KEGG   Eleginops maclovinus (Patagonian blennie): 134864741
Entry
134864741         CDS       T09869                                 
Symbol
abcc6a
Name
(RefSeq) multidrug resistance-associated protein 1 isoform X1
  KO
K05665  ATP-binding cassette, subfamily C (CFTR/MRP), member 1 [EC:7.6.2.3]
Organism
emac  Eleginops maclovinus (Patagonian blennie)
Pathway
emac02010  ABC transporters
emac04977  Vitamin digestion and absorption
emac04981  Folate transport and metabolism
Brite
KEGG Orthology (KO) [BR:emac00001]
 09130 Environmental Information Processing
  09131 Membrane transport
   02010 ABC transporters
    134864741 (abcc6a)
 09150 Organismal Systems
  09154 Digestive system
   04977 Vitamin digestion and absorption
    134864741 (abcc6a)
   04981 Folate transport and metabolism
    134864741 (abcc6a)
 09180 Brite Hierarchies
  09183 Protein families: signaling and cellular processes
   02000 Transporters [BR:emac02000]
    134864741 (abcc6a)
Enzymes [BR:emac01000]
 7. Translocases
  7.6  Catalysing the translocation of other compounds
   7.6.2  Linked to the hydrolysis of a nucleoside triphosphate
    7.6.2.3  ABC-type glutathione-S-conjugate transporter
     134864741 (abcc6a)
Transporters [BR:emac02000]
 ABC transporters, eukaryotic type
  ABCC (CFTR/MRP) subfamily
   ABCC1, 2, 3, 4, 5, 6, 10, 11, 12, 13 subgroups
    134864741 (abcc6a)
SSDB
Motif
Pfam: ABC_membrane ABC_tran SMC_N TMD0_ABC AAA_16 AAA_29 nSTAND1 MMR_HSR1 RsgA_GTPase ABC_ATPase AAA_22 AAA_25 Dynamin_N Zeta_toxin GTP_EFTU Peptidase_M16_C
Other DBs
NCBI-GeneID: 134864741
NCBI-ProteinID: XP_063740024
LinkDB
Position
5:complement(22321101..22345554)
AA seq 1510 aa
MDAFCRLSGLDPLWDWNRTWYTANPDLTQCFQNTVLVWVPCIYLWLLAPFYCLHLYCHDH
GRIRTSCLCSSKMVLGFLLASFGFVEFFYILLERSHEIHQHMVFLLSPIIRSMTVILALC
IIQLERIRGCRSSVFLFLFWVLAVVCSLVPLRAKIQLAMDEGIASDIVRYLAFFSYFTIQ
LAQLFLCCFADQPPEGKITFQKNPCPVQDASFLSKILFWWFTGLVVKGYRSPLAAEDLWT
LREEDTSRKIISEVEENWTDECAELQKQERALASGVALGSRLPDQAQLLRKLQKEQSSGF
FLLRTLARKFGPYFLNGTLCIIFHDAFMFAIPQVLSLLLDFMRDEDAPLWKGYFYATLMF
LLSCLQSLFSHQYMYTCFTVGMRVKTAVMGLVYRKSLVINSAARRTCTVGEIVNLVSADT
QKLMDFVVYFNAVWLAPIEIALCLFFLWQHLGPSALAGIATVILIFPLNGFIAKKRSKLQ
EIQMKFMDGRIRLMNEILNGIKILKFYAWEKAFLEKVLGHREKELQALKKSQILYSISIA
SFNSSSFLIAFSMFGVYVTLDDRNVLDAQKVFVSMALINILKTPLSQLPFAISTTMQAMV
SLRRLGKYLCSEELKVENVSKAPSTSDGEDVVIENGTFSWSAEGPPCLKRISIHVPRGSL
VAVVGHVGSGKSSLLSAMLGETEKRSGHVSVKGSVAYVPQQAWIQNATVQDNIIFGREKM
KTWYHRVLEACALLPDLDILPAGDATEIGEKGLNLSGGQRQRVSLARAVYRKADVYLMDD
PLSAVDAHVGQHIFDKVVGPKGVLRDKTRILVTHGMNFLPQADLILVLVDGEITESGSYQ
ELLSRHGAFADFIHTFANTERKESTIQRAGSRRSNARLSMVDFMPFSRDLSQEQLIGGDT
TNTNLQNMEPVSETDEEQVPEDLGKLTKADKANTGRVRLAMYKKYFKTIGLVIIIPIVFL
YAFQQGASLAYNYWLSMWADDPIVNGTQTDTDLKLTVFGALGFVQGIAIFGTTVAISICG
IIASRHLHMDLLINVLHSPMSFFECTPSGNLLNRFSKEIDAIDCMVPEGLKMMLSYVFKL
MEVCIIVMMATPFAAVIILPLAFLYAFVQSFYVATSCQLRRLEAVSRSPIYTHFNETVQG
ASVIRAFGEQSRFIQQANERVDFNQTSYFPRFVATRWLAVNLEFVGNGVVLAAAILSVMG
KGSLSPGIVGLAVSHSLQVTGILSWIVRSWTDVENNIVSVERVNEYADTAKEANWSIEGS
SLPLAWPQSGAIEFQDYGLQYRKGLELALKGITMQVHERERIGIVGRTGAGKSSLALGIF
RILEAAKGKIFVDGVDIADIGLHDLRSRITIIPQDPVLFSGSLRMNLDPFDSYTDEEVWR
SLELAHLKNYVSNLPDKLNHECSEGGENLSLGQRQLVCLARALLRKTKILVLDEATAAVD
LETDMLIQSTIRTQFDDCTVLTVAHRLNTIMDYTRVIVMDRGYISEMDTPANLIAQRGQF
YGMCREAGLV
NT seq 4533 nt   +upstreamnt  +downstreamnt
atggatgccttttgcagactcagcggcctggaccctctgtgggactggaaccgtacatgg
tacacagccaacccggacctgacccagtgtttccagaacacagtactggtgtgggtcccc
tgtatctatctgtggttgctggcccctttctactgccttcacctctactgccatgaccat
ggccgcatccgaacgtcctgcctatgcagttccaagatggtgttgggtttcttgttggcc
tcctttggcttcgttgagttcttctacatcctgctggagaggagccatgagatccaccag
catatggtcttcctactcagccccatcatacgcagcatgactgtgatcttggccttatgc
atcatccagttggaaagaatcagaggttgccgctcctctgtattcctcttcctgttctgg
gtattggctgttgtctgttccctggtgcctctcagggcgaagatccaactggctatggat
gagggcattgcgtcggacatcgtacgatacctcgcctttttctcctatttcacaatccaa
ctggcccagctcttcctgtgctgttttgcagaccagcctccagagggaaaaatcacattt
caaaagaatccctgtcccgtgcaagatgcctctttcctatcaaagattctcttctggtgg
ttcactgggcttgttgtgaaaggatatcgctccccgctggcagcagaggacctgtggacg
ctgagggaggaagacacatcgcgcaagatcatctctgaggtggaagagaactggacggat
gaatgtgccgaacttcaaaagcaggaaagagccttagcttcgggtgtggcactggggagc
agacttccggaccaggctcagcttcttcggaagctgcagaaggagcagagctctggtttc
ttccttctcaggacgctggcacgcaagttcggcccatactttctgaacggcaccctgtgc
atcatattccatgatgcgttcatgttcgccattccccaggtgctcagtcttcttctggat
ttcatgagagacgaagatgctccgctgtggaaaggctacttctacgccactctaatgttc
ctgttgtcctgcctccagtccctcttcagccatcagtacatgtacacttgcttcacagtg
ggaatgagggtgaagaccgctgtgatgggcttggtttacaggaagtctttggtgataaac
agcgcagccaggaggacttgcaccgtgggcgagattgtgaatctggtctcggcagacact
cagaagctcatggactttgtggtttacttcaacgctgtctggctggctcccattgagatt
gctctttgtctcttcttcctttggcagcatctcggcccatcggctttggcaggaatcgcc
actgtcattctcatctttccactcaacgggttcatagcaaagaaaagaagcaagctccag
gagatccagatgaagttcatggacggacgcattagactgatgaatgagatcctgaatgga
ataaagatcttgaagttctacgcctgggagaaggcattcctggagaaggttttgggccac
agagaaaaggagctccaagccctgaagaaatctcagatcctttattccatctccattgca
tcctttaactcctcttctttcctgattgccttttccatgtttggagtgtatgtgacgctc
gatgacaggaatgtgctggatgcacagaaagtttttgtctcaatggcgctgatcaacatc
ctgaagacccctctcagccagcttccattcgctatcagcacgacgatgcaggctatggtt
tcactgagacgtctgggaaagtacctgtgctctgaggaactgaaagtggaaaacgtctca
aaagcgccatcgacctctgatggtgaagacgtggtgatagaaaacggcacttttagttgg
tctgcagagggccctccatgtcttaaaaggatcagtatccatgtgccacgaggttccctc
gttgctgtggttggacatgtgggcagtggaaagtcctccttgttgtctgccatgcttggt
gaaacagagaaaaggagcggtcatgtcagtgttaagggctccgtggcgtatgtgccccaa
caggcctggatccagaatgccacagtccaagacaacatcatatttggccgtgaaaaaatg
aagacgtggtaccaccgagtgttggaggcctgcgcactgctgcccgacctggacatccta
cctgctggagatgctacagaaattggagaaaagggtttgaacctctctggtgggcagagg
cagagagtgagccttgcccgggccgtctacagaaaggcggatgtatacctcatggatgat
cctctgtctgctgttgatgcacatgtggggcaacacatatttgacaaagtcgttggacca
aagggagtccttagggacaagacccgcatcctagtgacccatgggatgaacttcctgccg
caggctgacctcatccttgttctggtagatggcgaaatcacagagagcggctcctaccag
gagctcctcagccgccatggcgccttcgccgacttcattcacacattcgccaacacggag
cgaaaagagagcaccatacagagagctggttccaggaggtctaatgctcgtctcagcatg
gtcgactttatgccattctccagagatctgtcacaggagcagcttattgggggtgacacc
acaaataccaacctgcagaacatggagcctgtgtctgaaacagacgaagaacaagtacca
gaggacttgggcaagcttactaaagctgataaggccaacactggaagggtgaggttggcg
atgtacaagaagtacttcaagacaatcggcttggttatcatcatccccatcgtcttcctg
tatgcttttcaacaaggcgcctcactggcctacaactactggctgagcatgtgggctgat
gacccgattgttaacggcacccagacagatacagacctgaagctgaccgtgtttggtgcg
ctgggttttgtgcaaggtatcgcaatctttggtacaactgtcgccatctctatctgcggt
atcatcgcctcccgccacttgcatatggacctgcttatcaatgtgctgcactcaccaatg
tctttcttcgagtgcacgcccagcggcaacctactcaaccgcttctccaaagagattgac
gccatcgactgcatggtcccagaaggcctgaagatgatgctgagctacgtcttcaaactg
atggaggtctgcatcattgtgatgatggcgacaccctttgcggccgtgatcatcttgccc
ctcgctttcctttacgcctttgtccagagcttctacgtcgccacatcctgtcagctgcgg
aggctggaagctgtgagccgctcgcccatctacacacacttcaacgagacggtgcagggc
gccagcgtcatccgggccttcggcgagcagtccaggttcattcagcaagctaatgagagg
gtggacttcaatcagacctcctacttcccccgatttgtggccactcggtggctggcagtc
aatctggagtttgttggtaatggtgtggtcttagctgctgccattctctctgtgatggga
aaaggctcccttagcccaggaatagtcggtttggctgtgtcacactccctccaggtgact
ggaatcttgagttggatagtgagatcctggactgatgtggaaaacaacattgtgtctgtg
gagagggtcaatgagtatgctgatactgctaaagaggcaaattggagtatcgaaggcagc
tccttgcccctggcttggccccagagtggtgctatcgagttccaggactacgggctgcag
taccgtaaaggccttgagttggctctgaagggcattaccatgcaagttcatgaaagagag
aggattggaattgtgggccggacaggagcagggaagtcctcacttgccctgggaatcttc
cggatcttagaggcagcaaaaggaaaaatctttgtagatggagtagacatcgctgacatc
ggactccacgacctcagatcccgcattactatcattcctcaggaccctgtgctgttctca
ggctcgctccggatgaacctcgacccatttgacagctacacagacgaggaggtgtggagg
tcgctggaactcgcccatcttaaaaattatgtctcaaatctgcctgacaaactcaaccac
gaatgctcagagggaggagaaaacctcagtctgggtcagcgccagctcgtgtgcctggcc
agggccctgctgaggaaaaccaagatcctggttttggacgaggcgacagctgctgttgac
ctggagacagacatgctcatccagtccacaatacgcacacagtttgacgactgcactgta
ctcactgttgctcaccgccttaacactatcatggactacacaagagtgatcgtcatggac
cgaggttacatttctgagatggacactccagccaacctcatcgcacagcgtggacagttc
tatgggatgtgccgggaggctgggctcgtctaa

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