Pyrroloquinoline quinone: Difference between revisions

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'''Pyrroloquinoline quinone''' (PQQ) was originally discovered in [[1978]] in methanol dehydrogenase fom <i>Hyphomicrobium</i> X. It is present as a non-covalently bound [[cofactor]] in several bacterial [[dehydrogenase]]s involved in the oxidation of alcohols and sugars. The biochemically relevant redox states are the fully oxidized quinone form, the radical semiquinone form and the reduced quinol. The reduced form is only stable when bound to enzyme or at low pH, whereas the semiquinone is only stable at high pH and anerobic conditions.  
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'''Pyrroloquinoline quinone''' (PQQ) was originally discovered in 1978 in methanol dehydrogenase fom <i>Hyphomicrobium</i> X. It is present as a non-covalently bound [[cofactor]] in several bacterial [[dehydrogenase]]s involved in the oxidation of alcohols and sugars. The biochemically relevant redox states are the fully oxidized quinone form, the radical semiquinone form and the reduced quinol. The reduced form is only stable when bound to enzyme or at low pH, whereas the semiquinone is only stable at high pH and anerobic conditions.  
[[Image:Pqq.GIF]]<br>
[[Image:Pqq.GIF]]<br>
The pKa values of the protonable groups in PQQ are:
The pKa values of the protonable groups in PQQ are:
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* 10.3 for the pyrrole nitrogen
* 10.3 for the pyrrole nitrogen


PQQ was reported to be a [[vitamin]] in [[mouse|mice]] on [[April 24]] [[2003]] by a research team led by Takafumi Kato of the [http://www.riken.go.jp/engn/index.html Japanese Institute of Physical and Chemical Research] ([http://www.brain.riken.jp/labs/mdmd/pqq/ source]). However, these conclusions have been strongly challenged.
PQQ was reported to be a [[vitamin]] in [[mouse|mice]] on April 24, 2003 by a research team led by Takafumi Kato of the [http://www.riken.go.jp/engn/index.html Japanese Institute of Physical and Chemical Research] ([http://www.brain.riken.jp/labs/mdmd/pqq/ source]). However, these conclusions have been strongly challenged.
==References==
==References==
* [http://dx.doi.org/10.1038/nature03322 Leigh M. Felton and C. Anthony,  Role of PQQ as a mammalian enzyme cofactor? ]  
* [http://dx.doi.org/10.1038/nature03322 Leigh M. Felton and C. Anthony,  Role of PQQ as a mammalian enzyme cofactor? ]  
* [http://dx.doi.org/10.1038/nature03323 Robert Rucker, David Storms, Annemarie Sheets, Eskouhie Tchaparian,Andrea Fascetti Is pyrroloquinoline quinone a vitamin? ]
* [http://dx.doi.org/10.1038/nature03323 Robert Rucker, David Storms, Annemarie Sheets, Eskouhie Tchaparian,Andrea Fascetti Is pyrroloquinoline quinone a vitamin? ][[Category:Suggestion Bot Tag]]
 
[[Category:CZ Live]]
[[Category:Biology Workgroup]]
[[Category:Chemistry Workgroup]]

Latest revision as of 16:00, 8 October 2024

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Pyrroloquinoline quinone (PQQ) was originally discovered in 1978 in methanol dehydrogenase fom Hyphomicrobium X. It is present as a non-covalently bound cofactor in several bacterial dehydrogenases involved in the oxidation of alcohols and sugars. The biochemically relevant redox states are the fully oxidized quinone form, the radical semiquinone form and the reduced quinol. The reduced form is only stable when bound to enzyme or at low pH, whereas the semiquinone is only stable at high pH and anerobic conditions. Pqq.GIF
The pKa values of the protonable groups in PQQ are:

  • 0.3 (pyridyl nitrogen)
  • 1.6 and 2.2 for the carboxylic groups in the pyridine ring
  • 3.3 for the carboxyl group in the pyrrole ring
  • 10.3 for the pyrrole nitrogen

PQQ was reported to be a vitamin in mice on April 24, 2003 by a research team led by Takafumi Kato of the Japanese Institute of Physical and Chemical Research (source). However, these conclusions have been strongly challenged.

References