Abca4 (NM_007378) Mouse Tagged ORF Clone

CAT#: MR212120

Abca4 (Myc-DDK-tagged) - Mouse ATP-binding cassette, sub-family A (ABC1), member 4 (Abca4)

Product Images

Circular map for MR212120

Specifications

Product Data

• Type: Mouse Tagged ORF Clone
• Tag: Myc-DDK
• Symbol: Abca4
• Synonyms: Abc1; Abc10; Abcr; AW050280; D430003I15Rik; R; RmP
• Vector: pCMV6-Entry
• E. coli Selection: Kanamycin (25 ug/mL)
• Mammalian Cell Selection: Neomycin
• Sequence Data:
  ORF Nucleotide Sequence

  >MR212120 representing NM_007378
  Red=Cloning site Blue=ORF Green=Tags(s)
  
  TTTTGTAATACGACTCACTATAGGGCGGCCGGGAATTCGTCGACTGGATCCGGTACCGAGGAGATCTGCC
  GCCGCGATCGCC
  
  ATGGGCTTCCTCAGACAGATACAGCTTTTGCTTTGGAAGAACTGGACTCTGAGGAAAAGGCAGAAGATTC
  GCTTTGTAGTGGAACTCGTGTGGCCTTTGTCTTTGTTTTTGGTGTTAATCTGGCTGAGGAATGCCAACCC
  ACTCTATAGTCAGCATGAATGCCATTTTCCCAACAAGGCGATGCCTTCAGCAGGACTGTTACCGTGGCTC
  CAGGGGATTTTCTGCAATATGAACAACCCTTGTTTTCAAAACCCCACCCCTGGAGAGTCTCCTGGAACTG
  TCTCAAACTATAACAACTCCATCTTGGCAAGAGTATATCGAGATTTTCAAGAACTCTTCATGGACACCCC
  GGAGGTCCAGCACCTTGGCCAGGTTTGGGCCGAGCTCCGCACCTTGTCGCAGTTCATGGACACCCTGAGG
  ACTCACCCTGAGAGATTTGCAGGAAGAGGATTACAAATCCGAGACATCCTAAAAGATGAAGAGGCGCTGA
  CCCTATTTCTCATGAGAAACATTGGCCTGTCTGACTCGGTTGCCCATCTTCTGGTCAACTCCCAAGTTCG
  TGTGGAGCAGTTTGCTTATGGAGTCCCAGACTTGGAACTGACAGACATTGCCTGCAGCGAGGCCCTCCTG
  CAGCGCTTCATCATCTTCAGCCAGCGTCGGGGGGCACAGACGGTACGCGATGCCCTGTGTCCCCTCTCCC
  AGGTCACCCTACAGTGGATAGAAGACACTCTGTATGCCGATGTGGACTTCTTCAAACTCTTCCATGTGCT
  CCCCACACTCCTGGACAGCAGTTCTCAAGGAATCAACTTGAGATTTTGGGGAGGAATATTATCTGATCTG
  TCACCAAGAATGCAAAAGTTTATCCATCGGCCAAGTGTTCAAGACTTGCTATGGGTGAGCAGACCTCTCC
  TGCAGAACGGTGGTCCTGAGACCTTCACACAGCTGATGAGCATCCTGTCTGACCTCCTGTGTGGGTACCC
  AGAGGGAGGAGGCTCCCGAGTGTTCTCCTTTAACTGGTATGAAGACAATAACTATAAAGCCTTCCTGGGG
  ATTGATTCCACAAGGAAAGACCCCGCCTATTCTTACGACAAAAGAACAACATCCTTTTGTAATTCATTGA
  TCCAGAGCCTGGAGTCAAACCCTTTAACCAAAATAGCCTGGAGGGCGGCAAAGCCATTGCTGATGGGAAA
  AATCCTCTTTACTCCAGATTCCCCTGCTGCTCGAAGGATAATGAAGAATGCCAACTCAACTTTTGAAGAA
  CTGGATCGAGTTAGGAAGTTGGTAAAAGCCTGGGAGGAAGTGGGGCCCCAGATCTGGTACTTCTTTGAGA
  AGAGCACACAGATGACCGTGATCCGAGACACCCTGCAGCACCCAACCGTCAAAGACTTCATAAATAGGCA
  GCTCGGAGAAGAAGGCATTACCACCGAAGCCGTATTAAACTTCTTCTCTAACGGTCCCCAAGAGAAGCAG
  GCTGATGATATGACCAGCTTTGACTGGAGGGACATATTCAACATCACTGACCGATTCCTACGCTTGGCTA
  ATCAATACCTGGAGTGTCTGGTCCTGGATAAGTTTGAAAGTTATGATGATGAAGTGCAGCTCACCCAACG
  AGCCCTGTCTCTCCTGGAGGAGAACAGGTTCTGGGCCGGAGTGGTGTTCCCTGGCATGTATCCCTGGGCC
  AGCTCCTTACCTCCTCATGTGAAGTACAAGATTCGGATGGACATAGATGTGGTGGAGAAGACCAATAAGA
  TCAAAGACAGGTACTGGGATTCTGGTCCCAGGGCGGATCCTGTCGAAGATTTCCGGTACATCTGGGGAGG
  TTTTGCCTATCTACAGGACATGGTGGAGCAAGGAATCGTGAAGAGTCAGATGCAGGCAGAGCCTCCAATT
  GGAGTCTATCTCCAACAGATGCCTTATCCCTGCTTTGTGGATGACTCCTTCATGATCATCCTGAATCGCT
  GTTTCCCTATCTTCATGGTGCTGGCGTGGATCTACTCTGTCTCCATGACCGTTAAGGGCATTGTTTTGGA
  GAAGGAGCTGAGGCTGAAGGAGACCTTGAAAAACCAAGGCGTCTCTAATGCTGTCATCTGGTGTACCTGG
  TTCCTGGATAGCTTCTCCATCATGGCGCTGAGTATCTTCCTCCTGACGCTGTTCATCATGCATGGAAGGA
  TCCTCCATTACAGCGATCCCTTCATTCTCTTCCTGTTCTTGTTGGCCTTTGCCACTGCGACCATCATGCA
  GAGCTTCCTGCTCAGTACTTTGTTTTCCAAGGCCAGCCTTGCAGCAGCCTGCAGTGGGGTCATCTACTTC
  ACCCTCTACCTACCACACGTTCTGTGCTTTGCCTGGCAGGACCGGATGACGGCCGACCTGAAGACGACTG
  TGAGCCTACTTTCTTCCGTGGCATTTGGGTTTGGCACCGAGTACCTGGTCCGCTTTGAGGAGCAAGGCCT
  GGGGCTGCAATGGAGCAACATTGGGAAGAGTCCCCTGGAAGGGGATGAGTTCAGTTTCCTGCTGTCTATG
  AAGATGATGCTTCTCGATGCTGCTCTCTACGGCTTGCTTGCTTGGTATCTTGACCAGGTTTTCCCAGGAG
  ACTATGGGACCCCACTTCCCTGGTACTTCCTTCTGCAGGAGTCCTACTGGCTTGGTGGTGAAGGTTGTTC
  GACCAGAGAAGAAAGGGCTCTGGAAAAGACTGAACCCTTAACAGAGGAGATGGAGGATCCAGAGCACCCA
  GAAGGAATGAATGACTCCTTTTTTGAACGCGAGCTTCCAGGGCTGGTGCCTGGTGTGTGTGTGAAGAACC
  TGGTGAAGGTTTTTGAGCCCAGTGGCCGGCCAGCTGTGGACCGTCTGAACATCACTTTCTATGAGAACCA
  AATCACGGCGTTCCTGGGTCACAACGGAGCGGGAAAGACCACCACCTTGTCCATCCTGACAGGACTGTTG
  CCACCGACGTCAGGAACTGTGCTCATTGGGGGAAAAGACATTGAAACCAACCTGGATGTAGTACGGCAGA
  GCCTGGGCATGTGTCCACAACACAACATCCTGTTTCATCACCTCACGGTGGCTGAGCACATCTTGTTCTA
  TGCCCAGCTGAAAGGGAGATCCTGGGAGGAGGCCCAGCTTGAGATGGAAGCCATGCTAGAAGACACGGGC
  CTCCACCATAAGAGGAATGAAGAAGCTCAGGACCTTTCAGGTGGCATGCAGAGGAAGCTGTCTGTTGCCA
  TTGCTTTTGTGGGAGATTCTAAGGTGGTGGTCCTGGATGAGCCCACCTCTGGGGTGGACCCCTACTCCAG
  ACGCTCCATCTGGGACCTGCTCCTGAAGTATCGCTCAGGCAGAACCATCATCATGTCCACTCACCACATG
  GACGAGGCAGACCTCCTTGGGGACCGCATTGCCATCATTTCTCAGGGAAGGCTCTACTGCTCTGGAACCC
  CGCTCTTCCTCAAGAACTGCTTTGGCACAGGCTTCTACTTGACCTTAGTTCGCAAGATGAAAAACATCCA
  GAGCCAAAGAGGTGGCTGTGAGGGGGTCTGCAGCTGTACATCAAAGGGTTTCTCTACCAGGTGTCCAACC
  CGAGTCGATGAGATAACAGAAGAACAAGTCCTGGATGGAGATGTGCAGGAGCTGATGGATTTGGTATACC
  ACCATGTCCCAGAGGCAAAGCTGGTGGAATGCATTGGTCAAGAACTTATCTTCCTCCTTCCAAACAAGAA
  TTTCAAGCAGAGAGCATATGCCAGCCTTTTCCGAGAGCTGGAGGAGACTCTGGCTGACCTGGGGCTCAGC
  AGCTTTGGAATTTCTGACACTCCCCTGGAAGAGATTTTCCTGAAGGTCACAGAGGATGCTGGAGCGGGCT
  CTATGTTTGTAGGTGGCGCTCAGCAGAAAAGAGAACAAGCCGGTCTCCGGCACCCTTGTTCGGCTCCCAC
  TGAGAAGCTCAGGCAGTATGCCCAGGCCCCACATACCTGTTCCCCAGGACAAGTGGATCCTCCCAAGGGC
  CAACCTTCCCCAGAGCCAGAGGACCCCGGTGTCCCATTCAACACAGGTGCTCGGCTGATTCTTCAACATG
  TGCAGGCCCTGCTAGTCAAGCGATTCCATCACACCATCCGCAGCCGCAAGGACTTTGTGGCTCAGATTGT
  TCTCCCTGCCACTTTCGTGTTCTTGGCTCTGATGCTTTCAATCATTGTGCCTCCGTTTGGTGAATTTCCA
  GCTTTGACTCTTCATCCCTGGATGTATGGGCATCAATATACCTTCTTCAGCATGGACGAACCCAACAATG
  AACACCTTGAAGTACTGGCAGATGTCCTTCTGAACAGGCCAGGCTTTGGCAACCGTTGTCTAAAGGAAGA
  GTGGCTTCCGGAGTACCCATGCATTAATGCAACCTCCTGGAAGACGCCCTCCGTGTCCCCGAACATCACC
  CACCTGTTCCAGAAGCAGAAATGGACAGCAGCCCACCCCTCTCCCTCCTGCAAGTGCAGCACCAGAGAGA
  AGCTCACCATGTTGCCCGAGTGCCCCGAGGGTGCTGGAGGGCTCCCACCCCCACAGAGGACACAGCGCAG
  CACTGAAGTCCTACAAGACCTCACGAACAGGAACATCTCCGACTACTTGGTAAAAACGTACCCTGCTCTC
  ATAAGAAGCAGCTTAAAGAGCAAATTCTGGGTCAATGAACAGAGGTATGGAGGAATTTCCATCGGAGGAA
  AACTCCCTGCTATCCCCATCAGCGGGGAAGCACTTGTTGGCTTTCTAAGTGGCCTTGGCCAGATGATGAA
  CGTGAGCGGGGGTCCTGTCACCAGGGAGGCCTCCAAAGAAATGTTAGATTTCCTCAAACATCTTGAAACC
  ACAGACAACATTAAGGTATGGTTTAACAACAAGGGCTGGCATGCCCTGGTCAGCTTTCTGAATGTGGCTC
  ACAACGCCATCTTACGGGCCAGCCTGCCCAGGGACAGGGACCCTGAGGAGTATGGAATCACTGTCATCAG
  CCAGCCTCTGAACCTGACCAAGGAGCAGCTCTCGGACATCACAGTACTGACTACTTCCGTGGATGCCGTG
  GTTGCCATATGTGTGATTTTCGCCATGTCCTTCGTTCCAGCCAGCTTTGTCCTTTACTTGATCCAGGAGA
  GGGTGACGAAAGCTAAACATTTGCAGTTTATCAGTGGTGTGAGCCCCACCACCTACTGGCTGACCAACTT
  CCTCTGGGATATTATGAATTATGCTGTGAGTGCGGGATTGGTGGTGGGCATCTTCATTGGATTTCAAAAG
  AAAGCCTACACATCCCCAGACAACCTTCCTGCTCTCGTCTCTCTGCTCATGCTGTATGGATGGGCAGTCA
  TTCCTATGATGTATCCAGCATCCTTCCTGTTTGAAGTCCCCAGCACAGCCTATGTGGCTTTGTCCTGTGC
  TAACCTGTTCATCGGCATCAACAGCAGCGCCATCACCTTCGTCCTGGAATTATTTGAGAATAACCGGACG
  CTGCTCAGGTTCAATGCCATGTTGAGGAAGTTGCTCATTGTCTTCCCCCACTTCTGCCTGGGCAGGGGCC
  TCATTGACCTGGCACTGAGCCAAGCTGTGACAGACGTCTATGCCCAGTTTGGTGAGGAGTACTCTGCAAA
  CCCATTCCAGTGGGACCTGATTGGGAAGAACCTGGTTGCTATGGCAATAGAAGGGGTGGTATACTTCCTT
  CTGACCCTGCTCATCCAACACCATTTTTTCCTCACCCGGTGGATCGCTGAGCCTGCTAGAGAGCCCGTTT
  TTGATGAAGATGACGATGTGGCTGAAGAAAGACAAAGAGTTATGAGTGGGGGAAATAAAACCGACATCTT
  AAAGCTAAACGAACTAACCAAGGTTTACTCAGGCTCTTCCAGTCCAGCAGTAGATCGGTTATGTGTTGGA
  GTTCGACCTGGAGAGTGCTTTGGCCTCCTGGGAGTGAATGGTGCAGGCAAAACCACCACATTCAAGATGC
  TCACTGGGGACACCACAGTGACATCGGGGGATGCTACTGTGGCAGGCAAGAGCATTTTAACTAGTATTTC
  TGATGTCCATCAAAACATGGGCTACTGTCCTCAGTTTGATGCAATCGATGACCTGCTCACAGGCAGAGAA
  CACCTTTACCTCTATGCCAGGCTGCGGGGCGTGCCATCGAAGGAAATCGAGAAGGTTGCCAACTGGGGTA
  TCCAGAGCCTGGGCTTGTCTCTCTACGCTGACCGCCTGGCAGGCACCTACAGTGGAGGCAATAAGAGGAA
  ACTCTCTACAGCCATAGCTCTCACTGGCTGCCCTCCCCTGCTGCTGCTGGATGAGCCCACGACAGGGATG
  GATCCCCAGGCACGCCGCATGCTGTGGAACACCATTGTGAGCATCATCAGAGAAGGGAGAGCTGTGGTTC
  TCACCTCCCACAGCATGGAAGAATGTGAAGCTCTGTGTACGCGGCTGGCCATCATGGTGAAGGGCACCTT
  TCAGTGTCTGGGTACCATCCAACACCTCAAGTACAAGTTTGGAGACGGCTACATTGTCACAATGAAAATC
  AAATCTCCAAAGGACGACTTGCTTCCCGATTTGAATCCTGTGGAGCAGTTCTTCCAGGGCAACTTCCCTG
  GCAGCGTGCAGAGGGAGAGACACCACAGCATGCTCCAGTTCCAGGTCCCCTCGTCCTCCCTGGCCAGGAT
  CTTCCAGCTGCTCATTTCCCACAAGGACAGCCTGCTCATCGAGGAGTACTCAGTCACCCAGACCACGCTG
  GACCAGGTGTTTGTAAACTTCGCTAAACAGCAGACTGAGACCTATGACCTCCCTCTGCACCCCCGGGCTG
  CTGGAGCCAGCTGGCAAGCCAAGCTTGAAGAGAAATCCGGACGGCTGCAGACACAGGAGCCTTTGCCCGC
  AGGATCTGAACAACTGGCTAACGGAAGCAACCCCACGGCAGCAGAAGATAAGCACACCAGGAGTCCACAG
  
  ACGCGTACGCGGCCGCTCGAGCAGAAACTCATCTCAGAAGAGGATCTGGCAGCAAATGATATCCTGGATT
  ACAAGGATGACGACGATAAGGTTTAA
  Protein Sequence

  >MR212120 representing NM_007378
  Red=Cloning site Green=Tags(s)
  
  MGFLRQIQLLLWKNWTLRKRQKIRFVVELVWPLSLFLVLIWLRNANPLYSQHECHFPNKAMPSAGLLPWL
  QGIFCNMNNPCFQNPTPGESPGTVSNYNNSILARVYRDFQELFMDTPEVQHLGQVWAELRTLSQFMDTLR
  THPERFAGRGLQIRDILKDEEALTLFLMRNIGLSDSVAHLLVNSQVRVEQFAYGVPDLELTDIACSEALL
  QRFIIFSQRRGAQTVRDALCPLSQVTLQWIEDTLYADVDFFKLFHVLPTLLDSSSQGINLRFWGGILSDL
  SPRMQKFIHRPSVQDLLWVSRPLLQNGGPETFTQLMSILSDLLCGYPEGGGSRVFSFNWYEDNNYKAFLG
  IDSTRKDPAYSYDKRTTSFCNSLIQSLESNPLTKIAWRAAKPLLMGKILFTPDSPAARRIMKNANSTFEE
  LDRVRKLVKAWEEVGPQIWYFFEKSTQMTVIRDTLQHPTVKDFINRQLGEEGITTEAVLNFFSNGPQEKQ
  ADDMTSFDWRDIFNITDRFLRLANQYLECLVLDKFESYDDEVQLTQRALSLLEENRFWAGVVFPGMYPWA
  SSLPPHVKYKIRMDIDVVEKTNKIKDRYWDSGPRADPVEDFRYIWGGFAYLQDMVEQGIVKSQMQAEPPI
  GVYLQQMPYPCFVDDSFMIILNRCFPIFMVLAWIYSVSMTVKGIVLEKELRLKETLKNQGVSNAVIWCTW
  FLDSFSIMALSIFLLTLFIMHGRILHYSDPFILFLFLLAFATATIMQSFLLSTLFSKASLAAACSGVIYF
  TLYLPHVLCFAWQDRMTADLKTTVSLLSSVAFGFGTEYLVRFEEQGLGLQWSNIGKSPLEGDEFSFLLSM
  KMMLLDAALYGLLAWYLDQVFPGDYGTPLPWYFLLQESYWLGGEGCSTREERALEKTEPLTEEMEDPEHP
  EGMNDSFFERELPGLVPGVCVKNLVKVFEPSGRPAVDRLNITFYENQITAFLGHNGAGKTTTLSILTGLL
  PPTSGTVLIGGKDIETNLDVVRQSLGMCPQHNILFHHLTVAEHILFYAQLKGRSWEEAQLEMEAMLEDTG
  LHHKRNEEAQDLSGGMQRKLSVAIAFVGDSKVVVLDEPTSGVDPYSRRSIWDLLLKYRSGRTIIMSTHHM
  DEADLLGDRIAIISQGRLYCSGTPLFLKNCFGTGFYLTLVRKMKNIQSQRGGCEGVCSCTSKGFSTRCPT
  RVDEITEEQVLDGDVQELMDLVYHHVPEAKLVECIGQELIFLLPNKNFKQRAYASLFRELEETLADLGLS
  SFGISDTPLEEIFLKVTEDAGAGSMFVGGAQQKREQAGLRHPCSAPTEKLRQYAQAPHTCSPGQVDPPKG
  QPSPEPEDPGVPFNTGARLILQHVQALLVKRFHHTIRSRKDFVAQIVLPATFVFLALMLSIIVPPFGEFP
  ALTLHPWMYGHQYTFFSMDEPNNEHLEVLADVLLNRPGFGNRCLKEEWLPEYPCINATSWKTPSVSPNIT
  HLFQKQKWTAAHPSPSCKCSTREKLTMLPECPEGAGGLPPPQRTQRSTEVLQDLTNRNISDYLVKTYPAL
  IRSSLKSKFWVNEQRYGGISIGGKLPAIPISGEALVGFLSGLGQMMNVSGGPVTREASKEMLDFLKHLET
  TDNIKVWFNNKGWHALVSFLNVAHNAILRASLPRDRDPEEYGITVISQPLNLTKEQLSDITVLTTSVDAV
  VAICVIFAMSFVPASFVLYLIQERVTKAKHLQFISGVSPTTYWLTNFLWDIMNYAVSAGLVVGIFIGFQK
  KAYTSPDNLPALVSLLMLYGWAVIPMMYPASFLFEVPSTAYVALSCANLFIGINSSAITFVLELFENNRT
  LLRFNAMLRKLLIVFPHFCLGRGLIDLALSQAVTDVYAQFGEEYSANPFQWDLIGKNLVAMAIEGVVYFL
  LTLLIQHHFFLTRWIAEPAREPVFDEDDDVAEERQRVMSGGNKTDILKLNELTKVYSGSSSPAVDRLCVG
  VRPGECFGLLGVNGAGKTTTFKMLTGDTTVTSGDATVAGKSILTSISDVHQNMGYCPQFDAIDDLLTGRE
  HLYLYARLRGVPSKEIEKVANWGIQSLGLSLYADRLAGTYSGGNKRKLSTAIALTGCPPLLLLDEPTTGM
  DPQARRMLWNTIVSIIREGRAVVLTSHSMEECEALCTRLAIMVKGTFQCLGTIQHLKYKFGDGYIVTMKI
  KSPKDDLLPDLNPVEQFFQGNFPGSVQRERHHSMLQFQVPSSSLARIFQLLISHKDSLLIEEYSVTQTTL
  DQVFVNFAKQQTETYDLPLHPRAAGASWQAKLEEKSGRLQTQEPLPAGSEQLANGSNPTAAEDKHTRSPQ
  
  TRTRPLEQKLISEEDLAANDILDYKDDDDKV
• Restriction Sites: SgfI-MluI Cloning Scheme for this gene Plasmid Map
• ACCN: NM_007378
• ORF Size: 6930 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 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.

Reference Data

• RefSeq: NM_007378.1, NP_031404.1
• RefSeq Size: 7268 bp
• RefSeq ORF: 6933 bp
• Locus ID: 11304
• UniProt ID: O35600
• Cytogenetics: 3 52.94 cM
• MW: 260.7 kDa
• Gene 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 intracellular membranes. ABC genes are divided into seven distinct subfamilies (ABC1, MDR/TAP, MRP, ALD, OABP, GCN20, White). This protein is a member of the ABC1 subfamily. Members of the ABC1 subfamily comprise the only major ABC subfamily found exclusively in multicellular eukaryotes. This protein was the first of the ABC transporters to be observed in photoreceptors and may play a role in the photoresponse. Mutations in the human gene are found in patients diagnosed with Stargardt disease and are associated with retinitis pigmentosa-19 and macular degeneration age-related 2. [provided by RefSeq, Jul 2008]