DMXL1 (NM_001290321) Human Untagged Clone

CAT#: SC338157

DMXL1 (untagged) - Human Dmx-like 1 (DMXL1), transcript variant 1

Specifications

Product Data

• Type: Human Untagged Clone
• Tag: Tag Free
• Symbol: DMXL1
• Vector: pCMV6-Entry
• E. coli Selection: Kanamycin (25 ug/mL)
• Mammalian Cell Selection: Neomycin
• Sequence Data:
  Fully Sequenced ORF

  >NCBI ORF sequence for NM_001290321, the custom clone sequence may differ by one or more nucleotides
  
  
  ATGAACCTGCACCAGGTGCTGACCGGGGCTGTGAACCCTGGCGACCACTGCTTCTCCGTGGGCAGCATTG
  GCGACCAGCGCTTCACGGCTTATGCATCTGGATGTGACATTGTAATACTGGGAAGCGATTTTGAAAGATT
  ACAGATAATCCCAGGAGCTAAACATGGAAATATTCAAGTGGGATGTGTAGACTGTTCAATGCAACAAGGC
  AAGATTGCAGCGTCTTATGGAAATGTTATCTCCATTTTTGAACCAGTTAACCTACCAAAACAAAAGAAAA
  ATTTGGAATTATATAGTCAGTGGCAGAAAAGTGGCCAATTTTTTCTGGAATCAATAGCACACAATATAAC
  CTGGGATCCCACAGGCAGTCGTCTTTTAACTGGTTCCAGCTATTTGCAACTCTGGTCCAATACTAACTTG
  GAGAAGCCAACTGAAGATGAAAATTTAAATAAAACAGATCTTAACTTTGGAGATTGGAAATGCATTTGGC
  ATTGCAAAACTGCTTCCCAAGTTCATTTAATGAAATTTTCACCAGATGGAGAATTTTTTGCCACTGCTGG
  GAAGGATGACTGTCTTTTGAAGGTTTGGTATAATGTAGAAAACTGGCGGACAGCTGTTACTTCTCCAGAT
  GGAAGTTCAGAAAAACAATCCCAAGGAGAAATTGACTTTTCTTTTGTGTATCTGGCCCATCCTCGAGCAG
  TAAATGGATTTTCCTGGCGTAAAACAAGCAAATATATGCCTAGGGCTTCTGTATGTAATGTACTGTTGAC
  TTGCTGCAAAGATAATGTGTGTCGTCTTTGGGTAGAGACATTTTTACCAAATGATTGTTTGCTATACGGA
  GGTGACTGCAGCCATTGGACTGAATCAATTAATTTAACAAATAACTTCAAGAGAAATGCTTCCAGTAAAG
  AACGAGTTCAAAATGCTTTAGAAGTAAATCTGAGACATTTTCGTAGAGGTCGGAGGAGATCACTTGCTCT
  TGTAGCACATACGGGATATCTACCACATCAGCAGGATCCTCATCATGTTCACAGGAACACTCCACTGCAT
  GCCAATGCACTTTGCCACTTTCATATTGCAGCCAGCATCAACCCAGCCACAGACATTCCACTTCTTCCAT
  CTATTACATCTCTGAGTCTAAATGAAAATGAAGAGAAGACCGGACCTTTTGTTGTACACTGGCTAAACAA
  TAAAGAACTGCATTTTACTTTGTCCATGGAAGTTTTTTTACAGCAACTTAGAAAAAGTTTTGAACAACCA
  TCTTCTGAGGCCAGTGTAGAAGATTCTAATCAGGCAGATGTAAAATCTGATGAAGAAACTGATGATGGTG
  TTGATGATCTGAAAATAAATCCCGAAAAGAAGGAATTAGGCTGTGATAAAATGGTACCAAACTCAAGTTT
  TACATCATTATCGTCAGCTGCCATTGATCATCAGATTGAAGTACTTCTGTCTGAATGGAGTAAAAATGCA
  GATATGCTATTTAGTATTCATCCCATGGATGGTTCTTTGCTAGTTTGGCATGTGGATTGGCTGGATGAAT
  ACCAGCCTGGTATGTTTCGTCAAGTACAGGTGTCCTTTGTTTCCAGAATTCCAGTAGCTTTCCCCACAGG
  TGATGCAAACTCTCTCTGTAAAAGCATAATGATGTATGCCTGTACCAAGAATGTTGACTTGGCTATTCAG
  CAGGGGAAACAAAAACCTTCTGGCCTCACCCGTTCCACATCAATGCTTATTTCTTCTGGTCACAATAAAT
  CATCTAATAGTTTAAAATTAAGTATTTTTACGCCTAATGTTATGATGATATCAAAACATGCTGATGGTTC
  TCTGAATCAGTGGCTGGTCAGTTTTGCCGAGGAATCTGCTTTTTCTACTGTTCTCAGTATTTCCCACAAA
  TCCAGATATTGTGGTCATCGTTTTCATCTTAATGATTTAGCTTGCCACTCAGTATTACCATTATTGCTGA
  CAACATCACACCATAATGCATTAAGGACACCAGATGTTGATAACCCAGAGCAACCTTTTGATGCTCTAAA
  TATTGAAGAATGCTCTTTGACACAACAAAATAAAAGCACTGTTGACGTGGCATTTCAGGATCCCAGTGCA
  GTTTACAGTGAGCTTATTCTGTGGAGGGTTGACCCAGTTGGGCCATTGTCTTTTTCTGGAGGAGTTTCTG
  AGCTTGCCCGGATTAATTCTCTTCATGTTTCTGCCTTTTCCAATGTGGCATGGCTGCCCACTCTTATACC
  CAGTTATTGTCTGGGTGCATACTGCAACTCTCCTAGTGCATGCTTTGTAGCCAGTGATGGACAATATCTG
  AGATTATATGAAGCAGTTATTGATGCTAAGAAACTTTTATCTGAGCTTTCTAACCCTGAAATTTCTAAAT
  ATGTTGGTGAAGTCTTTAACATCGTCAGTCAACAATCAACAGCCAGGCCAGGATGCATTATTGCATTAGA
  TCCCATTACCAAACTTCATGGCAGAAAAACCCAACTGCTTCATGTTTTTGAAGAAGACTTCATTTTGAAT
  AACCTTGAGAAGAAAAGCCTTGGCAAAGACAGCATTTTATCTAATGCAGGCAGCTCACCTAATGGATTTT
  CTGAGAAGTTCTACCTAATTGTAATAGAATGCACTCAAGACAACCGTTCACTGTTACACATGTGGAATTT
  ACATCTAAAGTCAATTCCTGTCTCATTAGATGAAAAAGTAGATACAAAATTATCCGAAGCGGTTTGGCAG
  CCAGAAGAACATTATTCTTCTTCTCCAGAGAAGATCCTATCTCCTTTTTCACAAAAGTATCAGGCTTGCA
  GAGCAAATCTCCAGAGTACCAGCAGGTTGACTCTGTTTTCAGAAATGGTTTATAGCCAAGAATTGCATTT
  ACCAGAAGGAGTTGAGATAATAAGTATTAAGCCATCAGCAGGACATCTGAGTTCATCTTCTATATATCCT
  GCATGCAGTGCTCCTTATTTATTGGCAACTTCATGTTCAGATGAGAAAGTAAGATTCTGGAGATGCAGAG
  TAACAGATGGAGAATCTGCCACGTCAAAGAATGGAAAAATTGATCTTGCATACATTTGGGAAGAATGGCC
  ATTACTTATTGAAGATGGACTTCAGAGCAATAGTAGTATAACTGTACCTGGTAGGCCTGTAGAAGTTAGC
  TGTGCACATACAAATCGTTTAGCAGTAGCTTATAAGCAGCCTGCATCTAATAGTAGATCTTCCCAGGACT
  TTGTGATGCATGTAAGTATTTTTGAATGTGAGTCAACAGGAGGTTCATGTTGGGTCCTTGAGCAGACAAT
  TCATTTAGATGAGTTAAGCACAGTATTGGATTCTGGCATTAGTGTTGATAGCAATTTAGTGGCCTATAAT
  AAACAAGACATGTATTTATCTAGTAAAGAGAATATCACATCAAACACAAAGCATTTAGTTCACTTAGATT
  GGATGTCTAGAGAAGACGGTTCTCATATCCTGACTGTAGGAATTGGATCAAAACTTTTTATGTATGGACC
  CCTGGCTGGCAAGGTACAAGACCAAACTGGTAAGGAAACCCTGGCATTTCCTCTCTGGGAGAGTACCAAA
  GTTGTGCCCCTTTCTAAATTTGTACTATTACGAAGTGTGGACCTAGTTTCTTCTGTAGATGGCTCCCCAC
  CTTTTCCTGTTTCTTTATCGTGGGTCCGGGATGGCATCCTTGTGGTAGGAATGGACTGTGAAATGCATGT
  GTATTGCCAATGGCAACCATCTTCTAAACAAGAACCTGTTATAACAGATTCGTACAGTGGGAGCACTCCA
  TCTATAACAAGTTTAATAAAACAGAGTAACTCCAGTTCTGGGTTACATCCTCCAAAGAAAACTCTGACTC
  GATCCATGACCAGTCTTGCACAGAAAATCTGTGGAAAGAAAACTGCATTCGATCCTTCAGTGGATATGGA
  AGATTCAGGTCTTTTTGAAGCAGCTCATGTACTTTCCCCGACTCTACCTCAGTATCATCCCTTGCAGCTT
  TTGGAACTCATGGATCTTGGTAAAGTTCGGAGAGCCAAGGCCATCTTGTCCCATCTTGTTAAGTGCATTG
  CTGGGGAAGTTGTGGCTCTGAATGAAGCTGAATCTAATCATGAACGCCGCCTTAGGTCTCTCACAATCAG
  TGCTAGTGGAAGCACTACCAGAGACCCCCAGGCATTCAACAAGGCTGAAAATACAGATTACACAGAAATA
  GATTCTGTTCCTCCACTTCCTTTATATGCCTTACTTGCAGCAGATGATGATAGCTGTTACTCATCTTTGG
  AGAAATCTAGTAATGAGAGTACGTTAAGTAAATCAAACCAATTATCTAAAGAAAGTTATGATGAGCTTTT
  TCAGACTCAACTTCTAATGACTGATACTCATATGTTAGAGACAGATGAAGAAAATACAAAGCCTAGAGTT
  ATTGACCTTTCACAGTACAGTCCGACTTACTTTGGACCTGAGCATGCTCAGGTTCTTTCTGGCCACTTAC
  TTCATTCTAGTTTACCAGGACTCAGCCGGATGGAGCAGATGTCTTTGATGGCCTTAGCAGATACAATTGC
  AACTACAAGCACTGATATTGGAGAAAGCCGAGACAGAAGCCAAGGTGGAGAAACTCTTGATGAATGTGGG
  TTAAAATTTCTTTTGGCTGTTCGACTCCATACCTTTCTTACAACTTCCCTTCCAGCCTATCGAGCTCAAC
  TCCTTCACCAAGGCCTGTCTACAAGTCATTTTGCTTGGGCATTTCACTCAGTAGCAGAAGAAGAACTGCT
  GAACATGTTGCCAGCCATGCAGAAAGATGATCCCACTTGGTCTGAACTAAGAGCTATGGGTGTGGGGTGG
  TGGGTCCGGAATACCCGCATCTTACGCAAATGCATAGAAAAAGTAGCTAAAGCAGCCTTTTATAGAAAGA
  ATGATCCTTTAGATGCTGCCATTTTTTACCTTGCAATGAAAAAGAAAGCTGTGATTTGGGGATTATATAG
  AGCTGAAAAAAACACCAGGATGACACAGTTTTTTGGACACAATTTTGAGGATGAGAGGTGGCGTAAAGCA
  GCTTTAAAGAATGCTTTTTCTTTGCTAGGCAAACAAAGATTTGAACATTCTGCAGCATTTTTTCTTTTAG
  CTGGTTGCCTCAGAGATGCAATTGAGGTATGTCTTGAGAAATTGAATGACATTCAGTTGGCTCTTGTAAT
  AGCAAGACTCTATGAGTCTGAATTTGATACATCTGCAGCATATAAATCTATTTTACGTAAAAAAGTTTTG
  GGAATCGATTCTCCTGTCAGTGAACTGTGTTCATTGAACATAAATATGCATCATGATCCTTTTCTTCGGA
  GCATGGCATATTGGATTTTGGAAGATTATAGTGGTGCTCTGGAAACATTAATAAAGCAACCTATCAGAGA
  GAATGATGATCAAGTTTTATCAGCCAGTAATCCTACAGTTTTTAATTTCTACAATTATCTAAGAACACAT
  CCTCTTTTGCTGAGACGTCATTTTGGATCATCTGATACATTTTCCACACATATGAGCCTAACAGGAAAAA
  GTGGACTGGCAGGAACAATTAATTTAAGTGAAAGACGTTTATTTTTTACCACTGCCAGTGCTCATTTAAA
  AGCTGGCTGCCCAATGTTGGCTTTGGAAGTATTATCAAAGATGCCTAAAGTCATCAAGAAAACAAGACCT
  TTTTATAGGGCTTCTAGTTTTCTGGATACTAGTAAAGACTGTTCTCCTTCTTCTCCATTAAAGTTGGATG
  CAAGGGAAGATAAGTCTTCTGCTGTTGATTGGTCACAGTCACTGATAAATGGTTTTGGATCTTCTTCAGA
  GGGTTCCTCAGAGAAGCAATCAAACTCCACTCTTTCTTTTGACTGGAGCCAACCAAGTGTTGTGTTTCAG
  GATGACTCTTTAGAGTTAAAATGGGACAGTGATAATGATGAAGAAAATGAGGATGTCCCTATTTCAATGA
  AAGAACTAAAACCTTTACAGAGAAAAACAGATAAAAAGTTGGATGACATAAGTTCTAACTACACAGAATC
  TTTCAGCACACTAGATGAAAATGACCTTTTAAATCCATCAGAAGATATAATTGCAGTTCAGTTAAAATTT
  AGAGCATGTTTAAAGATTCTCACAGTAGAACTTCGTACTTTATCTACTGGCTATGAAATAGATGGTGGAA
  AATTGCGTTACCAACTATACCACTGGCTTGAAAAAGAGGTGATAGCTCTTCAGAGGACTTGTGACTTTTG
  CTCAGATGCTGAAGAACTACAGTCTGCATTTGGCAGAAATGAAGATGAATTTGGATTAAATGAGGATGCT
  GAAGATTTGCCTCACCAAACAAAAGTGAAACAACTGAGAGAAAATTTTCAGGAAAAAAGACAGTGGCTCT
  TGAAGTATCAGTCACTTTTGAGAATGTTTCTTAGTTACTGCATACTTCATGGATCCCATGGTGGGGGTCT
  TGCATCTGTAAGAATGGAATTGATTTTGCTTTTGCAAGAATCTCAGCAGGAAACATCAGAACCACTATTT
  TCTAGCCCTCTGTCAGAGCAAACCTCAGTGCCTCTCCTCTTTGCTTGTACAGCCAATGCCAAAACAGTAG
  TTGCCAATCCATTATTGCACCTTAGTAATCTGACACATGATATTCTCCATGCCATAATAAACTTTGATTC
  ACCACCCCACCCTGATATCCAAAGCAATAAAGTGTATGTAATGCATACTTTAGCAGCTTCACTTTCTGCT
  TGTATTTATCAGTGCCTTTGTGGTAGTCATAACTACAGTTCATTTCAGACGAATCAGTTTACTGGAATGG
  TATATCAGACAGTACTGCTTCCTCATCGACCTTCTTTGAAAACAGGAAGCTTAGATGAAGCATTAACTCC
  CAATACGTCACCAGCTCAATGGCCAGGAATAACTTGTCTAATTCGACTTTTGAATTCTTCTGGCGAGGAA
  GCCCAGTCAGGGCTTACAGTCTTGCTCTGTGAGATTCTCACAGCAGTGTATCTTAGTCTCTTCATCCATG
  GCCTGGCCACACATTCAAGTAATGAGCTATTTCGGATTGTGGCCCATCCTCTAAATGAGAAAATGTGGTC
  TGCTGTGTTTGGTGGAGGTGCACATGTTCCTAGCAAAGAACAGACACATTCAAAAACTTTACCTGTTTCT
  TCACTAGTTGAAGAAGGAGAAAAACAGAACAAACGTTTTAGGCCGTCAAAAATGTCTTGCAGAGAATCTG
  CCCCACTGACCCCTTCCTCGGCACCAGTAAGCCAGGAGTCACTGGCGGTTAAAGAAAAGTTCATCCCACC
  TGAGCTCAGTATCTGGGACTATTTCATAGCTAAGCCTTTTCTACCCTCTTCTCAAAGTAGAGCCGAATAT
  GATTCAGAGGAGAGTCTGGGAAGTGATGATGATGACAATGATGATGATGATGATGTTTTAGCATCAGATT
  TCCATCTCCAGGAACATTCTAATTCAAATTCATATAGTTGGTCCTTGATGCGGTTGGCGATGGTGCAATT
  GGTGCTCAACAATTTGAAGACTTTTTATCCCTTCGCAGGTCATGATCTTGCAGAGCTTCCAGTTAGTTCA
  CCTCTTTGTCATGCGGTTCTAAAAACTCTTCAATGTTGGGAACAAGTTCTTCTCCGACGACTTGAAATCC
  ATGGTGGGCCACCTCAAAATTATATCGCAAGTCATACCGCCGAAGAGAGTTTGTCTGCAGGTCCTGCAAT
  TCTTCGCCACAAAGCTTTACTGGAACCTACAAACACTCCTTTCAAATCCAAACACCATCTGGCACTGTCT
  GTGAAGAGGCTTTGGCAGTATTTGGTGAAGCAGGAAGAAATTCAGGAAACCTTTATCAAAAATATATTCA
  CAAAGAAACGGTGTCTAAATGAGTCATTAGAGGACAACAGTGAAACCATCAAAAATTCTATGATGGAGGA
  GCCAAACATCAATAAGATAGAAGCAGATTTGGGATATCCTGGAGGTAAAGCAAGAATTATTCATAAGGAA
  TCTGATATCATTACTGCGTTTGCTGTTAATAAGGCAAATAGAAACTGCATAGCAATCGCTTCCAGTCATG
  ATGTTCAAGAACTGGATGTTTCTGGAATTCTGGCCACACAGGTCTACACTTGGGTAGATGATGATATAGA
  AGTGGAAACCAAAGGATCAGAAGATTTCTTGGTTATACATGCTCGTGATGATTTAACAGCTGTTCAAGGT
  ACAACTCCATATACACATAGCAATCCTGGCACTCCAATCAACATGCCATGGCTTGGTAGTACACAGACTG
  GCAGAGGAGCATCTGTGATGATTAAGAAAGCCATTAATAATGTTAGAAGAATGACTTCTCATCCAACTCT
  TCCTTACTATCTGACAGGAGCTCAAGATGGAAGTGTCAGAATGTTTGAATGGGGCCATTCTCAACAAATA
  ACCTGTTTTCGATCTGGTGGCAATTCAAGAGTTACAAGAATGAGATTTAACTATCAGGGAAATAAGTTTG
  GAATAGTTGATGCTGATGGATATTTAAGTTTGTATCAAACAAACTGGAAATGTTGTCCAGTTACTGGAAG
  CATGCCTAAGCCATACCTGACTTGGCAGTGTCATAACAAAACAGCCAATGATTTTGTCTTCGTTAGTTCC
  TCCTCTCTGATAGCTACAGCTGGTCTTTCAACTGACAATAGAAACGTATGTTTGTGGGATACTCTTGTAG
  CACCTGCCAATAGTTTAGTCCATGCATTTACCTGCCATGACAGTGGAGCCACAGTTTTAGCATATGCTCC
  AAAACATCAGCTACTAATATCAGGTGGCAGAAAAGGTTTTACATATGTATTTGACCTTTGTCAACGACAA
  CAGAGGCAGCTTTTCCAGAGCCATGATTCTCCTGTTAAAGCCGTTGCTGTTGATCCAACTGAAGAGTACT
  TTGTTACAGGATCTGCCGAAGGCAATATAAAGATTTGGAGTCTCTCTACCTTTGGTCTTCTCCATACTTT
  TGTCAGTGAACATGCTCGGCAGTCCATTTTTAGAAATATTGGAACTGGAGTGATGCAAATTGAGACAGGG
  CCTGCAAATCACATTTTCTCCTGTGGAGCTGATGGAACAATGAAAATGAGAATACTGCCAGATCAGTTTA
  GCCCTTTAAATGAAGTGTTGAAAAATGATGTGAAATTTATGCTATAA
  
  
• Restriction Sites: SgfI-MluI
• ACCN: NM_001290321
• OTI Disclaimer: 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).
• 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_001290321.2, NP_001277250.1
• RefSeq Size: 11549 bp
• RefSeq ORF: 9147 bp
• Locus ID: 1657
• Cytogenetics: 5q23.1
• Gene Summary: 'The protein encoded by this gene is a member of the WD repeat superfamily of proteins, which have regulatory functions. This gene is expressed in many tissue types including several types of eye tissue, and it has been associated with ocular phenotypes. In addition, it is upregulated in cultured cells that overexpress growth factor independence 1B, a transcription factor that is essential for hematopoietic cell development. Alternative splicing results in multiple transcript variants. [provided by RefSeq, Nov 2014]'
  Transcript Variant: This variant (1) encodes the longest isoform (1). Variants 1 and 4 encode the same isoform (2).