Yang W et al. |
The structure of CYP101D2 unveils a potential path for substrate entry into the active site. |
2011 |
Biochem. J. |
pmid:20950270
|
Bell SG et al. |
A cytochrome P450 class I electron transfer system from Novosphingobium aromaticivorans. |
2010 |
Appl. Microbiol. Biotechnol. |
pmid:19779713
|
Kim D and Ortiz de Montellano PR |
Tricistronic overexpression of cytochrome P450cam, putidaredoxin, and putidaredoxin reductase provides a useful cell-based catalytic system. |
2009 |
Biotechnol. Lett. |
pmid:19458919
|
Persson B et al. |
Medium- and short-chain dehydrogenase/reductase gene and protein families : the MDR superfamily. |
2008 |
Cell. Mol. Life Sci. |
pmid:19011751
|
Zhang W et al. |
Solution NMR structure of putidaredoxin-cytochrome P450cam complex via a combined residual dipolar coupling-spin labeling approach suggests a role for Trp106 of putidaredoxin in complex formation. |
2008 |
J. Mol. Biol. |
pmid:18835276
|
Nodate M et al. |
Functional expression system for cytochrome P450 genes using the reductase domain of self-sufficient P450RhF from Rhodococcus sp. NCIMB 9784. |
2006 |
Appl. Microbiol. Biotechnol. |
pmid:16195793
|
Rui L et al. |
Comparison of the complexes formed by cytochrome P450cam with cytochrome b5 and putidaredoxin, two effectors of camphor hydroxylase activity. |
2006 |
Biochemistry |
pmid:16548516
|
Kamachi T and Yoshizawa K |
A theoretical study on the mechanism of camphor hydroxylation by compound I of cytochrome p450. |
2003 |
J. Am. Chem. Soc. |
pmid:12683838
|
Davydov R et al. |
Hydroxylation of camphor by reduced oxy-cytochrome P450cam: mechanistic implications of EPR and ENDOR studies of catalytic intermediates in native and mutant enzymes. |
2001 |
J. Am. Chem. Soc. |
pmid:11456714
|
Bell SG et al. |
Engineering the CYP101 system for in vivo oxidation of unnatural substrates. |
2001 |
Protein Eng. |
pmid:11739899
|