DMXL1 (NM_001290321) Human Untagged Clone
CAT#: SC338157
DMXL1 (untagged) - Human Dmx-like 1 (DMXL1), transcript variant 1
"NM_001290321" in other vectors (1)
Product Images
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 |
>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). |
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Other Versions
SKU | Description | Size | Price |
---|---|---|---|
RC240263 | DMXL1 (myc-DDK-tagged) - Human Dmx-like 1 (DMXL1), transcript variant 1 |
USD 3,660.00 |
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