Entry
Name
(RefSeq) protoporphyrinogen oxidase 1, chloroplastic
KO
Organism
vvi Vitis vinifera (wine grape)
Pathway
vvi01110 Biosynthesis of secondary metabolites
Module
vvi_M00121 Heme biosynthesis, plants and bacteria, glutamate => heme
Brite
KEGG Orthology (KO) [BR:vvi00001 ]
09100 Metabolism
09108 Metabolism of cofactors and vitamins
00860 Porphyrin metabolism
100243415
Enzymes [BR:vvi01000 ]
1. Oxidoreductases
1.3 Acting on the CH-CH group of donors
1.3.3 With oxygen as acceptor
1.3.3.4 protoporphyrinogen oxidase
100243415
1.3.3.15 coproporphyrinogen III oxidase (coproporphyrin-forming)
100243415
BRITE hierarchy
SSDB
Ortholog Paralog Gene cluster GFIT
Motif
Motif
Other DBs
LinkDB
All DBs
Position
7:join(5260893..5261306,5261668..5261853,5261978..5262062,5262537..5262684,5262761..5262841,5263019..5263190,5263887..5264046,5264204..5264307,5264795..5265094)
Genome browser
AA seq
549 aa AA seq DB search
MPTLTLADPPTLRLLSPVNLRRSTSISSPFFCRPSRNNCTGPWRVRCAVAGESTISSSKV
GDGNNYSPVDCVIVGAGISGLCIAQALATKHGDVGSNVIVTEARDRVGGNITTMEGDGYL
WEEGPNSFQPSDSMLTMAVDSGLKDDLVLGDPNAPRFVLWNGKLRPVPSKPTDLPFFDLM
SFPGKLRAGFGALGIRPPPPDHEESVEEFVRRNLGDEVFERLIEPFCSGVYAGDPSKLSM
KAAFGKVWKLEQKGGSIIGGTFKAIQEKNNTPKPLRDPRLPKPKGQTVGSFKKGLIMLPE
AISKRLGGKVKLSWKLSSIIRLDDGGYSLTYETPEGLVSLQSRSVVMTVPSRVASSLLHP
LSAVAADALSKFYYPPVAAVSISYPKEAIRTECLIEGELKGFGQLHPRSQGVETLGTIYS
SSLFPNRAPPGRILLLNYIGGATNPGILSKTESELVEAVDRDLRKMLINPNAKDPLVLGV
RVWPQAIPQFLIGHLDLLDAAKSALRDGGFQGMFLGGNYVSGVALGRCVEGAYEVAAEVA
DFLSQYVYK
NT seq
1650 nt NT seq +upstream nt +downstream nt
atgcccaccctcaccctcgctgaccctcccactcttcgccttctttctcccgtaaatctc
cgccgctccacctccatcagctctccatttttctgtagaccgtctaggaacaattgcact
ggtccatggagagtccgatgtgccgtcgccggggagtctacaatttcttcctccaaggtc
ggcgacggaaataattactcgccggtggactgcgtcatcgtcggggcgggaatcagcggc
ctctgcatcgctcaagctctcgccaccaagcacggcgatgtgggcagcaatgtgattgtg
acagaggcgagagatcgcgttgggggcaatataaccaccatggagggggacggctatctc
tgggaggaaggccccaacagcttccagccctccgattccatgctcaccatggccgtggat
agtggtttgaaggatgatcttgttttgggggatcctaatgcacctagatttgtattgtgg
aatggtaaattgaggccggttccctccaagccaaccgacctgcccttctttgacttgatg
agttttcctggaaaactcagggctgggtttggtgcccttggcattcgacctcctccacca
gatcatgaggaatctgttgaagagtttgtgcgtcgtaatcttggtgatgaggtttttgaa
cgcctgatagagccattttgttcaggtgtttatgcaggagatccttcaaaactgagcatg
aaagcagcatttggaaaagtttggaagcttgagcagaagggtggtagtataattggtggc
accttcaaagcaatccaggagaaaaataatactcccaagcctctgcgagacccgcgtttg
ccaaagccaaaggggcaaacggttggatcttttaagaagggacttattatgttgccagaa
gcaatttctaaaaggttgggtggcaaagtaaaattatcttggaaactttcaagcatcatt
agattggatgatggagggtatagtctgacttatgaaacaccagaaggattagtttctctg
cagagtagaagtgttgtgatgactgttccatcccgcgttgcaagtagtctgttgcatcct
ctttctgctgttgctgcagatgcactatcaaagttttactaccccccagttgcggcagtg
tccatttcatatccaaaggaagcaattcggacagaatgcttgatagaaggtgaacttaag
ggatttggccagttacatccacgtagccaaggggtggaaactttaggaaccatatacagc
tcatcactttttcctaaccgagcaccgcctggaaggattttgctcttgaactacattgga
ggggctaccaatcctggaattttgtccaagacagagagtgaacttgtggaagcagtagac
agagatttgaggaagatgctcattaatcctaatgcaaaggatccacttgttttgggtgtg
agagtatggccgcaggccattccacagtttttgattggtcatcttgatctccttgatgct
gccaaatccgctctcagggatggtgggttccagggcatgttcctcgggggcaactatgta
tctggtgtagccttgggacgatgcgtggagggtgcatacgaagttgcagctgaggtagct
gatttcctatcgcagtatgtgtacaaatag