ABCA13 (NM_152701) Human Untagged Clone

CAT#: SC309169

ABCA13 (untagged)-Human ATP-binding cassette, sub-family A (ABC1), member 13 (ABCA13)

Datasheet
SDS

  "NM_152701" in other vectors (2)

CNY 97,380.00

货期*
16周
规格
    • 10 ug

Product images

经常一起买 (4)
TA316175
Rabbit polyclonal anti-ABCA13 antibody
    • 100 ul

CNY 1,999.00
CNY 3,280.00

添加到购物车
TF81001
TurboFectin Transfection Reagent (1 mL in 1 vial)
    • 1 ml in 1 vial

CNY 4,090.00

添加到购物车
CC100003
DH5α Chemically Competent Cells (≥10^8 cfu/μg of pUC19 DNA)
    • 5 x 200 ul

CNY 1,280.00

暂停销售
PRIMER
Forward sequencing primer VP1.5, Reverse sequencing primer XL39, 100pmoles each
    • 100 pmol

CNY 480.00

添加到购物车

Specifications

Product Data
Type Human Untagged Clone
Tag Tag Free
Vector pCMV6 series
Sequence Data
>NCBI ORF sequence for NM_152701, the custom clone sequence may differ by one or more nucleotides
ATGGGGCATGCCGGGTGCCAGTTCAAAGCCCTGCTGTGGAAGAATTGGCTCTGCAGACTC
AGGAACCCGGTCCTTTTCCTTGCTGAATTCTTCTGGCCTTGTATCCTGTTTGTAATTCTG
ACAGTTCTTCGTTTTCAAGAACCTCCCAGATACAGAGACATTTGTTATTTGCAGCCCCGA
GATCTACCCAGCTGTGGTGTTATCCCCTTTGTTCAAAGCCTTCTTTGTAACACTGGATCA
AGGTGTAGGAACTTCAGCTATGAAGGGTCAATGGAGCATCATTTTCGTTTGTCTAGGTTC
CAAACTGCAGCTGACCCCAAGAAAGTCAACAACCTGGCCTTTTTAAAAGAGATACAAGAC
CTGGCAGAGGAAATTCATGGAATGATGGACAAGGCAAAAAACTTAAAAAGACTTTGGGTA
GAACGATCCAACACTCCAGATTCTTCTTATGGTTCCAGTTTTTTTACAATGGATCTCAAT
AAGACCGAGGAGGTAATATTGAAACTGGAAAGCCTCCATCAGCAGCCTCATATCTGGGAT
TTTCTACTTTTACTGCCGAGACTACACACAAGCCATGATCATGTGGAAGATGGCATGGAT
GTTGCAGTGAACCTTCTCCAGACCATTTTGAATTCCTTAATATCCCTAGAAGATTTAGAT
TGGCTTCCACTCAACCAAACTTTTTCCCAGGTTTCTGAACTTGTACTGAATGTGACCATT
TCGACACTGACATTTCTGCAGCAACATGGAGTAGCAGTCACCGAGCCAGTTTACCACCTG
TCCATGCAGAATATAGTGTGGGATCCACAGAAAGTCCAGTATGATCTCAAATCCCAGTTT
GGCTTTGATGATCTTCACACGGAACAGATCCTGAACTCTTCAGCTGAACTGAAGGAGATT
CCCACAGACACTTCCTTGGAGAAGATGGTGTGTTCAGTCTTGTCTAGCACATCAGAGGAT
GAAGCTGAGAAATGGGGCCACGTTGGAGGCTGCCACCCTAAGTGGTCAGAAGCCAAAAAC
TATCTTGTCCATGCAGTCAGCTGGCTGCGAGTCTACCAACAGGTGTTTGTTCAGTGGCAA
CAGGGTAGCCTGCTTCAGAAGACACTCACAGGCATGGGCCATAGTCTGGAGGCTCTCAGG
AATCAGTTTGAAGAAGAGAGCAAGCCCTGGAAGGTGGTGGAAGCTCTGCACACTGCACTG
CTCCTGCTGAATGACAGCTTGTCAGCAGATGGCCCAAAAGATAATCATACATTTCCAAAG
ATATTACAGCATCTGTGGAAATTGCAAAGCTTGCTGCAAAACCTGCCCCAGTGGCCGGCA
CTGAAGAGATTTCTTCAGCTTGATGGAGCTCTCAGAAATGCGATAGCTCAGAATTTACAT
TTTGTCCAAGAAGTCCTCATTTGCCTGGAGACATCAGCTAATGATTTTAAATGGTTTGAA
CTTAACCAATTGAAACTGGAAAAGGATGTGTTCTTTTGGGAGCTGAAACAGATGTTGGCG
AAGAATGCTGTCTGCCCGAATGGTCGTTTCTCTGAGAAGGAGGTCTTTTTGCCGCCTGGA
AACTCCAGCATATGGGGTGGTCTCCAGGGACTGTTGTGCTATTGTAACTCCTCTGAGACG
AGTGTTTTAAACAAGCTACTTGGTTCAGTAGAGGATGCTGATCGTATTTTGCAAGAGGTC
ATTACTTGGCACAAAAATATGTCAGTTTTAATACCTGAAGAATATTTGGACTGGCAGGAA
CTTGAGATGCAGCTGTCAGAAGCAAGCCTTTCCTGTACTCGGCTCTTCCTGCTGCTGGGA
GCTGATCCCTCTCCTGAGAATGATGTCTTTTCTAGTGACTGTAAGCACCAGCTTGTCTCC
ACAGTGATATTTCATACACTTGAAAAAACACAATTTTTCCTGGAACAAGCATATTATTGG
AAAGCCTTCAAAAAGTTTATCAGGAAGACTTGCGAAGTGGCCCAATATGTAAATATGCAA
GAGAGTTTCCAGAACAGACTATTGGCTTTTCCTGAGGAATCTCCTTGTTTTGAAGAAAAC
ATGGATTGGAAAATGATCAGTGATAATTATTTTCAATTTTTGAATAACTTACTCAAGTCT
CCAACAGCTTCCATATCCAGGGCTTTAAATTTCACAAAGCACCTTCTAATGATGGAAAAG
AAGTTGCACACCCTTGAGGATGAACAAATGAACTTTCTTTTATCATTTGTGGAATTTTTT
GAGAAATTATTGTTGCCTAATCTTTTTGACTCCTCCATTGTTCCCAGTTTCCACAGCCTC
CCATCTCTCACAGAGGATATTCTGAATATAAGTTCTCTGTGGACAAATCATTTAAAAAGT
TTAAAGAGAGACCCATCTGCCACTGATGCTCAGAAACTCTTGGAATTTGGCAACGAAGTG
ATTTGGAAAATGCAGACTCTCGGAAGTCACTGGATAAGGAAGGAACCAAAAAATCTTTTG
AGATTCATAGAATTAATACTTTTTGAAATTAATCCCAAATTACTAGAATTATGGGCCTAT
GGCATTTCAAAAGGAAAAAGAGCTAAATTGGAAAACTTCTTTACACTTTTAAATTTTTCT
GTTCCAGAAAATGAGATTCTGAGTACAAGTTTTAACTTTTCCCAGTTGTTCCATTCAGAT
TGGCCTAAATCACCAGCTATGAACATAGATTTTGTACGTTTAAGTGAGGCTATAATAACT
AGTCTCCATGAATTTGGATTTTTGGAGCAGGAACAGATCTCAGAAGCTCTGAACACAGTC
TACGCTATCAGGAATGCATCTGATCTTTTCTCAGCCCTTTCTGAACCACAAAAACAAGAA
GTTGATAAAATTTTGACTCACATACACCTAAATGTCTTCCAGGACAAGGATTCAGCTTTA
CTTCTGCAAATTTATTCTTCATTTTACCGATATATTTATGAATTATTGAATATTCAGAGT
AGAGGCTCTTCGTTGACTTTCCTTACACAAATCTCAAAACACATTTTGGATATCATAAAA
CAATTTAATTTCCAAAACATCAGTAAAGCATTTGCATTTTTATTTAAGACAGCAGAGGTT
CTTGGGGGAATTTCTAATGTATCTTACTGTCAGCAATTGCTTTCAATTTTTAACTTTTTG
GAGCTTCAGGCCCAATCCTTCATGTCTACAGAGGGCCAAGAACTGGAAGTGATCCACACT
ACTTTGACAGGCCTCAAACAGCTGCTCATAATTGATGAAGATTTTCGTATTTCTTTATTT
CAATATATGAGCCAATTCTTCAACAGTTCAGTAGAAGACCTATTGGATAATAAATGCTTG
ATTTCGGACAATAAACACATTTCTTCCGTAAATTATTCAACAAGTGAGGAGTCTTCATTT
GTTTTTCCATTGGCACAAATTTTTTCAAACCTCTCAGCAAATGTCAGTGTGTTCAACAAG
TTTATGTCCATTCACTGTACCGTTTCATGGCTTCAAATGTGGACTGAAATCTGGGAAACC
ATATCTCAATTATTTAAGTTTGACATGAATGTTTTCACATCTCTTCATCATGGTTTCACT
CAGCTTTTGGATGAATTGGAAGATGATGTGAAAGTCTCTAAAAGCTGCCAGGGTATACTT
CCCACCCATAATGTTGCTAGACTCATATTAAATTTGTTTAAAAATGTAACTCAAGCCAAT
GACTTCCATAATTGGGAGGACTTCCTGGATCTCAGGGATTTTTTGGTAGCTTTAGGTAAT
GCATTAGTTTCAGTAAAAAAACTTAACTTGGAGCAAGTGGAGAAATCCCTTTTCACCATG
GAAGCTGCCCTGCATCAGTTGAAGACATTTCCATTCAACGAAAGTACAAGCAGAGAGTTT
TTAAATTCTCTGCTTGAAGTTTTCATTGAGTTTAGCAGTACCTCAGAATATATAGTCAGA
AATCTAGATTCAATAAATGACTTTCTTTCAAATAATCTCACAAATTATGGAGAAAAATTT
GAAAATATCATCACTGAGCTAAGAGAAGCAATAGTATTTCTTAGAAATGTATCACATGAT
CGAGATTTGTTTTCCTGTGCTGATATTTTCCAAAATGTTACTGAGTGTATTTTAGAAGAT
GGCTTTTTATATGTAAATACCTCACAGAGGATGTTACGTATTCTAGACACGTTAAATTCC
ACATTTTCCTCTGAGAACACAATTAGCAGTCTGAAAGGATGCATTGTATGGTTAGATGTC
ATAAACCATTTGTATTTGTTGTCTAACTCCAGTTTTTCACAAGGTCATCTTCAAAATATT
TTGGGGAATTTCAGAGATATAGAAAACAAAATGAACTCTATATTAAAAATTGTAACTTGG
GTGTTAAATATAAAAAAACCTCTTTGTTCATCAAATGGCTCACATATAAATTGTGTCAAT
ATTTACTTGAAAGATGTAACTGACTTTCTAAATATTGTACTTACTACAGTCTTTGAAAAA
GAGAAGAAACCTAAATTTGAGATTTTATTAGCTCTTTTAAATGATTCCACAAAGCAAGTA
AGGATGAGTATCAACAACTTAACAACAGACTTTGATTTTGCATCTCAGTCCAATTGGAGA
TATTTTACTGAATTAATTCTAAGACCAATAGAAATGTCAGATGAAATTCCTAATCAGTTT
CAAAATATTTGGCTTCATTTAATAACACTGGGGAAGGAATTTCAGAAGCTTGTAAAAGGT
ATTTACTTTAACATCCTGGAAAATAATTCCTCTTCTAAAACTGAAAACTTGTTAAACATA
TTTGCCACCAGTCCAAAAGAAAAGGATGTAAACAGTGTAGGCAATTCCATTTATCACTTA
GCTAGTTACCTTGCCTTCAGCTTATCTCATGACCTCCAAAATTCACCAAAAATAATAATT
TCACCTGAAATAATGAAAGCTACAGGTCTTGGTATTCAACTGATAAGGGATGTGTTCAAC
TCCTTAATGCCTGTAGTTCATCACACTAGTCCACAAAATGCAGGTTATATGCAAGCTTTG
AAGAAGGTAACTTCTGTCATGCGTACCCTTAAGAAGGCAGACATAGACCTTTTAGTGGAT
CAGCTTGAACAAGTTAGTGTAAACCTAATGGATTTCTTTAAGAATATCAGTAGTGTGGGA
ACTGGCAATTTAGTGGTCAATTTGCTTGTTGGCTTGATGGAAAAATTTGCAGACAGCTCA
CATTCTTGGAATGTTAATCATCTGCTGCAGCTCTCACGCCTGTTTCCTAAAGATGTTGTG
GATGCTGTGATAGATGTGTACTATGTGCTTCCTCATGCTGTAAGGCTCCTGCAGGGAGTA
CCTGGTAAAAACATCACTGAAGGCCTCAAGGATGTCTACAGCTTCACACTCCTTCATGGC
ATAACCATTTCAAATATCACCAAGGAAGACTTCGCAATTGTGATAAAAATTCTTTTGGAT
ACAATTGAATTAGTATCAGATAAGCCAGATATTATTTCAGAGGCTTTAGCTTGTTTTCCT
GTGGTTTGGTGCTGGAATCACACAAATTCTGGATTTCGGCAGAATTCAAAGATAGACCCC
TGCAATGTCCATGGGCTCATGTCTTCTTCCTTTTATGGCAAAGTGGCCAGTATACTTGAT
CATTTCCACCTGTCTCCCCAAGGTGAAGATTCACCATGTTCAAATGAAAGCTCCCGAATG
GAAATAACTAGGAAAGTGGTCTGCATAATTCATGAATTAGTGGACTGGAATTCTATTCTT
CTGGAGCTCTCTGAAGTCTTCCATGTTAACATTTCTCTTGTGAAAACTGTGCAGAAATTT
TGGCATAAGATATTACCGTTTGTCCCACCTTCAATAAATCAAACTAGGGATAGCATCTCT
GAACTCTGTCCTAGTGGTTCCATAAAGCAAGTTGCTTTGCAAATCATAGAAAAACTTAAA
AATGTCAACTTTACAAAAGTTACATCAGGTGAAAATATTCTTGACAAACTAAGTAGTTTA
AACAAGATCCTTAACATTAATGAAGACACAGAGACATCTGTTCAAAATATTATTTCCTCA
AATTTGGAAAGGACAGTACAATTGATTTCTGAAGACTGGAGCCTAGAAAAAAGTACGCAT
AATCTACTCTCTTTATTCATGATGCTCCAGAATGCAAATGTCACAGGTAGCAGTTTAGAA
GCATTATCAAGTTTTATTGAAAAAAGTGAAACACCTTACAACTTTGAAGAACTATGGCCC
AAGTTTCAACAAATCATGAAAGACCTAACCCAAGATTTTAGAATCAGACACCTGCTTTCT
GAAATGAACAAAGGAATCAAAAGTATAAATTCAATGGCTCTTCAAAAGATAACTTTGCAG
TTTGCCCATTTCCTGGAAATCCTGGATTCACCGTCATTGAAGACATTAGAAATTATTGAA
GATTTTCTATTGGTCACAAAAAACTGGCTTCAGGAATATGCAAATGAGGATTACTCCAGA
ATGATAGAAACATTATTCATTCCTGTGACCAATGAGAGTTCAACTGAAGATATAGCTTTG
TTAGCCAAAGCTATTGCTACTTTTTGGGGCTCTTTAAAAAATATATCTAGAGCAGGCAAT
TTTGATGTTGCCTTTCTTACCCATCTGCTAAATCAAGAACAGCTGACTAATTTCTCAGTT
GTTCAGCTGCTTTTTGAAAACATCCTAATTAATTTGATCAATAACTTAGCTGGGAATTCT
CAGGAAGCAGCTTGGAACTTAAATGATACTGACCTTCAAATAATGAATTTCATTAACCTT
ATCTTGAACCATATGCAGTCAGAAACTAGTAGGAAAACAGTTCTCTCTCTGAGAAGCATA
GTAGATTTCACAGAACAGTTTTTGAAAACATTCTTCTCCCTTTTTCTAAAGGAAGATTCT
GAGAACAAAATATCTCTTCTGCTGAAATATTTCCACAAAGATGTTATTGCAGAGATGAGT
TTTGTCCCAAAAGATAAAATTCTAGAAATTCTGAAACTGGATCAATTTCTTACCCTGATG
ATACAAGACAGATTGATGAACATTTTTTCAAGTTTAAAGGAGACTATATATCACCTAATG
AAAAGTTCATTTATATTAGACAATGGAGAATTTTATTTTGATACTCATCAAGGACTGAAG
TTCATGCAAGATTTATTTAATGCCCTTCTCAGGGAAACTTCAATGAAAAATAAGACTGAA
AATAATATAGACTTTTTCACAGTGGTGAGTCAGTTGTTTTTCCATGTGAATAAGTCTGAG
GACCTCTTCAAACTCAATCAAGATCTTGGGTCAGCTCTTCACCTTGTAAGAGAATGTTCA
ACAGAGATGGCAAGACTTCTGGATACAATTTTACACTCTCCTAATAAGGACTTCTATGCT
TTGTATCCTACCCTCCAAGAAGTTATACTTGCTAATCTAACGGATTTGCTTTTCTTTATA
AATAATTCATTCCCTCTAAGAAACAGAGCAACATTAGAAATTACTAAGAGATTAGTTGGT
GCTATTTCAAGAGCAAGTGAAGAAAGTCACGTCCTGAAACCCCTCTTAGAAATGTCTGGG
ACTCTGGTCATGCTGTTGAATGACAGTGCTGACCTGAGAGATCTTGCCACATCAATGGAC
TCCATTGTGAAACTTCTTAAGCTGGTCAAGAAAGTTTCGGGGAAGATGTCCACAGTTTTT
AAAACTCATTTTATCTCCAATACCAAGGACAGTGTGAAATTCTTTGACACTCTGTATTCC
ATCATGCAACAAAGTGTTCAAAATCTTGTGAAAGAAATAGCTACTTTAAAAAAAATAGAT
CATTTCACATTTGAAAAGATAAATGATTTGTTGGTGCCATTTCTTGACTTGGCCTTTGAA
ATGATTGGGGTAGAACCTTATATATCATCAAACTCTGATATTTTCAGTATGTCACCTAGC
ATACTCTCATATATGAACCAATCTAAGGACTTTTCTGATATTTTGGAAGAAATTGCTGAA
TTTTTAACATCTGTGAAAATGAACTTGGAAGATATGAGGAGTCTTGCGGTAGCATTTAAC
AATGAGACTCAAACATTTTCTATGGATTCTGTCAACTTACGGGAAGAAATTCTGGGTTGC
TTAGTTCCTATAAATAACATCACCAACCAAATGGACTTCTTATACCCTAATCCAATTTCC
ACTCATAGTGGCCCTCAAGATATAAAATGGGAAATAATTCATGAAGTGATCCCTTTTTTG
GATAAAATATTATCACAAAACAGCACAGAAATAGGATCTTTCTTGAAAATGGTGATCTGT
CTCACCTTAGAAGCTCTTTGGAAAAACTTAAAGAAAGATAATTGGAATGTTTCTAATGTG
TTGATGACATTTACTCAGCATCCAAATAACCTTTTGAAAACCATAGAAACAGTTTTAGAG
GCCTCCAGTGGAATTAAAAGTGACTATGAAGGTGATTTGAATAAAAGTTTATATTTTGAC
ACACCTTTGAGTCAGAATATAACTCATCATCAACTTGAAAAAGCAATCCATAATGTTTTA
AGTAGAATAGCTCTCTGGAGGAAAGGACTTCTGTTTAACAACTCTGAATGGATAACTTCC
ACAAGAACTTTGTTTCAGCCACTTTTTGAGATTTTCATTAAAGCAACCACCGGAAAGAAT
GTCACATCAGAAAAAGAAGAGAGAACCAAGAAAGAGATGATTGACTTTCCTTATAGTTTC
AAACCATTTTTCTGTTTGGAGAAATACCTGGGAGGATTATTTGTATTGACTAAATACTGG
CAACAAATCCCACTAACAGATCAAAGTGTTGTTGAGATTTGTGAAGTTTTCCAGCAGACT
GTGAAGCCCTCAGAAGCCATGGAGATGCTGCAGAAAGTGAAGATGATGGTCGTACGTGTG
CTCACCATCGTTGCAGAAAACCCTTCCTGGACCAAGGACATTTTGTGTGCTACTCTGAGT
TGCAAGCAAAATGGGATAAGGCATCTCATTTTATCTGCTATACAAGGGGTCACTTTGGCG
CAGGACCACTTCCAGGAAATTGAAAAGATATGGTCCTCGCCGAATCAGCTAAATTGTGAA
AGTCTTAGCAAGAATCTTTCTAGCACCTTGGAGAGCTTCAAGAGCAGCTTGGAAAATGCC
ACTGGCCAGGACTGCACAAGCCAGCCGAGGCTGGAGACGGTGCAGCAGCACTTGTACATG
TTGGCCAAAAGCCTCGAGGAAACTTGGTCATCAGGGAATCCCATCATGACTTTTCTCAGC
AATTTCACAGTAACTGAGGATGTAAAAATAAAAGATTTGATGAAGAATATCACCAAGTTG
ACTGAGGAGCTTCGCTCTTCCATCCAAATCTCGAATGAGACTATCCATAGCATTCTAGAA
GCAAATATTTCCCACTCCAAGGTTCTCTTCAGTGCCCTCACCGTAGCTCTGTCTGGAAAG
TGTGATCAGGAAATCCTTCATCTCCTGCTGACATTTCCCAAAGGGGAAAAATCTTGGATC
GCAGCGGAGGAACTCTGTAGCCTGCCAGGGTCAAAAGTGTATTCTCTGATTGTGTTGCTG
AGTCGAAACTTGGATGTGCGAGCTTTCATTTACAAGACTCTGATGCCTTCTGAAGCAAAT
GGCTTGCTCAACTCCTTGCTGGATATAGTTTCCAGCCTCAGCGCCTTGCTTGCCAAAGCC
CAGCACGTCTTTGAGTATCTTCCTGAGTTTCTTCACACATTTAAAATCACTGCCTTGCTA
GAAACCCTGGACTTTCAACAGGTTTCACAAAATGTCCAGGCCAGAAGTTCAGCTTTTGGT
TCTTTCCAGTTTGTGATGAAGATGGTTTGCAAGGACCAAGCATCATTCCTTAGCGATTCT
AATATGTTTATTAATTTGCCCAGAGTTAAGGAACTCTTGGAAGATGACAAAGAAAAATTC
AACATTCCTGAAGATTCAACACCGTTTTGCTTGAAGCTTTATCAGGAAATTCTACAATTG
CCAAATGGTGCTTTGGTGTGGACCTTCCTAAAACCCATATTGCATGGAAAAATACTATAC
ACACCAAACACTCCAGAAATTAACAAGGTCATTCAAAAGGCTAATTACACCTTTTATATT
GTGGACAAACTAAAAACTTTATCAGAAACACTGCTGGAAATGTCCAGCCTTTTCCAGAGA
AGTGGAAGTGGCCAGATGTTCAACCAGCTGCAGGAGGCCCTGAGAAACAAATTTGTAAGA
AACTTTGTAGAAAACCAGTTGCACATTGATGTAGACAAACTTACTGAAAAACTCCAGACA
TACGGAGGGCTGCTGGATGAGATGTTTAACCATGCAGGCGCTGGACGCTTCCGTTTCTTG
GGCAGCATCTTGGTCAATCTCTCTTCCTGCGTGGCACTGAACCGTTTCCAGGCTCTGCAG
TCTGTCGACATCCTGGAGACTAAAGCACATGAACTCTTGCAGCAGAACAGCTTCTTGGCC
AGTATCATTTTCAGCAATTCCTTATTCGACAAGAACTTCAGATCAGAGTCTGTCAAACTG
CCACCCCATGTCTCATACACAATCCGGACCAATGTGTTATACAGCGTGCGAACAGATGTG
GTAAAAAACCCTTCTTGGAAGTTCCACCCTCAGAATCTACCAGCTGATGGGTTCAAATAT
AACTACGTCTTTGCCCCACTGCAAGACATGATCGAAAGAGCCATCATTTTGGTGCAGACT
GGGCAGGAAGCCCTGGAACCAGCAGCACAGACTCAGGCGGCCCCTTACCCCTGCCATACC
AGCGACCTATTCCTGAACAACGTTGGTTTCTTTTTTCCACTGATAATGATGCTGACGTGG
ATGGTGTCTGTGGCCAGCATGGTCAGAAAGTTGGTGTATGAGCAGGAGATACAGATAGAA
GAGTATATGCGGATGATGGGAGTGCATCCAGTGATCCATTTCCTGGCCTGGTTCCTGGAG
AACATGGCTGTGTTGACCATAAGCAGTGCTACTCTGGCCATCGTTCTGAAAACAAGTGGC
ATCTTTGCACACAGCAATACCTTTATTGTTTTCCTCTTTCTCTTGGATTTTGGGATGTCA
GTCGTCATGCTGAGCTACCTCTTGAGTGCATTTTTCAGCCAAGCTAATACAGCGGCCCTT
TGTACCAGCCTGGTGTACATGATCAGCTTTCTGCCCTACATAGTTCTATTGGTTCTACAT
AACCAATTAAGTTTTGTTAATCAGACATTTCTGTGCCTTCTTTCGACAACCGCCTTTGGA
CAAGGGGTATTTTTTATTACATTCCTGGAAGGACAAGAGACAGGGATTCAATGGAATAAT
ATGTACCAGGCTCTGGAACAAGGGGGCATGACATTTGGCTGGGTTTGCTGGATGATTCTT
TTTGATTCAAGCCTTTATTTTTTGTGTGGATGGTACTTGAGCAACTTGATTCCTGGAACA
TTTGGTTTACGGAAACCATGGTATTTCCCCTTTACTGCCTCATATTGGAAGAGTGTGGGT
TTCTTGGTGGAGAAAAGGCAATACTTTCTAAGTTCTAGTCTGTTCTTCTTCAATGAGAAC
TTTGACAATAAAGGGTCATCACTGCAAAACAGGGAAGGAGAGCTTGAAGGAAGTGCCCCG
GGAGTCACCCTGGTGTCTGTGACCAAGGAATATGAGGGCCACAAGGCTGTGGTCCAAGAC
CTCAGCCTGACCTTCTACAGAGACCAAATCACCGCCCTGCTGGGGACAAACGGTGCCGGG
AAAACCACTATCATATCCATGTTGACGGGGCTCCACCCTCCCACTTCTGGAACCATCATC
ATCAATGGCAAGAACCTACAGACAGACCTGTCGAGGGTCAGAATGGAGCTTGGTGTGTGT
CCGCAGCAGGACATCCTGTTGGACAACCTCACCGTCCGGGAACATTTGCTGCTCTTTGCT
TCCATAAAGGCGCCTCAGTGGACCAAGAAGGAGCTGCATCAGCAAGTCAATCAAACTCTT
CAGGATGTGGACTTAACTCAGCATCAGCACAAACAGACCCGAGCTCTGTCTGGAGGCCTG
AAGAGGAAGCTCTCCCTTGGCATTGCTTTCATGGGCATGTCGAGGACCGTGGTTCTGGAT
GAGCCCACCAGTGGGGTGGACCCTTGCTCCCGGCATAGCCTGTGGGACATTCTGCTCAAG
TACCGAGAAGGTCGTACGATCATCTTCACAACCCACCACCTGGATGAAGCTGAAGCGCTG
AGTGACCGCGTGGCCGTCCTCCAGCATGGGAGGCTCAGGTGCTGCGGTCCTCCCTTCTGC
CTGAAGGAGGCATATGGCCAGGGGCTCCGCCTGACACTCACGAGGCAGCCTTCTGTTCTG
GAGGCCCATGATCTGAAAGACATGGCTTGTGTTACATCCCTGATAAAGATCTATATTCCA
CAAGCATTTCTCAAAGACAGCAGTGGAAGTGAGCTGACCTACACCATTCCAAAGGACACA
GACAAGGCCTGCTTGAAAGGGCTCTTCCAGGCCCTGGATGAGAACCTGCATCAGCTGCAC
CTGACGGGCTATGGGATCTCAGACACCACCTTAGAAGAGGTGTTTTTGATGCTTTTGCAA
GATTCCAACAAGAAATCTCACATTGCCCTGGGGACTGAGTCAGAGCTGCAGAACCACAGG
CCTACAGGACATCTGTCTGGCTACTGTGGCTCCCTAGCACGGCCCGCAACTGTGCAGGGC
GTCCAGCTGCTCCGCGCACAAGTGGCCGCGATCCTGGCCCGGAGGCTCCGCCGCACGCTG
CGCGCCGGGAAGAGCACCCTCGCCGACCTGCTGCTGCCAGTCCTCTTCGTGGCCTTGGCC
ATGGGCTTGTTCATGGTGAGACCCCTGGCCACCGAGTACCCTCCCCTCAGACTCACACCT
GGACATTACCAGCGGGCCGAGACCTACTTTTTCAGCAGTGGGGGCGACAACTTGGACCTC
ACCCGTGTGCTTCTGCGGAAGTTTAGAGATCAAGATTTGCCCTGTGCAGATTTAAACCCA
CGCCAGAAGAATTCTTCATGCTGGCGCACAGATCCCTTTTCTCACCCAGAATTCCAGGAT
TCATGTGGCTGCCTGAAGTGTCCAAATAGAAGTGCTAGTGCTCCCTACCTGACCAACCAC
CTGGGCCACACACTGTTGAATCTCTCAGGCTTCAATATGGAGGAGTACTTGCTGGCACCA
TCTGAAAAACCAAGGCTTGGAGGTTGGTCTTTTGGATTAAAAATCCCCAGTGAAGCTGGA
GGTGCAAATGGAAACATATCAAAACCCCCAACTCTGGCAAAGGTGTGGTATAATCAGAAG
GGTTTTCATTCCCTACCTTCCTACTTAAATCATCTAAACAACCTTATTTTGTGGCAGCAC
CTACCCCCTACTGTGGACTGGAGACAATACGGAATAACACTCTACAGCCACCCATATGGA
GGGGCCTTGCTGAACAAGGACAAGATCCTGGAGAGCATCCGTCAGTGTGGAGTGGCCCTC
TGCATCGTGCTGGGATTCTCCATCCTGTCTGCATCCATCGGCAGCTCTGTGGTGAGGGAC
AGGGTGATTGGAGCCAAAAGGTTGCAGCACATAAGTGGCCTTGGCTACAGGATGTACTGG
TTCACAAACTTCCTATATGACATGCTCTTTTACTTGGTTTCCGTCTGCCTGTGTGTTGCC
GTTATTGTCGCCTTCCAGTTAACAGCTTTTACTTTCCGCAAGAACTTGGCAGCCACGGCC
CTCCTGCTGTCACTTTTCGGATATGCAACTCTTCCATGGATGTACCTGATGTCCAGAATC
TTTTCCAGTTCGGACGTGGCTTTCATTTCCTATGTCTCACTAAACTTCATCTTTGGCCTT
TGTACCATGCTCATAACCATTATGCCCCGGTTGCTAGCCATCATCTCCAAAGCTAAGAAT
TTACAGAATATCTATGATGTCCTCAAGTGGGTCTTTACTATTTTTCCTCAATTCTGTCTT
GGTCAAGGACTGGTAGAACTCTGCTATAATCAGATCAAATATGACCTGACCCACAACTTC
GGCATTGATTCCTATGTGAGTCCCTTTGAGATGAACTTTCTGGGCTGGATCTTCGTGCAA
CTGGCCTCGCAGGGCACAGTACTTCTCCTCTTGAGGGTTCTGCTACACTGGGACCTTCTG
CGATGGCCAAGGGGTCATTCTACTCTCCAAGGCACAGTCAAATCTTCTAAGGATACAGAT
GTTGAAAAAGAGGAAAAGAGAGTGTTTGAAGGAAGGACCAATGGAGACATTCTTGTGTTA
TACAACCTTAGTAAACATTATCGACGCTTTTTCCAGAATATTATTGCTGTGCAAGATATT
AGTTTGGGCATACCAAAAGGAGAGTGCTTTGGACTTCTAGGGGTGAATGGAGCTGGGAAG
AGCACGACTTTCAAAATGCTGAATGGTGAAGTTTCTCTAACTTCAGGACATGCTATCATC
AGGACTCCCATGGGAGACGCCGTGGACCTGTCTTCTGCTGGCACGGCAGGCGTGCTCATT
GGCTACTGTCCCCAGCAGGATGCCCTGGACGAGCTTCTGACTGGTTGGGAACATCTCTAT
TATTACTGTAGCTTACGCGGGATTCCAAGGCAGTGCATCCCTGAGGTTGCTGGAGACCTC
ATCAGGCGCTTACACCTCGAAGCCCACGCGGACAAACCTGTGGCCACCTACAGTGGGGGA
ACCAAGCGGAAACTCTCTACAGCCCTGGCCCTGGTGGGGAAACCTGACATTCTTTTATTG
GATGAGCCCAGCTCTGGGATGGATCCCTGCTCTAAGCGGTACCTGTGGCAAACAATAATG
AAGGAGGTTCGGGAAGGCTGTGCTGCGGTGCTGACCTCCCACAGCATGGAGGAGTGTGAG
GCTCTTTGCACAAGACTGGCCATAATGGTTAACGGCAGCTTCAAATGTCTTGGTTCTCCT
CAGCACATCAAAAATAGGTTTGGTGATGGTTATACAGTCAAAGTTTGGCTCTGTAAGGAA
GCAAATCAACATTGCACTGTTTCTGACCACTTGAAGCTTTATTTTCCAGGAATTCAGTTC
AAGGGACAGCACCTGAATTTATTAGAATATCATGTGCCAAAAAGATGGGGATGCCTAGCT
GACTTGTTCAAAGTTATAGAGAACAATAAAACCTTCTTGAATATTAAGCATTATTCCATT
AACCAAACCACTTTGGAGCAGGTATTTATTAATTTTGCTTCTGAGCAGCAGCAAACTCTA
CAATCTACTCTTGATCCATCCACTGACAGTCACCACACACATCACTTGCCCATCTGA
Restriction Sites Please inquire     
ACCN NM_152701
OTI Disclaimer Due to the inherent nature of this plasmid, standard methods to replicate additional amounts of DNA in E. coli are highly likely to result in mutations and/or rearrangements. Therefore, OriGene does not guarantee the capability to replicate this plasmid DNA. Additional amounts of DNA can be purchased from OriGene with batch-specific, full-sequence verification at a reduced cost. Please contact our customer care team at custsupport@origene.com or by calling 301.340.3188 option 3 for pricing and delivery.

Our molecular clone sequence data has been matched to the reference identifier above as a point of reference. Note that the complete sequence of our molecular clones may differ from the sequence published for this corresponding reference, e.g., by representing an alternative RNA splicing form or single nucleotide polymorphism (SNP).
OTI Annotation This TrueClone is provided through our Custom Cloning Process that includes sub-cloning into OriGene's pCMV6 vector and full sequencing to provide a non-variant match to the expected reference without frameshifts, and is delivered as lyophilized plasmid DNA.
Product Components The ORF clone is ion-exchange column purified and shipped in a 2D barcoded Matrix tube containing 10ug of transfection-ready, dried plasmid DNA (reconstitute with 100 ul of water).
Reconstitution 1. Centrifuge at 5,000xg for 5min.
2. Carefully open the tube and add 100ul of sterile water to dissolve the DNA.
3. Close the tube and incubate for 10 minutes at room temperature.
4. Briefly vortex the tube and then do a quick spin (less than 5000xg) to concentrate the liquid at the bottom.
5. Store the suspended plasmid at -20°C. The DNA is stable for at least one year from date of shipping when stored at -20°C.
Note Plasmids are not sterile.  For experiments where strict sterility is required, filtration with 0.22um filter is required.
Reference Data
RefSeq NM_152701.2, NP_689914.2
RefSeq Size 17208 bp
RefSeq ORF 15177 bp
Locus ID 154664
UniProt ID Q86UQ4
Domains ABC_tran
Protein Families Transmembrane
Protein Pathways ABC transporters
Gene Summary In human, the ATP-binding cassette (ABC) family of transmembrane transporters has at least 48 genes and 7 gene subfamilies. This gene is a member of ABC gene subfamily A (ABCA). Genes within the ABCA family typically encode several thousand amino acids. Like other ABC transmembrane transporter proteins, this protein has 12 or more transmembrane alpha-helix domains that likely arrange to form a single central chamber with multiple substrate binding sites. It is also predicted to have two large extracellular domains and two nucleotide binding domains as is typical for ABCA proteins. Alternative splice variants have been described but their biological validity has not been demonstrated.[provided by RefSeq, Mar 2009]
*Delivery time may vary from web posted schedule. Occasional delays may occur due to unforeseen complexities in the preparation of your product. International customers may expect an additional 1-2 weeks in shipping.

Other Versions

SKU Description Size Price
RC214677 ABCA13 (Myc-DDK-tagged)-Human ATP-binding cassette, sub-family A (ABC1), member 13 (ABCA13)
    • 10 ug

CNY 72,110.00

RG214677 ABCA13 (tGFP-tagged) - Human ATP-binding cassette, sub-family A (ABC1), member 13 (ABCA13)
    • 10 ug

CNY 79,330.00

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