NOTCH2 (NM_024408) Human Untagged Clone

CAT#: SC308798

NOTCH2 (untagged)-Human notch 2 (NOTCH2), transcript variant 1

Specifications

Product Data

• Type: Human Untagged Clone
• Tag: Tag Free
• Symbol: NOTCH2
• Synonyms: AGS2; HJCYS; hN2
• Vector: pCMV6-XL4
• E. coli Selection: Ampicillin (100 ug/mL)
• Mammalian Cell Selection: None
• Sequence Data:
  Fully Sequenced ORF

  >OriGene sequence for NM_024408 edited
  GAGGCGGCGGCCGAGGAGCGGCGGACTCGGGGCGCGGGGAGTCGAGGCATTTGCGCCTGG
  GCTTCGGAGCGTAGCGCCAGGGCCTGAGCCTTTGAAGCAGGAGGAGGGGAGGAGAGAGTG
  GGGCTCCTCTATCGGGACCCCCTCCCCATGTGGATCTGCCCAGGCGGCGGCGGCGGCGGC
  GGAGGAGGAGGCGACCGAGAAGATGCCCGCCCTGCGCCCCGCTCTGCTGTGGGCGCTGCT
  GGCGCTCTGGCTGTGCTGCGCGGCCCCCGCGCATGCATTGCAGTGTCGAGATGGCTATGA
  ACCCTGTGTAAATGAAGGAATGTGTGTTACCTACCACAATGGCACAGGATACTGCAAATG
  TCCAGAAGGCTTCTTGGGGGAATATTGTCAACATCGAGACCCCTGTGAGAAGAACCGCTG
  CCAGAATGGTGGGACTTGTGTGGCCCAGGCCATGCTGGGGAAAGCCACGTGCCGATGTGC
  CTCAGGGTTTACAGGAGAGGACTGCCAGTACTCAACATCTCATCCATGCTTTGTGTCTCG
  ACCCTGCCTGAATGGCGGCACATGCCATATGCTCAGCCGGGATACCTATGAGTGCACCTG
  TCAAGTCGGGTTTACAGGTAAGGAGTGCCAATGGACGGATGCCTGCCTGTCTCATCCCTG
  TGCAAATGGAAGTACCTGTACCACTGTGGCCAACCAGTTCTCCTGCAAATGCCTCACAGG
  CTTCACAGGGCAGAAATGTGAGACTGATGTCAATGAGTGTGACATTCCAGGACACTGCCA
  GCATGGTGGCACCTGCCTCAACCTGCCTGGTTCCTACCAGTGCCAGTGCCCTCAGGGCTT
  CACAGGCCAGTACTGTGACAGCCTGTATGTGCCCTGTGCACCCTCACCTTGTGTCAATGG
  AGGCACCTGTCGGCAGACTGGTGACTTCACTTTTGAGTGCAACTGCCTTCCAGGTTTTGA
  AGGGAGCACCTGTGAGAGGAATATTGATGACTGCCCTAACCACAGGTGTCAGAATGGAGG
  GGTTTGTGTGGATGGGGTCAACACTTACAACTGCCGCTGTCCCCCACAATGGACAGGACA
  GTTCTGCACAGAGGATGTGGATGAATGCCTGCTGCAGCCCAATGCCTGTCAAAATGGGGG
  CACCTGTGCCAACCGCAATGGAGGCTATGGCTGTGTATGTGTCAACGGCTGGAGTGGAGA
  TGACTGCAGTGAGAACATTGATGATTGTGCCTTCGCCTCCTGTACTCCAGGCTCCACCTG
  CATCGACCGTGTGGCCTCCTTCTCTTGCATGTGCCCAGAGGGGAAGGCAGGTCTCCTGTG
  TCATCTGGATGATGCATGCATCAGCAATCCTTGCCACAAGGGGGCACTGTGTGACACCAA
  CCCCCTAAATGGGCAATATATTTGCACCTGCCCACAAGGCTACAAAGGGGCTGACTGCAC
  AGAAGATGTGGATGAATGTGCCATGGCCAATAGCAATCCTTGTGAGCATGCAGGAAAATG
  TGTGAACACGGATGGCGCCTTCCACTGTGAGTGTCTGAAGGGTTATGCAGGACCTCGTTG
  TGAGATGGACATCAATGAGTGCCATTCAGACCCCTGCCAGAATGATGCTACCTGTCTGGA
  TAAGATTGGAGGCTTCACATGTCTGTGCATGCCAGGTTTCAAAGGTGTGCATTGTGAATT
  AGAAATAAATGAATGTCAGAGCAACCCTTGTGTGAACAATGGGCAGTGTGTGGATAAAGT
  CAATCGTTTCCAGTGCCTGTGTCCTCCTGGTTTCACTGGGCCAGTTTGCCAGATTGATAT
  TGATGACTGTTCCAGTACTCCGTGTCTGAATGGGGCAAAGTGTATCGATCACCCGAATGG
  CTATGAATGCCAGTGTGCCACAGGTTTCACTGGTGTGTTGTGTGAGGAGAACATTGACAA
  CTGTGACCCCGATCCTTGCCACCATGGTCAGTGTCAGGATGGTATTGATTCCTACACCTG
  CATCTGCAATCCCGGGTACATGGGCGCCATCTGCAGTGACCAGATTGATGAATGTTACAG
  CAGCCCTTGCCTGAACGATGGTCGCTGCATTGACCTGGTCAATGGCTACCAGTGCAACTG
  CCAGCCAGGCACGTCAGGGGTTAATTGTGAAATTAATTTTGATGACTGTGCAAGTAACCC
  TTGTATCCATGGAATCTGTATGGATGGCATTAATCGCTACAGTTGTGTCTGCTCACCAGG
  ATTCACAGGGCAGAGATGTAACATTGACATTGATGAGTGTGCCTCCAATCCCTGTCGCAA
  GGGTGCAACATGTATCAACGGTGTGAATGGTTTCCGCTGTATATGCCCCGAGGGACCCCA
  TCACCCCAGCTGCTACTCACAGGTGAACGAATGCCTGAGCAATCCCTGCATCCATGGAAA
  CTGTACTGGAGGTCTCAGTGGATATAAGTGTCTCTGTGATGCAGGCTGGGTTGGCATCAA
  CTGTGAAGTGGACAAAAATGAATGCCTTTCGAATCCATGCCAGAATGGAGGAACTTGTGA
  CAATCTGGTGAATGGATACAGGTGTACTTGCAAGAAGGGCTTTAAAGGCTATAACTGCCA
  GGTGAATATTGATGAATGTGCCTCAAATCCATGCCTGAACCAAGGAACCTGCTTTGATGA
  CATAAGTGGCTACACTTGCCACTGTGTGCTGCCATACACAGGCAAGAATTGTCAGACAGT
  ATTGGCTCCCTGTTCCCCAAACCCTTGTGAGAATGCTGCTGTTTGCAAAGAGTCACCAAA
  TTTTGAGAGTTATACTTGCTTGTGTGCTCCTGGCTGGCAAGGTCAGCGGTGTACCATTGA
  CATTGACGAGTGTATCTCCAAGCCCTGCATGAACCATGGTCTCTGCCATAACACCCAGGG
  CAGCTACATGTGTGAATGTCCACCAGGCTTCAGTGGTATGGACTGTGAGGAGGACATTGA
  TGACTGCCTTGCCAATCCTTGCCAGAATGGAGGTTCCTGTATGGATGGAGTGAATACTTT
  CTCCTGCCTCTGCCTTCCGGGTTTCACTGGGGATAAGTGCCAGACAGACATGAATGAGTG
  TCTGAGTGAACCCTGTAAGAATGGAGGGACCTGCTCTGACTACGTCAACAGTTACACTTG
  CAAGTGCCAGGCAGGATTTGATGGAGTCCATTGTGAGAACAACATCAATGAGTGCACTGA
  GAGCTCCTGTTTCAATGGTGGCACATGTGTTGATGGGATTAACTCCTTCTCTTGCTTGTG
  CCCTGTGGGTTTCACTGGATCCTTCTGCCTCCATGAGATCAATGAATGCAGCTCTCATCC
  ATGCCTGAATGAGGGAACGTGTGTTGATGGCCTGGGTACCTACCGCTGCAGCTGCCCCCT
  GGGCTACACTGGGAAAAACTGTCAGACCCTGGTGAATCTCTGCAGTCGGTCTCCATGTAA
  AAACAAAGGTACTTGCGTTCAGAAAAAAGCAGAGTCCCAGTGCCTATGTCCATCTGGATG
  GGCTGGTGCCTATTGTGACGTGCCCAATGTCTCTTGTGACATAGCAGCCTCCAGGAGAGG
  TGTGCTTGTTGAACACTTGTGCCAGCACTCAGGTGTCTGCATCAATGCTGGCAACACGCA
  TTACTGTCAGTGCCCCCTGGGCTATACTGGGAGCTACTGTGAGGAGCAACTCGATGAGTG
  TGCGTCCAACCCCTGCCAGCACGGGGCAACATGCAGTGACTTCATTGGTGGATACAGATG
  CGAGTGTGTCCCAGGCTATCAGGGTGTCAACTGTGAGTATGAAGTGGATGAGTGCCAGAA
  TCAGCCCTGCCAGAATGGAGGCACCTGTATTGACCTTGTGAACCATTTCAAGTGCTCTTG
  CCCACCAGGCACTCGGGGCCTACTCTGTGAAGAGAACATTGATGACTGTGCCCGGGGTCC
  CCATTGCCTTAATGGTGGTCAGTGCATGGATAGGATTGGAGGCTACAGTTGTCGCTGCTT
  GCCTGGCTTTGCTGGGGAGCGTTGTGAGGGAGACATCAACGAGTGCCTCTCCAACCCCTG
  CAGCTCTGAGGGCAGCCTGGACTGTATACAGCTCACCAATGACTACCTGTGTGTTTGCCG
  TAGTGCCTTTACTGGCCGGCACTGTGAAACCTTCGTCGATGTGTGTCCCCAGATGCCCTG
  CCTGAATGGAGGGACTTGTGCTGTGGCCAGTAACATGCCTGATGGTTTCATTTGCCGTTG
  TCCCCCGGGATTTTCCGGGGCAAGGTGCCAGAGCAGCTGTGGACAAGTGAAATGTAGGAA
  GGGGGAGCAGTGTGTGCACACCGCCTCTGGACCCCGCTGCTTCTGCCCCAGTCCCCGGGA
  CTGCGAGTCAGGCTGTGCCAGTAGCCCCTGCCAGCACGGGGGCAGCTGCCACCCTCAGCG
  CCAGCCTCCTTATTACTCCTGCCAGTGTGCCCCACCATTCTCGGGTAGCCGCTGTGAACT
  CTACACGGCACCCCCCAGCACCCCTCCTGCCACCTGTCTGAGCCAGTATTGTGCCGACAA
  AGCTCGGGATGGCGTCTGTGATGAGGCCTGCAACAGCCATGCCTGCCAGTGGGATGGGGG
  TGACTGTTCTCTCACCATGGAGAACCCCTGGGCCAACTGCTCCTCCCCACTTCCCTGCTG
  GGATTATATCAACAACCAGTGTGATGAGCTGTGCAACACGGTCGAGTGCCTGTTTGACAA
  CTTTGAATGCCAGGGGAACAGCAAGACATGCAAGTATGACAAATACTGTGCAGACCACTT
  CAAAGACAACCACTGTGACCAGGGGTGCAACAGTGAGGAGTGTGGTTGGGATGGGCTGGA
  CTGTGCTGCTGACCAACCTGAGAACCTGGCAGAAGGTACCCTGGTTATTGTGGTATTGAT
  GCCACCTGAACAACTGCTCCAGGATGCTCGCAGCTTCTTGCGGGCACTGGGTACCCTGCT
  CCACACCAACCTGCGCATTAAGCGGGACTCCCAGGGGGAACTCATGGTGTACCCCTATTA
  TGGTGAGAAGTCAGCTGCTATGAAGAAACAGAGGATGACACGCAGATCCCTTCCTGGTGA
  ACAAGAACAGGAGGTGGCTGGCTCTAAAGTCTTTCTGGAAATTGACAACCGCCAGTGTGT
  TCAAGACTCAGACCACTGCTTCAAGAACACGGATGCAGCAGCAGCTCTCCTGGCCTCTCA
  CGCCATACAGGGGACCCTGTCATACCCTCTTGTGTCTGTCGTCAGTGAATCCCTGACTCC
  AGAACGCACTCAGCTCCTCTATCTCCTTGCTGTTGCTGTTGTCATCATTCTGTTTATTAT
  TCTGCTGGGGGTAATCATGGCAAAACGAAAGCGTAAGCATGGCTCTCTCTGGCTGCCTGA
  AGGTTTCACTCTTCGCCGAGATGCAAGCAATCACAAGCGTCGTGAGCCAGTGGGACAGGA
  TGCTGTGGGGCTGAAAAATCTCTCAGTGCAAGTCTCAGAAGCTAACCTAATTGGTACTGG
  AACAAGTGAACACTGGGTCGATGATGAAGGGCCCCAGCCAAAGAAAGTAAAGGCTGAAGA
  TGAGGCCTTACTCTCAGAAGAAGATGACCCCATTGATCGACGGCCATGGACACAGCAGCA
  CCTTGAAGCTGCAGACATCCGTAGGACACCATCGCTGGCTCTCACCCCTCCTCAGGCAGA
  GCAGGAGGTGGATGTGTTAGATGTGAATGTCCGTGGCCCAGATGGCTGCACCCCATTGAT
  GTTGGCTTCTCTCCGAGGAGGCAGCTCAGATTTGAGTGATGAAGATGAAGATGCAGAGGA
  CTCTTCTGCTAACATCATCACAGACTTGGTCTACCAGGGTGCCAGCCTCCAGGCCCAGAC
  AGACCGGACTGGTGAGATGGCCCTGCACCTTGCAGCCCGCTACTCACGGGCTGATGCTGC
  CAAGCGTCTCCTGGATGCAGGTGCAGATGCCAATGCCCAGGACAACATGGGCCGCTGTCC
  ACTCCATGCTGCAGTGGCAGCTGATGCCCAAGGTGTCTTCCAGATTCTGATTCGCAACCG
  AGTAACTGATCTAGATGCCAGGATGAATGATGGTACTACACCCCTGATCCTGGCTGCCCG
  CCTGGCTGTGGAGGGAATGGTGGCAGAACTGATCAACTGCCAAGCGGATGTGAATGCAGT
  GGATGACCATGGAAAATCTGCTCTTCACTGGGCAGCTGCTGTCAATAATGTGGAGGCAAC
  TCTTTTGTTGTTGAAAAATGGGGCCAACCGAGACATGCAGGACAACAAGGAAGAGACACC
  TCTGTTTCTTGCTGCCCGGGAGGGGAGCTATGAAGCAGCCAAGATCCTGTTAGACCATTT
  TGCCAATCGAGACATCACAGACCATATGGATCGTCTTCCCCGGGATGTGGCTCGGGATCG
  CATGCACCATGACATTGTGCGCCTTCTGGATGAATACAATGTGACCCCAAGCCCTCCAGG
  CACCGTGTTGACTTCTGCTCTCTCACCTGTCATCTGTGGGCCCAACAGATCTTTCCTCAG
  CCTGAAGCACACCCCAATGGGCAAGAAGTCTAGACGGCCCAGTGCCAAGAGTACCATGCC
  TACTAGCCTCCCTAACCTTGCCAAGGAGGCAAAGGATGCCAAGGGTAGTAGGAGGAAGAA
  GTCTCTGAGTGAGAAGGTCCAACTGTCTGAGAGTTCAGTAACTTTATCCCCTGTTGATTC
  CCTAGAATCTCCTCACACGTATGTTTCCGACACCACATCCTCTCCAATGATTACATCCCC
  TGGGATCTTACAGGCCTCACCCAACCCTATGTTGGCCACTGCCGCCCCTCCTGCCCCAGT
  CCATGCCCAGCATGCACTATCTTTTTCTAACCTTCATGAAATGCAGCCTTTGGCACATGG
  GGCCAGCACTGTGCTTCCCTCAGTGAGCCAGTTGCTATCCCACCACCACATTGTGTCTCC
  AGGCAGTGGCAGTGCTGGAAGCTTGAGTAGGCTCCATCCAGTCCCAGTCCCAGCAGATTG
  GATGAACCGCATGGAGGTGAATGAGACCCAGTACAATGAGATGTTTGGTATGGTCCTGGC
  TCCAGCTGAGGGCACCCATCCTGGCATAGCTCCCCAGAGCAGGCCACCTGAAGGGAAGCA
  CATAACCACCCCTCGGGAGCCCTTGCCCCCCATTGTGACTTTCCAGCTCATCCCTAAAGG
  CAGTATTGCCCAACCAGCGGGGGCTCCCCAGCCTCAGTCCACCTGCCCTCCAGCTGTTGC
  GGGCCCCCTGCCCACCATGTACCAGATTCCAGAAATGGCCCGTTTGCCCAGTGTGGCTTT
  CCCCACTGCCATGATGCCCCAGCAGGACGGGCAGGTAGCTCAGACCATTCTCCCAGCCTA
  TCATCCTTTCCCAGCCTCTGTGGGCAAGTACCCCACACCCCCTTCACAGCACAGTTATGC
  TTCCTCAAATGCTGCTGAGCGAACACCCAGTCACAGTGGTCACCTCCAGGGTGAGCATCC
  CTACCTGACACCATCCCCAGAGTCTCCTGACCAGTGGTCAAGTTCATCACCCCACTCTGC
  TTCTGACTGGTCAGATGTGACCACCAGCCCTACCCCTGGGGGTGCTGGAGGAGGTCAGCG
  GGGACCTGGGACACACATGTCTGAGCCACCACACAACAACATGCAGGTTTATGCGTGAGA
  GAGTCCACCTCCAGTGTAGAGACATAACTGACTTTTGTAAATGCTGCTGAGGAACAAATG
  AAGGTCATCCGGGAGAGAAATGAAGAAATCTCTGGAGCCAGCTTCTAGAGGTAGGAAAGA
  GAAGATGTTCTTATTCAGATAATGCAAGAGAAGCAATTCGTCAGTTTCACTGGGTATCTG
  CAAGGCTTATTGATTATTCTAATCTAATAAGACAAGTTTGTGGAAATGCAAGATGAATAC
  AAGCCTTGGGTCCATGTTTACTCTCTTCTATTTGGAGAATAAGATGGATGCTTATTGAAG
  CCCAGACATTCTTGCAGCTTGGACTGCATTTTAAGCCCTGCAGGCTTCTGCCATATCCAT
  GAGAAGATTCTACACTAGCGTCCTGTTGGGAATTATGCCCTGGAATTCTGCCTGAATTGA
  CCTACGCATCTCCTCCTCCTTGGACATTCTTTTGTCTTCATTTGGTGCTTTTGGTTTTGC
  ACCTCTCCGTGATTGTAGCCCTACCAGCATGTTATAGGGCAAGACCTTTGTGCTTTTGAT
  CATTCTGGCCCATGAAAGCAACTTTGGTCTCCTTTCCCCTCCTGTCTTCCCGGTATCCCT
  TGGAGTCTCACAAGGTTTACTTTGGTATGGTTCTCAGCACAAACCTTTCAAGTATGTTGT
  TTCTTTGGAAAATGGACATACTGTATTGTGTTCTCCTGCATATATCATTCCTGGAGAGAG
  AAGGGGAGAAGAATACTTTTCTTCAACAAATTTTGGGGGCAGGAGATCCCTTCAAGAGGC
  TGCACCTTAATTTTTCTTGTCTGTGTGCAGGTCTTCATATAAACTTTACCAGGAAGAAGG
  GTGTGAGTTTGTTGTTTTTCTGTGTATGGGCCTGGTCAGTGTAAAGTTTTATCCTTGATA
  GTCTAGTTACTATGACCCTCCCCACTTTTTTAAAACCAGAAAAAGGTTTGGAATGTTGGA
  ATGACCAAGAGACAAGTTAACTCGTGCAAGAGCCAGTTACCCACCCACAGGTCCCCCTAC
  TTCCTGCCAAGCATTCCATTGACTGCCTGTATGGAACACATTTGTCCCAGATCTGAGCAT
  TCTAGGCCTGTTTCACTCACTCACCCAGCATATGAAACTAGTCTTAACTGTTGAGCCTTT
  CCTTTCATATCCACAGAAGACACTGTCTCAAATGTTGTACCCTTGCCATTTAGGACTGAA
  CTTTCCTTAGCCCAAGGGACCCAGTGACAGTTGTCTTCCGTTTGTCAGATGATCAGTCTC
  TACTGATTATCTTGCTGCTTAAAGGCCTGCTCACCAATCTTTCTTTCACACCGTGTGGTC
  CGTGTTACTGGTATACCCAGTATGTTCTCACTGAAGACATGGACTTTATATGTTCAAGTG
  CAGGAATTGGAAAGTTGGACTTGTTTTCTATGATCCAAAACAGCCCTATAAGAAGGTTGG
  AAAAGGAGGAACTATATAGCAGCCTTTGCTATTTTCTGCTACCATTTCTTTTCCTCTGAA
  GCGGCCATGACATTCCCTTTGGCAACTAACGTAGAAACTCAACAGAACATTTTCCTTTCC
  TAGAGTCACCTTTTAGATGATAATGGACAACTATAGACTTGCTCATTGTTCAGACTGATT
  GCCCCTCACCTGAATCCACTCTCTGTATTCATGCTCTTGGCAATTTCTTTGACTTTCTTT
  TAAGGGCAGAAGCATTTTAGTTAATTGTAGATAAAGAATAGTTTTCTTCCTCTTCTCCTT
  GGGCCAGTTAATAATTGGTCCATGGCTACACTGCAACTTCCGTCCAGTGCTGTGATGCCC
  ATGACACCTGCAAAATAAGTTCTGCCTGGGCATTTTGTAGATATTAACAGGTGAATTCCC
  GACTCTTTTGGTTTGAATGACAGTTCTCATTCCTTCTATGGCTGCAAGTATGCATCAGTG
  CTTCCCACTTACCTGATTTGTCTGTCGGTGGCCCCATATGGAAACCCTGCGTGTCTGTTG
  GCATAATAGTTTACAAATGGTTTTTTCAGTCCTATCCAAATTTATTGAACCAACAAAAAT
  AATTACTTCTGCCCTGAGATAAGCAGATTAAGTTTGTTCATTCTCTGCTTTATTCTCTCC
  ATGTGGCAACATTCTGTCAGCCTCTTTCATAGTGTGCAAACATTTTATCATTCTAAATGG
  TGACTCTCTGCCCTTGGACCCATTTATTATTCACAGATGGGGAGAACCTATCTGCATGGA
  CCTCTGTGGACCACAGCGTACCTGCCCCTTTCTGCCCTCCTGCTCCAGCCCCACTTCTGA
  AAGTATCAGCTACTGATCCAGCCACTGGATATTTTATATCCTCCCTTTTCCTTAAGCACA
  ATGTCAGACCAAATTGCTTGTTTCTTTTTCTTGGACTACTTTAATTTGGATCCTTTGGGT
  TTGGAGAAAGGGAATGTGAAAGCTGTCATTACAGACAACAGGTTTCAGTGATGAGGAGGA
  CAACACTGCCTTTCAAACTTTTTACTGATCTCTTAGATTTTAAGAACTCTTGAATTGTGT
  GGTATCTAATAAAAGGGAAGGTAAGATGGATAATCACTTTCTCATTTGGGTTCTGAATTG
  GAGACTCAGTTTTTATGAGACACATCTTTTATGCCATGTATAGATCCTCCCCTGCTATTT
  TTGGTTTATTTTTATTGTTATAAATGCTTTCTTTCTTTGACTCCTCTTCTGCCTGCCTTT
  GGGGATAGGTTTTTTTGTTTGTTTATTTGCTTCCTCTGTTTTGTTTTAAGCATCATTTTC
  TTATGTGAGGTGGGGAAGGGAAAGGTATGAGGGAAAGAGAGTCTGAGAATTAAAATATTT
  TAGTATAAGCAATTGGCTGTGATGCTCAAATCCATTGCATCCTCTTATTGAATTTGCCAA
  TTTGTAATTTTTGCATAATAAAGAACCAAAGGTGTAATGTTTTGTTGAGAGGTGGTTTAG
  GGATTTTGGCCCTAACCAATACATTGAATGTATGATGACTATTTGGGAGGACACATTTAT
  GTACCCAGAGGCCCCCACTAATAAGTGGTACTATGGTTACTTCCTTGTGTACATTTCTCT
  TAAAAGTGATATTATATCTGTTTGTATGAGAAACCCAGTAACCAATAAAATGACCGCATA
  TTCCTGACTAAACGTAGTAAGGAAAATGCACACTTTGTTTTTACTTTTCCGTTTCATTCT
  AAAGGTAGTTAAGATGAAATTTATATGAAAGCATTTTTATCACAAAATAAAAAAGGTTTG
  CCAAAAAAAAAAAAAAAAAAAAA
  
  5' Read Nucleotide Sequence

  >OriGene 5' read for NM_024408 unedited
  NGCGTTAGAATTTTTTACGACTTTCTTAGGCGGCCGACGACTTCGCACGAGGGAGGCGGC
  GGCCGAGGAGCGGCGGACTCGGGGCGCGGGGAGTCGAGGCATTTGCGCCTGGGCTTCGGA
  GCGTAGCGCCAGGGCCTGAGCCTTTGAAGCAGGAGGAGGGGAGGAGAGAGTGGGGCTCCT
  CTATCGGGACCCCCTCCCCATGTGGATCTGCCCATGCGGCGGCGGCGGCGGCGGAGGAGG
  AGGCGACCGAGAAGATGCCCGCCCTGCGCCCCGCTCTGCTGTGGGCGCTGCTGGCGCTCT
  GGCTGTGCTGCGCGGCCCCCGCGCATGCATTGCAGTGTCGAGATGGCTATGAACCCTGTG
  TAAATGAAGGAATGTGTGTTACCTACCACAATGGCACAGGATACTGCAAATGTCCAGAAG
  GCTTCTTGGGGGAATATTGTCAACATCGAGACCCCTGTGAGAAGAACCGCTGCCAGAATG
  GTGGGACTTGTGTGGCCCAGGCCATGCTGGGGAAAGCCACGTGCCGATGTGCCTCAGGGT
  TTACAGGAGAGGACTGCCAGTACTCAACATCTCATCCATGCTTTGTGTCTCGACCCTGCC
  TGAATGGCGGCACATGCCATATGCTCAGCCGGGATACCTATGAGTGCACCTGTCAAGTCG
  GGTTTACAAGTTAGGAGTGCCAATGGACGGATGCCTGCCTGTCTTATCCCTGTGCAAATG
  GAAGTACCTGTACCACTGTGGGCCACCCATTTTTCTGCAAATGCTCTAAGGCTTTACAAG
  GCAAAAATGGTGAAACTGATGTCAATGAGTGTGACATTCCCGGACCCTGCCAGTAGGGTG
  GGCCCTGGCTTAACCTGCCTGGGTTCTACCATGGCCATGGCCCTTAGGGCTTTCAGGCCA
  CTTATTGGTCAGC
  
  3' Read Nucleotide Sequence

  >OriGene 3' read for NM_024408 unedited
  GGGGACCTTCGGGGATGGTCATTCCCCAGTTCCAGGGAGAGCACTGGGGCAGGGGTCACA
  GGGATGCCACCCGGGATCTGTTCAGGAAACAGCTATGACCGCGGCCGCAATCTAGAGTCG
  AGTTTTTTTTTTTTTTTTTTTTTGGCAAACCTTTTTTATTTTGTGATAAAAATGCTTTCA
  TATAAATTTCATCTTAACTACCTTTAGAATGAAACGGAAAAGTAAAAACAAAGTGTGCAT
  TTTCCTTACTACGTTTAGTCAGGAATATGCGGTCATTTTATTGGTTACTGGGTTTCTCAT
  ACAAACAGATATAATATCACTTTTAAGAGAAATGTACACAAGGAAGTAACCATAGTACCA
  CTTATTAGTGGGGGCCTCTGGGTACATAAATGTGTCCTCCCAAATAGTCATCATACATTC
  AATGTATTGGTTAGGGCCAAAATCCCTAAACCACCTCTCAACAAAACATTACACCTTTGG
  TTCTTTATTATGCAAAAATTACAAATTGGCAAATTCAATAAGAGGATGCAATGGATTTGA
  GCATCACAGCCAATTGCTTATACTAAAATATTTTAATTCTCAGACTCTCTTTCCCTCATA
  CCTTTCCCTTCCCCACCTCACATAAAGAAAATGATGCTTAAAAACAAACAGAGGAAGCAC
  ATAAACAAACAAAAAACCTTTCCCCAAAGGCCGGCCGAAGAGGAGTCAAANGAAGAAAGC
  ATTTATAACATTAAAAATAACCCCAAAATTGCAGGGGAGGATCTATTACCTGCATTAAAA
  GAGGTGTCTCATAAAACCTTGATTCTCCATTTCCGAACCCCAATGAGAAAGATGTTATCC
  CTTCTTACCTTCCTTTTATTTAAAACCCACACATTTCAAGAGTTCTTAAATACTAAAAGA
  TTAGTAAAAAGTTTGAAGAGCAGTGTTGTCCT
  
• Restriction Sites: Please inquire
• ACCN: NM_024408
• Insert Size: 11000 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: The open reading frame of this TrueClone was fully sequenced and found to be a perfect match to the protein associated to this reference.
• 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_024408.2, NP_077719.2
• RefSeq Size: 11433 bp
• RefSeq ORF: 7416 bp
• Locus ID: 4853
• UniProt ID: Q04721
• Cytogenetics: 1p12
• Domains: NL, EGF_CA, ANK, EGF, EGF
• Protein Families: Druggable Genome, Transmembrane
• Protein Pathways: Dorso-ventral axis formation, Notch signaling pathway
• Gene Summary: This gene encodes a member of the Notch family. Members of this Type 1 transmembrane protein family share structural characteristics including an extracellular domain consisting of multiple epidermal growth factor-like (EGF) repeats, and an intracellular domain consisting of multiple, different domain types. Notch family members play a role in a variety of developmental processes by controlling cell fate decisions. The Notch signaling network is an evolutionarily conserved intercellular signaling pathway which regulates interactions between physically adjacent cells. In Drosophilia, notch interaction with its cell-bound ligands (delta, serrate) establishes an intercellular signaling pathway that plays a key role in development. Homologues of the notch-ligands have also been identified in human, but precise interactions between these ligands and the human notch homologues remain to be determined. This protein is cleaved in the trans-Golgi network, and presented on the cell surface as a heterodimer. This protein functions as a receptor for membrane bound ligands, and may play a role in vascular, renal and hepatic development. Two transcript variants encoding different isoforms have been found for this gene. [provided by RefSeq, Jan 2011]
  Transcript Variant: This variant (1) represents the longer transcript and encodes the longer isoform (1).