Chd6 (NM_173368) Mouse Untagged Clone

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SKU

MC225395

Chd6 (untagged) - Mouse chromodomain helicase DNA binding protein 6 (Chd6), (10ug)

Datasheet SDS

Reconstitution Protocol

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Specifications

Specifications
Product Data
Type	Mouse Untagged Clone
Target Symbol	Chd6
Synonyms	5430439G14Rik; 6330406J24Rik; CHD-6
Vector	pCMV6-Entry
E. coli Selection	Kanamycin (25 ug/mL)
Mammalian Cell Selection	Neomycin
Sequence Data	Fully Sequenced ORF >MC225395 representing NM_173368 Red=Cloning site Blue=ORF Orange=Stop codon TTTTGTAATACGACTCACTATAGGGCGGCCGGGAATTCGTCGACTGGATCCGGTACCGAGGAGATCTGCC GCCGCGATCGCC ATGAAAATGAAAATACAGAAGAAAGAGAAGCAGTTGTCCAAGTTAAGAGCTTTGAATCACTCCCCAATGT CGGATGCCTCTGTTAACTTTGACTACAAATCTCCGTCACCATTCGATTGCAGTCCTGATCAGGGAGAGAA CATTGAAGAAGCTGCCAATCATTGTCTGCCCCATAAGAACCTCTATACTACTGAAGAGGAAGCTGACACC CTTTTTTCTAGGAAATTGACATCCCATAATGGGATGGAGGATAGTGGAGGCAGAGGTACTGGAGTAAAGA AGAAACGGAAGAAAAAGGAGCCAGGGGAGCAAGAGGGGACAAAGGGAAGCAAGGACAGAGAGCCTAAGCC AAAGAGGAAGCGAGAACCTAAAGAGCCAAAAGAACCCAGAAGGGCCAAGGAGCCGAAGAGAGCCAAGGAG CCCAAGGAGACAAAGCAGAAAGACGGTGTCAAGAAGCCCCGGAAGCACCGGGAGGCCTCCGGTACCAAGG AAGGTAAAGAGAAGAGAAGCTGCACTGATTATGGATCCAGGACAAAGTCCAAGAAGGCCAGCAGGGAGCA AGGACCAACCCCAGTGGAGAGAAAGAAGAAAGGAAAAAGGAAAAACGAAACCACCGTGGAGAGTTTAGAG CTGGACCACAGTCTTCCAAACCCATCTCTGCAGAGCCCTGAGGAGCCCAGTGAGTCTGCAGACAGCCAGA AACGGCGCTCAGGACGGCAAGTAAAGCGCAGAAAATACAATGAGGACCTGGACTTCAAAGTGGTGGATGA CGATGGGGAAACAATTGCTGTCCTGGGAGCTGGCCGCACATCTGCACTCTCGGCTTCCACTCTGGCCTGG CAGGCTGAGGAGCCTCCAGAAGATGATGCAAACATAATTGAGAAGATCCTGGCATCCAAGACTGTCCAGG AGGTTCACCCAGGAGAACCTCCATTCGACCTAGAGCTTTTCTACGTTAAGTATAGAAATTTTTCCTATTT ACATTGTAAATGGGCCACAATGGAAGAACTGGAAAAGGATCCCCGCATCGCACAGAAGATCAAGCGATTT AGGAACAAACAGGCCCAGATGAAGCACATTTTCACTGAGCCTGATGAAGACTTGTTCAATCCAGATTATA TAGAAATTGATCGTATCTTAGAAGTGGCCCACACCAAGGATGCAGAAACAGGGGAGGAAGTAACACATTA CCTGGTAAAATGGTGCTCCCTGCCATATGAGGAAAGCACCTGGGAGCTAGAAGAAGATGTGGATCCTGCA AAAGTGAAGGAATTTGAATCTCTACAAATTCTCCCTGAAGTTAAACATGTGGAACGACCTGCCTCTGATG CGTGGCAGAAACTGGAGACATCCCGTGAGTATAGGAACAGTAACCGGCTGCGAGAGTACCAACTCGAGGG GATGAACTGGCTTCTTTTCAACTGGTACAACAGAAAAAACTGTATATTGGCTGATGAAATGGGCCTAGGG AAAACCATCCAGTCCATCGCATTCCTTTCAGAAATCTTTGTCAGAGGAATCCACGGCCCCTTTCTCATCA TTGCCCCACTTTCCACCATCACTAACTGGGAGCGAGAATTCCGGACATGGACGGAGATGAATGCTATTGT GTACCACGGCAGCCAGATCAGCAGGCAGATGATCCAGCAGTACGAAATGGTATACAGAGATGCACAGGGA AACCCCCTTTCAGGAGTCTTCAAGTTCCACGTCGTCATCACAACGTTTGAGATGATCCTGGCAGATTGCC CAGAGCTGAAGAAAATTCACTGGAGCTGTGTGATAATTGATGAGGCCCACAGACTGAAGAATAGGAACTG CAAACTTCTGGAAGGGTTAAAGCTCATGGCCCTGGAACACAAAGTGCTGCTCACAGGAACACCCTTGCAG AACTCTGTGGAAGAGCTCTTCAGTTTGCTTAACTTTCTGGAGCCCTCGCAGTTCCCTTCAGAGACTGCCT TCTTAGAGGAGTTTGGTGATCTCAAAACAGAAGAACAGGTAAAGAAATTGCAGTCTATCCTAAAACCAAT GATGCTTCGGCGCCTGAAAGATGATGTGGAGAAGAACCTTGCTCCTAAGCAAGAGACCATCATTGAAGTA GAACTGACCAATATCCAGAAAAAGTACTATCGTGCTATCCTAGAGAAAAACTTTTCCTTCCTGACCAAAG GTGCAAATCAACACAACATGCCCAATCTTATCAATACTATGATGGAGCTCAGAAAATGCTGTAACCACCC CTACCTGATCAATGGGGCCGAGGAAAAGATTCTGGAAGATTTCAGAAAAGCGCACAGCTCCGAAGCCTCT GACTTCCAGCTGCAGGCCATGATCCAGGCGGCCGGGAAGCTGGTGCTGATTGACAAGCTTCTCCCCAAGC TCATTGCCGGGGGCCACAAAGTGCTCATCTTCTCGCAGATGGTGCGCTGCCTCGACATCCTGGAAGATTA TCTCATCCAGAGGAGATACACCTATGAGCGAATTGATGGGCGAGTACGGGGAAACCTGCGCCAGGCAGCC ATCGACCGGTTCTGTAAGCCAGACTCAGACCGCTTTGTCTTTCTTCTGTGCACCAGAGCGGGAGGCCTGG GAATCAATCTCACAGCTGCTGATACCTGCATCATATTTGATTCTGACTGGAACCCACAAAATGACTTGCA GGCTCAGGCCCGATGTCATCGTATAGGCCAGAGCAAAGCCGTGAAGGTATATCGCCTAATCACTCGAAAC TCCTATGAGCGGGAAATGTTTGACAAGGCCAGCCTGAAGCTGGGCCTGGACAAGGCTATTCTTCAGGACA TCAACCGAAAGGGCAGCACCAATGGAGTACAGCAGCTCTCAAAAATGGAAGTGGAGGATTTGCTCCGGAA AGGTGCTTATGGGGCTTTAATGGACGAGGAAGACGAAGGCTCCAAGTTCTGTGAGGAAGATATAGACCAG ATCCTGCAGAGAAGAACCCACACCATCACCATCCAGTCAGAAGGCAAGGGGTCCACTTTTGCCAAGGCTA GTTTCGTGGCTTCAGGAAACAGAACAGATATTTCCTTGGATGACCCTAATTTTTGGCAGAAATGGGCTAA AATAGCTGAATTAGACACTGAAGCAAATAATGAAAAGGAAAGCTTAGTGATTGACCGGCCGCGTGTGAGG AAGCAGACCAAGCACTACAACTCTTTTGAGGAGGACGAGCTCATGGAGTTCTCAGAGTTAGACAGCGACT CAGACGAAAGGCCCACACGGTCCAGACGCCTCAGCGACAGAGCCCGACGCTACCTCCGCGCTGAGTGCTT CCGAGTGGAGAAGAACCTGCTCATCTTTGGCTGGGGCCGGTGGAAGGACATCCTGACTCACGGGCGATTC AAGTGGCCCCTGAATGAGAAGGATATGGAGATGATTTGCAGGGCTCTGCTGGTGTACTGTGTCAAGCATT ACAAAGGGGATGAGAAAATCAAAAGTTTTATTTGGGAACTAATCACACCTTCCAAAGACGGGCAAGTTCA GACCCTCCAGAACCACTCAGGCTTGTCTGCCCCAGTCCCCAGAGGGAGGAAAGGAAAAAAGACAAAAAAC CAGCTCTTGCTCCCAGAACTGAAGAATGCAGACTGGCTGGCCACCTGCAATCCTGAGGTGGTCTTACATG ATGATGGATACAAGAAACACCTCAAACAGCATTGCAATAAGGTGCTTTTGAGAGTCCGGATGCTGTACTA CCTAAAAGCTGAAATACTGGGAGAAGCAGCTGATAAAGCATTCGAGGGAACTCCTGCCAGAGAGCTGGAT GTGCTTCTGCCTGACATTGACTATGTGGAGATCCCAGTGGATTGGTGGGACGCTGAAGCTGATAAGTCCC TTCTCATTGGCGTGTTCAAGCACGGGTATGAGAGGTACAATGCCATGCGGGCTGACCCAGCGCTCTGCTT CCTAGAGAAAGTTGGCATGCCTGATGAGAAGTCCCTTTCTGCAGAGCAGGGAGTTACAGATGGAACTTCG GACATTCCTGAAAGAGGCAACATAGATAAAGAAGACAGTGCTGAGGACAAGTTGGATGGTCTCCAGAAGC AAACGGCGAGTCCCAGTGATGGAAGTGATGGCATTTTTGGTGAAAAGAAGGATGACAGCCAGGCAGCCCA GGATGGCTCCGACCCAGACAAATCACCCTGGCCAGTTTCCTCTGCCCTCACTGCTCGACTCAGGCGTCTG GTCACTATTTACCAGCGCTGCAACCGCAAGGAGCTATGCAGACCTGAAATCTTAGGCCCAGGTAACCAAG GATACTGGGTTCAGGAGGAAGTGTTCAGGAGAACTTCAGAAATGGACCTCATCAACAAGGAAGCCCAAAA AAGGTGGACTAGAAGAGAGCAAGCTGACTTCTATAGGACAGTGTCTTCCTTTGGTGTTGTGTATGACCAA GAAAAGAAAGCCTTTGACTGGACACAGTTCCGCATCATTTCTCGTTTGGACAAGAAGTCAGATGAGAGCC TGGAGCACTATTTTTATAGCTTTGTAGCCATGTGTCGGAATGTGTGTCGTCTCCCCGCATGGAAAGATGA TGGTCCCCCTGATGCCAGCATCTATGTTGAACCCATCACTGAGGAGCGGGCAGCAAAGACTCTATACCGT ATTGAACTGCTGAGGAAAGTCCGTGAGCAGGTGCTCATGTGTCCTCAACTACATGAGCGCCTCCAGCTTT GCAGGCCCAGCCTCTACCTCCCAGTCTGGTGGGAGTGTGGGAAACATGATCGAGACCTGCTCATTGGCAC CGCCAAACATGGGCTCAACCGCACTGACTATTACATCATGAATGACCCCCAGCTATCCTTCCTAGATGCC TATAGAAACTATGCCCAACACAAAAGAACTGACACCCAGGCACCTGGAAGTCTCTGTTGCCTTTACCAGA GCAATTCTAAACTATATGAGTCTCTTACTTACACCCCAGTGAGTAGGACTTCAGAGTCTCTTGAAAGTGA GCCAGAGAATCTGATGAGAATGGAAAGCAGGGATGATCATCTCTGCCTGCCTGAGGGCGGCTTACCTGAC ATAACGTGTGAAAACTTTGTTTCCAAAGTTCAGGAGGTCATTTCTCTTGACCATGATGAAAACTTGCTGC CTGAGTCTTTGGAGAACATGATATATGGTAAGACAGGACTCAGCCAAGAGCCGCATTCTTTTCAGGAGGC CCCAACTACCAACACACAGTCCAGGAAAAATACTATCACCATCTCAGCCAGCAGAAATGAGAGCTGCCAG CCTCCTGGTATTGAGGCAGAAATTACTTCAGCTTCCTCTCTCATGAGCAGCTTAGAAGCAGGAGTAGCTA AAATGAATATTAAAAATGGAAAACATTTGCTGGTATCTATCTCAAAAGAAGGGGAGCCCTGCTGCAGTGA GACAGGACGGAGACCTGAAACCATAGGCCACCGAGAGGCCAAATGCTTAGTGTCCCCTACCTTAGATACA GGACATGAAAGTGGGTTTGTAGATCTATGTAGTCTTAGTGTCTATGACCCCAAAAGAAACTTCTCCTCAG ATCAGCAATTAATTGACTTATTAGAAAACAAGAGTTTAGAAAGTAAGTTGATTTTAAATCAGAGTGATGA GGAAGAGGAAGAAAATGAGGACGAAACCTTAGCCATAGTAGCAAGCGCCACAGAAAAGCCAGAGGTCTTG GATTTCCCCAAGCCCACTGTAAACATCCCAAGGGGGAAGAACCTCAGCTTCCACCAAGATGAAGCCAAGA AAGGAAGGCTGGAGGTGGTGAGCAAGACTGCTGGACCACAGAGGGTCTTTCCTCCCCCAGCCAATCAGTG CCACTGTAAACACATCGAAAGGTGGGCACATGGCCTGGGGAGCGAGGACTCTGAAGTAGAGAAACCCAAG GCTTATCAGCCAGACCTGTACAGAAGCAAAGCCAATAATTCCACAGTGGAAGGTGAGACTGCTGTTATTC CAACAGAGCCATTTAAACTGAAGCATGAGCTTTTAAAAGAACCATGGAAAGAAAGTTCAGAGGGGGGAAA GAGTTTCTCCATGTATGCTCCTGAGGGAAGTGAGCCCAAACCAGAAGACATGGATTTTGAGAATAAAGAT GATTATGAGAAAGATGGAACCTGCCTCAGTCAAGACTACCCAGGCAAATACTCTGAGGAAGAGAGTAAGA GTTCGGCATCAGGCATTGCAGGAGACCTTGGGGAAGAGGCACAGGAAGTGCGGGCTCCCACCATTGCTCA GCTACTGCAGGAGAAAACCCTCTATTCCTTCTCAGAATGGCCAAAGGATCGTGTGATAATTAACCGCCTA GATAATATTTGCCATGTGGTGTTAAAGGGGAAGTGGCCCTGCAGCCACCAGTATGAGCCCTCAGGTGCAC TGCCCACACCAGTGTTATCCAGCAGTGCAGGTTCTCGAAGCAGCCTCTCAGAGCCAGAAGCAACAGAGCA CGGCTTCAGCAATGGTGCAGCACTGGCAGCCCAGATCCAGAAGGAGAGCTTCTTAGCCCCAGTATTCACA AAAGATGAACAAAAGCACAGACGTCCCTATGAGTTTGAGGTGGAAAGGGATGCCAAAGCTCGGAGCCTAG AAGAATACTCTGCCACCCATGGGCGTCCGCCCATTGTCCTCAATGGCTGGCATGGGGAGTCAGCTATAGA CCTCTCCTGCTCCTCAGAGGGGTCTCCAGGAGCCACATCTCCTTTCCCAGTGAGTGCCAGCACCCCTAAG ATTGGTGCTATCAGTTCACTTCAAGGAGCTCTCGGTATGGACTTGTCTGGAATTCTGCAAGCTGGTCTAA TCCACCCAGTGACTGGGCAGATTGTCAACGGAAGCCTCAGGAGGGATGATGCTGCCATGAGAAGGCGGAG AGGAAGGCGAAAACATATTGAGGGAGGGATGGACCTCATCTTCCTGAAGGAGCAAACACTTCAGGCTGGA ATCTTGGAAGTCCATGAAGATGCAGGGCAGACTACCCTGAGCACCACACACCCTGAAGTGCCAGGAGCTA CTTCCTCAGCTCCTGAGCCAACAGCAGCAGCCAGCAGCCAGGCTGAGAAAGCTGTTCCCAGCAAGAGCCT ACTTGACTGGCTGAGGCAGCAGGCTGACTACTCTTTGGATGTTCCTGGCTTTGGGACAAGTTTTTCAGAC AAACCCAAGCAGAGGAGACCACGCTGCAAAGAACCTGGAAAATTAGACATCAGCTCTCTAGGTGGAGAAG AGAGGGTTCCTGCTGTCCCCAAGGAGCCAGGACTGAGGGGGTTTCTCCCAGAAAGCAAATTCAATCACAC CCTAGCTGAGCCTGTGCTTCGAGATGCGGGTCCCCGCAGGAGGGGGAGGCGGCCTCGAAATGAACTCCTA AAAGCTCCAGCCATTGTAGCGGACTCTCCTTCTGGAATGGGACCACTGTTCATGAATGGGCTGATTGCGG GAATGGACCTGGTAGGATTGCAGAATGTGAGAAATATTCCAGGCATTCCTCTCACTGGGCTGGTGGGCTT CCCAGCTGGTTTTGCCACCATGCCCACGGGTGAAGAGGTTAAGAACACCCTGAGCATGCTGCCCATGATG CTGCCAGGCATGGCCGCGGTGCCCCAGATGTTTGGAGTTGGCGGACTCCTCAACACACCCATGGCAACCA CCTGCACGACCACTGCTTCAGCGTCTCTTGCAAGCACAAAAAGTGGTACCTCAGCCACTGAAAAATCTAC AGAGGACAAGCTGAGTGGCCATGATGTAAACACAGACGCTCTGGTAGACGACAAGCCTGGCCCTAGTCCG TTTTCTGATCAGTCAGAACCCACAATAACTACTAGTAGTCCTGTGGCTTTCAACCCATTTCTCATCCCAG GAGTGTCTCCTGGACTCATCTACCCTTCCATGTTTCTTTCCCCTGGCATGGGCATGGCTCTGCCAGCCAT GCAGCAGGCCAGACACTCAGAGATGGTCGGTCTTGAGACCCAGAAGAGGAAAAAGAAGAAAACTAAGGGG GACAGCCCCACCCAAGAGCCTGCGTCTGTGTGTGAAAAGGAGCCAGGCAGTGATCAGAACTGCACCGAGT CCAGTGCCACTGTGTCCCCAGAGAGAGAACACGTGGCACAGGCCAGGGAGGAGGGGCTCAAAGACTCCAA TGAGGATACCAATTAG ACGCGTACGCGGCCGCTCGAGCAGAAACTCATCTCAGAAGAGGATCTGGCAGCAAATGATATCCTGGATT ACAAGGATGACGACGATAAGGTTTAA
Restriction Sites	SgfI-MluI \|
ACCN	NM_173368
Insert Size	8136 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).
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 Method	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.
Shipping	Ambient
Reference Data
RefSeq	NM_173368.3, NP_775544.2
RefSeq Size	10579 bp
RefSeq ORF	8136 bp
Locus ID	71389
UniProt ID	A3KFM7
Cytogenetics	2 H2
Summary	This gene encodes a member of the chromodomain/helicase/DNA-binding domain family of chromatin remodeling enzymes. This protein has been found to be specifically involved in transcription initiation and elongation. Homozygous knockout mice exhibit impaired motor coordination. A pseudogene has been identified on chromosome 8. Alternative splicing of this gene results in multiple transcript variants. provided by RefSeq, Nov 2014 Transcript Variant: This variant (1) represents the longer transcript. This variant encodes the protein. 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.

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Documents

Product Manuals
TrueORFs: Open Reading Frame Clones - 10 ug in PrecisionShuttle Vector System TrueClones: Full length cDNA clones (Human/Mouse/Rat), expressing native proteins pLenti-ORF destination vector Transfection - TurboFectin 8.0 Transfection Reagent Plasmid Preparation - PowerPrep Plasmid Purification Kits
FAQs
TrueORF Clones/PrecisionShuttle Organelle Marker Transfection Reagent
SDS
SDS for MC225395

Resources

cDNA Clone Resources
Video Tutorial: Clone Selection Guide Product Video: What is TrueORF GOLD and why it is the most popular type of clone Video Tutorial: How to make Lentivirus particles Video Tutorial: Is the Lentivirus Safe Product Brochure: cDNA clones Protocol: Lentivirus packaging Product Sheet: AAV AAV Biosafety Lentivirus and AAV FAQ Virus-Mediated Gene Delivery

"NM_173368" in other vectors (2)

SKU	Description	Size	Price
MG224390	Chd6 (tGFP-tagged) - Mouse chromodomain helicase DNA binding protein 6 (Chd6), (10ug)	10 ug	$2,396.00
MR224390	Chd6 (Myc-DDK-tagged) - Mouse chromodomain helicase DNA binding protein 6 (Chd6)	10 ug	$2,196.00

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CC100003	DH5α Chemically Competent Cells (≥10^8 cfu/μg of pUC19 DNA)	5 x 200 ul	$170.00
PRIMER	Forward sequencing primer VP1.5, Reverse sequencing primer XL39, 100pmoles each	100 pmol	$59.00
TF81001	TurboFectin Transfection Reagent (1 mL in 1 vial)	1 ml in 1 vial	$530.00

Genomics

Proteomics

Genomics

Proteomics

Chd6 (NM_173368) Mouse Untagged Clone

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Chd6 (NM_173368) Mouse Untagged Clone

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