Entry
Name
(RefSeq) hypothetical protein
KO
Organism
smo Selaginella moellendorffii
Pathway
smo01110 Biosynthesis of secondary metabolites
Brite
KEGG Orthology (KO) [BR:smo00001 ]
09100 Metabolism
09109 Metabolism of terpenoids and polyketides
00904 Diterpenoid biosynthesis
SELMODRAFT_1840
09180 Brite Hierarchies
09181 Protein families: metabolism
00199 Cytochrome P450 [BR:smo00199 ]
SELMODRAFT_1840
Enzymes [BR:smo01000 ]
1. Oxidoreductases
1.14 Acting on paired donors, with incorporation or reduction of molecular oxygen
1.14.14 With reduced flavin or flavoprotein as one donor, and incorporation of one atom of oxygen into the other donor
1.14.14.107 ent-kaurenoic acid monooxygenase
SELMODRAFT_1840
Cytochrome P450 [BR:smo00199 ]
Cytochrome P450, plant type
CYP88 family
SELMODRAFT_1840
BRITE hierarchy
SSDB
Ortholog Paralog GFIT
Motif
Motif
Other DBs
LinkDB
All DBs
Position
Unknown
AA seq
458 aa AA seq DB search
LRNFNRFWYEPKLKPGQAPLPPGSLGWPIFGNMASFLRAFKSHNPDSFITKYLHKYDRTG
VYKAFLFWQPTVLATTPETCKVVLSRDSLFETGWPSSTRRLIGTRSFAGVTGEEHLKLRR
LTEPALSNPKALEDYIPRMSSNIKSCLEEWSCQERTLLLREMRKYAFRTIHDILFSKDSG
LDVEEVSSLYYEGNQGIRSLPINLPGTSYNRALKARKKLDVLLHRVLNKRRFSEKPEKTD
TLSLLMDATDENGKHLDDKQIVDLLVMYLNAGHDSTAHLILWLLIFLLKHEIVYDKVKEE
QELIASQKPLGDSLSLSDVKKMSYLSRVINETLRVANISPMVFRRAVTDVEVNGFTIPKG
WYVEPWLRQVHMDPAVHSNPQNFDPDRWARNEVRPFTHLPFGLGSRTCPGNELAKLEACI
IVHHLVLGYDVKPLNPDCEVTFLPHPRPKDYFPVQVRR
NT seq
1374 nt NT seq +upstream nt +downstream nt
cttcgcaacttcaatagattctggtatgaaccaaagctcaagcccgggcaagctccactt
cctccaggctctctcggatggccaatctttggaaacatggcatcgttccttcgggctttc
aagtcccacaatccagactctttcatcaccaagtatctccacaagtacgatcgaacagga
gtctacaaagcatttctcttttggcagccaacagtgctggcgactactccagagacatgc
aaagtggttctttcgagggattctttgtttgagactggatggccgagcagcacaaggaga
cttatcggcacgcgatctttcgctggagttaccggcgaggagcacttgaaacttcgcagg
ctcacggagccagcgctgagcaatcccaaggctctcgaggattacatccctcgcatgtcc
agcaacataaagagctgcctggaagaatggtcgtgtcaggaaagaactctcttgctcagg
gagatgagaaagtacgcgtttcgtaccattcatgatattcttttcagcaaagattcgggc
ctggacgtggaagaagtttcatctctttactatgaagggaaccaaggaatacgttctcta
ccgatcaacttgccaggaacttcgtacaatcgagctcttaaggctcgcaagaaactcgat
gtactgcttcaccgagttctcaacaagagaagattttcggagaaacctgagaaaacagac
acactttcgctgcttatggatgccactgacgagaacgggaagcatttggacgacaagcaa
attgtagatttgctagtgatgtatttaaatgcggggcacgattcgactgctcatctcata
ctgtggctactgattttcctactcaagcacgaaattgtctatgacaaagttaaggaagaa
caagagctcatcgcgtctcaaaaacctcttggagattcgctctctctatcggacgtgaaa
aagatgtcatatctttcaagagtgatcaatgaaaccttgcgagtggctaacatatctcca
atggttttcagaagagctgtgactgatgtcgaagttaatggctttacaattcctaaaggc
tggtatgtggagccttggttgagacaagttcatatggatcctgccgtgcactccaatcct
caaaactttgatccggatcgatgggctagaaatgaagttcgtccattcacgcacttacca
tttggacttggaagtcgaacatgcccagggaacgaactcgcgaagctcgaagcatgcatt
atagtccaccatttggtgctcggctacgacgtgaaaccgctgaatccagattgcgaagta
actttcctgccgcatccaaggcccaaagactactttccagttcaagttcgcaga