638. ISBN 9781119951438.
  2. Senge, Mathias O.; Davis, Mia (2010). "Porphyrin (porphine) — A neglected parent compound with potential" (PDF). Journal of Porphyrins and Phthalocyanines. 14 (07): 557–567. doi:10.1142/s1088424610002495. ISSN 1088-4246.
  3. Karak S, Das S, Biswas M, Choudhury A, Dutta M, Chaudhury K, De B (December 2019). "Phytochemical composition, β-glucuronidase inhibition, and antioxidant properties of two fractions of Piper betle leaf aqueous extract". Journal of Food Biochemistry. 43 (12): e13048. doi:10.1111/jfbc.13048. PMID 31581322. S2CID 203661105.
  4. Paul R. Ortiz de Montellano (2008). "Hemes in Biology". Wiley Encyclopedia of Chemical Biology. John Wiley & Sons. doi:10.1002/9780470048672.wecb221. ISBN 978-0470048672.
  5. Jonathan L. Sessler; Azadeh Mozaffari; Martin R. Johnson (1992). "3,4-Diethylpyrrole and 2,3,7,8,12,13,17,18-Octaethylporphyrin". Org. Synth. 70: 68. doi:10.15227/orgsyn.070.0068.
  6. Lindsey, Jonathan S. (2000). "Synthesis of meso-substituted porphyrins". In Kadish, Karl M.; Smith, Kevin M.; Guilard, Roger (eds.). Porphyrin Handbook. Vol. 1. pp. 45–118. ISBN 0-12-393200-9.
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