KEGG   Tarenaya hassleriana (spider flower): 104824037
Entry
104824037         CDS       T04125                                 
Name
(RefSeq) allene oxide cyclase 3, chloroplastic-like isoform X1
  KO
K10525  allene oxide cyclase [EC:5.3.99.6]
Organism
thj  Tarenaya hassleriana (spider flower)
Pathway
thj00592  alpha-Linolenic acid metabolism
thj01100  Metabolic pathways
thj01110  Biosynthesis of secondary metabolites
Module
thj_M00113  Jasmonic acid biosynthesis
Brite
KEGG Orthology (KO) [BR:thj00001]
 09100 Metabolism
  09103 Lipid metabolism
   00592 alpha-Linolenic acid metabolism
    104824037
Enzymes [BR:thj01000]
 5. Isomerases
  5.3  Intramolecular oxidoreductases
   5.3.99  Other intramolecular oxidoreductases
    5.3.99.6  allene-oxide cyclase
     104824037
SSDB
Motif
Pfam: Allene_ox_cyc AOC_like Dirigent
Other DBs
NCBI-GeneID: 104824037
NCBI-ProteinID: XP_010554241
LinkDB
Position
Unknown
AA seq 254 aa
MASSATAMFIDAISFTNIGNLSPNHRSHRSSVPGFSRSLQNIRISSNGSDFSARSRPTSK
NSTATGAFIWNLFSGEKFTPPKVQELHVYELNEGDRNSPAVLKLGKKPELCLGDLVPFTN
KLYSGDLTKRLGITAGLCVLIQHVPERNGDRFEATYSFYFGDYGHLSVQGPYLTYEDTYL
SITGGAGVFEGAYGQVKLRQLVYPTKLFYTFYLKGIKDLPAELTGKPVEPSPDVKPSPEA
LATEPTGTIRNFTD
NT seq 765 nt   +upstreamnt  +downstreamnt
atggcttcttctgctactgcgatgttcatcgacgcgatctcattcacaaatatcggaaat
ctgtcccccaatcatcgatctcaccggagttctgttccgggtttctccagatccttacag
aacatcaggatctcatccaacggttcagatttctccgcacgatcaaggcccacttccaag
aactcgactgccaccggtgccttcatctggaatctgttcagtggcgagaaatttacacca
cctaaagttcaagaactccatgtctacgagctcaacgaaggagataggaacagcccggcg
gtcctgaaactcgggaagaaaccggagctctgtctcggagatcttgtccccttcacgaac
aagctgtactccggcgacctcaccaagcgcctgggaatcaccgccggtctctgcgtcctg
attcagcacgtgcccgagaggaacggagaccggtttgaagccacttacagcttctacttc
ggagactacggccacttgtccgtacagggaccgtacttgacgtacgaggacacgtacttg
tccatcaccggcggcgccggtgtcttcgagggagcgtacggacaggtcaagcttcgtcaa
ctggtgtatccgacgaagcttttctacaccttttacctgaagggtatcaaagatctgccg
gcggagctcaccggaaaacctgtcgagccctcaccggacgtgaagccttcgccggaggct
ctggcgactgagcccaccggaaccatccgtaactttactgattaa

DBGET integrated database retrieval system