Entry
Name
(RefSeq) aromatase isoform X1
KO
Organism
mcep Mugil cephalus (flathead mullet)
Pathway
Module
mcep_M00110 C19/C18-Steroid hormone biosynthesis, pregnenolone => androstenedione => estrone
Brite
KEGG Orthology (KO) [BR:mcep00001 ]
09100 Metabolism
09103 Lipid metabolism
00140 Steroid hormone biosynthesis
125014725
09180 Brite Hierarchies
09181 Protein families: metabolism
00199 Cytochrome P450 [BR:mcep00199 ]
125014725
Enzymes [BR:mcep01000 ]
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
1.14.14.14 aromatase
125014725
Cytochrome P450 [BR:mcep00199 ]
Cytochrome P450, animal type
CYP19 family
125014725
BRITE hierarchy
SSDB
Ortholog Paralog Gene cluster GFIT
Motif
Motif
Other DBs
LinkDB
All DBs
Position
10:16719144..16723819
Genome browser
AA seq
508 aa AA seq DB search
MEGMMLLLLEKLTMDPMTAGTASEVASLLLLLLLLFLLLVTTWSRTHRSLIPGPYFLAGL
GPILSYIRFMWSGIGTACNYYNNKYGSIVRVWINGEETLILSRSSAVYHVLRSAHYTSRF
GSKMGLECVGMEGKGIIFNNDVPLWKKVRAYFAKALTGPGLQRTVGICVSSTAKHLDHLQ
DVTDSSGHVDVLNLLRAIVVDISNRMFLRVPLNEKDLLMKIQNYFETWQTVLIKPDIFFR
MGWLYNKHKRAGKELQDAMDALLDIKRKIINETEKLDEDFDFATELIFAQNHGELSADNV
RQCVLEMVIAAPDTLSISLFFMLMLLKQNPDVEMQIVEEMNTILSERDVQNLDYQGLKVL
ESFINESLRFHPVVDFTMRKALEDDNIDGTAIRKGTNIILNIGLMHKTEFFPKPKEFSLM
NFDRTVPSRFFQPFGCGPRSCVGKHIAMVMMKAILVTLLSRYTVCPRQGCTLNSIKQTNN
LSQQPVEDEHSLAMRFIPRAAQPQLKPM
NT seq
1527 nt NT seq +upstream nt +downstream nt
atggaggggatgatgctgctgctgctggagaagctcaccatggaccccatgacggctggt
acagcgtctgaagtcgcctctcttctgctactcctgctgcttctgtttttgctgctcgtc
accacctggagccgaacacaccggtcgctcatacctggtccttatttcttggcaggactc
ggcccgattctctcctacatccgattcatgtggtctgggattggaacagcatgcaactac
tacaacaacaaatatggcagcattgtccgagtgtggatcaatggagaagagactctcatt
ttgagcaggtcctctgcagtgtaccatgttttgcggagtgcccactacacgtccagattc
gggagcaaaatggggcttgagtgcgttgggatggaagggaaaggcataattttcaacaat
gatgtcccactctggaagaaagtgagggcgtattttgctaaagctctgacaggcccaggc
ctccagaggacggtgggaatctgtgtcagctccacagccaaacacctagaccacctgcag
gacgtgaccgactcctctggacacgtggacgtcctcaatctcctgagagccattgtggtg
gacatctccaacaggatgttcctcagggttccactcaatgagaaggacttgctgatgaaa
atccaaaactacttcgagacctggcaaacagttctgataaagcctgacatattcttcagg
atgggatggctgtacaacaagcataagagagcaggcaaagagctgcaggatgcgatggac
gctctgcttgacattaaaagaaagatcattaatgaaaccgagaagctggatgaggatttt
gattttgcaacagagctcatctttgcccagaaccatggtgagctttcagcagataacgtc
agacagtgtgtcctggagatggtgatagcggctcctgacacactctccatcagcctcttc
ttcatgctgatgctgctgaaacagaacccagacgttgagatgcagatagtggaggagatg
aacaccatcctgagtgaaagagatgtgcaaaatcttgattaccagggtttgaaggtgctg
gagagtttcatcaatgagtctttgaggtttcacccagtggttgatttcacgatgaggaag
gctctggaggatgacaacatcgacggcacggcaatcaggaaaggaaccaacatcattctt
aatatcggtctcatgcacaagactgaattcttccccaaacccaaagagttcagcctgatg
aactttgacagaacagtgcccagtcgtttcttccagccctttggctgcggtccccgctcc
tgcgtgggcaagcacatcgccatggtgatgatgaaggccatcttggtcactctgttgagc
cgttacacggtgtgccctcgccaaggctgcaccctcaacagcatcaagcagaccaacaac
ctgtcccagcagcctgtggaggatgagcacagcctggccatgcgcttcatccctcgagca
gcacagcctcagctcaaaccaatgtga