Abca17 (NM_001031637) Rat Tagged ORF Clone

CAT#: RR202118

Abca17 (Myc-DDK-tagged ORF) - Rat ATP-binding cassette, sub-family A (ABC1), member 17 (Abca17), (10 ug)

Specifications

Product Data

• Type: Rat Tagged ORF Clone
• Tag: Myc-DDK
• Symbol: Abca17
• Vector: pCMV6-Entry
• E. coli Selection: Kanamycin (25 ug/mL)
• Mammalian Cell Selection: Neomycin
• Sequence Data:
  ORF Nucleotide Sequence

  >RR202118 representing NM_001031637
  Red=Cloning site Blue=ORF Green=Tags(s)
  
  TTTTGTAATACGACTCACTATAGGGCGGCCGGGAATTCGTCGACTGGATCCGGTACCGAGGAGATCTGCC
  GCCGCGATCGCC
  
  ATGGCCCCGTTCAAGAAGTTAAAACTTCTTCTCTGGAAGAACTTCGTCTTAAAGAAGCGGAAGACTCTGG
  TAACTGTCCTGGAAACGTTGATGCCAGTACTGTTTTCTGCAATTGTATTGTATCTTCGTTTGAATAGTAT
  GCCAAGAAACAAGGCAAACACCAACTACCCGGCAGTCGATGTCAGCTTACTGCCAGTATATTTCCACAAC
  TACCCTCTGAAAAGTAAATTTCAGTTGGTTTATATCCCTTCCAAGAGCGAAACCTTGAAAGCCGTTACTG
  AAGTGGTGGAGCAAACCTTCGCCGTTGACTTTGAAGTTCTAGGCTTCCCTTCAGTGTCTTTATTTGAAAA
  CTATATCATTAAGGATCCCAAGTCTTTCTACGTCCTGGTGGGAATTGTTTTTCACCATGACTTCAATAGC
  AGCAATGAACCGTTGCCACTTGTGGTGAAGTATGACTTGCGCTTCAGTTATGTCCAGAGGAACTCTATAT
  CCCCGCCGAGGCATCTGTTTTTTCAAGAGGATATAGAAGGCTGGTGCACGGCCTTTCTTTACCCTCCCAA
  TCTAAGCCAAGCACCCCGGGAATTTTCATACGCCGATGGGGGACACCCTGGATACAACAAAGAAGGCTTC
  CTGGCAATACAGCATGCCGTAGACAAAGCCATCATGCTGCACCATGCTCCCAAAGCAGCACTGGACATGT
  TTAAGAATCTCCAGGTCTCGGTGCAGAGATTCCCATCTGGGTCCCATATCCAGGACCCCTTCCTAGTGAT
  CCTTCAGAATGAGTTCCCTCTGCTCCTCATGCTCAGCTTCATCTGTGTTGAGCTCATAATCACCAATTCC
  ATCTTGTTGGAGAAGGAGAGGAAACAGAAGGAATATATGTATTTGATGGGACTGGAGAACTGGCTGCACT
  GGGTTGCTTGGTTCATCACGTTCTTCCTTTCCGCTTTAGTTACTGTTTCCGGTATGACGGTTCTCTTTTG
  CACAAAGATGAACGGTGTGGCTGTGTTCAGGAACAGTAACCCTACCCTGATATTTATTTTTCTAATGTGT
  TTTGCCATCGCCACAATTTTCTTTGCATTCATGATGAGCACATTCTTCCAAAGAGCCCACGTAGGAACTG
  TGATAGGCGGCATCGTCTTCTTCTTCACCTACCTTCCCTACATGTACATCACTTTCAGTTACCACCAGCG
  GACTTACTCCCAGAAGATACTCTCTTGCCTCTTCTCCAATGTTGCCATGGCAATGGGAGTCCGGTTCATC
  TCTCTGTTTGAAGCGGAAGGCACAGGCATCCAATGGAGGAACATGGGCAGCGTCTGGGGCGACTTCAGCT
  TCACTCAGGTGCTGGTGATGCTCTTGCTGGACTCCTTCTTGTACTGCCTGGTAGCCTTTTTGGTGGAGTC
  TCTCTTCCCAAGAAAGATCGGAATGCCTAAGTCTTGGTACATCTTTGCCAAGTGTCCCCTCTGGCGCAAG
  AAGTCCTTTCCAGTAATACCGCCACTGTTGGTTATTGGGGATCCTGAGAAAACTTCTAAAGGGGACTTCC
  TGCAGGACGAGCCAGCAGGTCACATAAACGCCATCGAGATCCAGCATCTGTATAAGGTGTTCTATACAGG
  AAGGAGTAAATGCATAGCTGTCAAAGATCTGAGCATGAACCTGTACAAGGGACAGATCACAGTTCTTCTG
  GGACACAATGGAGCAGGAAAAACTACTGTCTGCTCCGTTCTGACAGGTCTTATTCCTCCTTCAAAAGGAC
  ACGCGTATATCCATGGCTGTGAGATCTCGAAAGACATGGTTCGGATCAGGAAGAACGTGGGCTGGTGCCC
  ACAGCATGACATCTTGTTTGATAACTTCACGGTAACCGACCATCTTTATTTCTACGGTCAGTTGAAAGGC
  CTGTCTCACCAGGACTGTCATGAGAAAATAGAGGAGATGCTGCACACCCTCGGGCTGGAGGACAAGCGGA
  ACTCAAGGTCCAAGTTCCTGAGCGGGGGGATGAAGCGCAAGCTCGCCATCGGCATCGCCCTCATAGCGGG
  CTCTAAGGTATTGATTCTGGACGAGCCCACCTCAGGCATGGACTCCTCCTCCAGGAGGGCCATCTGGGAC
  CTTCTTCAGCAGCAGAAGGGTGACCGCACCGTCCTGCTGACCACTCACTTCATGGACGAAGCTGACCTGC
  TGGGAGACCGCATCGCCATCTTGGCCAAGGGGGAGCTCCAGTGTTGCGGGACACCATCATTCCTCAAGCA
  GAAATACGGTGCAGGGTATTACATGACTATAATAAAAACACCTCTCTGCGACACTGAGAAGCTCGCTAAA
  GTTATTTACCACCACATTCCGAATGCAATTTTGGAGTCCCGAATTGGAGAAGAAATGATCTTCACACTTC
  CTAAGAAGGCCATGCCCAGGTTCGAAGCTCTATTCGCTGACCTGGAACAGAGACAGACAGAGCTGGGAAT
  CTCTACTTTTGGGGCCTCCGTCACCACTATGGAGGAAGTGTTCATACGAGTTTGTAAGTTGGCTGATCCC
  AGCACAAATGTCTTAACTGAGAAGCGACCCTCTCTCCGTCATCTTCCCCGGAATCACAGAGTTCCCGTTG
  ACAGAATTAAATGTCTCCACTCAAGGATCTTCTCATTGAGCTCTGACCAGCCGATAAGACTAAACACGGG
  GTTCTCTCTCCTGTGCCAACAATTCTATGCCATGCTCCTGAAAAAGGTCGCGTTTTCTCGGCGCAACTGG
  ATGCTGGTGCTGTCTGTGCAGATTCTGCTGCCTCTGGTGATCATTATGTTAAGCCTCAGTTTTTTCAACT
  TCAAATTAAGGAAGCTGGATAACGTGCCCCTGGAGCTGACCTTGCAAACCTATGGTCAGACCATTGTTCC
  GTTTTTTATTGCCGAGAACTCCCGCCTGGATCCTCAGCTTTCAGATAACTTTGTAAAAATGCTCGTGGCT
  GCAGGACAGGTTCCTTTGCGTATTCAAGGTTCTGTAGAGAACTTCCTACTGAAGAAGGCCAAGGAGGCTC
  CTGAGGACTTCGATAAGCTCTACGTAGTGGCAGCTTCTTTCGAAGACGTAAATGACCACACCACAGTGAA
  GGCGCTGTTCAACAACCAGGCCTACCACTCCCCCAGCCTGGCTCTGGCTCTGGTGGACAATGTTCTCTTC
  AAGTTGCTTTCTGGTGCCAATGCTTCCATTACCACAACCAACTATCCTCAGCCTCAGACAGCCATGGAGC
  TCTCAGAGACTATCCTGTACCAGGGCCCTAAAGGACACTACCTTGTGGTCAACTTCCTTTTTGGAATAGC
  TTTTCTGTCAAGCTCTTTCTCCATCTTGACGGTCGGAGAGAAGAGCATTAAGTCCAAGAACCTCCAGTTC
  CTCAGCGGAGTCAGCATGGCTGCGTTCTGGCTCTCCGCTCTGCTGTGGGACCTCATCTCTTTCCTTGTTC
  CCACTCTGCTGCTGGTGTTGGTGTTTTTTTGGTACAAGGAAGAAGCTTTTGCACACCCCCAGAGCATCCC
  GGCGGTGGTCTTGATAATGATGCTGTACGGCTGGGCTATCATCCCTTTGGTCTACACAGTCAGTTTCTCT
  TTTAAAACCCCTGGTAGCGGGTGCGTGAAGCTCGTGGCAATGCTCACCTTCCTGAGCATCAGCCCTGTGG
  TCCTCGTCACTGTCACAAGTGAGATAGACCTTGGCTACACAGAGCTCTCAGACACCTTGGATCATATTTT
  CCTAATATTTCCTGGACATTGCCTGGGAATGGCCTTCTCCAACTTGTACTACAACTTTGAGATAAAAAAG
  TTTTGCAATGCTAAGAACTTGAGTGACATTGACTGCAATGATGTTTTAGAAGGATATGTGGTCCAAAAGA
  ACATCTATGCCTGGGAATCTCTGGGGATAGGAAAGTATCTGACAGCCCTGGCCATCTTGGGACCTGTGTA
  CATCACCCTGCTTTTCCTCACTGAAGCCAATGCATTCTGTGCACTGAAAGCCAGGCTCTCTGGCTTCTTT
  TGTAAGCAAAAATTGAGGATGCTCTTGAATGTAACAGGGGCTGAAGATGAAGACGTTCTAGAAGAGGCAG
  AAAACATCAAGTATCATTTGGATACACTGATAAAGAAAAGTCCACTTGTCGTTAAAGAATTGTCAAAGGT
  CTATAAAGAGAAGGTGCCCCTGTTGGCTGTGAACAAGGTGTCCTTTGTCGTTAAAGAAAAAGAATGCTTT
  GGCCTTCTTGGCCTCAATGGAGCTGGGAAGACGTCCATTTTCAACATGCTGACCAGGGAGCAGCCCATCA
  CTTCAGGGGATGCCTTTGTCAAGGGTTTCAACATCAGGACTGACATGGCGAAGGTGCAGCAGTGGATTGG
  TTACTGTCCTGAGTTTGATGCCCTGCTAAACTTCATGACAGGAAGAGAGATGCTTGTCATGCATGCCCGT
  ATCCGGGGCATCCCCGAGTGCCACATCAAAACCTGTGTGGACATGATCCTTGAGAACTTACTCATGTGCG
  TGTATGCAGACAAGCTGGTGAAGACCTATAGTGACGGCAACAAGCGCGTGCTGAGCACCGCCATCGCCCT
  CCTCGGAGAGCCCACGGTCATCCTGCTAGACGAGCCATCCACTGGCATGGACCCTGTGGCTCGGCGCCTG
  GTGTGGGATGCTGTGGGACGGGTCCGTGAGTCTGGCAAGACCATCGTCATCACCTCTCACAGTATGGAGG
  AGTGTGAAGCCTTATGTACCCGGCTGGCCATCATGGTACAGGGCCAGTTCAAGTGCCTGGGCAGCCCGCA
  GCACCTCAAGAGCAGGTTTGGCAGCGGCTACTCCCTGCAGGCCAAGGTCCGGAGGAAATGGCAGCAGCAG
  ATGCTAGAGGAGTTCAAGGCATTTGTGGACCTGACCTTCCCAGGCAGCAGTTTGGAGGACGAGCACCAAA
  GCATGGTTCAGTACTACCTGCCGGGCCAAAACCTCAGCTGGGCCAAGGTGTTTGGCATCATGGAACAAGC
  CAAGAAGGATTACGTGTTGGAAGATTACTCCATCAGCCAGTTATCCCTGGAGGACATCTTCCTGAGCTTC
  ACCAGACCCGTGCCTGACACTAAAGAAAACATCCAACAAGGGCAAGCTGCCCTAGACAGCTCCTTATCAC
  CCTCTAACTCTAGGCCTATCTCAAGTCCTCCCTCAAGTCCTCCCTCAAGTCCTCCCTCAAGTCCTCCCTC
  ACGACCTCCCTCACGTCCTTCTCAGCCTCCCTCACGTCCTCCCTCACGACATCCCTCAAGTCCTTCTCAG
  CCTCCCTCACGTCCTCCCTCACGACATCCCTCAAGTCCTTCTCAGCCTCCCTCAGAGCCTGTCCTTCTG
  
  AGCGGACCGACGCGTACGCGGCCGCTCGAGCAGAAACTCATCTCAGAAGAGGATCTGGCAGCAAATGATATCC
  TGGATTACAAGGATGACGACGATAAGGTTTAA
  Protein Sequence

  >RR202118 representing NM_001031637
  Red=Cloning site Green=Tags(s)
  
  MAPFKKLKLLLWKNFVLKKRKTLVTVLETLMPVLFSAIVLYLRLNSMPRNKANTNYPAVDVSLLPVYFHN
  YPLKSKFQLVYIPSKSETLKAVTEVVEQTFAVDFEVLGFPSVSLFENYIIKDPKSFYVLVGIVFHHDFNS
  SNEPLPLVVKYDLRFSYVQRNSISPPRHLFFQEDIEGWCTAFLYPPNLSQAPREFSYADGGHPGYNKEGF
  LAIQHAVDKAIMLHHAPKAALDMFKNLQVSVQRFPSGSHIQDPFLVILQNEFPLLLMLSFICVELIITNS
  ILLEKERKQKEYMYLMGLENWLHWVAWFITFFLSALVTVSGMTVLFCTKMNGVAVFRNSNPTLIFIFLMC
  FAIATIFFAFMMSTFFQRAHVGTVIGGIVFFFTYLPYMYITFSYHQRTYSQKILSCLFSNVAMAMGVRFI
  SLFEAEGTGIQWRNMGSVWGDFSFTQVLVMLLLDSFLYCLVAFLVESLFPRKIGMPKSWYIFAKCPLWRK
  KSFPVIPPLLVIGDPEKTSKGDFLQDEPAGHINAIEIQHLYKVFYTGRSKCIAVKDLSMNLYKGQITVLL
  GHNGAGKTTVCSVLTGLIPPSKGHAYIHGCEISKDMVRIRKNVGWCPQHDILFDNFTVTDHLYFYGQLKG
  LSHQDCHEKIEEMLHTLGLEDKRNSRSKFLSGGMKRKLAIGIALIAGSKVLILDEPTSGMDSSSRRAIWD
  LLQQQKGDRTVLLTTHFMDEADLLGDRIAILAKGELQCCGTPSFLKQKYGAGYYMTIIKTPLCDTEKLAK
  VIYHHIPNAILESRIGEEMIFTLPKKAMPRFEALFADLEQRQTELGISTFGASVTTMEEVFIRVCKLADP
  STNVLTEKRPSLRHLPRNHRVPVDRIKCLHSRIFSLSSDQPIRLNTGFSLLCQQFYAMLLKKVAFSRRNW
  MLVLSVQILLPLVIIMLSLSFFNFKLRKLDNVPLELTLQTYGQTIVPFFIAENSRLDPQLSDNFVKMLVA
  AGQVPLRIQGSVENFLLKKAKEAPEDFDKLYVVAASFEDVNDHTTVKALFNNQAYHSPSLALALVDNVLF
  KLLSGANASITTTNYPQPQTAMELSETILYQGPKGHYLVVNFLFGIAFLSSSFSILTVGEKSIKSKNLQF
  LSGVSMAAFWLSALLWDLISFLVPTLLLVLVFFWYKEEAFAHPQSIPAVVLIMMLYGWAIIPLVYTVSFS
  FKTPGSGCVKLVAMLTFLSISPVVLVTVTSEIDLGYTELSDTLDHIFLIFPGHCLGMAFSNLYYNFEIKK
  FCNAKNLSDIDCNDVLEGYVVQKNIYAWESLGIGKYLTALAILGPVYITLLFLTEANAFCALKARLSGFF
  CKQKLRMLLNVTGAEDEDVLEEAENIKYHLDTLIKKSPLVVKELSKVYKEKVPLLAVNKVSFVVKEKECF
  GLLGLNGAGKTSIFNMLTREQPITSGDAFVKGFNIRTDMAKVQQWIGYCPEFDALLNFMTGREMLVMHAR
  IRGIPECHIKTCVDMILENLLMCVYADKLVKTYSDGNKRVLSTAIALLGEPTVILLDEPSTGMDPVARRL
  VWDAVGRVRESGKTIVITSHSMEECEALCTRLAIMVQGQFKCLGSPQHLKSRFGSGYSLQAKVRRKWQQQ
  MLEEFKAFVDLTFPGSSLEDEHQSMVQYYLPGQNLSWAKVFGIMEQAKKDYVLEDYSISQLSLEDIFLSF
  TRPVPDTKENIQQGQAALDSSLSPSNSRPISSPPSSPPSSPPSSPPSRPPSRPSQPPSRPPSRHPSSPSQ
  PPSRPPSRHPSSPSQPPSEPVLL
  
  SGPTRTRPLEQKLISEEDLAANDILDYKDDDDKV
• Restriction Sites: SgfI-RsrII Cloning Scheme for this gene Plasmid Map
• ACCN: NM_001031637
• ORF Size: 5319 bp
• OTI Disclaimer: The molecular sequence of this clone aligns with the gene accession number as a point of reference only. However, individual transcript sequences of the same gene can differ through naturally occurring variations (e.g. polymorphisms), each with its own valid existence. This clone is substantially in agreement with the reference, but a complete review of all prevailing variants is recommended prior to use. More info
• OTI Annotation: This clone was engineered to express the complete ORF with an expression tag. Expression varies depending on the nature of the gene.
• Product Components: The ORF clone is ion-exchange column purified, transfection-ready dried plasmid DNA, and shipped with 2 vector sequencing primers.
• 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.

Reference Data

• RefSeq: NM_001031637.1, NP_001026807.1
• RefSeq Size: 5322 bp
• RefSeq ORF: 5322 bp
• Locus ID: 287112
• Cytogenetics: 10q12
• MW: 199.9 kDa