Entry
Name
(RefSeq) proline dehydrogenase 1, mitochondrial
KO
Organism
sasa Salmo salar (Atlantic salmon)
Pathway
Module
Brite
KEGG Orthology (KO) [BR:sasa00001 ]
09100 Metabolism
09105 Amino acid metabolism
00330 Arginine and proline metabolism
100194675
Enzymes [BR:sasa01000 ]
1. Oxidoreductases
1.5 Acting on the CH-NH group of donors
1.5.5 With a quinone or similar compound as acceptor
1.5.5.2 proline dehydrogenase
100194675
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SSDB
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Motif
Motif
Other DBs
LinkDB
All DBs
Position
ssa24:3351916..3366852
Genome browser
AA seq
614 aa AA seq DB search
MSYIKTVPALTRAGVDINVRRLNTLSNRRAQSTVASTQADQDVTNRESYSSRKSRNASSS
PKISIDFELTQEAYKSKNNLELLRSLVVFKLCSYDLLVDKNKELMDISKFLLGKKAFEQF
MKLTFYGQFVAGEDHKSIKSLIQKNRAFGVGSVLDYSVEEDLTQEDAVTKEMDSCVSATE
KEGMSMDHREKQYKAHQQFGDRRGGVTGARTYFYSDEAKCDQHMETFLKCIKASGGSSVD
GFSAIKMTALGRPQFLLQFSEVLVKWRRFFSFLAAQQGRDGMEALEQRLELQPLQEFMTT
LGATGDFYGWFTGEKQGSGTIDRLDWNSLIDDRIKISDLLVVPNLETGQLEPLLNKFTEE
EEKQMKRMLQRLDVLANHAEEHSVRLMVDAEQTYFQPAISTLTVEMQRIYNRGKPVIFNT
YQCYLKEAYDIVTMDVELSRREGWFFGAKLVRGAYMYQERSRAEEIGYEDPINPDYETTN
VMYHKCLDYILDEIGLNRNANVMVASHNEDTVKHTLRRMNELGLTPTENKVYFGQLLGMC
DQISFPLGQAGFPVYKYVPYGPVNEVIPYLSRRAQENRGFMKGSQRERELLWKELKRRLA
SGQVFYRPQPEPGL
NT seq
1845 nt NT seq +upstream nt +downstream nt
atgtcttatatcaaaactgtacctgcccttactcgggcaggcgtggatataaacgtcaga
agactgaataccctttctaaccgaagagcacagtccactgtcgcctcaactcaggcagac
caggatgtcaccaacagagaatcttactcttcaaggaaaagcagaaatgcttcttcctct
ccaaagatctctattgactttgagctgacacaggaagcatacaagagtaaaaacaattta
gaactgctcagaagtttggtggttttcaaactgtgctcttatgaccttttggttgataag
aataaggagctgatggatatcagtaagttcctactggggaagaaggcatttgagcagttt
atgaagttgacattctatggtcagtttgtggcgggagaggaccacaagtccatcaagtct
ctgattcaaaagaacagggccttcggagtaggctctgtcctggactacagtgtagaggag
gacctcacacaggaggatgcagtgactaaagagatggactcatgtgtgtctgctacagag
aaagaaggcatgagcatggaccacagagaaaagcagtacaaggctcaccaacagtttggg
gaccgccgagggggagtgaccggcgccaggacatacttctactctgatgaggccaaatgt
gaccaacacatggagaccttcctaaagtgtatcaaagcatctggtgggagctcagtggat
ggcttctctgccatcaagatgactgcactgggacgacctcagttcctgctccagttctcg
gaggtgctggtgaaatggaggcgtttcttcagcttcctggcggcacagcaggggagagat
ggcatggaggctctggagcagaggctagagctgcagccactacaggagtttatgaccacg
ctgggagccacaggtgacttctatggctggttcactggagagaaacaaggatcgggaacc
attgacaggctggactggaacagcctgatcgacgacagaataaagatatcagatctgctg
gttgtcccaaatttagagactggtcagctggagcccctgctcaataagttcacagaggag
gaggagaaacagatgaagaggatgctccagaggctggatgtacttgccaatcatgcagag
gagcacagtgttcgtctgatggtggatgcagagcagacctacttccagcctgccatcagc
acactgactgtggagatgcagaggatctacaatagagggaaacctgtcatcttcaacacc
taccagtgctacctcaaggaggcctatgatatcgtgaccatggatgttgagttgtcgagg
cgtgagggatggttttttggggccaagctagtgcgtggggcttatatgtatcaggagagg
agcagagcggaggagatcggatacgaggaccccatcaaccctgactatgagaccactaac
gtaatgtaccacaagtgtctagactacatcctggatgagattggactgaacagaaatgcc
aatgtcatggttgcttctcacaatgaggacacagtgaagcacaccctcaggaggatgaat
gagttgggcctgactcccacggagaacaaggtgtactttggacagctgctgggcatgtgt
gaccaaatcagcttcccattgggccaggcaggtttccctgtctataaatatgttccatac
gggccggtgaatgaagtgataccgtacctatcccgtcgtgcccaggagaacaggggattc
atgaagggttcccagagggagagggagctgctgtggaaggagctaaaacgcaggctggcc
tcgggacaagtcttctacagacctcagcctgaaccgggactatga