Entry |
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Symbol |
ABCB1, ABC20, CD243, CLCS, ENPAT, GP170, MDR1, P-GP, PGY1, p-170
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Name |
(RefSeq) ATP binding cassette subfamily B member 1
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KO |
K05658 | ATP-binding cassette, subfamily B (MDR/TAP), member 1 [EC:7.6.2.2] |
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Organism |
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Pathway |
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Network |
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Element |
N00250 | CDX2-overexpression to transcriptional activation |
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Disease |
H01227 | Inflammatory bowel disease (IBD) |
H01529 | Avascular necrosis of femoral head |
H02831 | Acute transient encephalopathy |
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Drug target |
Elacridar hydrochloride: | D03968 |
Tesmilifene hydrochloride: | D06084 |
Zosuquidar trihydrochloride: | D06387 |
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Brite |
KEGG Orthology (KO) [BR:hsa00001]
09130 Environmental Information Processing
09131 Membrane transport
02010 ABC transporters
5243 (ABCB1)
09150 Organismal Systems
09154 Digestive system
04976 Bile secretion
5243 (ABCB1)
09160 Human Diseases
09161 Cancer: overview
05206 MicroRNAs in cancer
5243 (ABCB1)
09162 Cancer: specific types
05226 Gastric cancer
5243 (ABCB1)
09180 Brite Hierarchies
09183 Protein families: signaling and cellular processes
02000 Transporters [BR:hsa02000]
5243 (ABCB1)
04147 Exosome [BR:hsa04147]
5243 (ABCB1)
04090 CD molecules [BR:hsa04090]
5243 (ABCB1)
Enzymes [BR:hsa01000]
7. Translocases
7.6 Catalysing the translocation of other compounds
7.6.2 Linked to the hydrolysis of a nucleoside triphosphate
7.6.2.2 ABC-type xenobiotic transporter
5243 (ABCB1)
Transporters [BR:hsa02000]
ABC transporters, eukaryotic type
ABCB (MDR/TAP) subfamily
ABCB1, 4, 5 subgroups
5243 (ABCB1)
Exosome [BR:hsa04147]
Exosomal proteins
Exosomal proteins of other body fluids (saliva and urine)
5243 (ABCB1)
CD molecules [BR:hsa04090]
Proteins
5243 (ABCB1)
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SSDB |
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Motif |
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Other DBs |
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Structure |
|
Position |
7:complement(87503017..87713295)
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AA seq |
1280 aa
MDLEGDRNGGAKKKNFFKLNNKSEKDKKEKKPTVSVFSMFRYSNWLDKLYMVVGTLAAII
HGAGLPLMMLVFGEMTDIFANAGNLEDLMSNITNRSDINDTGFFMNLEEDMTRYAYYYSG
IGAGVLVAAYIQVSFWCLAAGRQIHKIRKQFFHAIMRQEIGWFDVHDVGELNTRLTDDVS
KINEGIGDKIGMFFQSMATFFTGFIVGFTRGWKLTLVILAISPVLGLSAAVWAKILSSFT
DKELLAYAKAGAVAEEVLAAIRTVIAFGGQKKELERYNKNLEEAKRIGIKKAITANISIG
AAFLLIYASYALAFWYGTTLVLSGEYSIGQVLTVFFSVLIGAFSVGQASPSIEAFANARG
AAYEIFKIIDNKPSIDSYSKSGHKPDNIKGNLEFRNVHFSYPSRKEVKILKGLNLKVQSG
QTVALVGNSGCGKSTTVQLMQRLYDPTEGMVSVDGQDIRTINVRFLREIIGVVSQEPVLF
ATTIAENIRYGRENVTMDEIEKAVKEANAYDFIMKLPHKFDTLVGERGAQLSGGQKQRIA
IARALVRNPKILLLDEATSALDTESEAVVQVALDKARKGRTTIVIAHRLSTVRNADVIAG
FDDGVIVEKGNHDELMKEKGIYFKLVTMQTAGNEVELENAADESKSEIDALEMSSNDSRS
SLIRKRSTRRSVRGSQAQDRKLSTKEALDESIPPVSFWRIMKLNLTEWPYFVVGVFCAII
NGGLQPAFAIIFSKIIGVFTRIDDPETKRQNSNLFSLLFLALGIISFITFFLQGFTFGKA
GEILTKRLRYMVFRSMLRQDVSWFDDPKNTTGALTTRLANDAAQVKGAIGSRLAVITQNI
ANLGTGIIISFIYGWQLTLLLLAIVPIIAIAGVVEMKMLSGQALKDKKELEGSGKIATEA
IENFRTVVSLTQEQKFEHMYAQSLQVPYRNSLRKAHIFGITFSFTQAMMYFSYAGCFRFG
AYLVAHKLMSFEDVLLVFSAVVFGAMAVGQVSSFAPDYAKAKISAAHIIMIIEKTPLIDS
YSTEGLMPNTLEGNVTFGEVVFNYPTRPDIPVLQGLSLEVKKGQTLALVGSSGCGKSTVV
QLLERFYDPLAGKVLLDGKEIKRLNVQWLRAHLGIVSQEPILFDCSIAENIAYGDNSRVV
SQEEIVRAAKEANIHAFIESLPNKYSTKVGDKGTQLSGGQKQRIAIARALVRQPHILLLD
EATSALDTESEKVVQEALDKAREGRTCIVIAHRLSTIQNADLIVVFQNGRVKEHGTHQQL
LAQKGIYFSMVSVQAGTKRQ |
NT seq |
3843 nt +upstreamnt +downstreamnt
atggatcttgaaggggaccgcaatggaggagcaaagaagaagaacttttttaaactgaac
aataaaagtgaaaaagataagaaggaaaagaaaccaactgtcagtgtattttcaatgttt
cgctattcaaattggcttgacaagttgtatatggtggtgggaactttggctgccatcatc
catggggctggacttcctctcatgatgctggtgtttggagaaatgacagatatctttgca
aatgcaggaaatttagaagatctgatgtcaaacatcactaatagaagtgatatcaatgat
acagggttcttcatgaatctggaggaagacatgaccaggtatgcctattattacagtgga
attggtgctggggtgctggttgctgcttacattcaggtttcattttggtgcctggcagct
ggaagacaaatacacaaaattagaaaacagttttttcatgctataatgcgacaggagata
ggctggtttgatgtgcacgatgttggggagcttaacacccgacttacagatgatgtctcc
aagattaatgaaggaattggtgacaaaattggaatgttctttcagtcaatggcaacattt
ttcactgggtttatagtaggatttacacgtggttggaagctaacccttgtgattttggcc
atcagtcctgttcttggactgtcagctgctgtctgggcaaagatactatcttcatttact
gataaagaactcttagcgtatgcaaaagctggagcagtagctgaagaggtcttggcagca
attagaactgtgattgcatttggaggacaaaagaaagaacttgaaaggtacaacaaaaat
ttagaagaagctaaaagaattgggataaagaaagctattacagccaatatttctataggt
gctgctttcctgctgatctatgcatcttatgctctggccttctggtatgggaccaccttg
gtcctctcaggggaatattctattggacaagtactcactgtattcttttctgtattaatt
ggggcttttagtgttggacaggcatctccaagcattgaagcatttgcaaatgcaagagga
gcagcttatgaaatcttcaagataattgataataagccaagtattgacagctattcgaag
agtgggcacaaaccagataatattaagggaaatttggaattcagaaatgttcacttcagt
tacccatctcgaaaagaagttaagatcttgaagggtctgaacctgaaggtgcagagtggg
cagacggtggccctggttggaaacagtggctgtgggaagagcacaacagtccagctgatg
cagaggctctatgaccccacagaggggatggtcagtgttgatggacaggatattaggacc
ataaatgtaaggtttctacgggaaatcattggtgtggtgagtcaggaacctgtattgttt
gccaccacgatagctgaaaacattcgctatggccgtgaaaatgtcaccatggatgagatt
gagaaagctgtcaaggaagccaatgcctatgactttatcatgaaactgcctcataaattt
gacaccctggttggagagagaggggcccagttgagtggtgggcagaagcagaggatcgcc
attgcacgtgccctggttcgcaaccccaagatcctcctgctggatgaggccacgtcagcc
ttggacacagaaagcgaagcagtggttcaggtggctctggataaggccagaaaaggtcgg
accaccattgtgatagctcatcgtttgtctacagttcgtaatgctgacgtcatcgctggt
ttcgatgatggagtcattgtggagaaaggaaatcatgatgaactcatgaaagagaaaggc
atttacttcaaacttgtcacaatgcagacagcaggaaatgaagttgaattagaaaatgca
gctgatgaatccaaaagtgaaattgatgccttggaaatgtcttcaaatgattcaagatcc
agtctaataagaaaaagatcaactcgtaggagtgtccgtggatcacaagcccaagacaga
aagcttagtaccaaagaggctctggatgaaagtatacctccagtttccttttggaggatt
atgaagctaaatttaactgaatggccttattttgttgttggtgtattttgtgccattata
aatggaggcctgcaaccagcatttgcaataatattttcaaagattataggggtttttaca
agaattgatgatcctgaaacaaaacgacagaatagtaacttgttttcactattgtttcta
gcccttggaattatttcttttattacatttttccttcagggtttcacatttggcaaagct
ggagagatcctcaccaagcggctccgatacatggttttccgatccatgctcagacaggat
gtgagttggtttgatgaccctaaaaacaccactggagcattgactaccaggctcgccaat
gatgctgctcaagttaaaggggctataggttccaggcttgctgtaattacccagaatata
gcaaatcttgggacaggaataattatatccttcatctatggttggcaactaacactgtta
ctcttagcaattgtacccatcattgcaatagcaggagttgttgaaatgaaaatgttgtct
ggacaagcactgaaagataagaaagaactagaaggttctgggaagatcgctactgaagca
atagaaaacttccgaaccgttgtttctttgactcaggagcagaagtttgaacatatgtat
gctcagagtttgcaggtaccatacagaaactctttgaggaaagcacacatctttggaatt
acattttccttcacccaggcaatgatgtatttttcctatgctggatgtttccggtttgga
gcctacttggtggcacataaactcatgagctttgaggatgttctgttagtattttcagct
gttgtctttggtgccatggccgtggggcaagtcagttcatttgctcctgactatgccaaa
gccaaaatatcagcagcccacatcatcatgatcattgaaaaaacccctttgattgacagc
tacagcacggaaggcctaatgccgaacacattggaaggaaatgtcacatttggtgaagtt
gtattcaactatcccacccgaccggacatcccagtgcttcagggactgagcctggaggtg
aagaagggccagacgctggctctggtgggcagcagtggctgtgggaagagcacagtggtc
cagctcctggagcggttctacgaccccttggcagggaaagtgctgcttgatggcaaagaa
ataaagcgactgaatgttcagtggctccgagcacacctgggcatcgtgtcccaggagccc
atcctgtttgactgcagcattgctgagaacattgcctatggagacaacagccgggtggtg
tcacaggaagagattgtgagggcagcaaaggaggccaacatacatgccttcatcgagtca
ctgcctaataaatatagcactaaagtaggagacaaaggaactcagctctctggtggccag
aaacaacgcattgccatagctcgtgcccttgttagacagcctcatattttgcttttggat
gaagccacgtcagctctggatacagaaagtgaaaaggttgtccaagaagccctggacaaa
gccagagaaggccgcacctgcattgtgattgctcaccgcctgtccaccatccagaatgca
gacttaatagtggtgtttcagaatggcagagtcaaggagcatggcacgcatcagcagctg
ctggcacagaaaggcatctatttttcaatggtcagtgtccaggctggaacaaagcgccag
tga |