Entry
Symbol
CYP51A1, CP51, CYP51, CYPL1, LDM, P450-14DM, P450L1
Name
(RefSeq) cytochrome P450 family 51 subfamily A member 1
KO
Organism
Pathway
Module
hsa_M00101 Cholesterol biosynthesis, FPP => cholesterol
Network
Element
N01624 Cholesterol biosynthesis
Drug target
Azalanstat dihydrochloride: D03025
Brite
KEGG Orthology (KO) [BR:hsa00001 ]
09100 Metabolism
09103 Lipid metabolism
00100 Steroid biosynthesis
1595 (CYP51A1)
09180 Brite Hierarchies
09181 Protein families: metabolism
00199 Cytochrome P450 [BR:hsa00199 ]
1595 (CYP51A1)
Enzymes [BR:hsa01000 ]
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
1.14.14.154 sterol 14alpha-demethylase
1595 (CYP51A1)
1.14.15 With reduced iron-sulfur protein as one donor, and incorporation of one atom of oxygen into the other donor
1.14.15.36 sterol 14alpha-demethylase (ferredoxin)
1595 (CYP51A1)
Cytochrome P450 [BR:hsa00199 ]
Cytochrome P450, animal type
CYP51 family
1595 (CYP51A1)
BRITE hierarchy
SSDB
Ortholog Paralog Gene cluster GFIT
Motif
Motif
Other DBs
Structure
PDB
Position
7:complement(92112153..92134803)
Genome browser
AA seq
509 aa AA seq DB search
MAAAAGMLLLGLLQAGGSVLGQAMEKVTGGNLLSMLLIACAFTLSLVYLIRLAAGHLVQL
PAGVKSPPYIFSPIPFLGHAIAFGKSPIEFLENAYEKYGPVFSFTMVGKTFTYLLGSDAA
ALLFNSKNEDLNAEDVYSRLTTPVFGKGVAYDVPNPVFLEQKKMLKSGLNIAHFKQHVSI
IEKETKEYFESWGESGEKNVFEALSELIILTASHCLHGKEIRSQLNEKVAQLYADLDGGF
SHAAWLLPGWLPLPSFRRRDRAHREIKDIFYKAIQKRRQSQEKIDDILQTLLDATYKDGR
PLTDDEVAGMLIGLLLAGQHTSSTTSAWMGFFLARDKTLQKKCYLEQKTVCGENLPPLTY
DQLKDLNLLDRCIKETLRLRPPIMIMMRMARTPQTVAGYTIPPGHQVCVSPTVNQRLKDS
WVERLDFNPDRYLQDNPASGEKFAYVPFGAGRHRCIGENFAYVQIKTIWSTMLRLYEFDL
IDGYFPTVNYTTMIHTPENPVIRYKRRSK
NT seq
1530 nt NT seq +upstream nt +downstream nt
atggcggcggcggctgggatgctgctgctgggcttgctgcaggcgggtgggtcggtgctg
ggccaggcgatggagaaggtgacaggcggcaacctcttgtccatgctgctgatcgcctgc
gccttcaccctcagcctggtctacctgatccgtctggccgccggccacctggtccagctg
cccgcaggggtgaaaagtcctccatacattttctccccaattccattccttgggcatgcc
atagcatttgggaaaagtccaattgaatttctagaaaatgcatatgagaagtatggacct
gtatttagttttaccatggtaggcaagacatttacttaccttctggggagtgatgctgct
gcactgctttttaatagtaaaaatgaagacctgaatgcagaagatgtctacagtcgcctg
acaacacctgtgtttgggaagggagttgcatacgatgtgcctaatccagttttcttggag
cagaagaaaatgttaaaaagtggccttaacatagcccactttaaacagcatgtttctata
attgaaaaagaaacaaaggaatactttgagagttggggagaaagtggagaaaaaaatgtg
tttgaagctctttctgagctcataattttaacagctagccattgtttgcatggaaaggaa
atcagaagtcaactcaatgaaaaggtagcacagctgtatgcagatttggatggaggtttc
agccatgcagcctggctcttaccaggttggctgcctttgcctagtttcagacgcagggac
agagctcatcgggaaatcaaggatattttctataaggcaatccagaaacgcagacagtct
caagaaaaaattgatgacattctccaaactttactagatgctacatacaaggatgggcgt
cctttgactgatgatgaagtagcagggatgcttattggattactcttggcagggcagcat
acatcctcaactactagtgcttggatgggcttctttttggccagagacaaaacacttcaa
aaaaaatgttatttagaacagaaaacagtctgtggagagaatctgcctcctttaacttat
gaccagctcaaggatctaaatttacttgatcgctgtataaaagaaacattaagacttaga
cctcctataatgatcatgatgagaatggccagaactcctcagactgtggcagggtatacc
attcctccaggacatcaggtgtgtgtttctcccactgtcaatcaaagacttaaagactca
tgggtagaacgcctggactttaatcctgatcgctacttacaggataacccagcatcaggg
gaaaagtttgcctatgtgccatttggagctgggcgtcatcgttgtattggggaaaatttt
gcctatgttcaaattaagacaatttggtccactatgcttcgtttatatgaatttgatctc
attgatggatactttcccactgtgaattatacaactatgattcacacccctgaaaaccca
gttatccgttacaaacgaagatcaaaatga