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Abcc1 ATP-binding cassette, sub-family C (CFTR/MRP), member 1 [Mus musculus (house mouse)]

Gene Symbol Abcc1
Entrez Gene ID 17250
Full Name ATP-binding cassette, sub-family C (CFTR/MRP), member 1
Synonyms Abcc1a, Abcc1b, MRP, Mdrap, Mrp1
General protein information
Preferred Names
multidrug resistance-associated protein 1
Names
multidrug resistance-associated protein 1
LTC4 transporter
leukotriene C(4) transporter
multiple drug resistance-associated protein
ATP-binding cassette, sub-family C (CFTR/MRP), member 1a
ATP-binding cassette, sub-family C (CFTR/MRP), member 1b
Gene Type protein-coding
Organism Mus musculus (house mouse)
Genome

16

16|16 A1

Summary The membrane-associated protein encoded by this gene is a member of the superfamily of ATP-binding cassette (ABC) transporters. ABC proteins transport various molecules across extra- and intra-cellular membranes. ABC genes are divided into seven distinct subfamilies (ABC1, MDR/TAP, MRP, ALD, OABP, GCN20, White). This full transporter is a member of the MRP subfamily which is involved in multi-drug resistance. This protein plays an essential role in the defense against toxic compounds and serves as the major high-affinity transporter of leukotriene C4. The encoded protein may also play an essential role in steroid hormone homeostasis as a transporter for steroid hormones and their metabolites. [provided by RefSeq, Nov 2011]. lac of sum
Disorder MIM:

Disorder Html:





Alleles of this type are documented at Mouse Genome Informatics  (MGI)

The following Abcc1 gene sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the Abcc1 gene which is encoded by the open reading frame (ORF) sequence. ORF sequences can be delivered in our standard vector, pcDNA3.1+/C-(K)DYK or the vector of your choice as an expression/transfection-ready ORF clone. Not the clone you want? Click here to find your clone.

CloneID RefSeq Accession Definition **Vector *Turnaround time Price Select
OMu68194 XM_006521839 PREDICTED: Mus musculus ATP-binding cassette, sub-family C (CFTR/MRP), member 1 (Abcc1), transcript variant X1, mRNA. pcDNA3.1+/C-(K)DYK or customized vector 25 Quote Price
OMu15679 NM_008576 Mus musculus ATP-binding cassette, sub-family C (CFTR/MRP), member 1 (Abcc1), mRNA. pcDNA3.1+/C-(K)DYK or customized vector 22 Quote Price

*Business Day
**You may select a custom vector to replace pcDNA3.1+/C-(K)DYK after clone is added to cart.


CloneID OMu68194
Accession Version XM_006521839.2 Documents for ORF clone product in dufault vector
Sequence Information ORF Nucleotide Sequence (Length: 4560bp)
Protein sequence
SNP
Vector pcDNA3.1+/C-(K)DYK or customized vector User Manual
Clone information Clone Map MSDS
Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
ORF Insert Method CloneEZ® Seamless cloning technology
Structure linear
Update Date 09-FEB-2015
Organism Mus musculus (house mouse)
Product multidrug resistance-associated protein 1 isoform X1
Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NT_039624.8) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Feb 9, 2015 this sequence version replaced gi:568994719. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Mus musculus Annotation Release 105 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541
3601
3661
3721
3781
3841
3901
3961
4021
4081
4141
4201
4261
4321
4381
4441
4501
ATGGCGCTGC GCAGCTTCTG CAGCGCTGAT GGCTCCGATC CACTCTGGGA CTGGAATGTC 
ACATGGCACA CCAGCAACCC CGACTTTACC AAGTGCTTTC AGAACACGGT CCTCACATGG
GTGCCTTGTT TCTACCTCTG GTCCTGTTTC CCCCTCTACT TCTTCTATCT CTCTCGCCAT
GACCGGGGCT ACATCCAGAT GACACACCTC AACAAAACCA AAACTGCCTT AGGATTCTTT
CTGTGGATCA TCTGCTGGGC AGACCTCTTC TACTCTTTCT GGGAAAGAAG TCAGGGAGTG
CTCCGAGCCC CAGTGTTACT GGTCAGCCCA ACACTGCTGG GCATCACCAT GCTGCTCGCC
ACCTTTTTGA TACAGCTTGA ACGGAGGAAG GGAGTCCAAT CCTCGGGAAT TATGCTTACT
TTCTGGCTCG TAGCCCTACT CTGTGCCCTT GCCATCTTGA GATCTAAGAT CATCTCTGCC
TTAAAAAAGG ATGCTCATGT GGACGTGTTT CGAGATTCCA CGTTCTATCT GTACTTCACC
CTTGTGCTTG TTCAGCTCGT GCTGTCCTGC TTCTCAGACT GCTCACCCCT GTTCTCTGAA
ACTGTCCATG ACCGGAATCC ATGCCCAGAA TCCAGTGCCT CTTTCCTTTC CAGGATTACT
TTCTGGTGGA TTACAGGGAT GATGGTGCAC GGCTACCGCC AGCCCCTGGA GAGCAGTGAC
CTCTGGTCAT TGAATAAGGA GGACACATCA GAAGAAGTGG TACCTGTGCT GGTGAATAAC
TGGAAGAAGG AATGTGATAA GTCAAGGAAG CAGCCTGTAC GGATTGTGTA TGCCCCTCCC
AAAGATCCCA GCAAGCCTAA GGGAAGTTCC CAGTTGGATG TGAATGAGGA GGTGGAGGCA
CTGATTGTCA AGTCACCCCA CAAGGATCGG GAGCCCTCTC TGTTCAAGGT GTTATACAAG
ACTTTTGGTC CCTACTTCCT CATGAGCTTC CTGTACAAGG CCCTTCATGA CCTGATGATG
TTTGCCGGCC CCAAGATCTT GGAATTGATT ATCAACTTCG TGAATGACAG GGAGGCTCCC
GACTGGCAGG GCTACTTTTA CACAGCACTG CTGTTTGTCA GCGCCTGTCT GCAGACACTG
GCACTCCACC AGTACTTTCA TATCTGCTTC GTCAGTGGCA TGCGCATCAA GACTGCTGTG
GTGGGCGCTG TCTATCGTAA GGCTCTTTTG ATCACCAATG CAGCTAGAAA ATCTTCCACG
GTCGGAGAGA TTGTCAACCT CATGTCCGTG GATGCTCAGC GCTTCATGGA CTTGGCCACG
TACATTAACA TGATCTGGTC AGCCCCTCTG CAAGTCATCC TAGCCCTCTA CTTCCTGTGG
CTGAGCCTGG GCCCTTCTGT GCTGGCTGGA GTGGCTGTGA TGATTCTCAT GGTACCCTTA
AATGCTGTGA TGGCCATGAA GACCAAGACC TACCAGGTGG CACACATGAA GAGCAAAGAC
AACCGAATCA AGCTGATGAA CGAGATCCTC AATGGGATCA AAGTCCTCAA GCTGTACGCC
TGGGAGCTGG CCTTCCAGGA CAAAGTCATG AGCATCAGGC AGGAGGAGCT CAAGGTGCTG
AAGAAATCTG CCTACTTGGC AGCTGTAGGC ACATTCACGT GGGTGTGCAC ACCTTTCCTG
GTGGCCCTGT CAACCTTTGC TGTCTTTGTG ACTGTGGATG AGAGAAATAT CCTAGATGCA
AAGAAAGCCT TTGTGTCCCT AGCCCTGTTC AATATCTTGC GCTTCCCACT CAACATCCTG
CCCATGGTTA TCAGCAGCAT TGTGCAGGCC AGCGTGTCCC TCAAGCGTCT CAGGATTTTT
CTGTCTCATG AGGAGCTGGA GCCAGACAGC ATTGAGCGGA GGTCGATCAA GAGTGGCGAA
GGGAATAGCA TCACTGTGAA GAATGCAACC TTCACTTGGG CCAGGGGTGA ACCTCCCACA
CTGAATGGCA TCACCTTCTC CATTCCTGAA GGAGCCCTTG TGGCCGTGGT GGGCCAGGTA
GGCTGCGGGA AGTCATCTCT GCTGTCAGCC CTGCTGGCTG AGATGGACAA GGTGGAGGGA
CATGTGACTC TCAAGGGCTC CGTGGCCTAC GTGCCCCAGC AGGCCTGGAT TCAGAATGAC
TCTCTCCGAG AGAACATACT GTTTGGGCAC CCCCTGCAGG AAAATTACTA CAAGGCAGTT
ATGGAAGCCT GTGCCCTTCT TCCAGATTTG GAAATCCTGC CCAGTGGGGA CCGCACAGAG
ATCGGTGAGA AGGGTGTGAA CCTGTCAGGG GGCCAGAAGC AGCGTGTGAG CCTGGCCCGG
GCTGTGTACT CTAACTCTGA CATCTACCTC TTTGATGACC CCCTCTCGGC TGTGGATGCA
CATGTTGGGA AGCACATCTT TGAGAAGGTG GTTGGTCCCA TGGGCCTACT GAAGAACAAG
ACACGGATCC TGGTCACCCA TGGTATCAGC TACCTGCCCC AAGTGGATGT CATCATTGTC
ATGAGTGGCG GCAAGATCTC AGAGATGGGT TCTTATCAGG AGCTGCTAGA CCGGGATGGG
GCCTTCGCTG AGTTCCTGCG CACCTATGCC AACGCTGAGC AGGACCTGGC CTCGGAGGAT
GACAGTGTCA GTGGTTCAGG GAAGGAGTCA AAGCCGGTGG AAAATGGGAT GCTGGTGACA
GACACCGTAG GAAAGCACCT GCAGAGTGGG GATACCAGCC AGCAACACAG CAGCATAGCC
GAACTGCAGA AGGCTGGAGC TAAGGAGGAG ACGTGGAAGC TAATGGAAGC AGACAAGGCC
CAGACAGGGC AGGTGCAGCT GTCAGTGTAC TGGAACTACA TGAAGGCCAT TGGCCTCTTC
ATCACCTTCT TGAGTATCTT CCTTTTCCTG TGCAACCATG TATCTGCACT GGCCTCTAAC
TATTGGCTGA GCCTCTGGAC AGATGACCCC CCTGTTGTCA ATGGGACTCA GGCGAACAGG
AATTTTCGGC TGAGTGTCTA TGGGGCCTTG GGCATCTTGC AAGGTGCAGC AATATTTGGC
TACTCCATGG CTGTGTCCAT CGGGGGCATC TTTGCCTCCC GTCGCTTGCA CCTGGACCTG
CTATACAATG TTCTGCGATC ACCCATGAGT TTCTTTGAGC GTACACCCAG TGGGAACCTA
GTGAACCGAT TCTCCAAGGA GCTGGACACA GTGGACTCCA TGATCCCGCA GGTCATCAAG
ATGTTCATGG GTTCACTCTT CAGTGTCATT GGAGCTGTCA TCATCATCCT ACTGGCCACG
CCCATTGCCG CAGTCATCAT CCCACCCTTG GGTCTGGTTT ACTTCTTTGT GCAGAGGTTC
TATGTGGCTT CCTCAAGACA ACTGAAGCGC CTGGAGTCTG TCAGCCGTTC CCCTGTGTAC
TCACACTTCA ATGAGACCTT GCTGGGAGTC AGTGTCATCC GTGCTTTTGA GGAGCAGGAG
CGCTTCATTC ACCAGAGTGA CCTGAAAGTA GATGAGAACC AGAAGGCCTA CTACCCCAGC
ATTGTGGCCA ACAGGTGGCT TGCTGTGCGC CTTGAGTGTG TGGGCAACTG CATTGTGCTG
TTTGCTGCCC TCTTTGCAGT CATCTCCCGG CACAGCCTCA GTGCTGGCTT GGTGGGCCTC
TCTGTGTCTT ACTCACTGCA GATAACTGCA TACTTGAACT GGCTGGTTCG AATGTCCTCG
GAGATGGAGA CCAACATTGT GGCAGTGGAG AGACTGAAGG AGTATTCTGA AACAGAGAAG
GAGGCTCCTT GGCAAATCCA GGAAACAGCT CCACCCAGCA CCTGGCCCCA TTCAGGCCGT
GTAGAGTTCC GGGATTACTG CCTGAGGTAT CGAGAAGACT TGGACTTGGT TCTCAAGCAC
ATAAATGTCA CCATTGAGGG TGGAGAAAAG GTGGGTATTG TAGGTCGTAC GGGAGCTGGG
AAATCATCTC TCACCCTGGG TTTGTTCCGG ATCAATGAGT CTGCAGAAGG GGAGATCATC
ATTGATGGGG TCAACATCGC CAAGATCGGC CTGCACAACC TGCGCTTCAA GATCACCATC
ATTCCACAGG ATCCTGTTTT GTTCTCGGGT TCCCTCCGCA TGAACTTGGA CCCTTTCAGT
CAGTATTCTG ATGAAGAAGT CTGGATGGCC CTGGAGCTTG CTCACCTAAA GGGCTTTGTG
TCAGCTTTGC CTGACAAGCT GAACCATGAG TGTGCAGAAG GTGGAGAGAA CCTGAGTGTG
GGGCAGCGAC AGCTTGTGTG CCTGGCCCGG GCTCTGCTGA GGAAGACAAA GATTCTAGTG
TTGGACGAGG CTACCGCAGC TGTGGACCTA GAGACAGATA ACCTTATCCA GTCCACCATC
CGGACACAGT TTGAAGACTG TACTGTGCTC ACGATTGCTC ATCGGCTTAA CACCATAATG
GACTACACGC GGGTGATTGT CCTGGACAAA GGAGAAGTTC GGGAGTGTGG TGCACCCTCT
GAGCTCCTGC AGCAAAGAGG CATCTTCTAC AGCATGGCCA AGGATGCTGG CTTGGTGTGA
The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeqXP_006521902.2
CDS76..4635
Misc Feature(1)94..4629(+)
Misc Feature(2)1051..1866(+)
Misc Feature(3)2005..2610(+)
Misc Feature(4)2107..2130(+)
Misc Feature(5)2116..2556(+)
Misc Feature(6)2203..2214(+)
Misc Feature(7)2377..2406(+)
Misc Feature(8)2437..2454(+)
Misc Feature(9)2461..2472(+)
Misc Feature(10)2542..2562(+)
Misc Feature(11)2950..3771(+)
Misc Feature(12)3910..4572(+)
Translation
Position Chain Variation Link

Target ORF information:

RefSeq Version XM_006521839
Organism Mus musculus (house mouse)
Definition PREDICTED: Mus musculus ATP-binding cassette, sub-family C (CFTR/MRP), member 1 (Abcc1), transcript variant X1, mRNA.

Target ORF information:

Epitope DYKDDDDK
Bacterial selection AMPR
Mammalian selection NeoR
Vector pcDNA3.1+/C-(K)DYK
XM_006521839

ORF Insert Sequence:

1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541
3601
3661
3721
3781
3841
3901
3961
4021
4081
4141
4201
4261
4321
4381
4441
4501
ATGGCGCTGC GCAGCTTCTG CAGCGCTGAT GGCTCCGATC CACTCTGGGA CTGGAATGTC 
ACATGGCACA CCAGCAACCC CGACTTTACC AAGTGCTTTC AGAACACGGT CCTCACATGG
GTGCCTTGTT TCTACCTCTG GTCCTGTTTC CCCCTCTACT TCTTCTATCT CTCTCGCCAT
GACCGGGGCT ACATCCAGAT GACACACCTC AACAAAACCA AAACTGCCTT AGGATTCTTT
CTGTGGATCA TCTGCTGGGC AGACCTCTTC TACTCTTTCT GGGAAAGAAG TCAGGGAGTG
CTCCGAGCCC CAGTGTTACT GGTCAGCCCA ACACTGCTGG GCATCACCAT GCTGCTCGCC
ACCTTTTTGA TACAGCTTGA ACGGAGGAAG GGAGTCCAAT CCTCGGGAAT TATGCTTACT
TTCTGGCTCG TAGCCCTACT CTGTGCCCTT GCCATCTTGA GATCTAAGAT CATCTCTGCC
TTAAAAAAGG ATGCTCATGT GGACGTGTTT CGAGATTCCA CGTTCTATCT GTACTTCACC
CTTGTGCTTG TTCAGCTCGT GCTGTCCTGC TTCTCAGACT GCTCACCCCT GTTCTCTGAA
ACTGTCCATG ACCGGAATCC ATGCCCAGAA TCCAGTGCCT CTTTCCTTTC CAGGATTACT
TTCTGGTGGA TTACAGGGAT GATGGTGCAC GGCTACCGCC AGCCCCTGGA GAGCAGTGAC
CTCTGGTCAT TGAATAAGGA GGACACATCA GAAGAAGTGG TACCTGTGCT GGTGAATAAC
TGGAAGAAGG AATGTGATAA GTCAAGGAAG CAGCCTGTAC GGATTGTGTA TGCCCCTCCC
AAAGATCCCA GCAAGCCTAA GGGAAGTTCC CAGTTGGATG TGAATGAGGA GGTGGAGGCA
CTGATTGTCA AGTCACCCCA CAAGGATCGG GAGCCCTCTC TGTTCAAGGT GTTATACAAG
ACTTTTGGTC CCTACTTCCT CATGAGCTTC CTGTACAAGG CCCTTCATGA CCTGATGATG
TTTGCCGGCC CCAAGATCTT GGAATTGATT ATCAACTTCG TGAATGACAG GGAGGCTCCC
GACTGGCAGG GCTACTTTTA CACAGCACTG CTGTTTGTCA GCGCCTGTCT GCAGACACTG
GCACTCCACC AGTACTTTCA TATCTGCTTC GTCAGTGGCA TGCGCATCAA GACTGCTGTG
GTGGGCGCTG TCTATCGTAA GGCTCTTTTG ATCACCAATG CAGCTAGAAA ATCTTCCACG
GTCGGAGAGA TTGTCAACCT CATGTCCGTG GATGCTCAGC GCTTCATGGA CTTGGCCACG
TACATTAACA TGATCTGGTC AGCCCCTCTG CAAGTCATCC TAGCCCTCTA CTTCCTGTGG
CTGAGCCTGG GCCCTTCTGT GCTGGCTGGA GTGGCTGTGA TGATTCTCAT GGTACCCTTA
AATGCTGTGA TGGCCATGAA GACCAAGACC TACCAGGTGG CACACATGAA GAGCAAAGAC
AACCGAATCA AGCTGATGAA CGAGATCCTC AATGGGATCA AAGTCCTCAA GCTGTACGCC
TGGGAGCTGG CCTTCCAGGA CAAAGTCATG AGCATCAGGC AGGAGGAGCT CAAGGTGCTG
AAGAAATCTG CCTACTTGGC AGCTGTAGGC ACATTCACGT GGGTGTGCAC ACCTTTCCTG
GTGGCCCTGT CAACCTTTGC TGTCTTTGTG ACTGTGGATG AGAGAAATAT CCTAGATGCA
AAGAAAGCCT TTGTGTCCCT AGCCCTGTTC AATATCTTGC GCTTCCCACT CAACATCCTG
CCCATGGTTA TCAGCAGCAT TGTGCAGGCC AGCGTGTCCC TCAAGCGTCT CAGGATTTTT
CTGTCTCATG AGGAGCTGGA GCCAGACAGC ATTGAGCGGA GGTCGATCAA GAGTGGCGAA
GGGAATAGCA TCACTGTGAA GAATGCAACC TTCACTTGGG CCAGGGGTGA ACCTCCCACA
CTGAATGGCA TCACCTTCTC CATTCCTGAA GGAGCCCTTG TGGCCGTGGT GGGCCAGGTA
GGCTGCGGGA AGTCATCTCT GCTGTCAGCC CTGCTGGCTG AGATGGACAA GGTGGAGGGA
CATGTGACTC TCAAGGGCTC CGTGGCCTAC GTGCCCCAGC AGGCCTGGAT TCAGAATGAC
TCTCTCCGAG AGAACATACT GTTTGGGCAC CCCCTGCAGG AAAATTACTA CAAGGCAGTT
ATGGAAGCCT GTGCCCTTCT TCCAGATTTG GAAATCCTGC CCAGTGGGGA CCGCACAGAG
ATCGGTGAGA AGGGTGTGAA CCTGTCAGGG GGCCAGAAGC AGCGTGTGAG CCTGGCCCGG
GCTGTGTACT CTAACTCTGA CATCTACCTC TTTGATGACC CCCTCTCGGC TGTGGATGCA
CATGTTGGGA AGCACATCTT TGAGAAGGTG GTTGGTCCCA TGGGCCTACT GAAGAACAAG
ACACGGATCC TGGTCACCCA TGGTATCAGC TACCTGCCCC AAGTGGATGT CATCATTGTC
ATGAGTGGCG GCAAGATCTC AGAGATGGGT TCTTATCAGG AGCTGCTAGA CCGGGATGGG
GCCTTCGCTG AGTTCCTGCG CACCTATGCC AACGCTGAGC AGGACCTGGC CTCGGAGGAT
GACAGTGTCA GTGGTTCAGG GAAGGAGTCA AAGCCGGTGG AAAATGGGAT GCTGGTGACA
GACACCGTAG GAAAGCACCT GCAGAGTGGG GATACCAGCC AGCAACACAG CAGCATAGCC
GAACTGCAGA AGGCTGGAGC TAAGGAGGAG ACGTGGAAGC TAATGGAAGC AGACAAGGCC
CAGACAGGGC AGGTGCAGCT GTCAGTGTAC TGGAACTACA TGAAGGCCAT TGGCCTCTTC
ATCACCTTCT TGAGTATCTT CCTTTTCCTG TGCAACCATG TATCTGCACT GGCCTCTAAC
TATTGGCTGA GCCTCTGGAC AGATGACCCC CCTGTTGTCA ATGGGACTCA GGCGAACAGG
AATTTTCGGC TGAGTGTCTA TGGGGCCTTG GGCATCTTGC AAGGTGCAGC AATATTTGGC
TACTCCATGG CTGTGTCCAT CGGGGGCATC TTTGCCTCCC GTCGCTTGCA CCTGGACCTG
CTATACAATG TTCTGCGATC ACCCATGAGT TTCTTTGAGC GTACACCCAG TGGGAACCTA
GTGAACCGAT TCTCCAAGGA GCTGGACACA GTGGACTCCA TGATCCCGCA GGTCATCAAG
ATGTTCATGG GTTCACTCTT CAGTGTCATT GGAGCTGTCA TCATCATCCT ACTGGCCACG
CCCATTGCCG CAGTCATCAT CCCACCCTTG GGTCTGGTTT ACTTCTTTGT GCAGAGGTTC
TATGTGGCTT CCTCAAGACA ACTGAAGCGC CTGGAGTCTG TCAGCCGTTC CCCTGTGTAC
TCACACTTCA ATGAGACCTT GCTGGGAGTC AGTGTCATCC GTGCTTTTGA GGAGCAGGAG
CGCTTCATTC ACCAGAGTGA CCTGAAAGTA GATGAGAACC AGAAGGCCTA CTACCCCAGC
ATTGTGGCCA ACAGGTGGCT TGCTGTGCGC CTTGAGTGTG TGGGCAACTG CATTGTGCTG
TTTGCTGCCC TCTTTGCAGT CATCTCCCGG CACAGCCTCA GTGCTGGCTT GGTGGGCCTC
TCTGTGTCTT ACTCACTGCA GATAACTGCA TACTTGAACT GGCTGGTTCG AATGTCCTCG
GAGATGGAGA CCAACATTGT GGCAGTGGAG AGACTGAAGG AGTATTCTGA AACAGAGAAG
GAGGCTCCTT GGCAAATCCA GGAAACAGCT CCACCCAGCA CCTGGCCCCA TTCAGGCCGT
GTAGAGTTCC GGGATTACTG CCTGAGGTAT CGAGAAGACT TGGACTTGGT TCTCAAGCAC
ATAAATGTCA CCATTGAGGG TGGAGAAAAG GTGGGTATTG TAGGTCGTAC GGGAGCTGGG
AAATCATCTC TCACCCTGGG TTTGTTCCGG ATCAATGAGT CTGCAGAAGG GGAGATCATC
ATTGATGGGG TCAACATCGC CAAGATCGGC CTGCACAACC TGCGCTTCAA GATCACCATC
ATTCCACAGG ATCCTGTTTT GTTCTCGGGT TCCCTCCGCA TGAACTTGGA CCCTTTCAGT
CAGTATTCTG ATGAAGAAGT CTGGATGGCC CTGGAGCTTG CTCACCTAAA GGGCTTTGTG
TCAGCTTTGC CTGACAAGCT GAACCATGAG TGTGCAGAAG GTGGAGAGAA CCTGAGTGTG
GGGCAGCGAC AGCTTGTGTG CCTGGCCCGG GCTCTGCTGA GGAAGACAAA GATTCTAGTG
TTGGACGAGG CTACCGCAGC TGTGGACCTA GAGACAGATA ACCTTATCCA GTCCACCATC
CGGACACAGT TTGAAGACTG TACTGTGCTC ACGATTGCTC ATCGGCTTAA CACCATAATG
GACTACACGC GGGTGATTGT CCTGGACAAA GGAGAAGTTC GGGAGTGTGG TGCACCCTCT
GAGCTCCTGC AGCAAAGAGG CATCTTCTAC AGCATGGCCA AGGATGCTGG CTTGGTGTGA

The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

CloneID OMu15679
Accession Version NM_008576.3 Documents for ORF clone product in dufault vector
Sequence Information ORF Nucleotide Sequence (Length: 4587bp)
Protein sequence
SNP
Vector pcDNA3.1+/C-(K)DYK or customized vector User Manual
Clone information Clone Map MSDS
Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
ORF Insert Method CloneEZ® Seamless cloning technology
Structure linear
Update Date 15-FEB-2015
Organism Mus musculus (house mouse)
Product multidrug resistance-associated protein 1
Comment REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AK029876.1, BC090617.1 and BP762240.1. On Nov 17, 2011 this sequence version replaced gi:60218873. Summary: The membrane-associated protein encoded by this gene is a member of the superfamily of ATP-binding cassette (ABC) transporters. ABC proteins transport various molecules across extra- and intra-cellular membranes. ABC genes are divided into seven distinct subfamilies (ABC1, MDR/TAP, MRP, ALD, OABP, GCN20, White). This full transporter is a member of the MRP subfamily which is involved in multi-drug resistance. This protein plays an essential role in the defense against toxic compounds and serves as the major high-affinity transporter of leukotriene C4. The encoded protein may also play an essential role in steroid hormone homeostasis as a transporter for steroid hormones and their metabolites. [provided by RefSeq, Nov 2011]. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: AK029876.1, BC090617.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMN00849374, SAMN00849375 [ECO:0000348] ##Evidence-Data-END## COMPLETENESS: complete on the 3' end.

1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541
3601
3661
3721
3781
3841
3901
3961
4021
4081
4141
4201
4261
4321
4381
4441
4501
4561
ATGGCGCTGC GCAGCTTCTG CAGCGCTGAT GGCTCCGATC CACTCTGGGA CTGGAATGTC 
ACATGGCACA CCAGCAACCC CGACTTTACC AAGTGCTTTC AGAACACGGT CCTCACATGG
GTGCCTTGTT TCTACCTCTG GTCCTGTTTC CCCCTCTACT TCTTCTATCT CTCTCGCCAT
GACCGGGGCT ACATCCAGAT GACACACCTC AACAAAACCA AAACTGCCTT AGGATTCTTT
CTGTGGATCA TCTGCTGGGC AGACCTCTTC TACTCTTTCT GGGAAAGAAG TCAGGGAGTG
CTCCGAGCCC CAGTGTTACT GGTCAGCCCA ACACTGCTGG GCATCACCAT GCTGCTCGCC
ACCTTTTTGA TACAGCTTGA ACGGAGGAAG GGAGTCCAAT CCTCGGGAAT TATGCTTACT
TTCTGGCTCG TAGCCCTACT CTGTGCCCTT GCCATCTTGA GATCTAAGAT CATCTCTGCC
TTAAAAAAGG ATGCTCATGT GGACGTGTTT CGAGATTCCA CGTTCTATCT GTACTTCACC
CTTGTGCTTG TTCAGCTCGT GCTGTCCTGC TTCTCAGACT GCTCACCCCT GTTCTCTGAA
ACTGTCCATG ACCGGAATCC ATGCCCAGAA TCCAGTGCCT CTTTCCTTTC CAGGATTACT
TTCTGGTGGA TTACAGGGAT GATGGTGCAC GGCTACCGCC AGCCCCTGGA GAGCAGTGAC
CTCTGGTCAT TGAATAAGGA GGACACATCA GAAGAAGTGG TACCTGTGCT GGTGAATAAC
TGGAAGAAGG AATGTGATAA GTCAAGGAAG CAGCCTGTAC GGATTGTGTA TGCCCCTCCC
AAAGATCCCA GCAAGCCTAA GGGAAGTTCC CAGTTGGATG TGAATGAGGA GGTGGAGGCA
CTGATTGTCA AGTCACCCCA CAAGGATCGG GAGCCCTCTC TGTTCAAGGT GTTATACAAG
ACTTTTGGTC CCTACTTCCT CATGAGCTTC CTGTACAAGG CCCTTCATGA CCTGATGATG
TTTGCCGGCC CCAAGATCTT GGAATTGATT ATCAACTTCG TGAATGACAG GGAGGCTCCC
GACTGGCAGG GCTACTTTTA CACAGCACTG CTGTTTGTCA GCGCCTGTCT GCAGACACTG
GCACTCCACC AGTACTTTCA TATCTGCTTC GTCAGTGGCA TGCGCATCAA GACTGCTGTG
GTGGGCGCTG TCTATCGTAA GGCTCTTTTG ATCACCAATG CAGCTAGAAA ATCTTCCACG
GTCGGAGAGA TTGTCAACCT CATGTCCGTG GATGCTCAGC GCTTCATGGA CTTGGCCACG
TACATTAACA TGATCTGGTC AGCCCCTCTG CAAGTCATCC TAGCCCTCTA CTTCCTGTGG
CTGAGCCTGG GCCCTTCTGT GCTGGCTGGA GTGGCTGTGA TGATTCTCAT GGTACCCTTA
AATGCTGTGA TGGCCATGAA GACCAAGACC TACCAGGTGG CACACATGAA GAGCAAAGAC
AACCGAATCA AGCTGATGAA CGAGATCCTC AATGGGATCA AAGTCCTCAA GCTGTACGCC
TGGGAGCTGG CCTTCCAGGA CAAAGTCATG AGCATCAGGC AGGAGGAGCT CAAGGTGCTG
AAGAAATCTG CCTACTTGGC AGCTGTAGGC ACATTCACGT GGGTGTGCAC ACCTTTCCTG
GTGGCCCTGT CAACCTTTGC TGTCTTTGTG ACTGTGGATG AGAGAAATAT CCTAGATGCA
AAGAAAGCCT TTGTGTCCCT AGCCCTGTTC AATATCTTGC GCTTCCCACT CAACATCCTG
CCCATGGTTA TCAGCAGCAT TGTGCAGGCC AGCGTGTCCC TCAAGCGTCT CAGGATTTTT
CTGTCTCATG AGGAGCTGGA GCCAGACAGC ATTGAGCGGA GGTCGATCAA GAGTGGCGAA
GGGAATAGCA TCACTGTGAA GAATGCAACC TTCACTTGGG CCAGGGGTGA ACCTCCCACA
CTGAATGGCA TCACCTTCTC CATTCCTGAA GGAGCCCTTG TGGCCGTGGT GGGCCAGGTA
GGCTGCGGGA AGTCATCTCT GCTGTCAGCC CTGCTGGCTG AGATGGACAA GGTGGAGGGA
CATGTGACTC TCAAGGGCTC CGTGGCCTAC GTGCCCCAGC AGGCCTGGAT TCAGAATGAC
TCTCTCCGAG AGAACATACT GTTTGGGCAC CCCCTGCAGG AAAATTACTA CAAGGCAGTT
ATGGAAGCCT GTGCCCTTCT TCCAGATTTG GAAATCCTGC CCAGTGGGGA CCGCACAGAG
ATCGGTGAGA AGGGTGTGAA CCTGTCAGGG GGCCAGAAGC AGCGTGTGAG CCTGGCCCGG
GCTGTGTACT CTAACTCTGA CATCTACCTC TTTGATGACC CCCTCTCGGC TGTGGATGCA
CATGTTGGGA AGCACATCTT TGAGAAGGTG GTTGGTCCCA TGGGCCTACT GAAGAACAAG
ACACGGATCC TGGTCACCCA TGGTATCAGC TACCTGCCCC AAGTGGATGT CATCATTGTC
ATGAGTGGCG GCAAGATCTC AGAGATGGGT TCTTATCAGG AGCTGCTAGA CCGGGATGGG
GCCTTCGCTG AGTTCCTGCG CACCTATGCC AACGCTGAGC AGGACCTGGC CTCGGAGGAT
GACAGTGTCA GTGGTTCAGG GAAGGAGTCA AAGCCGGTGG AAAATGGGAT GCTGGTGACA
GACACCGTAG GAAAGCACCT GCAGAGGCAT CTCAGCAACT CGTCTTCCCA CAGTGGGGAT
ACCAGCCAGC AACACAGCAG CATAGCCGAA CTGCAGAAGG CTGGAGCTAA GGAGGAGACG
TGGAAGCTAA TGGAAGCAGA CAAGGCCCAG ACAGGGCAGG TGCAGCTGTC AGTGTACTGG
AACTACATGA AGGCCATTGG CCTCTTCATC ACCTTCTTGA GTATCTTCCT TTTCCTGTGC
AACCATGTAT CTGCACTGGC CTCTAACTAT TGGCTGAGCC TCTGGACAGA TGACCCCCCT
GTTGTCAATG GGACTCAGGC GAACAGGAAT TTTCGGCTGA GTGTCTATGG GGCCTTGGGC
ATCTTGCAAG GTGCAGCAAT ATTTGGCTAC TCCATGGCTG TGTCCATCGG GGGCATCTTT
GCCTCCCGTC GCTTGCACCT GGACCTGCTA TACAATGTTC TGCGATCACC CATGAGTTTC
TTTGAGCGTA CACCCAGTGG GAACCTAGTG AACCGATTCT CCAAGGAGCT GGACACAGTG
GACTCCATGA TCCCGCAGGT CATCAAGATG TTCATGGGTT CACTCTTCAG TGTCATTGGA
GCTGTCATCA TCATCCTACT GGCCACGCCC ATTGCCGCAG TCATCATCCC ACCCTTGGGT
CTGGTTTACT TCTTTGTGCA GAGGTTCTAT GTGGCTTCCT CAAGACAACT GAAGCGCCTG
GAGTCTGTCA GCCGTTCCCC TGTGTACTCA CACTTCAATG AGACCTTGCT GGGAGTCAGT
GTCATCCGTG CTTTTGAGGA GCAGGAGCGC TTCATTCACC AGAGTGACCT GAAAGTAGAT
GAGAACCAGA AGGCCTACTA CCCCAGCATT GTGGCCAACA GGTGGCTTGC TGTGCGCCTT
GAGTGTGTGG GCAACTGCAT TGTGCTGTTT GCTGCCCTCT TTGCAGTCAT CTCCCGGCAC
AGCCTCAGTG CTGGCTTGGT GGGCCTCTCT GTGTCTTACT CACTGCAGAT AACTGCATAC
TTGAACTGGC TGGTTCGAAT GTCCTCGGAG ATGGAGACCA ACATTGTGGC AGTGGAGAGA
CTGAAGGAGT ATTCTGAAAC AGAGAAGGAG GCTCCTTGGC AAATCCAGGA AACAGCTCCA
CCCAGCACCT GGCCCCATTC AGGCCGTGTA GAGTTCCGGG ATTACTGCCT GAGGTATCGA
GAAGACTTGG ACTTGGTTCT CAAGCACATA AATGTCACCA TTGAGGGTGG AGAAAAGGTG
GGTATTGTAG GTCGTACGGG AGCTGGGAAA TCATCTCTCA CCCTGGGTTT GTTCCGGATC
AATGAGTCTG CAGAAGGGGA GATCATCATT GATGGGGTCA ACATCGCCAA GATCGGCCTG
CACAACCTGC GCTTCAAGAT CACCATCATT CCACAGGATC CTGTTTTGTT CTCGGGTTCC
CTCCGCATGA ACTTGGACCC TTTCAGTCAG TATTCTGATG AAGAAGTCTG GATGGCCCTG
GAGCTTGCTC ACCTAAAGGG CTTTGTGTCA GCTTTGCCTG ACAAGCTGAA CCATGAGTGT
GCAGAAGGTG GAGAGAACCT GAGTGTGGGG CAGCGACAGC TTGTGTGCCT GGCCCGGGCT
CTGCTGAGGA AGACAAAGAT TCTAGTGTTG GACGAGGCTA CCGCAGCTGT GGACCTAGAG
ACAGATAACC TTATCCAGTC CACCATCCGG ACACAGTTTG AAGACTGTAC TGTGCTCACG
ATTGCTCATC GGCTTAACAC CATAATGGAC TACACGCGGG TGATTGTCCT GGACAAAGGA
GAAGTTCGGG AGTGTGGTGC ACCCTCTGAG CTCCTGCAGC AAAGAGGCAT CTTCTACAGC
ATGGCCAAGG ATGCTGGCTT GGTGTGA
The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeqNP_032602.1
CDS39..4625
Misc Feature(1)57..4619(+)
Misc Feature(2)138..200(+)
Misc Feature(3)261..323(+)
Misc Feature(4)339..401(+)
Misc Feature(5)438..500(+)
Misc Feature(6)555..617(+)
Misc Feature(7)990..1052(+)
Misc Feature(8)1014..1829(+)
Misc Feature(9)1131..1193(+)
Misc Feature(10)1362..1424(+)
Misc Feature(11)1434..1496(+)
Misc Feature(12)1548..1550(+)
Misc Feature(13)1683..1745(+)
Misc Feature(14)1812..1874(+)
Misc Feature(15)1968..2573(+)
Misc Feature(16)2070..2093(+)
Misc Feature(17)2079..2519(+)
Misc Feature(18)2166..2177(+)
Misc Feature(19)2340..2369(+)
Misc Feature(20)2400..2417(+)
Misc Feature(21)2424..2435(+)
Misc Feature(22)2505..2525(+)
Misc Feature(23)2670..2672(+)
Misc Feature(24)2682..2684(+)
Misc Feature(25)2928..2990(+)
Misc Feature(26)2940..3761(+)
Misc Feature(27)3105..3167(+)
Misc Feature(28)3297..3359(+)
Misc Feature(29)3363..3425(+)
Misc Feature(30)3639..3701(+)
Misc Feature(31)3708..3770(+)
Misc Feature(32)3900..4562(+)
Exon (1)1..86
Gene:Abcc1
Gene Synonym:
Exon (2)87..263
Gene:Abcc1
Gene Synonym:
Exon (3)264..389
Gene:Abcc1
Gene Synonym:
Exon (4)390..527
Gene:Abcc1
Gene Synonym:
Exon (5)528..653
Gene:Abcc1
Gene Synonym:
Exon (6)654..715
Gene:Abcc1
Gene Synonym:
Exon (7)716..847
Gene:Abcc1
Gene Synonym:
Exon (8)848..1081
Gene:Abcc1
Gene Synonym:
Exon (9)1082..1259
Gene:Abcc1
Gene Synonym:
Exon (10)1260..1421
Gene:Abcc1
Gene Synonym:
Exon (11)1422..1514
Gene:Abcc1
Gene Synonym:
Exon (12)1515..1718
Gene:Abcc1
Gene Synonym:
Exon (13)1719..1865
Gene:Abcc1
Gene Synonym:
Exon (14)1866..1953
Gene:Abcc1
Gene Synonym:
Exon (15)1954..2026
Gene:Abcc1
Gene Synonym:
Exon (16)2027..2153
Gene:Abcc1
Gene Synonym:
Exon (17)2154..2330
Gene:Abcc1
Gene Synonym:
Exon (18)2331..2498
Gene:Abcc1
Gene Synonym:
Exon (19)2499..2682
Gene:Abcc1
Gene Synonym:
Exon (20)2683..2764
Gene:Abcc1
Gene Synonym:
Exon (21)2765..2897
Gene:Abcc1
Gene Synonym:
Exon (22)2898..3108
Gene:Abcc1
Gene Synonym:
Exon (23)3109..3419
Gene:Abcc1
Gene Synonym:
Exon (24)3420..3619
Gene:Abcc1
Gene Synonym:
Exon (25)3620..3746
Gene:Abcc1
Gene Synonym:
Exon (26)3747..3848
Gene:Abcc1
Gene Synonym:
Exon (27)3849..3995
Gene:Abcc1
Gene Synonym:
Exon (28)3996..4154
Gene:Abcc1
Gene Synonym:
Exon (29)4155..4321
Gene:Abcc1
Gene Synonym:
Exon (30)4322..4516
Gene:Abcc1
Gene Synonym:
Exon (31)4517..5935
Gene:Abcc1
Gene Synonym:
Translation
Position Chain Variation Link
131 131 c, t dbSNP:8262769
350 350 a, g dbSNP:8262777
371 371 a, c dbSNP:8262778
395 395 a, g dbSNP:8268186
407 407 c, t dbSNP:8268185
410 410 g, t dbSNP:8268184
422 422 c, t dbSNP:8268183
437 437 c, t dbSNP:8268182
467 467 a, g dbSNP:8268181
536 536 a, t dbSNP:49103284
785 785 a, g dbSNP:47744158
889 889 c, g dbSNP:258330447
1064 1064 c, t dbSNP:8268228
1108 1108 c, g dbSNP:8268231
1439 1439 a, g dbSNP:220081718
1674 1674 c, t dbSNP:4164192
1733 1733 a, g dbSNP:8260047
1907 1907 c, t dbSNP:50718266
1955 1955 a, c dbSNP:8260073
1961 1961 a, g dbSNP:8260074
1964 1964 c, t dbSNP:8260075
2057 2057 c, t dbSNP:251424618
2099 2099 c, t dbSNP:8260091
2114 2114 a, c dbSNP:8260090
2206 2206 a, g dbSNP:224515317
2489 2489 c, g dbSNP:47624963
2810 2810 a, g dbSNP:4164241
2821 2821 c, t dbSNP:8260197
2842 2842 a, g dbSNP:8260198
2891 2891 a, c dbSNP:8260199
2990 2990 c, t dbSNP:51811317
3117 3117 a, g dbSNP:213125277
3149 3149 a, g dbSNP:229783774
3200 3200 g, t dbSNP:8237548
3221 3221 c, t dbSNP:8237549
3357 3357 a, g dbSNP:8260215
3440 3440 a, t dbSNP:8260233
3473 3473 a, g dbSNP:8260232
3620 3620 c, t dbSNP:8260271
3663 3663 c, t dbSNP:4164265
3752 3752 c, t dbSNP:49089679
3785 3785 a, c dbSNP:8260256
4112 4112 c, t dbSNP:51681753
4271 4271 c, t dbSNP:8260323
4424 4424 c, t dbSNP:263128781
4451 4451 a, g dbSNP:8260344
4514 4514 a, g dbSNP:8260345
4520 4520 g, t dbSNP:47057205
4639 4639 a, t dbSNP:4164278
4646 4646 a, g dbSNP:8260353
4673 4673 a, t dbSNP:4164279
4733 4733 a, t dbSNP:225556403
4739 4739 a, g dbSNP:8260354
4742 4742 a, g dbSNP:8260355
4746 4746 a, g dbSNP:8260356
4772 4772 c, t dbSNP:8260357
4791 4791 c, t dbSNP:8260358
4820 4820 a, g dbSNP:228350806
4848 4848 a, g dbSNP:8260359
4915 4915 a, g dbSNP:8260343
4961 4961 a, g dbSNP:8260342
4975 4975 c, g dbSNP:8260341
5008 5008 c, t dbSNP:214677626
5020 5020 -, a dbSNP:8260340
5131 5131 a, c dbSNP:47892034
5136 5136 a, c dbSNP:249320551
5142 5142 c, t dbSNP:218275664
5200 5200 c, t dbSNP:243470368
5207 5207 c, g dbSNP:47326518
5243 5243 a, g dbSNP:225731270
5256 5256 a, g dbSNP:246096802
5281 5281 a, c dbSNP:48396853
5282 5282 a, g dbSNP:220205328
5313 5313 c, t dbSNP:51966944
5362 5362 c, t dbSNP:256783622
5428 5428 c, t dbSNP:227625102
5429 5429 a, g dbSNP:260110645
5430 5430 a, c dbSNP:264062833
5465 5465 c, t dbSNP:48076612
5511 5511 c, t dbSNP:245466080
5515 5515 a, c dbSNP:13472513
5522 5522 a, t dbSNP:13472512
5528 5528 a, t dbSNP:243351338

Target ORF information:

RefSeq Version NM_008576
Organism Mus musculus (house mouse)
Definition Mus musculus ATP-binding cassette, sub-family C (CFTR/MRP), member 1 (Abcc1), mRNA.

Target ORF information:

Epitope DYKDDDDK
Bacterial selection AMPR
Mammalian selection NeoR
Vector pcDNA3.1+/C-(K)DYK
NM_008576

ORF Insert Sequence:

1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541
3601
3661
3721
3781
3841
3901
3961
4021
4081
4141
4201
4261
4321
4381
4441
4501
4561
ATGGCGCTGC GCAGCTTCTG CAGCGCTGAT GGCTCCGATC CACTCTGGGA CTGGAATGTC 
ACATGGCACA CCAGCAACCC CGACTTTACC AAGTGCTTTC AGAACACGGT CCTCACATGG
GTGCCTTGTT TCTACCTCTG GTCCTGTTTC CCCCTCTACT TCTTCTATCT CTCTCGCCAT
GACCGGGGCT ACATCCAGAT GACACACCTC AACAAAACCA AAACTGCCTT AGGATTCTTT
CTGTGGATCA TCTGCTGGGC AGACCTCTTC TACTCTTTCT GGGAAAGAAG TCAGGGAGTG
CTCCGAGCCC CAGTGTTACT GGTCAGCCCA ACACTGCTGG GCATCACCAT GCTGCTCGCC
ACCTTTTTGA TACAGCTTGA ACGGAGGAAG GGAGTCCAAT CCTCGGGAAT TATGCTTACT
TTCTGGCTCG TAGCCCTACT CTGTGCCCTT GCCATCTTGA GATCTAAGAT CATCTCTGCC
TTAAAAAAGG ATGCTCATGT GGACGTGTTT CGAGATTCCA CGTTCTATCT GTACTTCACC
CTTGTGCTTG TTCAGCTCGT GCTGTCCTGC TTCTCAGACT GCTCACCCCT GTTCTCTGAA
ACTGTCCATG ACCGGAATCC ATGCCCAGAA TCCAGTGCCT CTTTCCTTTC CAGGATTACT
TTCTGGTGGA TTACAGGGAT GATGGTGCAC GGCTACCGCC AGCCCCTGGA GAGCAGTGAC
CTCTGGTCAT TGAATAAGGA GGACACATCA GAAGAAGTGG TACCTGTGCT GGTGAATAAC
TGGAAGAAGG AATGTGATAA GTCAAGGAAG CAGCCTGTAC GGATTGTGTA TGCCCCTCCC
AAAGATCCCA GCAAGCCTAA GGGAAGTTCC CAGTTGGATG TGAATGAGGA GGTGGAGGCA
CTGATTGTCA AGTCACCCCA CAAGGATCGG GAGCCCTCTC TGTTCAAGGT GTTATACAAG
ACTTTTGGTC CCTACTTCCT CATGAGCTTC CTGTACAAGG CCCTTCATGA CCTGATGATG
TTTGCCGGCC CCAAGATCTT GGAATTGATT ATCAACTTCG TGAATGACAG GGAGGCTCCC
GACTGGCAGG GCTACTTTTA CACAGCACTG CTGTTTGTCA GCGCCTGTCT GCAGACACTG
GCACTCCACC AGTACTTTCA TATCTGCTTC GTCAGTGGCA TGCGCATCAA GACTGCTGTG
GTGGGCGCTG TCTATCGTAA GGCTCTTTTG ATCACCAATG CAGCTAGAAA ATCTTCCACG
GTCGGAGAGA TTGTCAACCT CATGTCCGTG GATGCTCAGC GCTTCATGGA CTTGGCCACG
TACATTAACA TGATCTGGTC AGCCCCTCTG CAAGTCATCC TAGCCCTCTA CTTCCTGTGG
CTGAGCCTGG GCCCTTCTGT GCTGGCTGGA GTGGCTGTGA TGATTCTCAT GGTACCCTTA
AATGCTGTGA TGGCCATGAA GACCAAGACC TACCAGGTGG CACACATGAA GAGCAAAGAC
AACCGAATCA AGCTGATGAA CGAGATCCTC AATGGGATCA AAGTCCTCAA GCTGTACGCC
TGGGAGCTGG CCTTCCAGGA CAAAGTCATG AGCATCAGGC AGGAGGAGCT CAAGGTGCTG
AAGAAATCTG CCTACTTGGC AGCTGTAGGC ACATTCACGT GGGTGTGCAC ACCTTTCCTG
GTGGCCCTGT CAACCTTTGC TGTCTTTGTG ACTGTGGATG AGAGAAATAT CCTAGATGCA
AAGAAAGCCT TTGTGTCCCT AGCCCTGTTC AATATCTTGC GCTTCCCACT CAACATCCTG
CCCATGGTTA TCAGCAGCAT TGTGCAGGCC AGCGTGTCCC TCAAGCGTCT CAGGATTTTT
CTGTCTCATG AGGAGCTGGA GCCAGACAGC ATTGAGCGGA GGTCGATCAA GAGTGGCGAA
GGGAATAGCA TCACTGTGAA GAATGCAACC TTCACTTGGG CCAGGGGTGA ACCTCCCACA
CTGAATGGCA TCACCTTCTC CATTCCTGAA GGAGCCCTTG TGGCCGTGGT GGGCCAGGTA
GGCTGCGGGA AGTCATCTCT GCTGTCAGCC CTGCTGGCTG AGATGGACAA GGTGGAGGGA
CATGTGACTC TCAAGGGCTC CGTGGCCTAC GTGCCCCAGC AGGCCTGGAT TCAGAATGAC
TCTCTCCGAG AGAACATACT GTTTGGGCAC CCCCTGCAGG AAAATTACTA CAAGGCAGTT
ATGGAAGCCT GTGCCCTTCT TCCAGATTTG GAAATCCTGC CCAGTGGGGA CCGCACAGAG
ATCGGTGAGA AGGGTGTGAA CCTGTCAGGG GGCCAGAAGC AGCGTGTGAG CCTGGCCCGG
GCTGTGTACT CTAACTCTGA CATCTACCTC TTTGATGACC CCCTCTCGGC TGTGGATGCA
CATGTTGGGA AGCACATCTT TGAGAAGGTG GTTGGTCCCA TGGGCCTACT GAAGAACAAG
ACACGGATCC TGGTCACCCA TGGTATCAGC TACCTGCCCC AAGTGGATGT CATCATTGTC
ATGAGTGGCG GCAAGATCTC AGAGATGGGT TCTTATCAGG AGCTGCTAGA CCGGGATGGG
GCCTTCGCTG AGTTCCTGCG CACCTATGCC AACGCTGAGC AGGACCTGGC CTCGGAGGAT
GACAGTGTCA GTGGTTCAGG GAAGGAGTCA AAGCCGGTGG AAAATGGGAT GCTGGTGACA
GACACCGTAG GAAAGCACCT GCAGAGGCAT CTCAGCAACT CGTCTTCCCA CAGTGGGGAT
ACCAGCCAGC AACACAGCAG CATAGCCGAA CTGCAGAAGG CTGGAGCTAA GGAGGAGACG
TGGAAGCTAA TGGAAGCAGA CAAGGCCCAG ACAGGGCAGG TGCAGCTGTC AGTGTACTGG
AACTACATGA AGGCCATTGG CCTCTTCATC ACCTTCTTGA GTATCTTCCT TTTCCTGTGC
AACCATGTAT CTGCACTGGC CTCTAACTAT TGGCTGAGCC TCTGGACAGA TGACCCCCCT
GTTGTCAATG GGACTCAGGC GAACAGGAAT TTTCGGCTGA GTGTCTATGG GGCCTTGGGC
ATCTTGCAAG GTGCAGCAAT ATTTGGCTAC TCCATGGCTG TGTCCATCGG GGGCATCTTT
GCCTCCCGTC GCTTGCACCT GGACCTGCTA TACAATGTTC TGCGATCACC CATGAGTTTC
TTTGAGCGTA CACCCAGTGG GAACCTAGTG AACCGATTCT CCAAGGAGCT GGACACAGTG
GACTCCATGA TCCCGCAGGT CATCAAGATG TTCATGGGTT CACTCTTCAG TGTCATTGGA
GCTGTCATCA TCATCCTACT GGCCACGCCC ATTGCCGCAG TCATCATCCC ACCCTTGGGT
CTGGTTTACT TCTTTGTGCA GAGGTTCTAT GTGGCTTCCT CAAGACAACT GAAGCGCCTG
GAGTCTGTCA GCCGTTCCCC TGTGTACTCA CACTTCAATG AGACCTTGCT GGGAGTCAGT
GTCATCCGTG CTTTTGAGGA GCAGGAGCGC TTCATTCACC AGAGTGACCT GAAAGTAGAT
GAGAACCAGA AGGCCTACTA CCCCAGCATT GTGGCCAACA GGTGGCTTGC TGTGCGCCTT
GAGTGTGTGG GCAACTGCAT TGTGCTGTTT GCTGCCCTCT TTGCAGTCAT CTCCCGGCAC
AGCCTCAGTG CTGGCTTGGT GGGCCTCTCT GTGTCTTACT CACTGCAGAT AACTGCATAC
TTGAACTGGC TGGTTCGAAT GTCCTCGGAG ATGGAGACCA ACATTGTGGC AGTGGAGAGA
CTGAAGGAGT ATTCTGAAAC AGAGAAGGAG GCTCCTTGGC AAATCCAGGA AACAGCTCCA
CCCAGCACCT GGCCCCATTC AGGCCGTGTA GAGTTCCGGG ATTACTGCCT GAGGTATCGA
GAAGACTTGG ACTTGGTTCT CAAGCACATA AATGTCACCA TTGAGGGTGG AGAAAAGGTG
GGTATTGTAG GTCGTACGGG AGCTGGGAAA TCATCTCTCA CCCTGGGTTT GTTCCGGATC
AATGAGTCTG CAGAAGGGGA GATCATCATT GATGGGGTCA ACATCGCCAA GATCGGCCTG
CACAACCTGC GCTTCAAGAT CACCATCATT CCACAGGATC CTGTTTTGTT CTCGGGTTCC
CTCCGCATGA ACTTGGACCC TTTCAGTCAG TATTCTGATG AAGAAGTCTG GATGGCCCTG
GAGCTTGCTC ACCTAAAGGG CTTTGTGTCA GCTTTGCCTG ACAAGCTGAA CCATGAGTGT
GCAGAAGGTG GAGAGAACCT GAGTGTGGGG CAGCGACAGC TTGTGTGCCT GGCCCGGGCT
CTGCTGAGGA AGACAAAGAT TCTAGTGTTG GACGAGGCTA CCGCAGCTGT GGACCTAGAG
ACAGATAACC TTATCCAGTC CACCATCCGG ACACAGTTTG AAGACTGTAC TGTGCTCACG
ATTGCTCATC GGCTTAACAC CATAATGGAC TACACGCGGG TGATTGTCCT GGACAAAGGA
GAAGTTCGGG AGTGTGGTGC ACCCTCTGAG CTCCTGCAGC AAAGAGGCAT CTTCTACAGC
ATGGCCAAGG ATGCTGGCTT GGTGTGA

The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.