Heparan Sulfate Proteoglycan 2 (HSPG2) (NM_005529) Human Tagged ORF Clone

CAT#: RG223950

HSPG2 (tGFP-tagged) - Human heparan sulfate proteoglycan 2 (HSPG2)

Product Images

Circular map for RG223950

Specifications

Product Data

• Type: Human Tagged ORF Clone
• Tag: TurboGFP
• Symbol: Heparan Sulfate Proteoglycan 2
• Synonyms: HSPG; PLC; PRCAN; SJA; SJS; SJS1
• Vector: pCMV6-AC-GFP
• E. coli Selection: Ampicillin (100 ug/mL)
• Mammalian Cell Selection: Neomycin
• Sequence Data:
  ORF Nucleotide Sequence

  >RG223950 representing NM_005529
  Red=Cloning site Blue=ORF Green=Tags(s)
  
  TTTTGTAATACGACTCACTATAGGGCGGCCGGGAATTCGTCGACTGGATCCGGTACCGAGGAGATCTGCC
  GCCGCGATCGCC
  
  ATGGGGTGGCGGGCGCCGGGCGCGCTGCTGCTGGCGCTGCTGCTGCACGGGCGGCTGCTGGCGGTGACCC
  ATGGGCTGAGGGCATACGATGGCTTGTCTCTGCCTGAGGACATAGAGACCGTCACAGCAAGCCAAATGCG
  CTGGACACATTCGTACCTTTCTGATGATGAGGACATGCTGGCTGACAGCATCTCAGGAGACGACCTGGGC
  AGTGGGGACCTGGGCAGCGGGGACTTCCAGATGGTTTATTTCCGAGCCCTGGTGAATTTCACTCGCTCCA
  TCGAGTACAGCCCTCAGCTGGAGGATGCAGGCTCCAGAGAGTTTCGAGAGGTGTCCGAGGCTGTGGTAGA
  CACGCTGGAGTCGGAGTACTTGAAAATTCCCGGAGACCAGGTTGTCAGTGTGGTGTTCATCAAGGAGCTG
  GATGGCTGGGTTTTTGTGGAGCTGGATGTGGGCTCGGAAGGGAATGCGGATGGGGCTCAGATTCAGGAGA
  TGCTGCTCAGGGTCATCTCCAGCGGCTCTGTGGCCTCCTACGTCACCTCTCCCCAGGGATTCCAGTTCCG
  ACGCCTGGGCACAGTGCCCCAGTTCCCAAGAGCCTGCACGGAGGCCGAGTTTGCCTGCCACAGCTACAAT
  GAGTGTGTGGCCCTGGAGTATCGCTGTGACCGGCGGCCCGACTGCAGGGACATGTCTGATGAGCTCAATT
  GTGAGGAGCCAGTCCTGGGTATCAGCCCCACATTCTCTCTCCTTGTGGAGACGACATCTTTACCGCCCCG
  GCCAGAGACAACCATCATGCGACAGCCACCAGTCACCCACGCTCCTCAGCCCCTGCTTCCCGGTTCCGTC
  AGGCCCCTGCCCTGTGGGCCCCAGGAGGCCGCATGCCGCAATGGGCACTGCATCCCCAGAGACTACCTCT
  GCGACGGACAGGAGGACTGCGAGGACGGCAGCGATGAGCTAGACTGTGGCCCCCCGCCACCCTGTGAGCC
  CAACGAGTTCCCCTGCGGGAATGGACATTGTGCCCTCAAGCTGTGGCGCTGCGATGGTGACTTTGACTGT
  GAGGACCGAACTGATGAAGCCAACTGCCCCACCAAGCGTCCTGAGGAAGTGTGCGGGCCCACACAGTTCC
  GATGCGTCTCTACCAACATGTGCATCCCAGCCAGCTTCCACTGTGACGAGGAGAGCGACTGTCCTGACCG
  GAGCGACGAGTTTGGCTGCATGCCCCCCCAGGTGGTGACACCTCCCCGGGAGTCCATCCAGGCTTCCCGG
  GGCCAGACAGTGACCTTCACCTGCGTGGCCATTGGCGTCCCCACCCCCATCATCAATTGGAGGCTCAACT
  GGGGCCACATCCCCTCTCATCCCAGGGTGACAGTGACCAGCGAGGGTGGCCGTGGCACACTGATCATCCG
  TGATGTGAAGGAGTCAGACCAGGGTGCCTACACCTGTGAGGCCATGAACGCCCGGGGCATGGTGTTTGGC
  ATTCCTGACGGTGTCCTTGAGCTCGTCCCACAACGAGGCCCCTGCCCTGACGGCCACTTCTACCTGGAGC
  ACAGCGCCGCCTGCCTGCCCTGCTTCTGCTTTGGCATCACCAGCGTGTGCCAGAGCACCCGCCGCTTCCG
  GGACCAGATCAGGCTGCGCTTTGACCAACCCGATGACTTCAAGGGTGTGAATGTGACAATGCCTGCGCAG
  CCCGGCACGCCACCCCTCTCCTCCACGCAGCTGCAGATCGACCCATCCCTGCACGAGTTCCAGCTAGTCG
  ACCTGTCCCGCCGCTTCCTCGTCCACGACTCCTTCTGGGCTCTGCCTGAACAGTTCCTGGGCAACAAGGT
  GGACTCCTATGGCGGCTCCCTGCGTTACAACGTGCGCTACGAGTTGGCCCGTGGCATGCTGGAGCCAGTG
  CAGCGGCCGGACGTGGTCCTCGTGGGTGCCGGGTACCGCCTCCTCTCCCGAGGCCACACACCCACCCAAC
  CTGGTGCTCTGAACCAGCGCCAGGTCCAGTTCTCTGAGGAGCACTGGGTCCATGAGTCTGGCCGGCCGGT
  GCAGCGCGCGGAGCTGCTGCAGGTGCTGCAGAGCCTGGAGGCCGTGCTCATCCAGACCGTGTACAACACC
  AAGATGGCTAGCGTGGGACTTAGCGACATCGCCATGGATACCACCGTCACCCATGCCACCAGCCATGGCC
  GTGCCCACAGTGTGGAGGAGTGCAGATGCCCCATTGGCTATTCTGGCTTGTCCTGCGAGAGCTGTGATGC
  CCACTTCACTCGGGTGCCTGGTGGGCCCTACCTGGGCACCTGCTCTGGTTGCAGTTGCAATGGCCATGCC
  AGCTCCTGTGACCCTGTGTATGGCCACTGCCTGAATTGCCAGCACAACACGGAGGGGCCACAGTGCAACA
  AGTGCAAGGCTGGCTTCTTTGGGGACGCCATGAAGGCCACGGCCACTTCCTGCCGGCCCTGCCCTTGCCC
  ATACATCGATGCCTCCCGCAGATTCTCAGACACTTGCTTCCTGGACACGGATGGCCAAGCCACATGTGAC
  GCCTGTGCCCCAGGCTACACTGGCCGCCGCTGTGAGAGCTGTGCCCCCGGATACGAGGGCAACCCCATCC
  AGCCCGGCGGGAAGTGCAGGCCCGTCAACCAGGAGATTGTGCGCTGTGACGAGCGTGGCAGCATGGGGAC
  CTCCGGGGAGGCCTGCCGCTGTAAGAACAATGTGGTGGGGCGCTTGTGCAATGAATGTGCTGACGGCTCT
  TTCCACCTGAGTACCCGAAACCCCGATGGCTGCCTCAAGTGCTTCTGCATGGGTGTCAGTCGCCACTGCA
  CCAGCTCTTCATGGAGCCGTGCCCAGTTGCATGGGGCCTCTGAGGAGCCTGGTCACTTCAGCCTGACCAA
  CGCCGCAAGCACCCACACCACCAACGAGGGCATCTTCTCCCCCACGCCCGGGGAACTGGGATTCTCCTCC
  TTCCACAGACTCTTATCTGGACCCTACTTCTGGAGCCTCCCTTCACGCTTCCTGGGGGACAAGGTGACCT
  CCTATGGAGGAGAGCTGCGCTTCACAGTGACCCAGAGGTCCCAGCCGGGCTCCACACCCCTGCACGGGCA
  GCCGTTGGTGGTGCTGCAAGGTAACAACATCATCCTAGAGCACCATGTGGCCCAGGAGCCCAGCCCCGGC
  CAGCCCAGCACCTTCATTGTGCCTTTCCGGGAGCAAGCATGGCAGCGGCCCGATGGGCAGCCAGCCACAC
  GGGAGCACCTGCTGATGGCACTGGCAGGCATCGACACCCTCCTGATCCGAGCATCCTACGCCCAGCAGCC
  CGCTGAGAGCAGGGTCTCTGGCATCAGCATGGACGTGGCTGTGCCCGAGGAAACCGGCCAGGACCCCGCG
  CTGGAAGTGGAACAGTGCTCCTGCCCACCCGGGTACCGTGGGCCGTCCTGCCAGGACTGTGACACAGGCT
  ACACACGCACGCCCAGTGGCCTCTACCTGGGTACCTGTGAACGCTGCAGCTGCCATGGCCACTCAGAGGC
  CTGCGAGCCAGAAACAGGTGCCTGCCAGGGCTGCCAGCATCACACGGAGGGCCCTCGGTGTGAGCAGTGC
  CAGCCAGGATACTACGGGGACGCCCAGCGGGGGACACCACAGGACTGCCAGCTGTGCCCCTGCTACGGAG
  ACCCTGCTGCCGGCCAGGCTGCCCACACTTGTTTTCTGGACACAGACGGCCACCCCACCTGTGATGCGTG
  CTCCCCAGGCCACAGTGGGCGTCACTGTGAGAGGTGCGCCCCTGGCTACTATGGCAACCCCAGCCAGGGC
  CAGCCATGCCAGAGAGACAGCCAGGTGCCAGGGCCCATAGGCTGCAACTGTGACCCCCAAGGCAGCGTCA
  GCAGCCAGTGTGATGCTGCTGGTCAGTGCCAGTGCAAGGCCCAGGTGGAAGGCCTCACTTGCAGCCACTG
  CCGGCCCCACCACTTCCACCTGAGTGCCAGCAACCCAGACGGCTGCCTGCCCTGCTTCTGTATGGGCATC
  ACCCAGCAGTGCGCCAGCTCTGCCTACACACGCCACCTGATCTCCACCCACTTTGCCCCTGGGGACTTCC
  AAGGCTTTGCCCTGGTGAACCCACAGCGAAACAGCCGCCTGACAGGAGAATTCACTGTGGAACCCGTGCC
  CGAGGGTGCCCAGCTCTCTTTTGGCAACTTTGCCCAACTCGGCCATGAGTCCTTCTACTGGCAGCTGCCG
  GAGACATACCAGGGAGACAAGGTGGCGGCCTACGGTGGGAAGTTGCGATACACCCTCTCCTACACAGCAG
  GCCCACAGGGCAGCCCACTCTCTGACCCCGATGTGCAGATCACGGGCAACAACATCATGCTAGTGGCCTC
  CCAGCCAGCGCTGCAGGGCCCTGAGAGGAGGAGCTACGAGATCATGTTCCGAGAGGAATTCTGGCGCCGG
  CCCGATGGGCAGCCGGCCACACGCGAGCACCTCCTGATGGCACTGGCCGACCTGGATGAGCTCCTGATCC
  GGGCCACGTTCTCCTCCGTGCCGCTGGTGGCCAGCATCAGCGCAGTCAGCCTGGAGGTCGCCCAGCCGGG
  GCCCTCAAACAGACCCCGCGCCCTCGAGGTGGAGGAGTGCCGCTGCCCGCCAGGCTACATCGGTCTGTCC
  TGCCAGGACTGTGCCCCCGGCTACACGCGCACCGGGAGTGGGCTCTACCTCGGCCACTGCGAGCTATGTG
  AATGCAATGGCCACTCAGACCTGTGCCACCCAGAGACTGGGGCCTGCTCGCAATGCCAGCACAACGCCGC
  AGGGGAGTTCTGCGAGCTTTGTGCCCCTGGCTACTACGGAGATGCCACAGCCGGGACGCCTGAGGACTGC
  CAGCCCTGTGCCTGCCCACTGACCAACCCAGAGAACATGTTTTCCCGCACCTGTGAGAGCCTGGGAGCCG
  GCGGGTACCGCTGCACGGCCTGCGAACCCGGCTACACTGGCCAGTACTGTGAGCAGTGTGGCCCAGGTTA
  CGTGGGTAACCCCAGTGTGCAAGGGGGCCAGTGCCTGCCAGAGACAAACCAAGCCCCACTGGTGGTCGAG
  GTCCATCCTGCTCGAAGCATAGTGCCCCAAGGTGGCTCCCACTCCCTGCGGTGTCAGGTCAGTGGGAGCC
  CACCCCACTACTTCTATTGGTCCCGTGAGGATGGGCGGCCTGTGCCCAGCGGCACCCAGCAGCGACATCA
  AGGCTCCGAGCTCCACTTCCCCAGCGTCCAGCCCTCGGATGCTGGGGTCTACATTTGCACCTGCCGTAAT
  CTCCACCAATCCAATACCAGCCGGGCAGAGCTGCTGGTCACTGAGGCTCCAAGCAAGCCCATCACAGTGA
  CTGTGGAGGAGCAGCGGAGCCAGAGCGTGCGCCCCGGAGCTGACGTCACCTTCATCTGCACAGCCAAAAG
  CAAGTCCCCAGCCTATACCCTGGTGTGGACCCGCCTGCACAACGGGAAACTGCCCACCCGAGCCATGGAT
  TTCAATGGCATCCTGACCATTCGCAACGTCCAGCTGAGTGATGCAGGCACCTACGTGTGCACCGGCTCCA
  ACATGTTTGCCATGGACCAGGGCACAGCCACTCTACATGTGCAGGCCTCGGGCACCTTGTCCGCCCCCGT
  GGTCTCCATCCATCCGCCACAGCTCACAGTGCAGCCCGGGCAACTGGCGGAGTTCCGCTGCAGCGCCACA
  GGGAGCCCCACGCCCACCCTCGAGTGGACAGGGGGCCCCGGCGGCCAGCTCCCTGCGAAGGCACAAATCC
  ACGGCGGCATCCTGCGCCTGCCAGCTGTCGAGCCCACGGATCAGGCCCAGTACTTGTGCCGAGCCCACAG
  CAGCGCTGGGCAGCAGGTGGCCAGGGCTGTGCTCCACGTGCATGGGGGCGGTGGGCCCAGAGTCCAAGTG
  AGCCCAGAGAGGACCCAGGTCCACGCAGGCCGCACCGTCAGGCTGTACTGCAGGGCTGCAGGCGTGCCTA
  GCGCCACCATCACCTGGAGGAAGGAAGGGGGCAGCCTCCCACCACAGGCCCGGTCAGAGCGCACAGACAT
  CGCGACACTGCTCATCCCAGCCATCACGACTGCTGACGCCGGCTTCTACCTCTGCGTGGCCACCAGCCCT
  GCAGGCACTGCCCAGGCCCGGATCCAAGTGGTTGTCCTTTCAGCCTCAGATGCCAGCCCACCGCCGGTCA
  AGATTGAGTCCTCATCGCCTTCTGTGACAGAAGGGCAAACACTCGACCTCAACTGTGTGGTGGCAGGGTC
  AGCCCATGCCCAGGTCACCTGGTACAGGCGAGGGGGTAGCCTGCCTCCCCACACCCAGGTGCACGGCTCC
  CGTCTGCGGCTCCCCCAGGTCTCACCAGCTGATTCTGGAGAATATGTGTGCCGTGTGGAGAATGGATCGG
  GCCCCAAGGAGGCCTCCATTACTGTGTCTGTGCTCCACGGCACCCATTCTGGCCCCAGCTACACCCCAGT
  GCCCGGCAGCACCCGGCCCATCCGCATCGAGCCCTCCTCCTCACACGTGGCGGAAGGGCAGACCCTGGAT
  CTGAACTGCGTGGTGCCCGGGCAGGCCCACGCCCAGGTCACGTGGCACAAGCGTGGGGGCAGCCTCCCTG
  CCCGGCACCAGACCCACGGCTCGCTGCTGCGGCTGCACCAGGTGACCCCGGCCGACTCAGGCGAGTATGT
  GTGCCATGTGGTGGGCACCTCCGGCCCCCTAGAGGCCTCAGTCCTGGTCACCATCGAAGCCTCTGTCATC
  CCTGGACCCATCCCACCTGTCAGGATCGAGTCTTCATCCTCCACAGTGGCCGAGGGCCAGACCCTGGATC
  TGAGCTGCGTGGTGGCAGGGCAGGCCCACGCCCAGGTCACATGGTACAAGCGTGGGGGCAGCCTCCCTGC
  CCGGCACCAGGTTCGTGGCTCCCGCCTGTACATCTTCCAGGCCTCACCTGCCGATGCGGGACAGTACGTC
  TGCCGGGCCAGCAACGGCATGGAGGCCTCCATCACGGTCACAGTAACTGGGACCCAGGGGGCCAACTTAG
  CCTACCCTGCCGGCAGCACCCAGCCCATCCGCATCGAGCCCTCCTCCTCGCAAGTGGCGGAAGGGCAGAC
  CCTGGATCTGAACTGCGTGGTGCCCGGGCAGTCCCATGCCCAGGTCACGTGGCACAAGCGTGGGGGCAGC
  CTCCCTGTCCGGCACCAGACCCACGGCTCCCTGCTGAGACTCTACCAAGCGTCCCCCGCCGACTCGGGCG
  AGTACGTGTGCCGAGTGTTGGGCAGCTCCGTGCCTCTAGAGGCCTCTGTCCTGGTCACCATTGAGCCTGC
  GGGCTCAGTGCCTGCACTTGGGGTCACCCCCACGGTCCGGATCGAGTCATCGTCTTCGCAAGTGGCCGAG
  GGGCAGACCCTGGACCTGAACTGCCTCGTTGCTGGTCAGGCCCATGCCCAGGTCACGTGGCACAAGCGCG
  GGGGCAGCCTCCCGGCCCGGCACCAGGTGCATGGCTCGAGGCTACGCCTGCTCCAGGTGACCCCAGCTGA
  TTCAGGGGAGTACGTGTGCCGTGTGGTCGGCAGCTCAGGTACCCAGGAAGCCTCAGTCCTTGTCACCATC
  CAGCAGCGCCTTAGTGGCTCCCACTCCCAGGGTGTGGCGTACCCCGTCCGCATCGAGTCCTCCTCAGCCT
  CCCTGGCCAATGGACACACCCTGGACCTCAACTGCCTGGTTGCCAGCCAGGCTCCCCACACCATCACCTG
  GTATAAGCGTGGAGGCAGCTTACCCAGCCGGCACCAGATCGTGGGCTCCCGGCTGCGGATCCCTCAGGTG
  ACTCCGGCAGACTCGGGCGAGTACGTGTGTCACGTCAGTAACGGTGCAGGCTCCCGGGAGACCTCGCTCA
  TCGTCACCATCCAGGGCAGCGGTTCCTCCCACGTGCCCAGCGTCTCCCCACCGATCAGGATCGAGTCGTC
  TTCCCCCACGGTGGTGGAAGGGCAGACCTTGGATCTGAACTGCGTGGTCGCCAGGCAGCCCCAGGCTATC
  ATCACATGGTACAAGCGTGGGGGCAGCCTTCCCTCCCGACACCAGACCCATGGCTCCCACCTGCGGTTGC
  ACCAAATGTCTGTGGCTGACTCGGGCGAGTATGTGTGCCGGGCCAACAACAACATCGATGCCCTGGAGGC
  CTCCATCGTCATCTCCGTCTCCCCTAGCGCCGGCAGCCCCTCCGCCCCTGGCAGCTCCATGCCCATCAGA
  ATTGAGTCATCCTCCTCACACGTGGCCGAAGGGGAGACCCTGGATCTGAACTGCGTGGTCCCCGGGCAGG
  CCCATGCCCAGGTCACTTGGCACAAGCGTGGGGGCAGCCTCCCCAGTCACCATCAGACCCGCGGCTCACG
  GCTGCGGCTGCACCATGTGTCCCCGGCCGACTCGGGTGAATACGTGTGCCGGGTGATGGGCAGCTCTGGC
  CCCCTGGAGGCCTCAGTCCTGGTCACCATCGAAGCCTCTGGCTCAAGTGCTGTCCACGTCCCCGCCCCAG
  GTGGAGCCCCACCCATCCGCATCGAGCCCTCCTCCTCCCGAGTGGCAGAAGGGCAGACCCTGGATCTGAA
  GTGCGTGGTGCCCGGGCAGGCCCACGCCCAGGTCACGTGGCACAAGCGTGGAGGAAACCTCCCTGCCCGG
  CACCAGGTCCACGGCCCACTGCTGAGGCTGAACCAGGTGTCCCCGGCTGACTCTGGCGAGTACTCGTGCC
  AAGTGACCGGAAGCTCAGGCACCCTGGAGGCATCTGTCCTGGTCACAATTGAGCCCTCCAGCCCAGGACC
  CATTCCTGCTCCAGGACTGGCCCAGCCCATCTACATCGAGGCCTCCTCTTCACACGTGACTGAAGGGCAG
  ACTCTGGATCTGAACTGTGTGGTGCCCGGGCAGGCCCATGCCCAGGTCACGTGGTACAAGCGCGGGGGCA
  GCCTCCCCGCCCGGCACCAGACCCATGGCTCCCAGCTGCGGCTCCACCTCGTCTCCCCTGCCGACTCAGG
  CGAGTATGTGTGTCGTGCAGCCAGCGGCCCAGGCCCTGAGCAAGAAGCCTCCTTCACAGTCACCGTCCCG
  CCCAGTGAGGGGTCTTCCTACCGCCTTAGGAGCCCGGTCATCTCCATCGACCCGCCCAGCAGCACCGTGC
  AGCAGGGCCAGGATGCCAGCTTCAAGTGCCTCATCCATGACGGGGCAGCCCCCATCAGCCTCGAGTGGAA
  GACCCGGAACCAGGAGCTGGAGGACAACGTCCACATCAGTCCCAATGGCTCCATCATCACCATCGTGGGC
  ACCCGGCCCAGCAACCACGGTACCTACCGCTGCGTGGCCTCCAATGCCTACGGTGTGGCCCAGAGTGTGG
  TGAACCTCAGTGTGCACGGGCCCCCTACAGTGTCCGTGCTCCCCGAGGGCCCCGTGTGGGTGAAAGTGGG
  AAAGGCTGTCACCCTGGAGTGTGTCAGTGCCGGGGAGCCCCGCTCCTCTGCTCGTTGGACCCGGATCAGC
  AGCACCCCTGCCAAGTTGGAGCAGCGGACATATGGGCTCATGGACAGCCACGCGGTGCTGCAGATTTCAT
  CAGCTAAACCATCAGATGCGGGCACTTATGTGTGCCTTGCTCAGAATGCACTAGGCACAGCACAGAAGCA
  GGTGGAGGTGATCGTGGACACGGGCGCCATGGCCCCAGGGGCCCCTCAGGTCCAAGCTGAAGAAGCTGAG
  CTGACTGTGGAGGCTGGACACACGGCCACCTTGCGCTGCTCAGCCACAGGCAGCCCCGCGCCCACCATCC
  ACTGGTCCAAGCTGCGTTCCCCACTGCCCTGGCAGCACCGGCTGGAAGGTGACACACTCATCATACCCCG
  GGTAGCCCAGCAGGACTCGGGCCAGTACATCTGCAATGCCACTAGCCCTGCTGGGCACGCTGAGGCCACC
  ATCATCCTGCACGTGGAGAGCCCACCATATGCCACCACGGTCCCAGAGCACGCTTCGGTGCAGGCAGGGG
  AGACGGTGCAGCTCCAGTGCCTGGCTCACGGGACACCCCCACTCACCTTCCAGTGGAGCCGCGTGGGCAG
  CAGCCTTCCTGGGAGGGCGACCGCCAGGAACGAGCTGCTGCACTTTGAGCGTGCAGCCCCTGAGGACTCA
  GGCCGCTACCGCTGCCGGGTCACCAACAAGGTGGGCTCAGCCGAGGCCTTTGCCCAGCTGCTCGTCCAAG
  GCCCTCCCGGCTCTCTCCCTGCCACCTCCATCCCAGCAGGGTCCACGCCCACCGTGCAGGTCACGCCTCA
  GCTAGAGACCAAGAGCATTGGGGCCAGCGTTGAGTTCCACTGTGCTGTGCCCAGCGACCGGGGTACCCAG
  CTCCGTTGGTTCAAGGAAGGGGGTCAGCTGCCTCCGGGTCACAGCGTGCAGGATGGGGTGCTCCGAATCC
  AGAACTTGGACCAGAGCTGCCAAGGGACGTATATATGCCAGGCCCATGGACCTTGGGGGAAGGCCCAGGC
  CAGTGCCCAGCTGGTTATCCAAGCCCTGCCCTCGGTGCTCATCAACATCCGGACCTCTGTGCAGACCGTG
  GTGGTTGGCCACGCCGTGGAGTTCGAATGCCTGGCACTGGGTGACCCCAAGCCTCAGGTGACATGGAGCA
  AAGTTGGAGGGCACCTGCGGCCAGGCATTGTGCAGAGCGGAGGTGTCGTCAGGATCGCCCACGTAGAGCT
  GGCTGATGCGGGACAGTATCGCTGCACTGCCACCAACGCAGCTGGCACCACACAATCCCACGTCCTGCTG
  CTTGTGCAAGCCTTGCCCCAGATCTCAATGCCCCAAGAAGTCCGTGTGCCTGCTGGTTCTGCAGCTGTCT
  TCCCCTGCATAGCCTCAGGCTACCCCACTCCTGACATCAGCTGGAGCAAGCTGGATGGCAGCCTGCCACC
  TGACAGCCGCCTGGAGAACAACATGCTGATGCTGCCCTCAGTCCGACCCCAGGACGCAGGTACCTACGTC
  TGCACCGCCACTAACCGCCAGGGCAAGGTCAAAGCCTTTGCCCACCTGCAGGTGCCAGAGCGGGTGGTGC
  CCTACTTCACGCAGACCCCCTACTCCTTCCTACCGCTGCCCACCATCAAGGATGCCTACAGGAAGTTCGA
  GATCAAGATCACCTTCCGGCCCGACTCAGCCGATGGGATGCTGCTGTACAATGGGCAGAAGCGAGTCCCA
  GGGAGCCCCACCAACCTGGCCAACCGGCAGCCCGACTTCATCTCCTTCGGCCTCGTGGGGGGAAGGCCCG
  AGTTCCGGTTCGATGCAGGCTCAGGCATGGCCACCATCCGCCATCCCACACCACTGGCCCTGGGCCATTT
  CCACACCGTGACCCTGCTGCGCAGCCTCACCCAGGGCTCCCTGATTGTGGGTGACCTGGCCCCGGTCAAT
  GGGACCTCCCAGGGCAAGTTCCAGGGCCTGGATCTGAACGAGGAACTCTACCTGGGTGGCTATCCTGACT
  ATGGTGCCATCCCCAAGGCGGGGCTGAGCAGCGGCTTCATAGGCTGTGTCCGGGAGCTGCGCATCCAGGG
  CGAGGAGATCGTCTTCCATGACCTCAACCTCACGGCGCACGGCATCTCCCACTGCCCCACCTGTCGGGAC
  CGGCCCTGCCAGAATGGCGGTCAGTGCCATGACTCTGAGAGCAGCAGCTACGTGTGCGTCTGCCCAGCTG
  GCTTCACCGGGAGCCGCTGTGAGCACTCGCAGGCCCTGCACTGCCATCCAGAGGCCTGTGGGCCCGACGC
  CACCTGTGTGAACCGGCCTGACGGTCGAGGCTACACCTGCCGCTGCCACCTGGGCCGCTCGGGGTTGCGG
  TGTGAGGAAGGTGTGACAGTGACCACCCCCTCGCTGTCGGGTGCTGGCTCCTACCTGGCACTGCCCGCCC
  TCACCAACACACACCACGAGCTACGCCTGGACGTGGAGTTCAAGCCACTCGCCCCTGACGGGGTCCTGCT
  GTTCAGCGGGGGGAAGAGCGGGCCTGTGGAGGACTTCGTGTCCCTGGCGATGGTGGGCGGCCACCTGGAG
  TTCCGCTATGAGTTGGGGTCAGGGCTGGCCGTTCTGCGGAGCGCCGAGCCGCTGGCCCTGGGCCGCTGGC
  ACCGTGTGTCTGCAGAGCGTCTCAACAAGGACGGCAGCCTGCGGGTGAATGGTGGACGCCCTGTGCTGCG
  CTCCTCGCCCGGCAAGAGCCAGGGCCTCAACCTGCACACCCTGCTCTACCTGGGGGGTGTGGAGCCTTCC
  GTGCCACTGTCCCCGGCCACCAACATGAGCGCTCACTTCCGCGGCTGTGTGGGCGAGGTGTCAGTGAATG
  GCAAACGGCTGGACCTCACCTACAGTTTCCTAGGCAGCCAGGGCATCGGGCAATGCTATGATAGCTCCCC
  ATGTGAGCGCCAGCCTTGCCAACATGGTGCCACGTGCATGCCCGCTGGCGAGTATGAGTTCCAGTGCCTG
  TGTCGAGATGGATTCAAAGGAGACCTGTGTGAGCACGAGGAGAACCCCTGCCAGCTCCGTGAACCCTGTC
  TGCATGGGGGCACCTGCCAGGGCACCCGCTGCCTCTGCCTCCCTGGCTTCTCTGGCCCACGCTGCCAACA
  AGGCTCTGGACATGGCATAGCAGAGTCCGACTGGCATCTTGAAGGCAGCGGGGGCAATGATGCCCCTGGG
  CAGTACGGAGCCTATTTCCACGATGATGGCTTCCTCGCCTTCCCTGGCCATGTCTTCTCCAGGAGCCTGC
  CCGAGGTGCCCGAGACCATCGAGCTGGAGGTTCGGACCAGCACAGCCAGTGGCCTCCTGCTCTGGCAGGG
  TGTGGAGGTGGGAGAGGCCGGCCAAGGCAAGGACTTCATCAGCCTCGGGCTTCAAGACGGGCACCTTGTC
  TTCAGGTACCAGCTGGGTAGTGGGGAGGCCCGCCTGGTCTCTGAGGACCCCATCAATGACGGCGAGTGGC
  ACCGGGTGACAGCACTGCGGGAGGGCCGCAGAGGTTCCATCCAAGTCGACGGTGAGGAGCTGGTCAGCGG
  CCGGTCCCCAGGTCCCAACGTGGCAGTCAACGCCAAGGGCAGCGTCTACATCGGCGGAGCCCCTGACGTG
  GCCACGCTGACCGGGGGCAGATTCTCCTCAGGCATCACAGGCTGTGTCAAGAACCTGGTGCTGCACTCGG
  CCCGACCCGGCGCCCCGCCCCCACAGCCCCTGGACCTGCAGCACCGCGCCCAGGCCGGGGCCAACACACG
  CCCCTGCCCCTCG
  
  ACGCGTACGCGGCCGCTCGAG - GFP Tag - GTTTAA
  Protein Sequence

  >RG223950 representing NM_005529
  Red=Cloning site Green=Tags(s)
  
  MGWRAPGALLLALLLHGRLLAVTHGLRAYDGLSLPEDIETVTASQMRWTHSYLSDDEDMLADSISGDDLG
  SGDLGSGDFQMVYFRALVNFTRSIEYSPQLEDAGSREFREVSEAVVDTLESEYLKIPGDQVVSVVFIKEL
  DGWVFVELDVGSEGNADGAQIQEMLLRVISSGSVASYVTSPQGFQFRRLGTVPQFPRACTEAEFACHSYN
  ECVALEYRCDRRPDCRDMSDELNCEEPVLGISPTFSLLVETTSLPPRPETTIMRQPPVTHAPQPLLPGSV
  RPLPCGPQEAACRNGHCIPRDYLCDGQEDCEDGSDELDCGPPPPCEPNEFPCGNGHCALKLWRCDGDFDC
  EDRTDEANCPTKRPEEVCGPTQFRCVSTNMCIPASFHCDEESDCPDRSDEFGCMPPQVVTPPRESIQASR
  GQTVTFTCVAIGVPTPIINWRLNWGHIPSHPRVTVTSEGGRGTLIIRDVKESDQGAYTCEAMNARGMVFG
  IPDGVLELVPQRGPCPDGHFYLEHSAACLPCFCFGITSVCQSTRRFRDQIRLRFDQPDDFKGVNVTMPAQ
  PGTPPLSSTQLQIDPSLHEFQLVDLSRRFLVHDSFWALPEQFLGNKVDSYGGSLRYNVRYELARGMLEPV
  QRPDVVLVGAGYRLLSRGHTPTQPGALNQRQVQFSEEHWVHESGRPVQRAELLQVLQSLEAVLIQTVYNT
  KMASVGLSDIAMDTTVTHATSHGRAHSVEECRCPIGYSGLSCESCDAHFTRVPGGPYLGTCSGCSCNGHA
  SSCDPVYGHCLNCQHNTEGPQCNKCKAGFFGDAMKATATSCRPCPCPYIDASRRFSDTCFLDTDGQATCD
  ACAPGYTGRRCESCAPGYEGNPIQPGGKCRPVNQEIVRCDERGSMGTSGEACRCKNNVVGRLCNECADGS
  FHLSTRNPDGCLKCFCMGVSRHCTSSSWSRAQLHGASEEPGHFSLTNAASTHTTNEGIFSPTPGELGFSS
  FHRLLSGPYFWSLPSRFLGDKVTSYGGELRFTVTQRSQPGSTPLHGQPLVVLQGNNIILEHHVAQEPSPG
  QPSTFIVPFREQAWQRPDGQPATREHLLMALAGIDTLLIRASYAQQPAESRVSGISMDVAVPEETGQDPA
  LEVEQCSCPPGYRGPSCQDCDTGYTRTPSGLYLGTCERCSCHGHSEACEPETGACQGCQHHTEGPRCEQC
  QPGYYGDAQRGTPQDCQLCPCYGDPAAGQAAHTCFLDTDGHPTCDACSPGHSGRHCERCAPGYYGNPSQG
  QPCQRDSQVPGPIGCNCDPQGSVSSQCDAAGQCQCKAQVEGLTCSHCRPHHFHLSASNPDGCLPCFCMGI
  TQQCASSAYTRHLISTHFAPGDFQGFALVNPQRNSRLTGEFTVEPVPEGAQLSFGNFAQLGHESFYWQLP
  ETYQGDKVAAYGGKLRYTLSYTAGPQGSPLSDPDVQITGNNIMLVASQPALQGPERRSYEIMFREEFWRR
  PDGQPATREHLLMALADLDELLIRATFSSVPLVASISAVSLEVAQPGPSNRPRALEVEECRCPPGYIGLS
  CQDCAPGYTRTGSGLYLGHCELCECNGHSDLCHPETGACSQCQHNAAGEFCELCAPGYYGDATAGTPEDC
  QPCACPLTNPENMFSRTCESLGAGGYRCTACEPGYTGQYCEQCGPGYVGNPSVQGGQCLPETNQAPLVVE
  VHPARSIVPQGGSHSLRCQVSGSPPHYFYWSREDGRPVPSGTQQRHQGSELHFPSVQPSDAGVYICTCRN
  LHQSNTSRAELLVTEAPSKPITVTVEEQRSQSVRPGADVTFICTAKSKSPAYTLVWTRLHNGKLPTRAMD
  FNGILTIRNVQLSDAGTYVCTGSNMFAMDQGTATLHVQASGTLSAPVVSIHPPQLTVQPGQLAEFRCSAT
  GSPTPTLEWTGGPGGQLPAKAQIHGGILRLPAVEPTDQAQYLCRAHSSAGQQVARAVLHVHGGGGPRVQV
  SPERTQVHAGRTVRLYCRAAGVPSATITWRKEGGSLPPQARSERTDIATLLIPAITTADAGFYLCVATSP
  AGTAQARIQVVVLSASDASPPPVKIESSSPSVTEGQTLDLNCVVAGSAHAQVTWYRRGGSLPPHTQVHGS
  RLRLPQVSPADSGEYVCRVENGSGPKEASITVSVLHGTHSGPSYTPVPGSTRPIRIEPSSSHVAEGQTLD
  LNCVVPGQAHAQVTWHKRGGSLPARHQTHGSLLRLHQVTPADSGEYVCHVVGTSGPLEASVLVTIEASVI
  PGPIPPVRIESSSSTVAEGQTLDLSCVVAGQAHAQVTWYKRGGSLPARHQVRGSRLYIFQASPADAGQYV
  CRASNGMEASITVTVTGTQGANLAYPAGSTQPIRIEPSSSQVAEGQTLDLNCVVPGQSHAQVTWHKRGGS
  LPVRHQTHGSLLRLYQASPADSGEYVCRVLGSSVPLEASVLVTIEPAGSVPALGVTPTVRIESSSSQVAE
  GQTLDLNCLVAGQAHAQVTWHKRGGSLPARHQVHGSRLRLLQVTPADSGEYVCRVVGSSGTQEASVLVTI
  QQRLSGSHSQGVAYPVRIESSSASLANGHTLDLNCLVASQAPHTITWYKRGGSLPSRHQIVGSRLRIPQV
  TPADSGEYVCHVSNGAGSRETSLIVTIQGSGSSHVPSVSPPIRIESSSPTVVEGQTLDLNCVVARQPQAI
  ITWYKRGGSLPSRHQTHGSHLRLHQMSVADSGEYVCRANNNIDALEASIVISVSPSAGSPSAPGSSMPIR
  IESSSSHVAEGETLDLNCVVPGQAHAQVTWHKRGGSLPSHHQTRGSRLRLHHVSPADSGEYVCRVMGSSG
  PLEASVLVTIEASGSSAVHVPAPGGAPPIRIEPSSSRVAEGQTLDLKCVVPGQAHAQVTWHKRGGNLPAR
  HQVHGPLLRLNQVSPADSGEYSCQVTGSSGTLEASVLVTIEPSSPGPIPAPGLAQPIYIEASSSHVTEGQ
  TLDLNCVVPGQAHAQVTWYKRGGSLPARHQTHGSQLRLHLVSPADSGEYVCRAASGPGPEQEASFTVTVP
  PSEGSSYRLRSPVISIDPPSSTVQQGQDASFKCLIHDGAAPISLEWKTRNQELEDNVHISPNGSIITIVG
  TRPSNHGTYRCVASNAYGVAQSVVNLSVHGPPTVSVLPEGPVWVKVGKAVTLECVSAGEPRSSARWTRIS
  STPAKLEQRTYGLMDSHAVLQISSAKPSDAGTYVCLAQNALGTAQKQVEVIVDTGAMAPGAPQVQAEEAE
  LTVEAGHTATLRCSATGSPAPTIHWSKLRSPLPWQHRLEGDTLIIPRVAQQDSGQYICNATSPAGHAEAT
  IILHVESPPYATTVPEHASVQAGETVQLQCLAHGTPPLTFQWSRVGSSLPGRATARNELLHFERAAPEDS
  GRYRCRVTNKVGSAEAFAQLLVQGPPGSLPATSIPAGSTPTVQVTPQLETKSIGASVEFHCAVPSDRGTQ
  LRWFKEGGQLPPGHSVQDGVLRIQNLDQSCQGTYICQAHGPWGKAQASAQLVIQALPSVLINIRTSVQTV
  VVGHAVEFECLALGDPKPQVTWSKVGGHLRPGIVQSGGVVRIAHVELADAGQYRCTATNAAGTTQSHVLL
  LVQALPQISMPQEVRVPAGSAAVFPCIASGYPTPDISWSKLDGSLPPDSRLENNMLMLPSVRPQDAGTYV
  CTATNRQGKVKAFAHLQVPERVVPYFTQTPYSFLPLPTIKDAYRKFEIKITFRPDSADGMLLYNGQKRVP
  GSPTNLANRQPDFISFGLVGGRPEFRFDAGSGMATIRHPTPLALGHFHTVTLLRSLTQGSLIVGDLAPVN
  GTSQGKFQGLDLNEELYLGGYPDYGAIPKAGLSSGFIGCVRELRIQGEEIVFHDLNLTAHGISHCPTCRD
  RPCQNGGQCHDSESSSYVCVCPAGFTGSRCEHSQALHCHPEACGPDATCVNRPDGRGYTCRCHLGRSGLR
  CEEGVTVTTPSLSGAGSYLALPALTNTHHELRLDVEFKPLAPDGVLLFSGGKSGPVEDFVSLAMVGGHLE
  FRYELGSGLAVLRSAEPLALGRWHRVSAERLNKDGSLRVNGGRPVLRSSPGKSQGLNLHTLLYLGGVEPS
  VPLSPATNMSAHFRGCVGEVSVNGKRLDLTYSFLGSQGIGQCYDSSPCERQPCQHGATCMPAGEYEFQCL
  CRDGFKGDLCEHEENPCQLREPCLHGGTCQGTRCLCLPGFSGPRCQQGSGHGIAESDWHLEGSGGNDAPG
  QYGAYFHDDGFLAFPGHVFSRSLPEVPETIELEVRTSTASGLLLWQGVEVGEAGQGKDFISLGLQDGHLV
  FRYQLGSGEARLVSEDPINDGEWHRVTALREGRRGSIQVDGEELVSGRSPGPNVAVNAKGSVYIGGAPDV
  ATLTGGRFSSGITGCVKNLVLHSARPGAPPPQPLDLQHRAQAGANTRPCPS
  
  TRTRPLE - GFP Tag - V
• Restriction Sites: SgfI-MluI Cloning Scheme for this gene Plasmid Map
• ACCN: NM_005529
• ORF Size: 13173 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.
  
  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_005529.3, NP_005520.3
• RefSeq Size: 14294 bp
• RefSeq ORF: 13176 bp
• Locus ID: 3339
• UniProt ID: P98160
• Cytogenetics: 1p36.12
• Domains: LamB, SEA, LamG, EGF_Lam, ldl_recept_a, ig, IGv, IGc2, IG, EGF, EGF
• Protein Families: Druggable Genome
• Protein Pathways: ECM-receptor interaction
• Gene Summary: This gene encodes the perlecan protein, which consists of a core protein to which three long chains of glycosaminoglycans (heparan sulfate or chondroitin sulfate) are attached. The perlecan protein is a large multidomain proteoglycan that binds to and cross-links many extracellular matrix components and cell-surface molecules. It has been shown that this protein interacts with laminin, prolargin, collagen type IV, FGFBP1, FBLN2, FGF7 and transthyretin, etc., and it plays essential roles in multiple biological activities. Perlecan is a key component of the vascular extracellular matrix, where it helps to maintain the endothelial barrier function. It is a potent inhibitor of smooth muscle cell proliferation and is thus thought to help maintain vascular homeostasis. It can also promote growth factor (e.g., FGF2) activity and thus stimulate endothelial growth and re-generation. It is a major component of basement membranes, where it is involved in the stabilization of other molecules as well as being involved with glomerular permeability to macromolecules and cell adhesion. Mutations in this gene cause Schwartz-Jampel syndrome type 1, Silverman-Handmaker type of dyssegmental dysplasia, and tardive dyskinesia. Alternative splicing of this gene results in multiple transcript variants. [provided by RefSeq, May 2014]