stabilin1 (STAB1) (NM_015136) Human Untagged Clone

CAT#: SC304241

STAB1 (untagged)-Human stabilin 1 (STAB1)

Specifications

Product Data

• Type: Human Untagged Clone
• Tag: Tag Free
• Symbol: STAB1
• Synonyms: CLEVER-1; FEEL-1; FELE-1; FEX1; SCARH2; STAB-1
• Vector: pCMV6-Entry
• E. coli Selection: Kanamycin (25 ug/mL)
• Mammalian Cell Selection: Neomycin
• Sequence Data:
  Fully Sequenced ORF

  >NCBI ORF sequence for NM_015136, the custom clone sequence may differ by one or more nucleotides
  
  
  ATGGCGGGGCCCCGGGGCCTCCTCCCACTCTGCCTCCTGGCCTTCTGCCTGGCAGGCTTCAGCTTCGTCA
  GGGGGCAGGTGCTGTTCAAAGGCTGTGATGTGAAAACCACGTTTGTCACTCATGTACCCTGCACCTCGTG
  CGCGGCCATCAAGAAGCAGACGTGTCCCTCAGGCTGGCTGCGGGAGCTCCCGGATCAGATAACCCAGGAC
  TGCCGCTACGAAGTACAGCTGGGGGGCTCTATGGTGTCCATGAGCGGCTGCAGACGGAAGTGCCGGAAGC
  AAGTGGTGCAGAAGGCCTGCTGCCCTGGCTACTGGGGTTCCCGGTGCCATGAATGCCCTGGGGGCGCTGA
  GACCCCATGCAATGGCCACGGGACCTGCTTGGATGGCATGGACAGGAATGGGACCTGTGTGTGCCAGGAA
  AACTTCCGCGGCTCAGCCTGCCAGGAGTGCCAAGACCCCAACCGGTTCGGGCCTGACTGCCAATCGGTGT
  GCAGCTGTGTGCACGGAGTGTGCAACCATGGGCCACGTGGGGATGGAAGCTGCCTGTGCTTTGCTGGATA
  CACTGGCCCCCACTGTGATCAAGAGCTGCCCGTCTGCCAGGAGCTGCGCTGTCCCCAGAACACCCAGTGC
  TCCGCAGAGGCTCCCAGCTGCAGGTGCCTGCCCGGCTACACACAGCAGGGCAGTGAATGCCGAGCCCCCA
  ACCCCTGCTGGCCATCACCCTGCTCACTGCTGGCCCAGTGCTCGGTGAGCCCCAAGGGGCAGGCTCAGTG
  TCACTGCCCTGAGAACTACCATGGCGATGGGATGGTGTGTCTGCCCAAGGACCCATGCACTGACAACCTT
  GGTGGCTGCCCCAGCAACTCTACTTTGTGTGTGTACCAGAAGCCGGGCCAGGCCTTCTGCACCTGCCGGC
  CAGGCCTGGTCAGCATCAACAGCAACGCTTCTGCGGGCTGCTTCGCCTTCTGCTCCCCCTTCTCCTGCGA
  CCGGTCTGCCACTTGCCAGGTGACCGCTGATGGGAAGACCAGCTGTGTGTGCAGGGAAAGCGAGGTGGGG
  GATGGGCGTGCCTGCTACGGACACCTGCTCCACGAGGTGCAGAAGGCCACGCAGACAGGCCGGGTGTTCC
  TGCAGCTGAGGGTCGCCGTGGCCATGATGGACCAGGGCTGCCGGGAAATCCTTACCACAGCGGGCCCTTT
  CACCGTGCTGGTGCCATCCGTCTCCTCCTTCTCCTCCAGGACCATGAATGCATCCCTTGCCCAGCAGCTC
  TGTAGACAGCACATCATCGCAGGGCAGCACATCCTGGAGGACACAAGGACCCAACAAACACGAAGGTGGT
  GGACGCTGGCCGGGCAGGAGATCACCGTCACCTTTAACCAATTCACGAAATACTCCTACAAGTACAAAGA
  CCAGCCCCAGCAGACGTTCAACATCTACAAGGCCAACAACATAGCAGCTAATGGCGTCTTCCACGTGGTC
  ACTGGCCTGCGGTGGCAGGCCCCCTCTGGGACCCCTGGGGATCCCAAGAGAACTATCGGACAGATCCTCG
  CCTCTACCGAGGCCTTCAGCCGCTTTGAAACCATCCTGGAGAACTGTGGGCTGCCCTCCATCCTGGACGG
  ACCTGGGCCCTTCACAGTCTTTGCCCCAAGCAATGAGGCTGTGGACAGCTTGCGTGACGGCCGCCTGATC
  TACCTCTTCACAGCGGGTCTCTCTAAACTGCAGGAGTTGGTGCGGTACCACATCTACAACCACGGCCAGC
  TGACCGTTGAGAAGCTCATCTCCAAGGGTCGGATCCTCACCATGGCGAACCAGGTCCTGGCTGTGAACAT
  TTCTGAGGAGGGGCGCATCCTGCTGGGACCCGAGGGGGTCCCGCTGCAGAGGGTAGACGTGATGGCCGCC
  AATGGTGTGATCCACATGCTGGACGGCATCCTGCTGCCCCCGACCATCCTGCCCATCCTGCCCAAGCACT
  GCAGCGAGGAGCAGCACAAGATTGTGGCGGGCTCCTGTGTGGACTGCCAAGCCCTGAACACCAGCACGTG
  TCCCCCCAACAGTGTGAAGCTGGACATCTTCCCCAAGGAGTGTGTCTACATCCATGACCCAACGGGGCTC
  AATGTGCTAAAGAAGGGCTGTGCCAGCTACTGCAACCAAACCATCATGGAACAAGGCTGCTGCAAAGGTT
  TTTTCGGGCCTGACTGCACGCAGTGTCCTGGGGGCTTCTCCAACCCCTGCTATGGCAAAGGCAATTGCAG
  TGATGGGATCCAGGGCAATGGGGCCTGCCTCTGCTTCCCAGACTACAAGGGCATCGCCTGCCACATCTGC
  TCGAACCCAAACAAGCATGGAGAGCAATGCCAGGAAGACTGCGGCTGTGTCCATGGTCTCTGCGACAACC
  GCCCAGGCAGTGGGGGGGTGTGCCAGCAGGGCACGTGTGCCCCTGGCTTCAGTGGCCGGTTCTGCAACGA
  GTCCATGGGGGACTGTGGGCCCACAGGGCTGGCCCAGCACTGCCACCTGCATGCCCGCTGTGTTAGCCAG
  GAGGGTGTTGCCAGATGTCGCTGTCTTGATGGCTTTGAGGGTGATGGCTTCTCCTGCACACCTAGCAACC
  CCTGCTCCCACCCGGACCGTGGAGGCTGCTCAGAGAATGCTGAGTGTGTCCCTGGGTCCCTGGGCACCCA
  CCACTGCACATGCCACAAAGGCTGGAGTGGGGATGGCCGCGTCTGTGTGGCTATTGACGAGTGTGAGCTG
  GACATGAGAGGTGGCTGCCACACCGATGCCCTCTGCAGCTATGTGGGCCCCGGGCAGAGCCGATGCACCT
  GCAAGCTGGGCTTTGCCGGGGATGGCTACCAGTGCAGCCCCATCGACCCCTGCCGGGCAGGCAATGGCGG
  CTGCCACGGCCTGGCCACCTGCCGGGCAGTGGGGGGAGGTCAGCGGGTCTGCACGTGCCCCCCTGGCTTT
  GGGGGTGATGGCTTCAGCTGTTATGGAGACATCTTCCGGGAGCTGGAGGCAAATGCCCACTTCTCCATCT
  TCTACCAATGGCTTAAGAGTGCCGGCATCACGCTTCCTGCCGACCGCCGAGTCACAGCCCTGGTGCCCTC
  CGAGGCTGCAGTCCGTCAGCTGAGCCCCGAGGACCGAGCTTTCTGGCTGCAGCCAAGGACGCTGCCGAAC
  CTGGTCAGGGCCCATTTTCTCCAGGGTGCCCTCTTCGAGGAGGAGCTGGCCCGGCTGGGTGGGCAGGAAG
  TGGCCACCCTGAACCCCACCACACGCTGGGAGATTCGCAACATTAGTGGGAGGGTCTGGGTGCAGAATGC
  CAGCGTGGATGTGGCTGACCTCCTTGCCACCAACGGTGTCCTACACATCCTCAGCCAGGTCTTACTGCCC
  CCCCGAGGGGATGTGCCCGGTGGGCAGGGGTTGCTGCAGCAGCTGGACTTGGTGCCTGCCTTCAGCCTCT
  TCCGGGAATTGCTGCAGCACCATGGGTTGGTGCCCCAGATTGAGGCTGCCACTGCCTACACCATCTTTGT
  GCCCACCAACCGCTCCCTGGAGGCCCAGGGCAACAGCAGTCACCTGGACGCAGACACAGTGCGGCACCAT
  GTGGTCCTGGGGGAGGCCCTCTCCATGGAAACCCTGCGGAAGGGTGGACACCGCAACTCCCTCCTGGGCC
  CTGCCCACTGGATCGTCTTCTACAACCACAGTGGCCAGCCTGAGGTGAACCATGTGCCACTGGAAGGCCC
  CATGCTGGAGGCCCCTGGCCGCTCGCTGATTGGTCTGTCGGGGGTCCTGACGGTGGGCTCAAGTCGCTGC
  CTGCATAGCCACGCTGAGGCCCTGCGGGAGAAATGTGTAAACTGCACCAGGAGATTCCGCTGCACTCAGG
  GCTTCCAGCTGCAGGACACACCCAGGAAGAGCTGTGTCTACCGATCTGGCTTCTCCTTCTCCCGGGGCTG
  CTCTTACACATGTGCCAAGAAGATCCAGGTGCCGGACTGCTGCCCTGGTTTCTTTGGCACGCTGTGTGAG
  CCATGCCCAGGGGGTCTAGGGGGGGTGTGCTCAGGCCATGGGCAGTGCCAGGACAGGTTCCTGGGCAGCG
  GGGAGTGCCACTGCCACGAGGGCTTCCATGGAACGGCCTGTGAGGTGTGTGAGCTGGGCCGCTACGGGCC
  CAACTGCACCGGAGTGTGTGACTGTGCCCATGGGCTGTGCCAGGAGGGGCTGCAAGGGGACGGAAGCTGT
  GTCTGTAACGTGGGCTGGCAGGGCCTCCGCTGTGACCAGAAAATCACCAGCCCTCAGTGCCCTAGGAAGT
  GCGACCCCAATGCCAACTGCGTGCAGGACTCGGCCGGAGCCTCCACCTGCGCCTGTGCTGCGGGATACTC
  CGGCAATGGCATCTTCTGTTCAGAGGTGGACCCCTGCGCCCACGGCCATGGGGGCTGCTCCCCTCATGCC
  AACTGTACCAAGGTGGCACCTGGGCAGCGGACATGCACCTGCCAGGATGGCTACATGGGCGACGGGGAGC
  TGTGCCAGGAAATTAACAGCTGTCTCATCCACCACGGGGGCTGCCACATTCACGCCGAGTGCATCCCCAC
  TGGCCCCCAGCAGGTCTCCTGCAGCTGCCGTGAGGGTTACAGCGGGGATGGCATCCGGACCTGCGAGCTC
  CTGGACCCCTGCTCTAAGAACAATGGAGGATGCAGCCCATATGCCACCTGCAAAAGCACAGGGGATGGCC
  AGAGGACATGTACCTGCGACACAGCCCACACCGTGGGGGACGGCCTCACCTGCCGTGCCCGAGTCGGCCT
  GGAGCTCCTGAGGGATAAGCATGCCTCATTCTTCAGCCTCCGCCTCCTGGAATATAAGGAGCTCAAGGGC
  GATGGGCCTTTCACCATCTTCGTGCCGCACGCAGATCTAATGAGCAACCTGTCGCAGGATGAGCTGGCCC
  GGATTCGTGCGCATCGCCAGCTGGTGTTTCGCTACCACGTGGTTGGCTGTCGGCGGCTGCGGAGCGAGGA
  CCTGCTGGAGCAGGGGTACGCCACGGCCCTCTCAGGGCACCCACTGCGCTTCAGCGAGAGGGAGGGCAGC
  ATATACCTCAATGACTTCGCGCGCGTGGTGAGCAGCGACCATGAGGCCGTGAACGGCATCCTGCACTTCA
  TTGACCGTGTCCTGCTGCCCCCCGAGGCGCTGCACTGGGAGCCTGATGATGCTCCCATCCCGAGGAGAAA
  TGTCACCGCCGCCGCCCAGGGCTTCGGTTACAAGATCTTCAGCGGCCTCCTGAAGGTGGCCGGCCTCCTG
  CCCCTGCTTCGAGAGGCATCCCATAGGCCCTTCACAATGCTGTGGCCCACAGACGCCGCCTTTCGAGCTC
  TGCCTCCGGATCGCCAGGCCTGGCTGTACCATGAGGACCACCGTGACAAGCTAGCAGCCATTCTGCGGGG
  CCACATGATTCGCAATGTCGAGGCCTTGGCATCTGACCTGCCCAACCTGGGCCCACTTCGAACCATGCAT
  GGGACCCCCATCTCTTTCTCCTGCAGCCGAACGCGGGCCGGTGAGCTCATGGTGGGTGAGGATGATGCTC
  GCATTGTGCAGCGGCACTTGCCCTTTGAGGGTGGCCTGGCCTATGGCATCGACCAGCTGCTGGAGCCACC
  TGGCCTTGGTGCTCGCTGTGACCACTTTGAGACCCGGCCCCTGCGACTGAACACCTGCAGCATCTGTGGG
  CTGGAGCCACCCTGTCCTGAGGGGTCACAGGAGCAGGGCAGCCCTGAGGCCTGCTGGCGCTTCTACCCGA
  AGTTCTGGACGTCCCCTCCGCTGCACTCTTTGGGATTACGCAGCGTCTGGGTCCACCCCAGCCTTTGGGG
  TAGGCCCCAAGGCCTGGGCAGGGGCTGCCACCGCAATTGTGTCACCACCACCTGGAAGCCCAGCTGCTGC
  CCTGGTCACTATGGCAGTGAGTGCCAAGCTTGCCCTGGCGGCCCCAGCAGCCCTTGTAGTGACCGTGGCG
  TGTGCATGGACGGCATGAGTGGCAGTGGGCAGTGTCTGTGCCGTTCAGGTTTTGCTGGGACAGCCTGTGA
  ACTCTGTGCTCCTGGTGCCTTTGGGCCCCATTGTCAAGCCTGCCGCTGCACTGTGCATGGCCGCTGTGAT
  GAGGGCCTTGGGGGCTCTGGCTCCTGCTTCTGTGATGAAGGCTGGACTGGGCCACGCTGTGAGGTGCAAC
  TGGAGCTGCAGCCTGTGTGTACCCCACCCTGTGCACCCGAGGCTGTGTGCCGTGCAGGCAACAGCTGTGA
  GTGCAGCCTGGGCTATGAAGGGGATGGCCGTGTGTGTACAGTGGCAGACCTGTGCCAGGACGGGCATGGT
  GGCTGCAGTGAGCACGCCAACTGTAGCCAGGTAGGAACAATGGTCACTTGTACCTGCCTGCCCGACTACG
  AGGGTGATGGCTGGAGCTGCCGGGCCCGCAACCCCTGCACAGATGGCCACCGCGGGGGCTGCAGCGAGCA
  CGCCAACTGCTTGAGCACCGGCCTGAACACACGGCGCTGTGAGTGCCACGCAGGCTACGTAGGCGATGGA
  CTGCAGTGTCTGGAGGAGTCGGAACCACCTGTGGACCGCTGCTTGGGCCAGCCACCGCCCTGCCACTCAG
  ATGCCATGTGCACTGACCTGCACTTCCAGGAGAAACGGGCTGGCGTTTTCCACCTCCAGGCCACCAGCGG
  CCCTTATGGTCTGAACTTTTCGGAGGCTGAGGCGGCATGCGAAGCACAGGGAGCCGTCCTTGCTTCATTC
  CCTCAGCTCTCTGCTGCCCAGCAGCTGGGCTTCCACCTGTGCCTCATGGGCTGGCTGGCCAATGGCTCCA
  CTGCCCACCCTGTGGTTTTCCCTGTGGCGGACTGTGGCAATGGTCGGGTGGGCATAGTCAGCCTGGGTGC
  CCGCAAGAACCTCTCAGAACGCTGGGATGCCTACTGCTTCCGTGTGCAAGATGTGGCCTGCCGATGCCGA
  AATGGCTTCGTGGGTGACGGGATCAGCACGTGCAATGGGAAGCTGCTGGATGTGCTGGCTGCCACTGCCA
  ACTTCTCCACCTTCTATGGGATGCTATTGGGCTATGCCAATGCCACCCAGCGGGGTCTCGACTTCCTGGA
  CTTCCTGGATGATGAGCTCACGTATAAGACACTCTTCGTCCCTGTCAATGAAGGCTTTGTGGACAACATG
  ACGCTGAGTGGCCCAGACTTGGAGCTGCATGCCTCCAACGCCACCCTCCTAAGTGCCAACGCCAGCCAGG
  GGAAGTTGCTTCCGGCCCACTCAGGCCTCAGCCTCATCATCAGTGACGCAGGCCCTGACAACAGTTCCTG
  GGCCCCTGTGGCCCCAGGGACAGTTGTGGTTAGCCGTATCATTGTGTGGGACATCATGGCCTTCAATGGC
  ATCATCCATGCTCTGGCCAGCCCCCTCCTGGCACCCCCACAGCCCCAGGCAGTGCTGGCGCCTGAAGCCC
  CACCTGTGGCGGCAGGCGTGGGGGCTGTGCTTGCCGCTGGAGCACTGCTTGGCTTGGTGGCCGGAGCTCT
  CTACCTCCGTGCCCGAGGCAAGCCCATGGGCTTTGGCTTCTCTGCCTTCCAGGCGGAAGATGATGCTGAT
  GACGACTTCTCACCGTGGCAAGAAGGGACCAACCCCACCCTGGTCTCTGTCCCCAACCCTGTCTTTGGCA
  GCGACACCTTTTGTGAACCCTTCGATGACTCACTGCTGGAGGAGGACTTCCCTGACACCCAGAGGATCCT
  CACAGTCAAGTGA
  
  
• Restriction Sites: SgfI-MluI
• ACCN: NM_015136
• ORF Size: 7713 bp
• Insert Size: 7713
• 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 TrueClone is provided through our Custom Cloning Process that includes sub-cloning into OriGene's pCMV6 vector and full sequencing to provide a non-variant match to the expected reference without frameshifts, and is delivered as lyophilized plasmid DNA.

Reference Data

• RefSeq: NM_015136.2, NP_055951.2
• RefSeq Size: 7965
• RefSeq ORF: 7713
• Locus ID: 23166
• Domains: Xlink, FAS1, EGF, EGF
• Protein Families: Druggable Genome, Transmembrane
• Gene Summary: This gene encodes a large, transmembrane receptor protein which may function in angiogenesis, lymphocyte homing, cell adhesion, or receptor scavenging. The protein contains 7 fasciclin, 16 epidermal growth factor (EGF)-like, and 2 laminin-type EGF-like domains as well as a C-type lectin-like hyaluronan-binding Link module. The protein is primarily expressed on sinusoidal endothelial cells of liver, spleen, and lymph node. The receptor has been shown to endocytose ligands such as low density lipoprotein, Gram-positive and Gram-negative bacteria, and advanced glycosylation end products. Supporting its possible role as a scavenger receptor, the protein rapidly cycles between the plasma membrane and early endosomes. [provided by RefSeq, Jul 2008]