KEGG   Mercurialis annua (annual mercury): 126674089
Entry
126674089         CDS       T10153                                 
Name
(RefSeq) quinolinate synthase, chloroplastic-like
  KO
K03517  quinolinate synthase [EC:2.5.1.72]
Organism
mean  Mercurialis annua (annual mercury)
Pathway
mean00760  Nicotinate and nicotinamide metabolism
mean01100  Metabolic pathways
mean01240  Biosynthesis of cofactors
Module
mean_M00115  NAD biosynthesis, aspartate => quinolinate => NAD
Brite
KEGG Orthology (KO) [BR:mean00001]
 09100 Metabolism
  09108 Metabolism of cofactors and vitamins
   00760 Nicotinate and nicotinamide metabolism
    126674089
Enzymes [BR:mean01000]
 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
     126674089
SSDB
Motif
Pfam: NadA SufE EF-G-binding_N T6SS-SciN
Other DBs
NCBI-GeneID: 126674089
NCBI-ProteinID: XP_050224421
LinkDB
Position
LG3:complement(68871929..68875818)
AA seq 719 aa
MESSATLSLKLSSSSSSLFSPSQNPSPTRNLFPCKTIKYPSFSFKSIKCSTLRSNNSNSN
DSKPNLACSAVTSPSSSTSTTALVAVKLQSLITEFQSFPEPVDRLKRVLDYASTIPVFPD
SSRVDSNRVMGCTSRVWLDAQLDNNGRMTFLADSDSDVTKGFCACLISLLNGAAPEEVLS
VTTEDLSALNVGLPGGERSRVNTWHNVLVSMQKRTKKLVAQREGRKDFDDSFPSLIINSE
GIQAKGTYAEAQAKFLSPDESRVQELVDTLKEKNIGVVAHFYMDPEVQGVLTAASKQWPH
IQISDSLVMADKAVKMAQSGCKYIAVLGVDFMSENVRAILDQAGYGEVTVYRMSDERIGC
SLADAASSIDYMNYLEVASETPNSLHVVYINTSLETKAFAHEIVPTVTCTSSNVVQTILQ
AFSQVPDLNVWYGPDSYMGANIAKLFQQMTLMTDDEIAEVHPDHNRDSIKSLLPRLHYYQ
DGMCSVHHLFGHEVVEKINEMHCDAFLTAHLEVPGEMFSLAMDAKKRGMGVVGSTSNILD
FIKERVQEALDRNVDDHLQFVLGTESGMITAIVAAVRDLFSSAKSSGGPKVNVEIVFPVS
SEAMTSNSSPAKAGEFVLPVVPGVASGEGCSIHGGCASCPYMKMNSLHALLKVCHNLPDE
KNTLAAYKADRYKQPTRSGKSIAEVGCEPILHMRHFQTTKELPEKLVDQVQTGSLYGKA
NT seq 2160 nt   +upstreamnt  +downstreamnt
atggagtcctctgcaactctttctctcaaattatcttcttcttcatcttctcttttctct
ccctcgcaaaacccttctcccacacgcaatcttttcccatgcaagaccatcaaataccct
tcattttcatttaagtcaatcaagtgcagcactctccgctccaataactctaacagtaat
gattccaagcctaacttagcttgctctgctgtcacttctccctctagttcaacatccacc
accgcgctagtggctgttaagcttcagagtttgatcactgagttccaatcttttcctgag
ccagttgaccgtttgaaacgtgtgcttgactatgcctctactatccctgttttcccggac
tcgtctcgggttgattctaacagggtcatgggttgtacttctcgtgtttggcttgatgcc
cagttggataacaatggaagaatgacatttttagctgatagtgactctgatgttactaaa
gggttctgtgcttgtttgatatctttgctgaatggagctgctcctgaggaagttctgagt
gttactacagaggatctatcagctttgaatgttggactgcctggtggggagaggtctaga
gtgaatacgtggcataatgtgttggtcagcatgcaaaagaggaccaagaaattggtagct
caaagagaaggaagaaaggattttgatgattcattcccttctttgattatcaattctgag
ggtattcaagctaaaggaacttatgcagaagctcaggcgaaatttttgtcgccggatgag
tcgagggttcaagaacttgttgacactttaaaggaaaagaatattggtgttgtggctcat
ttttatatggacccagaagttcaaggagttctaactgctgcttcaaagcagtggcctcat
attcagatttctgattcattggttatggctgataaggctgtgaagatggctcaatctgga
tgcaaatacattgcagttttgggtgttgattttatgtctgagaatgtcagggcaattctt
gatcaggctggatacggagaggttactgtttataggatgtcggatgaacggattggttgt
tctttggcagatgctgcatctagcattgattacatgaattatcttgaagtagcttctgag
acgccaaattctttgcacgtcgtctatattaatacatcacttgagaccaaagcttttgct
catgagattgtgcctacagtcacttgtacttcttctaatgttgtgcagactatcttgcag
gccttttctcaagttccagatttgaatgtgtggtatgggcctgattcttacatgggtgct
aatattgcaaaattgtttcaacaaatgacattgatgactgatgatgaaattgctgaggtg
catccagatcataatagagactccatcaagtcactgctacctcgcctgcattattatcag
gacggaatgtgtagtgttcatcatctttttggacatgaagttgtggagaagataaatgag
atgcattgtgatgctttcctaactgctcatcttgaggtccctggagaaatgttttccttg
gccatggatgcaaagaaaagaggaatgggtgttgttggttctacttcaaacatattagat
ttcataaaagagagagttcaagaagctctcgatagaaatgtcgatgatcatctccagttt
gtcttaggaacggaatcaggaatgatcactgcaattgtcgcagcagttcgggatttattc
agttctgcaaagtcttccgggggaccaaaagttaatgttgaaattgtcttcccggtgtca
tcagaagcaatgacaagtaattcatccccagcaaaggctggggagtttgtgttacctgtc
gtaccgggagtagcaagtggggagggatgttctattcatggaggatgtgcttcatgtcca
tatatgaagatgaattctctccacgcgcttctaaaagtttgccataacctgcctgatgag
aaaaatacccttgccgcctacaaagctgatagatataagcagccaactcgaagtgggaaa
tcaattgctgaagtcggatgcgaacctattctgcatatgagacatttccagactacaaaa
gaactgccagagaagctggtcgatcaagttcaaacgggaagcctatatggcaaggcctga

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