DMXL2 (NM_001174116) Human Untagged Clone

CAT#: SC329394

DMXL2 (untagged)-Human Dmx-like 2 (DMXL2) transcript variant 1



  "NM_001174116" in other vectors (2)

CNY 26,790.00


货期*
12周

规格
    • 10 ug

Product images

经常一起买 (2)
TurboFectin Transfection Reagent (1 mL in 1 vial)
    • 1 ml in 1 vial

CNY 4,090.00


Forward sequencing primer VP1.5, Reverse sequencing primer XL39, 100pmoles each
    • 100 pmol

CNY 480.00

Specifications

Product Data
Type Human Untagged Clone
Tag Tag Free
Synonyms DEE81; DFNA71; EIEE81; PEPNS; RC3
Vector pCMV6-XL5
E. coli Selection Ampicillin (100 ug/mL)
Mammalian Cell Selection None
Sequence Data
>NCBI ORF sequence for NM_001174116, the custom clone sequence may differ by one or more nucleotides
ATGCATCTGCATCAGGTCCTCACCGGAGCTGTCAACCCTGGAGACAACTGCTACTCCGTG
GGCAGCGTCGGGGATGTCCCCTTCACGGCATATGGATCAGGCTGTGATATTGTTATTTTG
GCAAATGACTTTGAATGTGTACAGATCATTCCTGGTGCTAAGCATGGAAACATCCAAGTC
AGCTGTGTGGAGTGTTCTAACCAACAAGGAAGAATTGCAGCTTCATATGGTAATGCTGTT
TGTATATTTGAGCCCTTGGGCATAAATTCTCATAAAAGAAATTGTCAACTCAAGTGCCAG
TGGCTTAAAACTGGGCAGTTTTTTTTGAGTTCTGTGACATACAACTTAGCATGGGATCCT
CAAGATAATAGATTGTTGACAGCAACTGATTCTATTCAGTTGTGGGCTCCTCCAGGAGAT
GATATTCTGGAAGAGGAGGAAGAAATTGATAATACAGTTCCTCCTGTTTTAAATGATTGG
AAGTGTGTCTGGCAGTGCAAAACCTCAGTATCTGTACATTTGATGGAATGGTCTCCTGAT
GGTGAATATTTTGCTACTGCTGGAAAGGATGATTGTCTTTTGAAAGTGTGGTATCCTATG
ACTGGTTGGAAGTCTTCAATTATACCTCAGGATCATCATGAAGTAAAAAGGAGACAGTCC
TCTACTCAATTTTCTTTTGTTTACTTGGCACATCCCCGAGCTGTGACAGGTTTTTCGTGG
CGCAAAACTAGCAAGTATATGCCCAGGGGTTCTGTCTGTAATGTGTTGTTAACTTCATGT
CATGATGGTGTGTGCCGGCTCTGGGCAGAAACTTTATTACCAGAAGACTGTCTTTTGGGT
GAGCAGATTTGTGAGACTACCACTTCCAGCATTGCCAGCAGCCTTTCTCATGCTGGAAGA
CACAAAGACAGAATACAGCATGCTCTTGAGACAATACACCATTTGAAAAATTTAAGGAAA
GGACAGAGGAGGTCATCTGTTCTTGTAACTCATGCTGAATTAATGCCCGACCAGACAGCA
ATGCATGAAGTTCAAAGACACATTTCCCACCATGCAAATGCACTCTGTCATTTTCATATT
GCAGCAAGCATCAACCCTGCCACAGATATTCCAAATGTCTTGGTTGGCACTGCATTTAAT
GTTGATGATGGAAATGGGGGCTTTGTAGTTCATTGGTTAAACAACAAGGAATTTCATTTT
ACATCATCTACAGAAGTATTTATGCATCAATTACGAAAACTTTCTGATAAGCAGGTAGAT
CATGAAAATGATGATGCAGATAGAGAAGATGAGGAACATTCACAGGAGGATAGAGAACGG
GGTTTACATATGAAATTAGACCATGATTTATCCCTGGATAGAGAATCTGAGGCAGGTACA
GGATCATCAGAACATGAAGATGGAGAAAGAGAAGGAAGTCCTAGAACTTACTCACGACTT
AGTGTACCAATGCCACTGCCTACGGTTCTGCTTGATCGGAAGATTGAAACGCTGCTAACT
GAATGGAATAAGAATCCTGATATGCTTTTTACAATACACCCTGTAGATGGTACCTTTCTA
GTGTGGCATGTGAAGTATTTGGATGAATATAATCCTGGAATATTTAGACAAGTTCAGGTT
TCTTTTTCTTCTCGGATTCCTGTTGCATTTCCCTCTGGTGATGCAAGCTCTCTTAGTAAA
AATATCATGATGTATGCCTGTATAAATGCGACAAAAGATTCTCACCACACGCTGTTACAC
CAGGAGGGGATGTCTGTAGGCAGTCCTCACGGATCACAGCCACACTCTAGATCCCACAGT
ACACATATGAACATCTTAGCTCCCACAGTAATGATGATCTCTAAACACATAGATGGTTCT
TTAAATCAGTGGGCAGTCACTTTTGCTGATAAGTCTGCCTTTACCACTGTTCTAACTGTA
TCTCACAAATTTAGATATTGCGGTCATCGATTTCACCTCAATGACCTGGCATGTCATTCA
GTTTTACCACTGTTATTGACATCCTCTCATCATAATGCTCTATTGACTCCTGAATTAGAT
TGTCAGTGGGACTCAGACAATAAATTAAGTAGATTAATGGACCCTGTAAAACATATAAAA
GGTTCCTCGAAACAACCTCTTAGAAATGCAGCAACTCGTACATTTCATGACCCAAATGCA
ATCTACAGTGAACTTATTCTGTGGCGTGTAGACCCAATAGGACCTTTGTCATACACTGGA
GGAGTATCAGAATTGGCTCGAATTAACTCTTTACATACCTCAGCGTTCTCTAATGTGGCT
TGGCTTCCAACTCTCATTCCCAGTTACTGTCTAGGCACATACTGCAATTCTGCAAGTGCT
TGCTTTGTTGCTTCTGATGGCAAAAATCTGAGACTCTATCAAGCTGTAGTGGATGCAAGG
AAATTATTAGATGAATTGTCAGACCCAGAATCTTCAAAACTTATTGGAGAAGTGTTTAAT
ATTGTGAGCCAACAGTCTACTGCTCGACCTGGCTGCATTATTGAACTCGACGCAATAACC
AACCAATGTGGCTCAAATACACAGTTGCTTCATGTGTTTCAAGAAGACTTCATTATAGGA
TATAAACCACATAAGGAAGATATGGAGAAAAAGGAAACAGAAATATTTTTTCAGCCATCA
CAAGGATACCGCCCACCACCATTTTCAGAAAAGTTCTTTCTAGTAGTAATTGAGAAGGAC
AGCAATAATAACTCTATTCTGCATATGTGGCACCTTCATCTTAAATCTGTACAAGCATGT
TTAGCTAAAGCTTCAGAAGGGGCTTCCTCTGAGAGTCTACTTTCAGTCCCTGGACAGAAG
AACGTAGATTCTTCTCCAGAAACCTCTCCTAGTGTGAGCCCCATGCCACATTCTTCATCA
ATTGCCAATCTTCAAACTGCCAGTAAACTTATTCTGAGTTCTAGACTGGTGTATAGCCAA
CCCCTTGATCTCCCAGAATCAGTTGAAGTAATAAGAGCAACGCCTTCAGCAGGCCATCTG
AGTTCTTCTTCAATTTATCCAGTGTGCCTTGCACCTTATTTAGTGGTTACAACTTGTTCT
GACAATAAAGTACGCTTCTGGAAATGTTGTATGGAAGCCAACCCAGAGTGTAATAAAAGT
GATGAGAAAGAAATTTATCATTGGAAGAGATGGCCTTTGATGAATGATGAAGGAGAAGAT
AATAGCAGTACAGTGAGCATTGTGGGAAGACCAGTTGCTGTTAGCTGTTCATACACAGGT
CGCCTTGCAGTGGCTTATAAGCAGCCTATCCACCATAATGGTTTTGTTTCTAAAGAATTT
TCCATGCATGTTTGTATATTTGAATGTGAATCTACAGGAGGATCAGAGTGGGTTTTAGAA
CAAACAATTCATCTTGATGATTTGGTTAAGGTTGGGAGTGTACTTGATTCAAGGGTCAGC
GTCGACAGTAATCTGTTTGTGTATAGCAAGTCAGATGCACTCTTGAGCAAGGATAGATAT
CTTATTCCGAATATCAAACATTTAGTACATTTGGACTGGGTATCAAAAGAAGATGGCTCC
CACATTCTTACAGTGGGAGTCGGTGCGAATATCTTCATGTATGGAAGGCTTTCAGGAATT
GTGACTGAGCAAACCAACAGTAAGGATGGAGTAGCTGTCATCACTTTACCACTAGGTGGT
AGTATCAAGCAAGGAGTTAAGTCAAGATGGGTTCTTCTTAGATCTATAGACTTGGTATCT
TCTGTTGATGGTACTCCTTCACTGCCTGTTTCTCTCTCTTGGGTAAGAGATGGGATATTG
GTGGTAGGAATGGATTGTGAAATGCATGTATATGCACAGTGGAAGCATGCTGTCAAATTT
GGAGACACTGAAGCTGATAGTTCTAATGCAGAAGAGGCAGCAATGCAAGATCATTCGACC
TTTAAATCTAATATGCTGGCAAGAAAAAGTGTTGTTGAAGGAACAGCTATTTCTGATGAT
GTTTTTTGTTCACCAACTGTAATTCAAGATGGTGGCTTATTTGAGGCTGCACATGTACTT
TCCCCTACTCTTCCACAATATCATCCAACTCAGCTGTTAGAATTGATGGATTTAGGGAAA
GTGCGAAGGGCTAAAGCCATTCTCTCTCATTTAGTAAAATGTATTGCAGGTGAAGTAGCA
ATAGTTAGAGATCCTGATGCTGGAGAAGGAACTAAGCGACATCTCTCTCGAACTATTAGT
GTAAGTGGCAGTACAGCAAAGGAAACAGTCACCGTAGGAAAAGATGGTACTCGAGATTAT
ACTGAGATAGATTCTATCCCTCCACTACCACTATATGCATTACTTGCTGCAGATCAAGAT
ACATCCTACAGAATTTCAGAAGAAAGTACAAAGATACCACAGAGCTATGAAGATCAGACA
GTAAGTCAACCAGAGGATCAGTATTCAGAGCTGTTTCAAATCCAGGATATACCAACGGAT
GATATTGATTTAGAGCCTGAAAAGAGAGAAAACAAATCAAAAGTAATAAATCTTTCTCAA
TATGGACCAGCTTACTTTGGCCAAGAACATGCAAGGGTACTTTCAAGTCATCTTATGCAC
TCAAGTCTACCAGGCCTTACCCGTTTGGAGCAGATGTTCCTTGTAGCTTTGGCTGATACA
GTGGCTACTACTAGTACTGAGCTTGATGAAAGCAGAGATAAGAGTTGCTCAGGAAGAGAT
ACATTAGATGAGTGTGGTTTGAGATACTTGTTAGCTATGCGCCTACACACATGCCTTTTG
ACATCGCTGCCTCCTTTATACCGAGTGCAGCTACTTCATCAAGGTGTCTCTACATGCCAT
TTTGCCTGGGCTTTTCATTCTGAGGCTGAAGAAGAACTGATTAATATGATTCCAGCAATT
CAGAGAGGGGACCCCCAGTGGTCTGAATTAAGAGCTATGGGCATAGGATGGTGGGTGAGG
AACATTAACACGCTTCGAAGATGCATTGAAAAGGTTGCCAAAGCTTCTTTTCAAAGGAAC
AATGATGCCTTAGATGCTGCACTATTCTACCTTTCAATGAAGAAGAAAGCAGTAGTGTGG
GGTCTGTTTAGGTCACAGCATGATGAAAAAATGACAACATTTTTCAGCCACAACTTTAAT
GAAGATAGATGGCGAAAAGCTGCTTTGAAAAATGCTTTTTCCTTACTTGGAAAACAACGC
TTTGAACAATCGGCTGCTTTTTTCTTGCTAGCTGGTTCATTGAAAGATGCCATAGAGGTA
TGTCTTGAAAAAATGGAAGATATTCAGCTAGCCATGGTTATTGCCCGTTTATATGAATCT
GAATTTGAGACTTCATCCACTTATATATCCATCCTAAATCAGAAGATTTTGGGTTGCCAA
AAGGATGGCTCAGGATTCAGTTGCAAAAGATTACATCCTGATCCTTTCCTGCGTAGTCTT
GCCTATTGGGTAATGAAAGATTACACCCGAGCCTTGGACACATTACTGGAACAAACACCA
AAGGAGGATGATGAACATCAAGTTATCATCAAGTCTTGTAACCCGGTGGCATTTAGTTTT
TATAACTACCTTCGAACTCATCCTTTGCTCATTCGAAGAAATCTTGCCTCCCCTGAAGGA
ACTTTGGCAACCTTAGGTCTCAAAACTGAGAAGAACTTTGTTGATAAAATTAACCTCATA
GAAAGAAAATTATTCTTTACCACTGCAAATGCTCATTTTAAAGTTGGATGCCCTGTTTTA
GCCTTGGAGGTACTCTCCAAAATTCCAAAAGTAACCAAAACATCTGCCTTATCTGCAAAA
AAAGATCAGCCTGACTTCATTTCTCACAGGATGGATGATGTACCTTCACATTCAAAAGCT
CTGAGTGATGGCAATGGAAGTTCTGGCATTGAATGGTCAAATGTAACTTCATCACAGTAT
GACTGGAGTCAGCCAATAGTAAAAGTTGATGAGGAACCTCTTAATCTTGATTGGGGTGAA
GATCACGACAGTGCCTTAGATGAAGAGGAAGACGATGCTGTTGGTTTAGTGATGAAAAGT
ACAGATGCCAGGGAAAAAGATAAACAATCAGATCAGAAGGCCTCAGACCCTAACATGTTA
TTAACACCTCAGGAAGAGGATGATCCTGAAGGTGATACTGAAGTTGATGTGATTGCTGAA
CAACTAAAATTCAGAGCTTGTTTAAAGATCCTTATGACTGAATTAAGAACATTGGCTACA
GGTTATGAAGTAGATGGAGGAAAACTCAGATTTCAACTCTATAACTGGCTTGAAAAGGAA
ATTGCTGCCTTGCATGAGATATGTAATCATGAATCAGTTATTAAAGAGTATTCCAGTAAG
ACATATTCCAAAGTAGAGAGTGATCTGCTGGATCAGGAAGAAATGGTAGACAAACCAGAT
ATTGGTTCCTATGAGCGCCATCAAATAGAAAGAAGAAGATTGCAGGCCAAACGAGAGCAT
GCAGAAAGACGAAAGTCGTGGTTGCAGAAAAACCAAGATCTCCTGAGAGTATTTCTCAGC
TACTGTAGCCTTCATGGGGCCCAAGGTGGTGGTTTGGCTTCAGTAAGGATGGAACTCAAA
TTTTTGCTACAAGAATCACAACAGGAAACTACAGTAAAGCAGCTCCAGTCTCCACTACCA
CTGCCTACCACCCTACCTCTGCTTTCAGCAAGTATTGCGTCAACAAAAACAGTCATAGCT
AATCCTGTATTGTACTTAAATAATCACATCCATGATATACTTTATACTATTGTTCAGATG
AAAACACCACCTCATCCCAGTATTGAAGATGTGAAGGTGCACACACTTCATTCACTAGCA
GCATCACTTTCTGCATCAATTTACCAAGCATTATGTGACAGTCATAGCTACAGCAGTCAA
ACAGAAGGAAATCAGTTTACAGGAATGGCTTATCAAGGACTTCTTTTAAGTGATCGTAGA
AGACTAAGGACAGAAAGCATTGAAGAACACGCAACACCAAATTCATCTCCTGCTCAATGG
CCTGGTGTGAGCTCACTTATTAATCTTTTGAGTTCAGCCCAAGATGAAGACCAGCCAAAA
CTGAACATTTTGCTATGTGAAGCTGTTGTTGCTGTTTACTTAAGTTTATTGATACATGCT
CTTGCCACAAATTCCTCCAGTGAATTATTTCGGCTTGCAGCCCACCCATTAAATAATCGA
ATGTGGGCTGCTGTTTTTGGAGGCGGTGTAAAACTTGTTGTGAAACCTCGAAGACAATCA
GAAAATATTTCAGCACCTCCTGTCCTTTCTGAAGACATAGATAAACACCGTAGGAGATTT
AACATGAGAATGCTCGTCCCTGGAAGGCCTGTAAAAGATGCTACCCCACCACCGGTGCCT
GCAGAAAGACCATCTTACAAAGAAAAATTTATTCCTCCCGAACTTAGTATGTGGGATTAT
TTTGTTGCAAAGCCATTTCTTCCTTTGTCTGATAGTGGTGTTATATATGATTCTGATGAA
AGCATTCATAGTGATGAAGAAGATGATGCCTTTTTTTCAGATACACAAATACAGGAGCAC
CAAGATCCAAATTCCTATAGCTGGGCTCTTCTACATTTGACAATGGTTAAACTAGCACTT
CACAATGTCAAGAATTTCTTTCCTATTGCTGGACTGGAATTCTCTGAGCTGCCTGTAACA
TCACCATTAGGTATTGCTGTGATTAAAAACTTGGAGAACTGGGAACAGATCTTGCAAGAG
AAAATGGATCAGTTTGAAGGTCCACCCCCTAACTATATCAACACATATCCAACTGACCTT
TCAGTGGGAGCTGGACCAGCTATTCTTCGAAATAAAGCAATGCTAGAACCTGAAAATACC
CCATTCAAGTCCCGGGATTCTTCTGCATTTCCAGTCAAACGACTTTGGCATTTCCTTGTT
AAACAAGAGGTCCTTCAAGAGACATTTATTAGATATATTTTCACTAAGAAAAGAAAGCAG
AGTGAGGTTGAAGCTGATCTGGGCTATCCAGGTGGAAAGGCGAAAGTCATCCATAAGGAA
TCTGATATGATCATGGCATTTTCTGTTAATAAGGCAAATTGTAATGAAATTGTTTTGGCT
TCAACACATGATGTTCAAGAACTTGATGTTACTTCTCTACTGGCCTGTCAGTCATACATA
TGGATCGGAGAAGAATATGACAGAGAATCCAAAAGTTCAGATGATGTTGATTATCGTGGT
TCCACTACAACTCTTTATCAACCCAGTGCAACATCCTATTCAGCAAGTCAGGTGCATCCA
CCTTCATCTCTGCCATGGCTGGGCACTGGACAGACTAGCACTGGAGCTAGTGTGCTTATG
AAAAGGAATCTACATAATGTTAAGAGAATGACTTCACACCCAGTCCATCAATACTATCTT
ACAGGTGCTCAGGACGGCAGTGTACGAATGTTTGAATGGACGCGGCCTCAGCAACTTGTC
TGCTTTCGTCAAGCTGGCAATGCAAGAGTTACTAGATTATATTTTAATTCACAAGGCAAC
AAGTGTGGTGTTGCGGATGGAGAGGGTTTTCTGAGTATCTGGCAAGTTAACCAAACTGCA
TCAAATCCTAAACCTTATATGAGTTGGCAGTGCCACAGTAAAGCCACAAGTGACTTTGCA
TTTATTACCTCTTCAAGTCTAGTTGCCACATCTGGACACTCCAATGACAATAGAAATGTT
TGCCTCTGGGACACATTAATATCACCCGGAAACAGCCTCATTCATGGTTTCACGTGCCAC
GATCATGGTGCCACGGTACTGCAGTATGCACCCAAACAGCAACTCCTAATCTCGGGGGGT
AGGAAAGGACACGTCTGCATTTTTGACATCAGGCAAAGGCAGCTCATTCACACGTTCCAG
GCCCATGACTCAGCTATTAAGGCTCTGGCCTTGGATCCCTATGAGGAATATTTTACCACA
GGTTCAGCAGAAGGTAACATAAAGGTTTGGAGATTGACAGGCCATGGCCTAATTCATTCA
TTTAAAAGTGAACATGCTAAGCAGTCCATATTTCGAAACATTGGGGCTGGAGTCATGCAG
ATTGACATCATCCAGGGCAATCGGCTCTTCTCCTGTGGTGCAGATGGCACGCTGAAAACC
AGGGTTTTGCCCAATGCTTTTAACATCCCTAACAGAATTCTTGACATTCTATAA
Restriction Sites Please inquire     
ACCN NM_001174116
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.
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.
Note Plasmids are not sterile.  For experiments where strict sterility is required, filtration with 0.22um filter is required.
Reference Data
RefSeq NM_001174116.1, NP_001167587.1
RefSeq Size 10599 bp
RefSeq ORF 9114 bp
Locus ID 23312
UniProt ID Q8TDJ6
Gene Summary This gene encodes a protein with 12 WD domains. Proteins with WD domains are involved in many functions including participation in signal transduction pathways. Participation of the encoded protein in regulation of the Notch signaling pathway has been demonstrated in vitro using several human cell lines (PMID:20810660). A gene encoding a similar protein is located on chromosome 5. Multiple transcript variants encoding different isoforms have been found for this gene. [provided by RefSeq, Aug 2011]
Transcript Variant: This variant (1) represents the longest transcript and encodes the longest isoform (1). Sequence Note: This RefSeq record was created from transcript and genomic sequence data to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on transcript alignments.
*Delivery time may vary from web posted schedule. Occasional delays may occur due to unforeseen complexities in the preparation of your product. International customers may expect an additional 1-2 weeks in shipping.

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