Heparan Sulfate Proteoglycan 2 (HSPG2) (NM_005529) Human Tagged ORF Clone
SKU
RG223950
HSPG2 (tGFP-tagged) - Human heparan sulfate proteoglycan 2 (HSPG2)
-
TrueORF®
TrueORF®
Expression-ready ORF plasmid with C-terminal tag(s)
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| Product Data | |
| Type | Human Tagged ORF Clone |
|---|---|
| Target 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. |
| 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 Method | 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. |
| Note | Plasmids are not sterile. For experiments where strict sterility is required, filtration with 0.22um filter is required. |
| Shipping | Ambient |
| 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 | EGF, EGF_Lam, ig, IG, IGc2, IGv, LamB, LamG, ldl_recept_a, SEA |
| Protein Families | Druggable Genome |
| Protein Pathways | ECM-receptor interaction |
| 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] |
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| Product Manuals |
| FAQs |
| SDS |
| SKU | Description | Size | Price | |
|---|---|---|---|---|
| RC223950 | HSPG2 (Myc-DDK-tagged)-Human heparan sulfate proteoglycan 2 (HSPG2) | 10 ug |
$3,492.00
|
|
| RC223950L1 | Lenti ORF clone of Human heparan sulfate proteoglycan 2 (HSPG2), Myc-DDK-tagged | 10 ug |
$3,792.00
|
|
| SC308976 | HSPG2 (untagged)-Human heparan sulfate proteoglycan 2 (HSPG2) | 10 ug |
$3,841.00
|
|
Citations
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complexities in the preparation of your product. International customers may expect an additional 1-2 weeks
in shipping.