Abca4 (NM_007378) Mouse Untagged Clone

CAT#: MC225267

Abca4 (untagged) - Mouse ATP-binding cassette, sub-family A (ABC1), member 4 (Abca4), (10ug)

SDS

  "NM_007378" in other vectors (2)

Reconstitution Protocol

USD 3,900.00

10 Weeks*

Size
    • 10 ug
Bulk Requests & Clone Modifications

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Specifications

Product Data
Type Mouse Untagged Clone
Tag Tag Free
Symbol Abca4
Synonyms Abc10; Abcr; AW050280; D430003I15Rik; RmP
Vector pCMV6-Entry
E. coli Selection Kanamycin (25 ug/mL)
Mammalian Cell Selection Neomycin
Sequence Data
>MC225267 representing NM_007378
Red=Cloning site Blue=ORF Orange=Stop codon

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
TGA

ACGCGTACGCGGCCGCTCGAGCAGAAACTCATCTCAGAAGAGGATCTGGCAGCAAATGATATCCTGGATT
ACAAGGATGACGACGATAAGGTTTAA
Restriction Sites SgfI-MluI     
ACCN NM_007378
ORF Size 6933 bp
Insert Size 6933
OTI Disclaimer 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).
Reference Data
RefSeq NM_007378.1, NP_031404.1
RefSeq Size 7268
RefSeq ORF 6933
Locus ID 11304
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]

Other Versions

SKU Description Size Price
MR212120 Abca4 (Myc-DDK-tagged) - Mouse ATP-binding cassette, sub-family A (ABC1), member 4 (Abca4)
    • 10 ug

USD 2,670.00

MG212120 Abca4 (GFP-tagged) - Mouse ATP-binding cassette, sub-family A (ABC1), member 4 (Abca4)
    • 10 ug

USD 2,940.00

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