LRP1 (NM_002332) Human Untagged Clone

CAT#: SC303181

LRP1 (untagged)-Human low density lipoprotein receptor-related protein 1 (LRP1)


  "NM_002332" in other vectors (3)

Reconstitution Protocol

USD 9,210.00

4 Weeks*

Size
    • 10 ug

Product Images

Other products for "LRP1"

Specifications

Product Data
Type Human Untagged Clone
Tag Tag Free
Symbol LRP1
Synonyms A2MR; APOER; APR; CD91; IGFBP-3R; IGFBP3R; IGFBP3R1; KPA; LRP; LRP1A; TGFBR5
Vector pCMV6-Entry
E. coli Selection Kanamycin (25 ug/mL)
Mammalian Cell Selection Neomycin
Sequence Data
>OriGene ORF sequence for NM_002332 edited
ATGCTGACCCCGCCGTTGCTCCTGCTGCTGCCCCTGCTCTCAGCTCTGGTCGCGGCGGCT
ATCGACGCCCCTAAGACTTGCAGCCCCAAGCAGTTTGCCTGCAGAGATCAAATAACCTGT
ATCTCAAAGGGCTGGCGGTGCGACGGTGAGAGGGACTGCCCAGACGGATCTGACGAGGCC
CCTGAGATTTGTCCACAGAGTAAGGCCCAGCGATGCCAGCCAAACGAGCATAACTGCCTG
GGTACTGAGCTGTGTGTTCCCATGTCCCGCCTCTGCAATGGGGTCCAGGACTGCATGGAC
GGCTCAGATGAGGGGCCCCACTGCCGAGAGCTCCAAGGCAACTGCTCTCGCCTGGGCTGC
CAGCACCATTGTGTCCCCACACTCGATGGGCCCACCTGCTACTGCAACAGCAGCTTTCAG
CTTCAGGCAGATGGCAAGACCTGCAAAGATTTTGATGAGTGCTCAGTGTACGGCACCTGC
AGCCAGCTATGCACCAACACAGACGGCTCCTTCATATGTGGCTGTGTTGAAGGATACCTC
CTGCAGCCGGATAACCGCTCCTGCAAGGCCAAGAACGAGCCAGTAGACCGGCCCCCTGTG
CTGTTGATAGCCAACTCCCAGAACATCTTGGCCACGTACCTGAGTGGGGCCCAGGTGTCT
ACCATCACACCTACGAGCACGCGGCAGACCACAGCCATGGACTTCAGCTATGCCAACGAG
ACCGTATGCTGGGTGCATGTTGGGGACAGTGCTGCTCAGACGCAGCTCAAGTGTGCCCGC
ATGCCTGGCCTAAAGGGCTTCGTGGATGAGCACACCATCAACATCTCCCTCAGTCTGCAC
CACGTGGAACAGATGGCCATCGACTGGCTGACAGGCAACTTCTACTTTGTGGATGACATC
GATGATAGGATCTTTGTCTGCAACAGAAATGGGGACACATGTGTCACATTGCTAGACCTG
GAACTCTACAACCCCAAGGGCATTGCCCTGGACCCTGCCATGGGGAAGGTGTTTTTCACT
GACTATGGGCAGATCCCAAAGGTGGAACGCTGTGACATGGATGGGCAGAACCGCACCAAG
CTCGTCGACAGCAAGATTGTGTTTCCTCATGGCATCACGCTGGACCTGGTCAGCCGCCTT
GTCTACTGGGCAGATGCCTATCTGGACTATATTGAAGTGGTGGACTATGAGGGCAAGGGC
CGCCAGACCATCATCCAGGGCATCCTGATTGAGCACCTGTACGGCCTGACTGTGTTTGAG
AATTATCTCTATGCCACCAACTCGGACAATGCCAATGCCCAGCAGAAGACGAGTGTGATC
CGTGTGAACCGCTTTAACAGCACCGAGTACCAGGTTGTCACCCGGGTGGACAAGGGTGGT
GCCCTCCACATCTACCACCAGAGGCGTCAGCCCCGAGTGAGGAGCCATGCCTGTGAAAAC
GACCAGTATGGGAAGCCGGGTGGCTGCTCTGACATCTGCCTGCTGGCCAACAGCCACAAG
GCGCGGACCTGCCGCTGCCGTTCCGGCTTCAGCCTGGGCAGTGACGGGAAGTCATGCAAG
AAGCCGGAGCATGAGCTGTTCCTCGTGTATGGCAAGGGCCGGCCAGGCATCATCCGGGGC
ATGGATATGGGGGCCAAGGTCCCGGATGAGCACATGATCCCCATTGAAAACCTCATGAAC
CCCCGAGCCCTGGACTTCCACGCTGAGACCGGCTTCATCTACTTTGCCGACACCACCAGC
TACCTCATTGGCCGCCAGAAGATTGATGGCACTGAGCGGGAGACCATCCTGAAGGACGGC
ATCCACATTGTGGAGGGTGTGGCCGTGGACTGGATGGGAGACAATCTGTACTGGACGGAC
GATGGGCCCAAAAAGACAATCAGCGTGGCCAGGCTGGAGAAAGCTGCTCAGACCCGCAAG
ACTTTAATCGAGGGCAAAATGACACACCCCAGGGCTATTGTGGTGGATCCACTCAATGGG
TGGATGTACTGGACAGACTGGGAGGAGGACCCCAAGGACAGTCGGCGTGGGCGGCTGGAG
AGGGCGTGGATGGATGGCTCACACCGAGACATCTTTGTCACCTCCAAGACAGTGCTTTGG
CCCAATGGGCTAAGCCTGGACATCCCGGCTGGGCGCCTCTACTGGGTGGATGCCTTCTAC
GACCGCATCGAGACGATACTGCTCAATGGCACAGACCGGAAGATTGTGTATGAAGGTCCT
GAGCTGAACCACGCCTTTGGCCTGTGTCACCATGGCAACTACCTCTTCTGGACTGAGTAT
CGGAGTGGCAGTGTCTACCGCTTGGAACGGGGTGTAGGAGGCGCACCCCCCACTGTGACC
CTTCTGCGCAGTGAGCGGCCCCCCATCTTTGAGATCCGAATGTATGATGCCCAGCAGCAG
CAAGTTGGCACCAACAAATGCCGGGTGAACAATGGCGGCTGCAGCAGCCTGTGCTTGGCC
ACCCCTGGGAGCCGCCAGTGCGCCTGTGCTGAGGACCAGGTGTTGGACGCAGACGGCGTC
ACTTGCTTGGCGAACCCATCCTACGTGCCTCCACCCCAGTGCCAGCCAGGCGAGTTTGCC
TGTGCCAACAGCCGCTGCATCCAGGAGCGCTGGAAGTGTGACGGAGACAACGATTGCCTG
GACAACAGTGATGAGGCCCCAGCCCTCTGCCATCAGCACACCTGCCCCTCGGACCGATTC
AAGTGCGAGAACAACCGGTGCATCCCCAACCGCTGGCTCTGCGACGGGGACAATGACTGT
GGGAACAGTGAAGATGAGTCCAATGCCACTTGTTCAGCCCGCACCTGCCCCCCCAACCAG
TTCTCCTGTGCCAGTGGCCGCTGCATCCCCATCTCCTGGACGTGTGATCTGGATGACGAC
TGTGGGGACCGCTCTGATGAGTCTGCTTCGTGTGCCTATCCCACCTGCTTCCCCCTGACT
CAGTTTACCTGCAACAATGGCAGATGTATCAACATCAACTGGAGATGCGACAATGACAAT
GACTGTGGGGACAACAGTGACGAAGCCGGCTGCAGCCACTCCTGTTCTAGCACCCAGTTC
AAGTGCAACAGCGGGCGTTGCATCCCCGAGCACTGGACCTGCGATGGGGACAATGACTGC
GGAGACTACAGTGATGAGACACACGCCAACTGCACCAACCAGGCCACGAGGCCCCCTGGT
GGCTGCCACACTGATGAGTTCCAGTGCCGGCTGGATGGACTATGCATCCCCCTGCGGTGG
CGCTGCGATGGGGACACTGACTGCATGGACTCCAGCGATGAGAAGAGCTGTGAGGGAGTG
ACCCACGTCTGCGATCCCAGTGTCAAGTTTGGCTGCAAGGACTCAGCTCGGTGCATCAGC
AAAGCGTGGGTGTGTGATGGCGACAATGACTGTGAGGATAACTCGGACGAGGAGAACTGC
GAGTCCCTGGCCTGCAGGCCACCCTCGCACCCTTGTGCCAACAACACCTCAGTCTGCCTG
CCCCCTGACAAGCTGTGTGATGGCAACGACGACTGTGGCGACGGCTCAGATGAGGGCGAG
CTCTGTGACCAGTGCTCTCTGAATAACGGTGGCTGCAGCCACAACTGCTCAGTGGCACCT
GGCGAAGGCATTGTGTGTTCCTGCCCTCTGGGCATGGAGCTGGGGCCCGACAACCACACC
TGCCAGATCCAGAGCTACTGTGCCAAGCATCTCAAATGCAGCCAAAAGTGCGACCAGAAC
AAGTTCAGCGTGAAGTGCTCCTGCTACGAGGGCTGGGTCCTGGAACCTGACGGCGAGAGC
TGCCGCAGCCTGGACCCCTTCAAGCCGTTCATCATTTTCTCCAACCGCCATGAAATCCGG
CGCATCGATCTTCACAAAGGAGACTACAGCGTCCTGGTGCCCGGCCTGCGCAACACCATC
GCCCTGGACTTCCACCTCAGCCAGAGCGCCCTCTACTGGACCGACGTGGTGGAGGACAAG
ATCTACCGCGGGAAGCTGCTGGACAACGGAGCCCTGACTAGTTTCGAGGTGGTGATTCAG
TATGGCCTGGCCACACCCGAGGGCCTGGCTGTAGACTGGATTGCAGGCAACATCTACTGG
GTGGAGAGTAACCTGGATCAGATCGAGGTGGCCAAGCTGGATGGGACCCTCCGGACCACC
CTGCTGGCCGGTGACATTGAGCACCCAAGGGCAATCGCACTGGATCCCCGGGATGGGATC
CTGTTTTGGACAGACTGGGATGCCAGCCTGCCCCGCATTGAGGCAGCCTCCATGAGTGGG
GCTGGGCGCCGCACCGTGCACCGGGAGACCGGCTCTGGGGGCTGGCCCAACGGGCTCACC
GTGGACTACCTGGAGAAGCGCATCCTTTGGATTGACGCCAGGTCAGATGCCATTTACTCA
GCCCGTTACGACGGCTCTGGCCACATGGAGGTGCTTCGGGGACACGAGTTCCTGTCGCAC
CCGTTTGCAGTGACGCTGTACGGGGGGGAGGTCTACTGGACTGACTGGCGAACAAACACA
CTGGCTAAGGCCAACAAGTGGACCGGCCACAATGTCACCGTGGTACAGAGGACCAACACC
CAGCCCTTTGACCTGCAGGTGTACCACCCCTCCCGCCAGCCCATGGCTCCCAATCCCTGT
GAGGCCAATGGGGGCCAGGGCCCCTGCTCCCACCTGTGTCTCATCAACTACAACCGGACC
GTGTCCTGCGCCTGCCCCCACCTCATGAAGCTCCACAAGGACAACACCACCTGCTATGAG
TTTAAGAAGTTCCTGCTGTACGCACGTCAGATGGAGATCCGAGGTGTGGACCTGGATGCT
CCCTACTACAACTACATCATCTCCTTCACGGTGCCCGACATCGACAACGTCACAGTGCTA
GACTACGATGCCCGCGAGCAGCGTGTGTACTGGTCTGACGTGCGGACACAGGCCATCAAG
CGGGCCTTCATCAACGGCACAGGCGTGGAGACAGTCGTCTCTGCAGACTTGCCAAATGCC
CACGGGCTGGCTGTGGACTGGGTCTCCCGAAACCTGTTCTGGACAAGCTATGACACCAAT
AAGAAGCAGATCAATGTGGCCCGGCTGGATGGCTCCTTCAAGAACGCAGTGGTGCAGGGC
CTGGAGCAGCCCCATGGCCTTGTCGTCCACCCTCTGCGTGGGAAGCTCTACTGGACCGAT
GGTGACAACATCAGCATGGCCAACATGGATGGCAGCAATCGCACCCTGCTCTTCAGTGGC
CAGAAGGGCCCCGTGGGCCTGGCTATTGACTTCCCTGAAAGCAAACTCTACTGGATCAGC
TCCGGGAACCATACCATCAACCGCTGCAACCTGGATGGGAGTGGGCTGGAGGTCATCGAT
GCCATGCGGAGCCAGCTGGGCAAGGCCACCGCCCTGGCCATCATGGGGGACAAGCTGTGG
TGGGCTGATCAGGTGTCGGAAAAGATGGGCACATGCAGCAAGGCTGACGGCTCGGGCTCC
GTGGTCCTTCGGAACAGCACCACCCTGGTGATGCACATGAAGGTCTATGACGAGAGCATC
CAGCTGGACCATAAGGGCACCAACCCCTGCAGTGTCAACAACGGTGACTGCTCCCAGCTC
TGCCTGCCCACGTCAGAGACGACCCGCTCCTGCATGTGCACAGCCGGCTATAGCCTCCGG
AGTGGCCAGCAGGCCTGCGAGGGCGTAGGTTCCTTTCTCCTGTACTCTGTGCATGAGGGA
ATCAGGGGAATTCCCCTGGATCCCAATGACAAGTCAGATGCCCTGGTCCCAGTGTCCGGG
ACCTCGCTGGCTGTCGGCATCGACTTCCACGCTGAAAATGACACCATCTACTGGGTGGAC
ATGGGCCTGAGCACGATCAGCCGGGCCAAGCGGGACCAGACGTGGCGTGAAGACGTGGTG
ACCAATGGCATTGGCCGTGTGGAGGGCATTGCAGTGGACTGGATCGCAGGCAACATCTAC
TGGACAGACCAGGGCTTTGATGTCATCGAGGTCGCCCGGCTCAATGGCTCCTTCCGCTAC
GTGGTGATCTCCCAGGGTCTAGACAAGCCCCGGGCCATCACCGTCCACCCGGAGAAAGGG
TACTTGTTCTGGACTGAGTGGGGTCAGTATCCGCGTATTGAGCGGTCTCGGCTAGATGGC
ACGGAGCGTGTGGTGCTGGTCAACGTCAGCATCAGCTGGCCCAACGGCATCTCAGTGGAC
TACCAGGATGGGAAGCTGTACTGGTGCGATGCACGGACAGACAAGATTGAACGGATCGAC
CTGGAGACAGGTGAGAACCGCGAGGTGGTTCTGTCCAGCAACAACATGGACATGTTTTCA
GTGTCTGTGTTTGAGGATTTCATCTACTGGAGTGACAGGACTCATGCCAACGGCTCTATC
AAGCGCGGGAGCAAAGACAATGCCACAGACTCCGTGCCCCTGCGAACCGGCATCGGCGTC
CAGCTTAAAGACATCAAAGTCTTCAACCGGGACCGGCAGAAAGGCACCAACGTGTGCGCG
GTGGCCAATGGCGGGTGCCAGCAGCTGTGCCTGTACCGGGGCCGTGGGCAGCGGGCCTGC
GCCTGTGCCCACGGGATGCTGGCTGAAGACGGAGCATCGTGCCGCGAGTATGCCGGCTAC
CTGCTCTACTCAGAGCGCACCATTCTCAAGAGTATCCACCTGTCGGATGAGCGCAACCTC
AATGCGCCCGTGCAGCCCTTCGAGGACCCTGAGCACATGAAGAACGTCATCGCCCTGGCC
TTTGACTACCGGGCAGGCACCTCTCCGGGCACCCCCAATCGCATCTTCTTCAGCGACATC
CACTTTGGGAACATCCAACAGATCAACGACGATGGCTCCAGGAGGATCACCATTGTGGAA
AACGTGGGCTCCGTGGAAGGCCTGGCCTATCACCGTGGCTGGGACACTCTCTATTGGACA
AGCTACACGACATCCACCATCACGCGCCACACAGTGGACCAGACCCGCCCAGGGGCCTTC
GAGCGTGAGACCGTCATCACTATGTCTGGAGATGACCACCCACGGGCCTTCGTTTTGGAC
GAGTGCCAGAACCTCATGTTCTGGACCAACTGGAATGAGCAGCATCCCAGCATCATGCGG
GCGGCGCTCTCGGGAGCCAATGTCCTGACCCTTATCGAGAAGGACATCCGTACCCCCAAT
GGCCTGGCCATCGACCACCGTGCCGAGAAGCTCTACTTCTCTGACGCCACCCTGGACAAG
ATCGAGCGGTGCGAGTATGACGGCTCCCACCGCTATGTGATCCTAAAGTCAGAGCCTGTC
CACCCCTTCGGGCTGGCCGTGTATGGGGAGCACATTTTCTGGACTGACTGGGTGCGGCGG
GCAGTGCAGCGGGCCAACAAGCACGTGGGCAGCAACATGAAGCTGCTGCGCGTGGACATC
CCCCAGCAGCCCATGGGCATCATCGCCGTGGCCAACGACACCAACAGCTGTGAACTCTCT
CCATGCCGAATCAACAACGGTGGCTGCCAGGACCTGTGTCTGCTCACTCACCAGGGCCAT
GTCAACTGCTCATGCCGAGGGGGCCGAATCCTCCAGGATGACCTCACCTGCCGAGCGGTG
AATTCCTCTTGCCGAGCACAAGATGAGTTTGAGTGTGCCAATGGCGAGTGCATCAACTTC
AGCCTGACCTGCGACGGCGTCCCCCACTGCAAGGACAAGTCCGATGAGAAGCCATCCTAC
TGCAACTCCCGCCGCTGCAAGAAGACTTTCCGGCAGTGCAGCAATGGGCGCTGTGTGTCC
AACATGCTGTGGTGCAACGGGGCCGACGACTGTGGGGATGGCTCTGACGAGATCCCTTGC
AACAAGACAGCCTGTGGTGTGGGCGAGTTCCGCTGCCGGGACGGGACCTGCATCGGGAAC
TCCAGCCGCTGCAACCAGTTTGTGGATTGTGAGGACGCCTCAGATGAGATGAACTGCAGT
GCCACCGACTGCAGCAGCTACTTCCGCCTGGGCGTGAAGGGCGTGCTCTTCCAGCCCTGC
GAGCGGACCTCACTCTGCTACGCACCCAGCTGGGTGTGTGATGGCGCCAATGACTGTGGG
GACTACAGTGATGAGCGCGACTGCCCAGGTGTGAAACGCCCCAGATGCCCTCTGAATTAC
TTCGCCTGCCCTAGTGGGCGCTGCATCCCCATGAGCTGGACGTGTGACAAAGAGGATGAC
TGTGAACATGGCGAGGACGAGACCCACTGCAACAAGTTCTGCTCAGAGGCCCAGTTTGAG
TGCCAGAACCATCGCTGCATCTCCAAGCAGTGGCTGTGTGACGGCAGCGATGACTGTGGG
GATGGCTCAGACGAGGCTGCTCACTGTGAAGGCAAGACGTGCGGCCCCTCCTCCTTCTCC
TGCCCTGGCACCCACGTGTGCGTCCCCGAGCGCTGGCTCTGTGACGGTGACAAAGACTGT
GCTGATGGTGCAGACGAGAGCATCGCAGCTGGTTGCTTGTACAACAGCACTTGTGACGAC
CGTGAGTTCATGTGCCAGAACCGCCAGTGCATCCCCAAGCACTTCGTGTGTGACCACGAC
CGTGACTGTGCAGATGGCTCTGATGAGTCCCCCGAGTGTGAGTACCCGACCTGCGGCCCC
AGTGAGTTCCGCTGTGCCAATGGGCGCTGTCTGAGCTCCCGCCAGTGGGAGTGTGATGGC
GAGAATGACTGCCACGACCAGAGTGACGAGGCTCCCAAGAACCCACACTGCACCAGCCAA
GAGCACAAGTGCAATGCCTCGTCACAGTTCCTGTGCAGCAGTGGGCGCTGTGTGGCTGAG
GCACTGCTCTGCAACGGCCAGGATGACTGTGGCGACAGCTCGGACGAGCGTGGCTGCCAC
ATCAATGAGTGTCTCAGCCGCAAGCTCAGTGGCTGCAGCCAGGACTGTGAGGACCTCAAG
ATCGGCTTCAAGTGCCGCTGTCGCCCTGGCTTCCGGCTGAAGGATGACGGCCGGACGTGT
GCTGATGTGGACGAGTGCAGCACCACCTTCCCCTGCAGCCAGCGCTGCATCAACACCCAT
GGCAGCTATAAGTGTCTGTGTGTGGAGGGCTATGCACCCCGCGGCGGCGACCCCCACAGC
TGCAAGGCTGTGACTGACGAGGAACCGTTTCTGATCTTCGCCAACCGGTACTACCTGCGC
AAGCTCAACCTGGACGGGTCCAACTACACGTTACTTAAGCAGGGCCTGAACAACGCCGTT
GCCTTGGATTTTGACTACCGAGAGCAGATGATCTACTGGACAGATGTGACCACCCAGGGC
AGCATGATCCGAAGGATGCACCTTAACGGGAGCAATGTGCAGGTCCTACACCGTACAGGC
CTCAGCAACCCCGATGGGCTGGCTGTGGACTGGGTGGGTGGCAACCTGTACTGGTGCGAC
AAAGGCCGGGACACCATCGAGGTGTCCAAGCTCAATGGGGCCTATCGGACGGTGCTGGTC
AGCTCTGGCCTCCGTGAGCCCAGGGCTCTGGTGGTGGATGTGCAGAATGGGTACCTGTAC
TGGACAGACTGGGGTGACCATTCACTGATCGGCCGCATCGGCATGGATGGGTCCAGCCGC
AGCGTCATCGTGGACACCAAGATCACATGGCCCAATGGCCTGACGCTGGACTATGTCACT
GAGCGCATCTACTGGGCCGACGCCCGCGAGGACTACATTGAATTTGCCAGCCTGGATGGC
TCCAATCGCCACGTTGTGCTGAGCCAGGACATCCCGCACATCTTTGCACTGACCCTGTTT
GAGGACTACGTCTACTGGACCGACTGGGAAACAAAGTCCATTAACCGAGCCCACAAGACC
ACGGGCACCAACAAAACGCTCCTCATCAGCACGCTGCACCGGCCCATGGACCTGCATGTC
TTCCATGCCCTGCGCCAGCCAGACGTGCCCAATCACCCCTGCAAGGTCAACAATGGTGGC
TGCAGCAACCTGTGCCTGCTGTCCCCCGGGGGAGGGCACAAATGTGCCTGCCCCACCAAC
TTCTACCTGGGCAGCGATGGGCGCACCTGTGTGTCCAACTGCACGGCTAGCCAGTTTGTA
TGCAAGAACGACAAGTGCATCCCCTTCTGGTGGAAGTGTGACACCGAGGACGACTGCGGG
GACCACTCAGACGAGCCCCCGGACTGCCCTGAGTTCAAGTGCCGGCCCGGACAGTTCCAG
TGCTCCACAGGTATCTGCACAAACCCTGCCTTCATCTGCGATGGCGACAATGACTGCCAG
GACAACAGTGACGAGGCCAACTGTGACATCCACGTCTGCTTGCCCAGTCAGTTCAAATGC
ACCAACACCAACCGCTGTATTCCCGGCATCTTCCGCTGCAATGGGCAGGACAACTGCGGA
GATGGGGAGGATGAGAGGGACTGCCCCGAGGTGACCTGCGCCCCCAACCAGTTCCAGTGC
TCCATTACCAAACGGTGCATCCCCCGGGTCTGGGTCTGCGACCGGGACAATGACTGTGTG
GATGGCAGTGATGAGCCCGCCAACTGCACCCAGATGACCTGTGGTGTGGACGAGTTCCGC
TGCAAGGATTCGGGCCGCTGCATCCCAGCGCGTTGGAAGTGTGACGGAGAGGATGACTGT
GGGGATGGCTCGGATGAGCCCAAGGAAGAGTGTGATGAACGCACCTGTGAGCCATACCAG
TTCCGCTGCAAGAACAACCGCTGCGTGCCCGGCCGCTGGCAGTGCGACTACGACAACGAT
TGCGGTGACAACTCCGATGAAGAGAGCTGCACCCCTCGGCCCTGCTCCGAGAGTGAGTTC
TCCTGTGCCAACGGCCGCTGCATCGCGGGGCGCTGGAAATGCGATGGAGACCACGACTGC
GCGGACGGCTCGGACGAGAAAGACTGCACCCCCCGCTGTGACATGGACCAGTTCCAGTGC
AAGAGCGGCCACTGCATCCCCCTGCGCTGGCGCTGTGACGCAGACGCCGACTGCATGGAC
GGCAGCGACGAGGAGGCCTGCGGCACTGGCGTGCGGACCTGCCCCCTGGACGAGTTCCAG
TGCAACAACACCTTGTGCAAGCCGCTGGCCTGGAAGTGCGATGGCGAGGATGACTGTGGG
GACAACTCAGATGAGAACCCCGAGGAGTGTGCCCGGTTCGTGTGCCCTCCCAACCGGCCC
TTCCGTTGCAAGAATGACCGCGTCTGTCTGTGGATCGGGCGCCAATGCGATGGCACGGAC
AACTGTGGGGATGGGACTGATGAAGAGGACTGTGAGCCCCCCACAGCCCACACCACCCAC
TGCAAAGACAAGAAGGAGTTTCTGTGCCGGAACCAGCGCTGCCTCTCCTCCTCCCTGCGC
TGCAACATGTTCGATGACTGCGGGGACGGCTCTGACGAGGAGGACTGCAGCATCGACCCC
AAGCTGACCAGCTGCGCCACCAATGCCAGCATCTGTGGGGACGAGGCACGCTGCGTGCGC
ACCGAGAAAGCGGCCTACTGTGCCTGCCGCTCGGGCTTCCACACCGTGCCCGGCCAGCCC
GGATGCCAAGACATCAACGAGTGCCTGCGCTTCGGCACCTGCTCCCAGCTCTGCAACAAC
ACCAAGGGCGGCCACCTCTGCAGCTGCGCTCGGAACTTCATGAAGACGCACAACACCTGC
AAGGCCGAAGGCTCTGAGTACCAGGTCCTGTACATCGCTGATGACAATGAGATCCGCAGC
CTGTTCCCCGGCCACCCCCATTCGGCTTACGAGCAGGCATTCCAGGGTGACGAGAGTGTC
CGCATTGATGCTATGGATGTCCATGTCAAGGCTGGCCGTGTCTATTGGACCAACTGGCAC
ACGGGCACCATCTCCTACCGCAGCCTGCCACCTGCTGCGCCTCCTACCACTTCCAACCGC
CACCGGCGACAGATTGACCGGGGTGTCACCCACCTCAACATTTCAGGGCTGAAGATGCCC
AGAGGCATCGCCATCGACTGGGTGGCCGGAAACGTGTACTGGACCGACTCGGGCCGAGAT
GTGATTGAGGTGGCGCAGATGAAGGGCGAGAACCGCAAGACGCTCATCTCGGGCATGATT
GACGAGCCCCACGCCATTGTGGTGGACCCACTGAGGGGGACCATGTACTGGTCAGACTGG
GGCAACCACCCCAAGATTGAGACGGCAGCGATGGATGGGACGCTTCGGGAGACACTGGTG
CAGGACAACATTCAGTGGCCCACAGGCCTGGCCGTGGATTATCACAATGAGCGGCTGTAC
TGGGCAGACGCCAAGCTTTCAGTCATCGGCAGCATCCGGCTCAATGGCACGGACCCCATT
GTGGCTGCTGACAGCAAACGAGGCCTAAGTCACCCCTTCAGCATCGACGTCTTTGAGGAT
TACATCTATGGTGTCACCTACATCAATAATCGTGTCTTCAAGATCCATAAGTTTGGCCAC
AGCCCCTTGGTCAACCTGACAGGGGGCCTGAGCCACGCCTCTGACGTGGTCCTTTACCAT
CAGCACAAGCAGCCCGAAGTGACCAACCCATGTGACCGCAAGAAATGCGAGTGGCTCTGC
CTGCTGAGCCCCAGTGGGCCTGTCTGCACCTGTCCCAATGGGAAGCGGCTGGACAACGGC
ACATGCGTGCCTGTGCCCTCTCCAACGCCCCCCCCAGATGCTCCCCGGCCTGGAACCTGT
AACCTGCAGTGCTTCAACGGTGGCAGCTGTTTCCTCAATGCACGGAGGCAGCCCAAGTGC
CGCTGCCAACCCCGCTACACGGGTGACAAGTGTGAACTGGACCAGTGCTGGGAGCACTGT
CGCAATGGGGGCACCTGTGCTGCCTCCCCCTCTGGCATGCCCACGTGCCGGTGCCCCACG
GGCTTCACGGGCCCCAAATGCACCCAGCAGGTGTGTGCGGGCTACTGTGCCAACAACAGC
ACCTGCACTGTCAACCAGGGCAACCAGCCCCAGTGCCGATGCCTACCCGGCTTCCTGGGC
GACCGCTGCCAGTACCGGCAGTGCTCTGGCTACTGTGAGAACTTTGGCACATGCCAGATG
GCTGCTGATGGCTCCCGACAATGCCGCTGCACTGCCTACTTTGAGGGATCGAGGTGTGAG
GTGAACAAGTGCAGCCGCTGTCTCGAAGGGGCCTGTGTGGTCAACAAGCAGAGTGGGGAT
GTCACCTGCAACTGCACGGATGGCCGGGTGGCCCCCAGCTGTCTGACCTGCGTCGGCCAC
TGCAGCAATGGCGGCTCCTGTACCATGAACAGCAAAATGATGCCTGAGTGCCAGTGCCCA
CCCCACATGACAGGGCCCCGGTGTGAGGAGCACGTCTTCAGCCAGCAGCAGCCAGGACAT
ATAGCCTCCATCCTAATCCCTCTGCTGTTGCTGCTGCTGCTGGTTCTGGTGGCCGGAGTG
GTATTCTGGTATAAGCGGCGAGTCCAAGGGGCTAAGGGCTTCCAGCACCAACGGATGACC
AACGGGGCCATGAACGTGGAGATTGGAAACCCCACCTACAAGATGTACGAAGGCGGAGAG
CCTGATGATGTGGGAGGCCTACTGGACGCTGACTTTGCCCTGGACCCTGACAAGCCCACC
AACTTCACCAACCCCGTGTATGCCACACTCTACATGGGGGGCCATGGCAGTCGCCACTCC
CTGGCCAGCACGGACGAGAAGCGAGAACTCCTGGGCCGGGGCCCTGAGGACGAGATAGGG
GACCCCTTGGCATAG
Restriction Sites Please inquire     
ACCN NM_002332
Insert Size 15000 bp
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 The full-length of this clone was sequenced and its ORF matches with NM_002332.1. A few SNPs were observed in the ORF.
Product Components The cDNA clone is shipped in a 2-D bar-coded Matrix tube as dried plasmid DNA. The package also includes 100 pmols of both the corresponding 5' and 3' vector primers in separate vials. Every lot of primer is tested to provide clean sequencing of OriGene TrueClones.
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_002332.1, NP_002323.1
RefSeq Size 14896 bp
RefSeq ORF 13635 bp
Locus ID 4035
Cytogenetics 12q13.3
Protein Families Druggable Genome, Transmembrane
Protein Pathways Alzheimer's disease
Gene Summary 'This gene encodes a member of the low-density lipoprotein receptor family of proteins. The encoded preproprotein is proteolytically processed by furin to generate 515 kDa and 85 kDa subunits that form the mature receptor (PMID: 8546712). This receptor is involved in several cellular processes, including intracellular signaling, lipid homeostasis, and clearance of apoptotic cells. In addition, the encoded protein is necessary for the alpha 2-macroglobulin-mediated clearance of secreted amyloid precursor protein and beta-amyloid, the main component of amyloid plaques found in Alzheimer patients. Expression of this gene decreases with age and has been found to be lower than controls in brain tissue from Alzheimer's disease patients. [provided by RefSeq, Oct 2015]'

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