Reference on EC 1.13.11.78 - 2-amino-1-hydroxyethylphosphonate dioxygenase (glycine-forming)
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McSorley, F.R.; Wyatt, P.B.; Martinez, A.; DeLong, E.F.; Hove-Jensen, B.; Zechel, D.L.
PhnY and PhnZ comprise a new oxidative pathway for enzymatic cleavage of a carbon-phosphorus bond
J. Am. Chem. Soc.
134
8364-8367
2012
Escherichia coli
Woersdoerfer, B.; Lingaraju, M.; Yennawar, N.H.; Boal, A.K.; Krebs, C.; Bollinger, J.M.; Pandelia, M.E.
Organophosphonate-degrading PhnZ reveals an emerging family of HD domain mixed-valent diiron oxygenases
Proc. Natl. Acad. Sci. USA
110
18874-18879
2013
uncultured bacterium (D0E8I5), uncultured bacterium HF130 AEPn 1 (D0E8I5)
van Staalduinen, L.M.; McSorley, F.R.; Schiessl, K.; Seguin, J.; Wyatt, P.B.; Hammerschmidt, F.; Zechel, D.L.; Jia, Z.
Crystal structure of PhnZ in complex with substrate reveals a di-iron oxygenase mechanism for catabolism of organophosphonates
Proc. Natl. Acad. Sci. USA
111
5171-5176
2014
uncultured bacterium HF130_AEPn_1 (D0E8I5)
Zhao, C.; Chen, H.
Mechanism of organophosphonate catabolism by diiron oxygenase PhnZ a third iron-mediated O-O activation scenario in nature
ACS Catal.
7
3521-3531
2017
uncultured bacterium HF130_AEPn_1 (D0E8I5)
-
Rajakovich, L.; Pandelia, M.; Mitchell, A.; Chang, W.; Zhang, B.; Boal, A.; Krebs, C.; Bollinger, J.
A new microbial pathway for organophosphonate degradation catalyzed by two previously misannotated non-heme-iron oxygenases
Biochemistry
58
1627-1647
2019
uncultured bacterium HF130_AEPn_1 (D0E8I5)
Song, X.; Liu, J.; Wang, B.
Emergence of function from nonheme diiron oxygenases A quantum mechanical/molecular mechanical study of oxygen activation and organophosphonate catabolism mechanisms by PhnZ
ACS Catal.
12
2009-2022
2022
uncultured bacterium HF130_AEPn_1 (D0E8I5)
-
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