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- Transcript 'Haaura.CG.MTP2014.S1...'
Transcript Model
Transcript Id
Haaura.CG.MTP2014.S105.g02118.01.t
Possible name(s)
ABCC1; ABCC10
Gene model
Location
S105 [75,000 / 83,993]
Amino acid sequence
Length: 1,560
>Haaura.CG.MTP2014.S105.g02118.01.p
MGFEQIISEYCGKTLSVFDSHVPAFSMCFQSLALATLPFMLLAGTSAYFIGHLQIPDVKT
REPIIYKIRKISTAIALLLQSANFFLTFLSQDNAVYAHDMQSYALSSISLLVHEIFLFRL
SKVHFQYKRGPLIISASWILTFPYFLSHLQFIVASVFVSSNKFLILQLVSSCVSCLAQLA
YLITLLVPNSNYMVVNLVETDKDEVSEETQTLLAIKSHGSSYFDISSRLQDSLHERCPAD
SANIFSRLLFLWVGPLMRKGSKSLLVNEDSVYHLPADINTSKLDNRFSDCLNATYVSGIN
RIQGRSGRNSSFLLKSLHKSFGAIYYASGLLKLFSDSLSFAGPLLLNRLVNFIENSDEPT
VHGYYYAAGLFLSTLLSSLFSTHFDYQVNKVKLRARSALITTIYSKTLQAEPCELSQYST
GEITNFMSTDVDRVINFCPSFHQFWSLPFQVAVTLFLLYQQIGILFLTSVGLAVFMIAFN
QYLATKILKYNTYMMEHKDSRVKLMTEILLGIRVIKFNAWESFLSEKLKRIRRSEIKNLK
GIKYFDAGCVYLWATTPILISLLTFSTYSVTGHDLTAAKVFTVIALINMLISPLNAFPWV
LNGLMETLVSLRRLNKFLQLKNFDPEKYYEAPESIHTDDMDVVIEIQNGRFSWDQSVEDL
DTIVDSVPSDDEKNQGLYDISIKIREGQFVGIIGTVGSGKSSLLSAFVAEMRRLNGKIYV
DCINDGFGLVSQEPWIQHASLRDNILWGKPYNNHHYDAVVEACALVEDLQILPQGDNTEV
GENGVTLSGGQKARLALARAVYQDKSLYLLDDPLAAVDQHVATHLHDRCIVGELAEKTRI
LCTHHTKYLRHADFIIVMENGRIKETGTPERILKYSSLPVRKQLAKQKTVTSKEAQPCGT
EDVECILSENKDALMTEEERAVGTVAFHVYRSYWTAIGSFLASLILLFLFLMQGSKVVSD
WWLSYWVTNIKNNASSSYYHDMPFSSKLNWTSNSDQLERSWCFPQPLELSETSYTVLLTA
DVKANTSSHDVMWYLMIYGCLAASNSLFTFLRAFLFAYGGIRAAQVFHNSLLKTVLKAPI
SFFDVTPVGRVINRFSSDTYSIDDSLPFILNIFLAQFVGVLGTLVITVYGLPWFALVLLP
LAVFYYYIQYYYRLTSRELKRLSSVSLSPIYAHFTETLSGLFTIRAFRKNEMFRNKNLML
VDQNQRCNFSTLAAQEWFGIRLQMIGVAMVTGVAFVTVFMHSGHKVSPGLAGLALSYALS
VTGRLYGVITSFTETEKQMVAVERQAYYINNIPKERETIDNGHLITNSGPSKEVIRFSDV
SLQYREGLPLALDNVSFTIEKGENIGIVGRTGSGKSSLFMLLFGMVEPCNGSIMINGTNI
NRSSLLSLRSILSIIPQDPFLFSGSLRENLLPNSEDVNEQHEALLWSALERCNLHEKVVE
MGGLSSNAGERGRRLSVGQRQLLCLARALLTDAKIICLDEATANVDRKSDEVLQKVIREQ
FKDRTVLTIAHRIETVLHCDNVLVMDEGRVAEFGPPGTLLSNTDSMFYKLSSSGGGNIN*
Nucleotide sequence
Length: 4,680
>Haaura.CG.MTP2014.S105.g02118.01.t
ATGGGTTTCGAGCAAATCATCTCGGAATACTGTGGGAAAACCTTGTCTGTGTTTGACTCA
CACGTACCTGCATTCTCCATGTGTTTTCAATCACTGGCCCTTGCCACCCTGCCTTTCATG
CTGCTGGCTGGCACAAGTGCATATTTCATTGGCCATCTTCAGATTCCTGATGTGAAGACG
AGAGAACCAATTATTTACAAGATCAGAAAAATTTCTACAGCAATTGCTCTGCTTCTGCAG
AGTGCTAATTTTTTCTTGACGTTCCTGTCTCAAGATAATGCAGTATATGCTCACGACATG
CAGTCCTATGCTCTATCATCCATATCACTACTGGTGCATGAGATCTTTCTATTTCGATTG
TCAAAAGTCCATTTTCAGTACAAGAGAGGACCCCTTATAATCAGTGCCTCATGGATTTTA
ACTTTCCCTTACTTCTTATCACACTTGCAATTCATAGTTGCATCTGTGTTTGTCAGTTCC
AACAAATTTTTAATACTTCAGTTGGTGTCTTCTTGTGTCTCATGTTTGGCACAATTGGCC
TATTTAATAACATTGCTGGTGCCAAACTCCAACTACATGGTGGTGAATTTAGTTGAAACC
GATAAAGATGAAGTTAGTGAAGAAACACAAACTCTGTTGGCTATCAAGAGCCACGGTAGC
AGCTATTTTGACATATCTTCCCGTCTACAAGATTCCCTTCATGAGCGGTGTCCTGCTGAC
AGCGCAAACATATTTTCTAGACTCTTGTTTTTGTGGGTTGGACCTCTAATGAGGAAGGGA
TCGAAATCTTTACTTGTGAATGAAGACTCAGTTTATCATCTTCCTGCTGACATAAATACC
TCAAAATTGGACAATCGGTTTTCAGACTGCCTCAACGCAACATACGTATCTGGAATCAAC
AGGATTCAGGGTCGTTCAGGTCGAAACAGTTCCTTCCTATTGAAATCTTTGCACAAATCA
TTTGGTGCTATTTATTATGCATCTGGACTATTAAAGCTGTTTTCCGACTCTTTGTCCTTT
GCCGGTCCATTGCTGTTAAACAGGCTGGTCAACTTCATAGAAAATAGTGATGAACCGACC
GTTCATGGATACTATTATGCGGCTGGTTTGTTTCTGTCAACTCTGCTTTCATCTCTATTC
TCAACTCATTTTGATTACCAGGTGAACAAAGTGAAGCTCAGGGCCAGATCAGCCTTGATA
ACCACCATATATAGCAAAACCTTGCAGGCCGAACCATGTGAACTGTCCCAATACAGTACG
GGAGAAATCACAAATTTTATGAGTACTGACGTCGATCGTGTTATCAATTTTTGTCCGAGT
TTCCACCAGTTCTGGAGCTTGCCTTTCCAAGTTGCAGTCACTCTGTTTTTACTTTATCAG
CAGATTGGAATTCTTTTTTTGACAAGTGTTGGCTTGGCTGTTTTTATGATTGCCTTCAAT
CAGTATTTGGCCACAAAGATTTTGAAATACAATACTTACATGATGGAGCACAAGGATAGC
AGAGTAAAGCTGATGACAGAGATCTTACTTGGCATTCGTGTTATAAAGTTCAATGCATGG
GAATCTTTCCTCAGCGAAAAATTAAAGAGAATAAGACGAAGTGAAATCAAGAACTTGAAA
GGCATCAAATATTTTGATGCAGGTTGCGTTTATCTTTGGGCAACAACACCAATACTCATA
TCCCTCCTGACTTTCTCCACATATTCAGTAACGGGACATGACTTGACTGCTGCGAAGGTA
TTCACTGTAATTGCCCTCATTAACATGCTTATATCACCCTTGAATGCATTCCCGTGGGTG
CTAAACGGCCTTATGGAGACTCTTGTGTCTCTTAGAAGACTTAACAAATTTTTGCAATTG
AAAAACTTCGATCCGGAAAAATACTATGAAGCTCCTGAGAGTATCCATACTGATGACATG
GATGTAGTGATCGAGATTCAGAATGGAAGATTCTCTTGGGATCAATCTGTGGAAGACCTG
GATACCATTGTAGACAGTGTGCCATCTGATGATGAAAAGAACCAAGGACTTTATGACATA
TCAATAAAAATACGAGAAGGTCAGTTTGTTGGAATAATTGGAACTGTTGGCTCTGGAAAA
AGCTCTCTTTTATCTGCTTTTGTTGCGGAAATGAGACGACTGAATGGAAAAATCTATGTT
GATTGCATTAATGATGGATTCGGTTTGGTCAGCCAGGAACCCTGGATTCAGCATGCCTCT
CTCAGAGATAACATACTGTGGGGAAAACCATATAACAATCACCATTACGATGCAGTTGTC
GAAGCTTGTGCTCTAGTTGAAGATCTGCAAATTTTACCACAGGGTGATAACACTGAAGTT
GGTGAGAATGGTGTTACATTAAGTGGAGGTCAGAAAGCAAGGTTGGCTCTTGCAAGAGCA
GTTTATCAGGACAAGAGCTTGTATTTGCTTGATGATCCACTAGCTGCAGTGGACCAGCAT
GTGGCCACCCATTTACATGACAGATGTATTGTTGGTGAACTGGCAGAAAAAACTAGGATA
CTGTGTACACATCACACAAAGTATCTACGTCATGCCGACTTCATAATTGTAATGGAAAAT
GGGAGGATCAAAGAAACAGGAACTCCTGAAAGAATACTTAAGTATTCTAGTCTTCCCGTT
AGAAAACAACTGGCAAAACAGAAAACAGTTACTTCTAAAGAAGCACAACCATGTGGAACT
GAAGATGTTGAATGTATCCTCAGCGAGAACAAGGATGCTTTGATGACGGAAGAAGAGAGA
GCTGTTGGTACTGTTGCTTTCCATGTGTACCGTTCCTACTGGACTGCAATCGGTTCATTT
CTTGCATCACTGATATTGCTATTTTTATTTTTAATGCAAGGTTCCAAGGTCGTATCAGAT
TGGTGGTTGTCATACTGGGTTACCAATATCAAGAATAATGCTAGCTCTTCATATTACCAT
GACATGCCCTTTTCCAGTAAACTTAATTGGACTTCTAATAGCGATCAGTTGGAAAGATCT
TGGTGTTTTCCACAACCATTAGAACTATCTGAGACATCCTACACTGTACTGTTAACCGCA
GACGTGAAAGCTAATACCTCAAGTCACGATGTCATGTGGTATCTCATGATCTACGGTTGC
TTAGCTGCCTCTAATAGTTTATTCACGTTTCTGAGAGCTTTCTTATTTGCTTATGGTGGA
ATCAGAGCTGCACAAGTATTTCACAATTCTCTGTTGAAAACTGTCTTAAAAGCACCTATA
TCCTTCTTTGATGTGACCCCTGTCGGACGAGTAATCAATCGTTTCTCGAGCGATACTTAC
AGCATAGATGACAGTCTACCATTCATCTTGAACATTTTCCTGGCTCAATTTGTTGGCGTT
TTAGGAACTCTAGTCATCACTGTCTATGGCCTTCCCTGGTTTGCTCTCGTGTTACTGCCA
CTTGCTGTGTTTTATTATTATATTCAGTATTACTACAGACTCACATCAAGGGAACTGAAA
AGATTGAGCAGTGTGAGCTTGTCACCCATATATGCTCATTTCACCGAAACTCTCTCCGGT
CTCTTCACCATACGGGCTTTCAGGAAAAATGAAATGTTCAGGAATAAAAATTTGATGTTA
GTAGACCAAAATCAGCGATGTAATTTTTCCACTCTCGCAGCTCAAGAATGGTTCGGAATT
AGGTTACAAATGATCGGAGTAGCTATGGTAACAGGTGTTGCTTTTGTCACTGTGTTCATG
CATTCCGGTCACAAGGTCTCGCCAGGCTTAGCTGGATTGGCACTCTCATATGCACTATCC
GTCACTGGTAGATTGTATGGCGTGATCACTTCGTTCACAGAGACTGAAAAACAAATGGTT
GCTGTAGAACGGCAAGCCTATTACATAAATAATATTCCAAAGGAAAGGGAAACTATTGAC
AATGGGCACTTGATTACCAACAGCGGACCCTCTAAAGAAGTTATTAGGTTCTCTGACGTG
AGTCTGCAATACAGAGAAGGCCTGCCTCTCGCTCTGGATAATGTGTCTTTCACTATAGAA
AAGGGAGAAAACATTGGAATAGTTGGAAGAACAGGGAGTGGAAAATCCAGCTTGTTTATG
TTGCTATTCGGAATGGTCGAACCATGTAACGGTTCAATAATGATAAATGGGACGAATATC
AACAGAAGTAGCCTATTGTCATTACGGTCTATTTTATCCATCATTCCCCAAGACCCATTC
TTGTTCAGTGGCTCTCTACGAGAAAATTTACTGCCAAACTCAGAAGACGTTAACGAACAA
CACGAGGCTTTGCTATGGTCAGCCTTGGAACGTTGTAATCTTCATGAAAAAGTGGTAGAG
ATGGGTGGATTATCCAGTAATGCTGGGGAGAGAGGCAGGCGATTGTCAGTTGGCCAGAGA
CAACTGCTTTGTCTTGCCAGAGCACTACTCACTGATGCAAAGATCATATGTTTGGATGAA
GCTACAGCCAATGTAGATCGCAAATCTGATGAGGTTTTGCAGAAAGTAATCAGAGAACAA
TTCAAAGATAGAACAGTACTTACAATCGCTCACAGGATCGAGACGGTTTTGCACTGTGAT
AACGTACTGGTAATGGACGAGGGTCGTGTGGCTGAATTTGGACCACCTGGGACTCTACTA
AGTAACACCGATTCGATGTTTTACAAACTTTCCAGCTCTGGAGGTGGTAATATTAACTGA
| Gene3D |
ABC1_TM_sf (IPR036640) - T[313-620] 1.6E-27 - T[1009-1296] 3.3E-43 |
| SUPERFAMILY |
ABC1_TM_sf (IPR036640) - T[315-625] 1.07E-37 - T[942-980] 2.09E-57 - T[1026-1295] 2.09E-57 |
| ProSiteProfiles |
ABC1_TM_dom (IPR011527) - T[327-606] 35.602 - T[944-1277] 41.73 |
| Pfam |
ABC1_TM_dom (IPR011527) - T[328-594] 7.5E-27 - T[944-1262] 2.3E-43 |
| ProSiteProfiles |
ABC_transporter-like (IPR003439) - T[657-885] 21.722 - T[1315-1552] 20.248 |
| SUPERFAMILY |
P-loop_NTPase (IPR027417) - T[670-876] 7.14E-52 - T[1312-1550] 1.98E-68 |
| Pfam |
ABC_transporter-like (IPR003439) - T[678-814] 3.8E-19 - T[1332-1483] 8.0E-32 |
| SMART |
AAA+_ATPase (IPR003593) - T[686-862] 1.7E-12 - T[1341-1529] 6.1E-11 |
| ProSitePatterns |
ABC_transporter_CS (IPR017871) - T[787-801] . - T[1455-1469] . |
| Protein Name | Identity | Bit Score | e-value |
|---|---|---|---|
| MRP1_HUMAN | 32.213 % | 754 | 0 |
| MRP3_HUMAN | 33.571 % | 743 | 0 |
| MRP7_HUMAN | 45.51 % | 1057 | 0 |