Chd9 (NM_177224) Mouse Untagged Clone

CAT#: MC225424

Chd9 (untagged) - Mouse chromodomain helicase DNA binding protein 9 (Chd9), (10ug)

Datasheet
SDS

  "NM_177224" in other vectors (2)

Reconstitution Protocol

USD 2,558.00

12 Weeks*

Size
    • 10 ug
Bulk Requests & Clone Modifications

Product Images

Frequently bought together (3)
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PRIMER
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Other products for "Chd9"

Specifications

Product Data
Type Mouse Untagged Clone
Tag Tag Free
Symbol Chd9
Synonyms 1810014J18Rik; 9030205D12Rik; A330063D19Rik; AD013; mKIAA0308; PRIC320
Vector pCMV6-Entry
E. coli Selection Kanamycin (25 ug/mL)
Mammalian Cell Selection Neomycin
Sequence Data
>MC225424 representing NM_177224
Red=Cloning site Blue=ORF Orange=Stop codon

TTTTGTAATACGACTCACTATAGGGCGGCCGGGAATTCGTCGACTGGATCCGGTACCGAGGAGATCTGCC
GCCGCGATCGCC

ATGACAGACCCAATGATGGACTTTTTTGATGATGCTAATCTCTTTGGCGAGACTTTAGAAGGCTTGTCGG
ATGATACATTTGTACAGCCCGGACCTGTCTCACTGGTTGATGAACTGAACTTGGGTGCAGAGTTTGAGCC
TTTGCACATAGACTCACTAAACCATGTTCAAGGTACTCCAACACACCAGAAGATGGCAGATTTTGAACAG
TTAAGTCAGTTTGACTCGATGAAGTTTCATCCAGTTAACCAATCTTTCGGCAGCCCAGTTGAACACGTGT
TATCTCCACACTCTCAATTTAATTGCTCTCCAATTCATCCCCCAAACCAGCCCAATGGCTTGTTTCAAGA
TGTAGCAGATGGCAGTCCAATGTGGGGTCACCAGACAGCTACTGGCCTCGCTAATCAAAATGGATCCCCC
TTTCACCAACCAGGACATTCACACTCTCTGCATCAAAACAAAAGCTTTGTGGCGCACCCTGACTTTGCCT
TATTTCAGGCCAGTGAACATCAAACACAGTGTTCTTCCCTTCACTCACAACAAAGCAGAAGTAACCTTAA
CCCAGGGCAAAACTCTCTTGGCCAGGCTAAAAATTTTCTAGACGCTAATGTTTCCGGCGCACACAGAGTT
AACGTTAACCACCTCGCCACTGCCCCCTCCTCACAGCAGACTCTTCCAGTGCAGTTTTCTCCGACTGCAA
ACCCTCCTGCACACTTCCTCAAGTGCAGCAGTCACCAGGAAGGCAACTATAACAGACCTTCTCCAAGTAT
GACTTCCTGCTCCGTGAGTAACTCGCAACAGTTCCCTTCACACTATTCCTTCTCCAGTGGTCACGTGTCA
CCAAGCAGTCTCCTGCAGTCATCTGCAGGTCTCGCTCCCGGTCATACAAATCAGGCTTTATCTGATTTTG
CTGGAAGTAACTCCTTTTCTCCTCATAGGGGAATGAAGCAAGAACCCACTCAGCATCTCCTGAACCCCAC
TCCATCACTGAATTCAAATAATTTTCAAATTTTGCATTCGTCACATCCTCAGGGTAATTATAGCAACTCA
AAATTATCGCCCGTGCACATGAACTTCCCAGATCCTGTTGACGCAGGACCTCCAGTGGGTCATTTCAATG
ACCACGCGGAAACTAATGGTTTCTCATCTTTAGAAGAGAATTTACTTCATCACGTAGACTCTCATGCAGA
ACCATTTGCAGGACTTGACCCTGAAGACCTCCTGCAGGAGGGTCTCCTCCCCCAATTTGACGAATCACCA
TTTGGACAAGATAATTCAAATCATGTTTTAGATCATGACCTGGATCGCCAGTTCACTTCGCATCTTGTAT
CGAGGCCTTCTGACATGGCTCAAACTCAGCTGCAATATCAGGCTCGGGGCTGGCCTTCCCCACTGTCTAC
CAACCATCAACATTTACATAGCAGAAATCATCTATGTTTACAGCGGCAGCCTCCATCTTCCAAGAAGAGT
GATGGTTCTGGGACATACACTAAGCTGCAGAATACCCAGGTGAGGGTCATGTCTGAGAAGAAGCCACGAA
AAAGGGTGGAATCAGAAAGCAAGCAAGAAAAGGCCAATCGTATAATATCAGAGGCCATAGCAAGAGCAAA
GGAGCGAGGGGAACGTAATATCCCGCGAGTAATGAGCCCTGAGAACTTTCCTAGTGCTTCAGTCGAAGGG
AAAGAAGAAAAGAGAGGTCGGAGGATGAAATCTAAGCCAAAAGACAGAGACAACAAAAAACCAAAAACGT
ATTCTAAGTTGAAAGAGAAGACAAAAATTGGCAAGCTCATCATTACATTGGGTAAGAAACACAAGAGAAG
GAACGAGTCTTCCGATGAGCTGTCCGATGCCGAGCAGAGGTCCCAGCACACGTTCAAAGAGCAGCACTCT
CAAAAAAGAAGATCAAATCGACAAATTAAGAGGAAAAAATATGCAGAAGATGCAGAAGGAAAGCAATCTG
AAGAAGAAGTGAAAGGCAGTCTGAGAGTTAAGAGGAACTCGGCTCCTCCGCCTGGAGAGCAGCCTCTGCA
GCTGTTTGTGGAAAATCCAAGTGAAGAAGATGCTGCAATTGTAGACAAAATACTAGCTTGTAGGACTGTA
AAAAAGGAAGTATCACCTGGAGTTATGCTTGATATAGAAGAATTTTTTGTAAAGTACAAAAATTACTCTT
ATCTCCACTGTGAGTGGGCCACGGAACAGCAGCTTTTGAAAGATAAAAGGATCCAGCAGAAAATCAAGCG
ATTCAAGCTGAGACAAGCACAGAGGGCACACTTTTTGGCAGATATGGAAGAAGAACCCTTTAACCCTGAC
TACGTTGAAGTAGACAGAATATTGGAAGTTTCTTTTTGTGAAGATAAAGATACTGGTGAGTCTGTTATTT
ACTACTTGGTAAAGTGGTGCTCACTGCCATATGAAGATAGCACCTGGGAATTAAAAGAAGATGTAGATCT
TGCAAAAATTGAAGAGTTTGAACAACTGCAAGCTTCACGGCCTGACACAAGACACTTGGACCGTCCTCCC
TCTAACATTTGGAAGAAAATAGAGCAATCCAGGGAATATAAAAATGGCAATCAACTCAGGGAATATCAAC
TAGAAGGACTCAACTGGCTCTTGTTCAATTGGTATAATAGACGAAACTGCATTTTAGCAGATGAAATGGG
TCTTGGCAAAACCATTCAGTCGATTACATTCCTCTACGAAATCCTGCTGACGGGTATAAGAGGACCTTTC
CTGATTATTGCACCGCTTTCTACCATTGCAAACTGGGAAAGAGAATTCCGAACATGGACTGATATTAATG
TTGTCGTTTATCACGGGAGCCTGATTAGCAGACAGATGATACAGCAATATGAGATGTACTTCAGGGACTC
TCAGGGGCGCATCATCCGAGGAGCGTACCGGTTCCAAGCCATCATCACTACCTTTGAAATGATTCTTGGG
GGCTGTGGAGAACTTAATGCAATTGACTGGCGATGTGTGATTATTGATGAAGCACACAGGTTAAAAAATA
AAAATTGTAAACTCCTGGAGGGTTTGAAACTCATGAATCTGGAACACAAGGTGCTCTTGACTGGCACTCC
TCTCCAAAACACAGTCGAGGAACTGTTCAGCCTTCTTCACTTTCTTGAACCCTTAAGGTTTCCATCTGAA
TCAACATTCATGCAAGAGTTTGGAGACCTGAAAACAGAGGAACAGGTACAGAAACTTCAGGCTATCCTTA
AACCAATGATGCTGAGACGATTAAAAGAAGATGTGGAGAAGAAATTGGCACCCAAGGAAGAGACTATTAT
TGAAGTAGAGCTTACCAACATTCAAAAGAAATACTATAGGGCTATTTTAGAGAAGAACTTCTCATTTTTA
TCCAAAGGAGCTGGACAAACAAATGTACCTAACTTGGTCAATACCATGATGGAGCTCAGGAAATGCTGCA
ATCATCCGTATCTTATCAAAGGTGCTGAGGAGAAAATACTTGGAGAATTTAGAGATACATACAATCCATC
TGCCTCTGATTTTCATCTGCAAGCAATGATCCAATCTGCTGGTAAACTGGTCCTCATTGATAAGTTACTT
CCCAAAATGAAAGCCGGCGGCCATAAAGTGCTCATCTTCTCTCAGATGGTCCGCTGCCTCGACATCCTGG
AAGACTACCTTATCCATAAGAGATATTTATATGAGCGAATTGATGGTAGAGTCAGAGGAAATCTTCGACA
AGCAGCCATAGATCGATTTAGTAAACCTGATTCAGATCGATTCGTTTTCCTCCTGTGTACCCGAGCTGGT
GGTCTGGGCATCAACCTAACTGCAGCAGATACATGCATTATTTTTGATTCTGATTGGAATCCTCAAAATG
ACCTCCAGGCCCAAGCTCGTTGCCACAGAATTGGTCAGAACAAAGCAGTTAAAGTCTACAGATTAGTAAC
TCGAAACTCCTATGAAAGAGAGATGTTTGACCGAGCCAGCTTGAAACTGGGCCTAGATAAAGCCGTGCTA
CAGAGCATGAGTGGAAGAGACAGTAATGTCAGCGGTATTCAGCAGCTTTCCAAAAAAGAAATAGAAGACC
TGCTTCGAAGAGGGGCATATGGAGCCATTATGGAGGAGGAAGATGAAGGCTCTAAGTTCTGTGAGGAAGA
TATCGACCAGATTTTACTTCGTCGTACAAAAACTATCACAATTGAATCAGAAGGACGTGGGTCAACATTT
GCTAAGGCAAGTTTTGTAGCATCTGGGAACCGGACAGATATTTCCTTAGATGATCCCAACTTCTGGCAAA
AATGGGCTAAAAAAGCAGAACTAGATATAGACACCATCAGTGGCAGAAACAGTTTAGTTATTGACACCCC
AAGAATTCGGAAGCAAACCAGACCCTTTAGTGCCACAAAAGATGAATTGGCTGAATTATCTGAAGCTGAA
AGTGAAGGAGAAGAAAAACCCAAACTCCGGAGACCCTGTGACCGGTCCGGTGGCTATGGAAGGACTGAAT
GCTTTAGAGTGGAGAAAAATCTACTGGTTTATGGGTGGGGCCGATGGCGAGAGATCCTGTCTCACGGGCG
TTTTAAGCGGCAGCTGAATGAGCACGATGTGGAAGTCATTTGCCGGGCCCTCCTAGCCTATTGCCTCATT
CACTATCGGGGCGATGAGAAAATTAAAGGCTTCATATGGGATCTTATCACCCCCACTGAAGACGGCCAGA
CTCGAGAGCTGCAGAATCACTTAGGCCTCTCCGCTCCTGTGCCCAGGGGCCGAAAGGGGAAGAAAGTAAA
GACTCAGACAAGCTCCTTTGATATCCAGAAAGCAGAGTGGCTGCGGAAATATAACCCAGAGCAGCTCCTG
CAAGACGAGGGCTACAAGAAACATGTAAAGCACCACTGCAACAAAGTCCTGCTTCGTGTAAGGATGCTGT
ACTATCTAAAGCAAGAAGTCATTGGAAATGAGAGTCAAAAAGTCTTTGATGGAGTTGATGCAAGTGACAT
TGATGTGTGGGTGCCAGAGCCAGACCATTCCGAGGTTCCTGCTGCGTGGTGGGACTTTGATGCTGATAAG
TCTCTTCTTATTGGGGTTTTTAAGCACGGTTATGAAAAGTACAACACGATCAGAGCAGACCCAGCTTTGT
GCTTCTTGGAAAGAGTGGGCAAGCCTGACGACAAGGCTGTCGCTGCTGAGCAGAGAGCCAATGACTACAT
GGATGGGGATGTGGAAGATCCAGAATACAAGCCTGCCCCAGCCATCTTTAAAGATGATATTGAGGATGAC
GTTTCCTCACCTGGCGACCTGGTCATAGCTGATGGAGAGGGTCAATTGATGGAAGGGGATAAAGTGTATT
GGCCTACCCCGTCAGCTCTGACCACACGGCTAAGACGTCTCATCACTGCATATCAGCGAACTAATAAAAA
CAGACACATCCAGCAAATGCAACCCACCTTCTCATTGCCTGCCAATGCCATGCAGCCTCTTTACGAAGAA
GCTACCCTGAATCCTAAAATGGCAGCCAAGATCGAAAGACAGCAGAGATGGACAAGGAGAGAAGAAGCTG
ACTTTTATCGAGTTGTGTCTACATTTGGAGTAGTTTTTGACCCAGACAGAGGGCAGTTTGATTGGACAAA
ATTCAGAGCTCTGGCTAGGCTACACAAGAAAACTGATAACAGCTTGGAGAAGTATTTGTGTGCATTCATG
TCCATGTGCCGGAGGGTTTGCCGTCTTCCTTCCAAAGAAGAATTGGTCGATCCAAATATTTTTATTCAAC
CAATCACAGAGGAACGTGCTTCTAGAACTTTATATCGCATTGAACTTCTAAGAAAAGTACGGGAGCAGGC
CCTTCGTCACCCACAGTTGTTTGAACGCTTGAAGCTTTGCCATCCAAATCCAGACTTACCTATCTGGTGG
GAGTGTGGCTCTCATGATAGGGATTTGCTCATTGGTGCTGCCAAACATGGGGTCAGCCGGACCGACTACC
ACATTCTCCGTGATCCTGAACTCTCGTTTATGGCAGCTCAGAGGAACTACAATCAGAGTAAGGCGGCTCA
CTCAAGGACTTCTGCCCCACTTTTACAGCAATACCAAGTAGCACTTTCTGCTTCTCCTCTTACCTCTTTG
CCTAGACTGCTAGGTGCTAAAGGTACTCTTCTAGAGGATATGAAAGTTAAGAGTGAAAGCCTCACAGAAG
AGCCCCAGTCCTCTGAAGAAGAATCTATGTCTTCTATGGAAACAAGGACACGAGTTAAATCTGAGCCTGT
AAGTCCAAAGAACGGTGTTTTATCACAGGCTACTGGAGACCAGAAGTCTGGTGGGAAAAGTGAAACAGAC
AGACGCATGGTTGCAGCCAGAACAGAGCCCCTAACTCCAAACCCAGCTTCTAAGAAACCGAGAGTCCACA
AAAGAGGATCCCAGTCCAGCTCTGATTCTGACTCTGACTCTGCGCGCTCATCGTGTTCTTCCAGATCCTC
TTCCTCCTCCTCCTCCTCCTCCTCCTGCTCACACTCTCGGTCAGGCTCTAGCTCTTCGTCATCCTCATCT
TGTTCTTCGGCATCTTCCTCCTCCTCCTCATCTTCCTCCTCCTCCTCCTCATCTTCTTCATCATCATCAG
AAGAAAGTGACAGTGAAGAAGATGTCCAGAAGCGAGAAGGCACGCCTCACAGGAAAGCCTATGATGAGGA
AAGTGTCGCATCACTGAGCACGACCCAAGATGAAACTCAGGACAGTTTCCAGGCAAACAATGGAACGCCA
GAGTCTGCTTACCTGCTACAAGGTGGATATATGCTGGCAGCCTCATATTGGCCAAAGGACCGGGTAATGA
TCAACCGCCTGGACAGTATTTGTCAGACAGTTCTGAAAGGGAAGTGGCCGTCAGCTAGAAGACATTATGA
TGCTAACACGGTGGCGTCCTTCTATACCACCAAACTGCTGGATAGCCCCGGAGCAGCTACAGAACGCGGC
GAGCCCAGCGTCCCCACACCCCCAGCCGTTGCTGTCAGAGAAGAGCACGAGCAGTCAGCACAGATGTCAA
AGGAAGGTGGCTTGAAGTTGACATTTCAGAAGCAGGGGCTTGCCCAGAAAAGACCATTTGATGGTGAAGA
TGGCGCCCTGGGTCAGCAGCAGTACCTCACTCGCCTTCGGGAGCTTCAGAGCACATCAGAGACTAGCCTT
GTTAACCTCCCCAAAGCTGTGCCAGCGTCAGGTACTTCCATTCAGCCAACCCTCGGTGCCAACGGAGCGA
TACTCGACAGCCAGCCTATAGTGAAGAAAAGGCGGGGAAGGAGGAGGAATGTAGAAGGTGCTGACATCCT
CTTTTTGAACAGAAATAAGCCACCTAATCATATTCCCACCGGGATGAACCCAGCACTGTCCTATCCTCAG
CCTCAAAGAATTCCTGACACAGAGAGTCCTGTTCCAGTTATTAATCTCAAAGACGGGACAAGGCTCGCAG
GAGATGATGCGCCGAAGAGAAAGGACCTGGACAGATGGCTTAAGGAGCACCCTGGTTATGTGGAGGACCT
CGGAGCCTTTATCCCAAGGGTGCAGCTGCACGAGGGAAGACCCAAACAGAAAAGGCATCGATGCCGAAAC
CCAAACAAACTAGATATCAACAGTCTGACTGGGGAGGAGCGCGTGCAGCTGATTAACAGAAGGAATGCGA
GAAAGGTTGGAGGCGCATTTGCTCCTCCTTTGAAAGACTTATGTAGATTCCTGAAAGAAAATTCAGAATA
TGGAGTGGCTCCTGAATGGGGAGATGTTGTTAAACAGTCTGGGTTTCTTCCAGAAAGTATGTTTGAACGT
ATTCTCACTGGTCCCGTTGTGAGAGAGGAAGTAAGCAGGCGGGGGAGAAGGCCTAAAAGTGGAATTGCCA
AGGCTACCACAGCAGCAGCGGTTCCTGCTGGCAGTGTGCCAGGCAACCCTTTGCTGGCCAATGGATTGCT
TCCAGGCGTGGATCTCACAGCTCTTCAGGCCTTACAACAAAATCTGCAGAACCTGCAGTCGCTGCAAGTG
ACTGCAGGGCTGATGGGCATGCCTGCCGGCCTCTCTTCTGGAGGAGAAACTAAAAACATGGCTGCTATGT
TCCCCATGCTGTTCTCAGGAATGGCCGGGTTACCAAATCTGCTAGGCATGGGAGGACTCCTGTCAAAGAC
TGCAGAGTCTGGGGCGGAAGAAAAGCGAGGAAATGACTCGAAGGAGCTAGAAGGAAAAAAAGAAAGGACA
GAGAGCCAAAGTCCGGAGAATGGAGGAGAACGCTGTGTGCCAGGTTCTCCTTCGACTTCCTCCACGGCTG
CATTGAGTTCAGCTGCAGCTGCCAAGCCCATAGCTCTTAACCCACTGTTGCTGTCTAACATACTTTACCC
AGGGATGCTGCTCACTCCAGGCCTTAATCTTCATCTTCCAACCTTGTCTCAGTCCAATGCTTTTGATGTA
CAGAAAAACAAAAGTGATGACTTAGATTCATCTAAGTCAGTGGAAATAAAGGAAGAGAATTCCAGAGTTA
GAGATCAGGAAGAGAAAGGGGGAACTGAGCCTAGTCCTCTCAACGAGAACAGCACAGACGAGGGTTCAGA
GAGGGCGTCCTCCGGGTCTGATAGCTCATCTTCATCCTCCGAGGACTCAGACTCGAGCAATGAAGACTGA

ACGCGTACGCGGCCGCTCGAGCAGAAACTCATCTCAGAAGAGGATCTGGCAGCAAATGATATCCTGGATT
ACAAGGATGACGACGATAAGGTTTAA
Restriction Sites SgfI-MluI     
ACCN NM_177224
Insert Size 8610 bp
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 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_177224.2, NP_796198.1
RefSeq Size 11517 bp
RefSeq ORF 8610 bp
Locus ID 109151
UniProt ID Q8BYH8
Cytogenetics 8 C4
Gene Summary Acts as a transcriptional coactivator for PPARA and possibly other nuclear receptors. Proposed to be a ATP-dependent chromatin remodeling protein. Has DNA-dependent ATPase activity and binds to A/T-rich DNA (By similarity). Associates with A/T-rich regulatory regions in promoters of genes that participate in the differentiation of progenitors during osteogenesis.[UniProtKB/Swiss-Prot Function]
Transcript Variant: This variant (2) differs in the 5' UTR and uses an alternate in-frame splice site in the 3' coding region compared to variant 1. It encodes isoform 2, which is shorter than isoform 1.

Other Versions

SKU Description Size Price
MG226467 Chd9 (tGFP-tagged) - Mouse chromodomain helicase DNA binding protein 9 (Chd9), (10ug)
    • 10 ug

USD 2,524.00

MR226467 Chd9 (Myc-DDK-tagged) - Mouse chromodomain helicase DNA binding protein 9 (Chd9)
    • 10 ug

USD 2,324.00

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Product Citations

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