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Cytochrome P450 Monooxygenases. William Green Leland Taylor 4/12/11. Background. P450s are heme -containing enzymes that produce functionalized organic substrates Two main pathways of P450 monooxygenasese : Biosynthetic Pathway:
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Cytochrome P450 Monooxygenases William Green Leland Taylor 4/12/11
Background • P450s are heme-containing enzymes that produce functionalized organic substrates • Two main pathways of P450 monooxygenasese: • Biosynthetic Pathway: • Leads to syntheiss of: UV protectants (flavonoids), anthocyanins, isoflavonoids/phytoalexins, fatty acids, hormones, signaling molecules, carotenoids, terpenes (defense compounds), and lignins (structural compounds) • Detoxification Pathway: • Drugs, carcinogens, herbicides and insecticides are all detoxified by P450 controlled hydroxylations • Superfamily containing more than 450 CYP sequences among at least 65 gene families • All P450s contain a highly conserved Amino Acid motif found near the C terminus: F- -G-R-C-G
P450 identification • Arabidopsis p450 data set • http://www.p450.kvl.dk/ • tBlastn against blueberry data (454 database) • 272 query’s • Multiple hits per query (identified by gene) • Parse data to find partial/whole genes
P450s of Interest • CYP74B2 – Hydroperoxidelyase • Electron carrier/heme binding • Fatty acid metabolism • Possibly related to Allene oxide synthase • Involved in the response to wounding • CYP75B1 – Flavonoid 3’-monooxygenase • Involved in Flavonoid biosynthesis • Hydroxylated derivatives are common flower pigments in related species • CYP73A5 – Cinnamate-4-Hydroxylase • Involved in phenylpropanoid pathway • Lignin, flavonoids, lignans, stilbenes, etc.
Good Order • CYP74B2 - Fatty Acid Hydroperoxidelyase 3217 3558 5928 6599 6992 7363 454 scaffold12002 35 145 368 490 Arab. CYP74B2 Query
P450s of Interest • CYP74B2 – Hydroperoxidelyase • Electron carrier/heme binding • Fatty acid metabolism • Possibly related to Allene oxide synthase • Involved in the response to wounding • CYP75B1 – Flavonoid 3’-monooxygenase • Involved in Flavonoid biosynthesis • Hydroxylated derivatives are common flower pigments in related species • CYP73A5 – Cinnamate-4-Hydroxylase • Involved in phenylpropanoid pathway • Lignin, flavonoids, lignans, stilbenes, etc.
Order/Orientation Mixup • P450 linked to flavonoid • Visual results of hits on one scaffold • N’s in between sequence. Must make a guess at orientation. • This evidence shows it should be flipped 4 234 18277 18972 28588 29010 454 scaffold00711 SEQ-N-SEQ SEQ-442N Rev Comp Rev Comp Arab. CYP75B1 502 53 294 273 426 / 438
P450s of Interest • CYP74B2 – Hydroperoxidelyase • Electron carrier/heme binding • Fatty acid metabolism • Possibly related to Allene oxide synthase • Involved in the response to wounding • CYP75B1 – Flavonoid 3’-monooxygenase • Involved in Flavonoid biosynthesis • Hydroxylated derivatives are common flower pigments in related species • CYP73A5 – Cinnamate-4-Hydroxylase • Involved in phenylpropanoid pathway • Lignin, flavonoids, lignans, stilbenes, etc.
Problem Order • CYP73A5 – Cinnamate-4-Hydroxylase 44 195 298 448 454 scaffold10240 53 294 296 383 486 345 444 8121261 1869 2131 2442 3386 3679 5751 6458 6572 7018 Arab. CYP73A5 Rev. Com.
Further Work • Focus on other P450s of interest • CYP88A2: involved in gibberlin synthesis (growth factors) • Etc. • Connect P450s with other gene pathways • Develop phylogenetic distribution of P450s
Acknowledgements • Dr. Allan Brown • NC State University • David H. Murdock Research Institute • Dr. Malcom Campbell & Davidson College
References Nelson, David R. "Mining Databases for Cytochrome P450 Genes." Methods in Enzymology 357 (2002): 3-15. Science Direct. Elsevier B.V., 16 Dec. 2003. Web. <link> Nelson, David R., Mary A. Schuler, Suzanne M. Paquette, Daniele WerckReichhartand SorenBak. "Comparative Genomics of Rice and Arabidopsis. Analysis of 727 Cytochrome P450 Genes and Pseudogenes from a Monocot and a Dicot." Plant Physiology 135.2 (2004): 756-72. PLANT PHYSIOLOGY®. American Society of Plant Biologists, 31 Mar. 2004. Web. <http://www.plantphysiol.org/content/135/2/756>.