Entry
Name
(RefSeq) hypothetical protein
KO
Organism
mlr Melampsora larici-populina
Pathway
mlr01040 Biosynthesis of unsaturated fatty acids
Brite
KEGG Orthology (KO) [BR:mlr00001 ]
09100 Metabolism
09103 Lipid metabolism
01040 Biosynthesis of unsaturated fatty acids
MELLADRAFT_45837
09180 Brite Hierarchies
09181 Protein families: metabolism
01004 Lipid biosynthesis proteins [BR:mlr01004 ]
MELLADRAFT_45837
Enzymes [BR:mlr01000 ]
1. Oxidoreductases
1.14 Acting on paired donors, with incorporation or reduction of molecular oxygen
1.14.19 With oxidation of a pair of donors resulting in the reduction of O2 to two molecules of water
1.14.19.1 stearoyl-CoA 9-desaturase
MELLADRAFT_45837
Lipid biosynthesis proteins [BR:mlr01004 ]
Desaturase
First
MELLADRAFT_45837
BRITE hierarchy
SSDB
Ortholog Paralog GFIT
Motif
Motif
Other DBs
LinkDB
All DBs
Position
Unknown
AA seq
519 aa AA seq DB search
MPAILDARLSLSSSVKSAPAVAAQRLRQRARNNLPDYDPESDLSDSDEGLVGIKESKNTW
EDDEETAVDDDSYVQKTLRREKPLPPITWRNFFREINYISTIALTLVPVLAIYGAITTPL
SRPTLIWSIIYYYYTGLGITAGYHRLWAHRAYNASLPLQYFLALGGSGAFEGSIRWWARG
HRAHHRYTDTDLDPYSAHKGLLWSHVGWMVVKPRRKPGVADVSDLSRNEVVRWQHRWYLP
LIFGMGFAFPTLIAGLGWGDWRGGFFYAGAARLLFVHHSTFCVNSLAHWLGESPFDDKHS
PRDHIITAFVTIGEGYHNFHHEFPQDFRNAIKWYQYDPTKWFIALAYYLGFASELKTFPD
NEIRKGQYNMKLKELRKDFRDVTWPTNSNDLPILTWEQYVEEANKKEDRSLIVVGGFIHD
VTEFMDEHPGGRALIKTRLGKDATTAFHGGLYDHSNAAHNLLAMLRVGVIEGGYEVEHLK
KKVGVFSEDQQIPICGPKKLETTSTPVSPPAGLAPEIVA
NT seq
1560 nt NT seq +upstream nt +downstream nt
atgcctgccatcttagacgctcgactttcactaagcagttcagttaaatctgctcctgct
gttgccgctcaacgtcttcgtcagcgtgctcgaaacaatctaccggattatgatcctgag
agcgatctaagtgactcggatgaaggtttggtaggaatcaaggaatccaagaacacttgg
gaagacgatgaagagactgcagtggatgatgatagttatgttcaaaagacattgagacga
gagaagccattaccgcccatcacttggcgcaacttttttcgagagatcaattacatctct
actatcgctctcaccctagttcctgtcttggctatctatggtgccatcaccacccctctt
agtcgtcctactctgatttggtcgatcatttactattactacaccggtctcggtatcact
gccggttatcatcgactctgggctcatcgtgcctataacgcatctttaccacttcaatat
ttcctagctcttggtggttctggcgcctttgaaggttcgattcgatggtgggctagaggt
catcgagctcatcatcgttacacggataccgatctcgatccttattcggctcataaagga
ctcctctggtctcatgtgggttggatggttgtcaagcctcgtcgaaagcctggtgtggca
gatgtatcagatttgagtaggaatgaagtcgtcagatggcaacatcgttggtatctacct
ttgatctttggaatgggatttgcctttccaactctcattgccggtttaggatggggtgat
tggagaggaggtttcttctatgctggtgctgctaggttgttgtttgtacatcattcaacc
ttttgtgtgaattccctcgcacattggcttggtgaatctccctttgatgataagcactcc
ccacgtgatcatatcatcactgcctttgtcactatcggtgaagggtaccataactttcat
cacgagtttcctcaagactttagaaacgccatcaaatggtaccaatacgatcccaccaaa
tggtttatcgccttggcttactacctcggtttcgcctctgaactcaagacgtttcccgat
aatgagattcgaaaaggtcaatacaacatgaagctcaaggaacttcgaaaagacttccgt
gatgtgacatggcccacgaattccaacgatttaccgatcctcacttgggaacaatatgtc
gaggaggctaacaagaaggaagatcgtagtctgattgtagttggaggttttattcatgat
gtcactgagtttatggatgaacatcctggtggacgagctttgatcaagactagattgggc
aaagatgccaccacggccttccatggtggtctctatgatcattcgaatgcggcccataat
ttattggccatgttacgagtaggagtgatcgaaggtggttatgaagttgaacatcttaaa
aagaaagtaggagtctttagtgaggatcaacaaattccaatctgtggaccaaagaaactt
gaaaccacttcgactcctgttagtccacctgcaggactagcacctgagattgttgcctag