| Entry |
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| Symbol |
ephx2
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| Name |
(RefSeq) bifunctional epoxide hydrolase 2
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| KO |
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| Organism |
ctul Cyprinodon tularosa (White Sands pupfish)
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| Pathway |
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| Brite |
KEGG Orthology (KO) [BR:ctul00001]
09100 Metabolism
09103 Lipid metabolism
00590 Arachidonic acid metabolism
119794676 (ephx2)
09140 Cellular Processes
09141 Transport and catabolism
04146 Peroxisome
119794676 (ephx2)
09150 Organismal Systems
09158 Development and regeneration
04382 Cornified envelope formation
119794676 (ephx2)
09180 Brite Hierarchies
09181 Protein families: metabolism
01009 Protein phosphatases and associated proteins [BR:ctul01009]
119794676 (ephx2)
01002 Peptidases and inhibitors [BR:ctul01002]
119794676 (ephx2)
Enzymes [BR:ctul01000]
3. Hydrolases
3.1 Acting on ester bonds
3.1.3 Phosphoric-monoester hydrolases
3.1.3.76 lipid-phosphate phosphatase
119794676 (ephx2)
3.3 Acting on ether bonds
3.3.2 Ether hydrolases
3.3.2.10 soluble epoxide hydrolase
119794676 (ephx2)
Protein phosphatases and associated proteins [BR:ctul01009]
HAD phosphatases
Other HAD phosphatases
119794676 (ephx2)
Peptidases and inhibitors [BR:ctul01002]
Serine peptidases
Family S33
119794676 (ephx2)
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| SSDB |
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| Motif |
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| Other DBs |
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| LinkDB |
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| Position |
Unknown
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| AA seq |
561 aa
MGDKKAVLFNFWGVVVPSRAAVVFQKLEEQHKLPRGFLSRVVSQNKGSLLQAEKGKLTLN
QMIPAFKAECAKEAKARGVTLPSDWCVNCLLEEARKSMMEVKDVVLKTSASLRSSGVLTA
VLVNHWLDDSASGDDLAQLLCLLGSSFNLVLQSCHLGHRVPEVAMFNTALEQLGISPNQA
LWLDVDAESVKAAEKEGIKAILVEDMETALQKISDFTGVQAVGAESPPVTCRPDQVSHGY
IIIRPGVRTHYVEMGTGPPVLLCHGFPESWYSWRYQIPALAAAGFRVLALDMKGYGESTA
PPDIEEYSQEQLCKDLITFMDKMSIPQVTLVGHDWGGALVWTMARYYPERIRAVASLNTP
LFPPDPSAPVTEKLKALPIFDYQIYFQKPGVAEAELEKDLERTFKIFFSSSSEAASRPAL
STAGVCARGGLFVGLPEQIPRSSMLTEADLQYYVSQFRESGFRGPLNWYRNNQANWKWMC
SQPTGKVLVPALMVTAGKDPVLLPALSQGMEDLIPNLSRGHIEDCGHWTQMDKPAETNNI
LISWLKETHGKAGGVQVAPKL |
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| NT seq |
1686 nt +upstreamnt +downstreamnt
atgggagacaagaaagcggttttgttcaacttctggggggtggttgttccctcaagagca
gctgtagttttccagaaactggaggagcaacacaaacttccacgagggtttctgtcccgt
gtggtgtcccaaaataagggctctctgctgcaggcagaaaaaggcaaactgactcttaac
cagatgatcccggcgttcaaagccgagtgtgcaaaggaggccaaggccagaggagtgacg
ctgccgtctgattggtgcgtcaactgtctgctggaggaggccagaaagtcgatgatggaa
gtgaaggacgttgtgctgaagacgtctgcaagtctgcgtagcagtggggtcctaacagca
gtcctggtcaatcactggctggatgacagcgcctcaggagacgatctggctcaacttctc
tgcctcttaggcagcagttttaaccttgtccttcagtcctgccatctgggtcacagggtc
ccagaagtcgccatgttcaacactgctttggagcagctgggaatctccccaaaccaggct
ctgtggctggacgtggacgcggagagcgtgaaggcggcagagaaagaagggattaaggcc
atcctggtggaagacatggagacggctctgcagaaaatatccgattttaccggagttcag
gctgttggagcagagagtcctccagtaacctgccgccccgatcaagtgtctcatggatac
atcatcatcagacctggtgttcggacccactacgtggagatgggcacgggtccaccggtc
ctgctgtgccacggtttccctgagagctggtactcctggaggtaccagatcccagctttg
gctgcagcagggttcagggtcctggctctggacatgaagggatacggagagtccacagca
ccccctgacatagaggaatattctcaggagcagctttgcaaggatctaattacttttatg
gacaaaatgtccataccacaggtcaccctggtgggtcatgactggggcggtgctttggtt
tggactatggcccggtattatccagagagaatcagggcagtagcgtctctgaacactccc
ctgttcccgccggatccctcggctcctgttacagagaaattaaaggcccttccaatattt
gactaccagatttacttccaaaaaccaggagtcgccgaggccgagttggagaaggacttg
gagagaacattcaagattttcttttccagcagcagtgaagcggcgagccgtcccgctctg
agcaccgctggagtctgtgctcgaggcgggctgtttgtgggtctgccggagcagattcct
cggagctccatgctgacagaggccgacctgcagtactacgtcagccagttcagggagagc
ggcttcaggggacctttgaactggtatcgaaacaaccaggccaactggaagtggatgtgt
tcgcagcctactgggaaggttctggtgccggctctgatggtgacggcgggtaaggatccg
gttctgctgccggcgctctcacaagggatggaggacctgatccccaacctgagcagggga
cacatcgaggactgcggacactggactcagatggacaaaccggcagagaccaacaacatc
ctgatatcgtggctgaaagagacgcacgggaaggcggggggggtccaggtggcccccaaa
ctgtga |
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