Entry
Name
(RefSeq) quinolinate synthase, chloroplastic isoform X1
KO
Organism
cit Citrus sinensis (Valencia orange)
Pathway
cit00760 Nicotinate and nicotinamide metabolism
Module
cit_M00115 NAD biosynthesis, aspartate => quinolinate => NAD
Brite
KEGG Orthology (KO) [BR:cit00001 ]
09100 Metabolism
09108 Metabolism of cofactors and vitamins
00760 Nicotinate and nicotinamide metabolism
102627452
Enzymes [BR:cit01000 ]
2. Transferases
2.5 Transferring alkyl or aryl groups, other than methyl groups
2.5.1 Transferring alkyl or aryl groups, other than methyl groups (only sub-subclass identified to date)
2.5.1.72 quinolinate synthase
102627452
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Motif
Motif
Other DBs
LinkDB
All DBs
Position
3:complement(join(3688487..3688573,3688660..3688821,3689240..3689749,3689887..3690066,3690240..3690458,3690563..3690847,3692527..3693282))
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AA seq
732 aa AA seq DB search
MDSAVSLAMKSASVSSSSFLAGSPFLISKNKNPNFNSKKPFFNPRSAARFFSKPLISLQS
SGPTSQNPLPSSFSYSAVTETTDLLPCKLHQLISEFQSLPEQLDRLNRLLHYSTLLPRLP
DSSRVDSNRVMGCTARVWLEATLDQDNKMRFRADSDSEITRGFCYCLVSVFDGAAPEEVL
RVKTEDLAALNVSLVGRERSRVNTWHNVFVSMQKRTKALVAERQGQKPFEPFPSLIVTKD
GLQAKGSYAEAQARYLFPDESKVEELVDVLKEKKIGIVAHFYMDPEVQGVLTAAQKYWPH
IYISDSLVMADTAVKMAKAGCQFITVLGVDFMSENVRAILDQAGFQDVGVYRMSGERIGC
SLADAAATPAYMNYLEAASTNPPSLHVIYINTSLETKAYAHELVPTITCTSSNVVQTILQ
AFAQIPDLNIWYGPDSYMGANITELFQQIAMMSDEEIAEIHPKHNKDSIKSLLPRLHYYQ
DGTCIVHHLFGHEVVEKINEMYCDAFLTAHLEVPGEMFSLAMEAKKRGMGVVGSTKNILD
FIKERVQEALDRDVDDHLQFVLGTESGMLTSIVAAVCNLLGSAKSSGNSKINVEIVFPVS
SDSMTKSSISSSSNLKSVTLGDVALPVIPGVASGEGCSTNGGCASCPYMKMNSLSSLLKV
CHQLPHGKNNLKAYEAERFKLQTLQGKSIADVGCEPILHMRHFQQAKKELPEKLVNQVIH
PHSGNCKSMSLS
NT seq
2199 nt NT seq +upstream nt +downstream nt
atggactccgctgtaagtctcgccatgaaatctgcttctgtttcctcctcttctttctta
gccggttcaccttttctcatctccaaaaacaaaaaccctaactttaactccaaaaaaccc
tttttcaacccacgcagcgccgcgcgttttttctccaaaccgctcatatccttacaatcc
tcaggacccacttcccaaaacccccttccttcatctttctcttactctgctgtcaccgaa
accactgatctgttaccatgtaagcttcatcaactaatctccgagtttcagtctctaccc
gaacagcttgaccgactcaaccgtctccttcattactcaacgcttctccctcgtcttccg
gactcgtcacgggtcgactctaaccgggtcatgggctgcacggcccgggtctggctcgaa
gccactttggatcaagataacaagatgcgctttagagctgatagtgattccgagattacg
agggggttttgttactgcttggtttccgtttttgatggggcggcgccggaggaggtgttg
agagtcaagacggaggatttggctgctttgaatgtgagtttggttggtagggagaggtcg
agggtcaacacgtggcataatgtgtttgttagtatgcagaagaggactaaggctttggtg
gctgagagacaagggcagaagccttttgagccttttccttctttgattgtaactaaggat
ggccttcaggctaagggcagctatgccgaagcacaggcaagatatttgttcccagacgag
tctaaggttgaagaacttgtcgatgtgctgaaggagaagaaaattggtattgttgcgcat
ttttacatggaccctgaagtgcaaggtgtcttaactgctgcacagaagtattggcctcac
atatatatatctgattcattagtcatggccgatacagctgtcaagatggctaaagctgga
tgtcaattcataactgttttgggtgtagattttatgtcagaaaacgtgcgtgcaatcctt
gatcaggctggctttcaagatgttggtgtttataggatgtcaggtgaacgcattggttgt
tcgctggcagatgctgccgctactcctgcttatatgaattatcttgaggcggcttctaca
aatcctccttccttgcatgttatctacataaatacttcactcgagacaaaagcttatgcc
catgaactcgtgcctacaattacctgcacttcttctaatgttgtgcaaactattttgcag
gcttttgcgcagattccagatctaaacatatggtacgggccagattcctacatgggtgca
aatattacagagttattccagcaaatagctatgatgagcgatgaagagattgctgagatc
catccaaaacacaacaaagactcaattaagtcattgcttcctcgcctgcactattatcag
gatgggacatgtattgtgcatcacctttttggtcatgaagtcgtggagaagatcaatgaa
atgtactgtgatgcatttttaactgcacatcttgaagtccctggagagatgttctctttg
gcaatggaagcaaagaaaagaggaatgggggtagtgggttccactaaaaatatattagat
ttcataaaagagagagttcaagaggcgctggatagagatgtcgatgaccatctccagttt
gtgttgggaacagaatcagggatgttgacttcaattgttgcagcagtttgcaatttgtta
ggttctgcaaagtcttctgggaattcaaaaattaatgttgaaattgtctttccagtttct
tccgactcaatgacaaaatcatctataagttcatcttcaaacctaaaatctgttacactg
ggcgacgtcgcactacctgttatacctggagtagctagtggggaggggtgttctacaaat
ggtggctgtgcttcctgtccatacatgaagatgaattctctttcatcgttattaaaagtc
tgccaccaactgcctcatgggaaaaataaccttaaggcttatgaagccgaaagattcaaa
ttgcagaccctgcaaggaaaatcaattgcagatgttgggtgtgagccaatattacacatg
agacatttccagcaggccaagaaagaactgccagagaagctcgtcaatcaggtaattcat
ccacacagcggaaattgcaagtcaatgtcactaagttga