Toggle Nav
My Cart
Search
Menu

CHD7 (NM_017780) Human Tagged ORF Clone

main product photo
SKU
RC221060
CHD7 (Myc-DDK-tagged)-Human chromodomain helicase DNA binding protein 7 (CHD7)
  • TrueORF®
    TrueORF®

    Expression-ready ORF plasmid with C-terminal tag(s)

    Click here to learn more.

ORF Plasmid: DDK tGFP
Lentiviral Particles: DDK
Be the first to review this product
Datasheet SDS Plasmid Map
NM_017780 in other vectors (3)
Reconstitution Protocol
$3,641.00
In Stock*
Size
Bulk Requests & Clone Modifications

Other products for "CHD7"

Frequently Bought Together (5)

TA319962 Rabbit Polyclonal CHD7 Antibody 100 ug
$630.00
TA592569S DDK Rabbit monoclonal antibody, recognizing both N- and C-terminal tags 30 ul
$200.00
PRIMER Forward sequencing primer VP1.5, Reverse sequencing primer XL39, 100pmoles each 100 pmol
$59.00
PS100001 pCMV6-Entry, mammalian vector with C-terminal Myc- DDK Tag, 10ug 10 ug
$650.00
AR100028M DDKTrap Anti-DDK 8G6 affinity resin used for the purification of DDK, DYKDDDDK, or FLAG® tagged proteins , 5 mL 5 ml
$720.00
Specifications
Product Data
Type Human Tagged ORF Clone
Target Symbol CHD7
Synonyms CRG; HH5; IS3; KAL5
Vector pCMV6-Entry
E. coli Selection Kanamycin (25 ug/mL)
Mammalian Cell Selection Neomycin
Sequence Data
ORF Nucleotide Sequence
>RC221060 representing NM_017780
Red=Cloning site Blue=ORF Green=Tags(s)

TTTTGTAATACGACTCACTATAGGGCGGCCGGGAATTCGTCGACTGGATCCGGTACCGAGGAGATCTGCC
GCCGCGATCGCC

ATGGCAGATCCAGGAATGATGAGTCTTTTTGGCGAGGATGGGAATATTTTCAGTGAAGGTCTTGAAGGCC
TCGGAGAATGTGGTTACCCGGAAAATCCAGTAAATCCTATGGGTCAGCAAATGCCAATAGACCAAGGCTT
TGCCTCTTTACAGCCATCCCTTCATCATCCTTCAACTAATCAAAATCAAACAAAGCTGACACATTTTGAT
CACTATAATCAGTATGAACAACAAAAGATGCATCTGATGGATCAGCCGAACAGAATGATGAGCAACACCC
CTGGGAACGGACTCGCGTCTCCGCACTCGCAGTATCACACCCCTCCCGTTCCTCAGGTGCCCCATGGTGG
CAGTGGTGGCGGTCAGATGGGTGTCTACCCTGGCATGCAGAATGAGAGGCATGGGCAATCCTTTGTGGAC
AGCAGCTCCATGTGGGGCCCCAGGGCTGTTCAGGTACCAGACCAGATACGAGCCCCCTACCAGCAGCAGC
AGCCACAGCCGCAGCCACCGCAGCCGGCTCCGTCGGGGCCCCCTGCACAGGGCCACCCTCAGCACATGCA
GCAGATGGGCAGCTATATGGCACGTGGGGATTTTTCCATGCAGCAGCATGGTCAGCCACAGCAGAGGATG
AGCCAGTTTTCCCAAGGCCAAGAGGGCCTCAATCAGGGAAATCCTTTTATTGCCACCTCAGGACCTGGCC
ACTTGTCCCACGTGCCCCAGCAGAGTCCCAGCATGGCACCTTCCTTGCGTCACTCGGTGCAGCAGTTCCA
TCACCACCCCTCTACTGCTCTCCATGGAGAATCCGTTGCCCACAGTCCCAGATTCTCCCCGAATCCTCCC
CAACAAGGGGCTGTTAGGCCGCAAACCCTTAACTTTAGTTCTCGGAGCCAGACAGTCCCCTCTCCTACTA
TAAACAACTCAGGGCAGTATTCTCGATATCCTTACAGTAACCTAAATCAGGGATTAGTTAACAATACAGG
GATGAATCAAAATTTAGGCCTTACAAATAATACTCCAATGAATCAGTCCGTACCAAGATACCCCAATGCT
GTAGGATTCCCATCAAACAGTGGTCAAGGACTAATGCACCAGCAGCCCATCCACCCCAGTGGCTCACTTA
ACCAAATGAACACACAAACTATGCATCCTTCACAGCCTCAGGGAACTTATGCCTCTCCACCTCCCATGTC
ACCCATGAAAGCAATGAGTAATCCAGCAGGCACTCCTCCTCCACAAGTCAGGCCGGGAAGTGCTGGGATA
CCAATGGAAGTTGGCAGTTATCCAAATATGCCCCATCCTCAGCCATCTCACCAGCCCCCTGGTGCCATGG
GAATCGGACAGAGGAATATGGGCCCCAGAAACATGCAGCAGTCTCGTCCATTTATAGGCATGTCCTCGGC
ACCAAGGGAATTGACTGGGCACATGAGGCCAAATGGTTGTCCTGGTGTTGGCCTTGGAGACCCACAAGCA
ATCCAGGAACGACTGATACCTGGCCAACAACATCCTGGTCAACAGCCATCTTTTCAGCAGTTGCCAACCT
GTCCTCCACTGCAGCCTCACCCGGGCTTGCACCACCAGTCTTCACCTCCACACCCTCATCACCAGCCTTG
GGCACAGCTCCACCCATCACCCCAGAACACCCCGCAGAAAGTGCCTGTGCATCAGCATTCCCCGTCGGAG
CCCTTTCTAGAGAAACCAGTGCCGGATATGACTCAGGTTAGTGGACCGAATGCTCAGCTAGTGAAGAGTG
ATGATTACCTGCCATCAATAGAACAGCAGCCACAACAAAAGAAGAAGAAAAAGAAAAACAACCACATTGT
AGCAGAGGATCCCAGTAAAGGTTTTGGTAAAGATGACTTCCCTGGTGGGGTAGATAACCAAGAACTAAAT
AGGAACTCACTGGATGGGTCCCAAGAAGAAAAAAAGAAAAAGAAAAGGTCAAAGGCAAAAAAAGACCCGA
AGGAACCGAAAGAACCCAAGGAGAAAAAAGAGCCCAAGGAACCCAAGACCCCGAAAGCCCCTAAGATTCC
CAAAGAGCCAAAGGAAAAGAAAGCAAAAACTGCCACGCCAAAACCCAAATCCAGCAAAAAGTCAAGTAAT
AAGAAACCTGACTCAGAAGCAAGTGCTTTGAAGAAAAAGGTCAACAAGGGAAAAACAGAAGGTTCTGAAA
ATTCAGACTTAGACAAAACACCCACACCATCTCCTCCTCCTGAAGAAGATGAGGACCCAGGTGTTCAGAA
GAGACGGTCCAGCAGACAGGTGAAGAGAAAGCGCTACACTGAAGACCTGGAGTTCAAGATTTCTGATGAG
GAGGCAGATGATGCAGATGCTGCTGGGAGGGATTCCCCCTCCAACACCTCCCAGTCAGAACAGCAGGAAT
CTGTTGATGCAGAAGGCCCAGTGGTAGAAAAAATTATGAGCAGTCGTTCAGTAAAAAAGCAGAAGGAATC
TGGAGAGGAGGTAGAAATTGAGGAATTCTATGTGAAATACAAAAACTTCTCTTATCTTCATTGTCAGTGG
GCATCTATAGAAGATCTGGAAAAAGATAAGAGAATTCAGCAAAAAATTAAACGATTTAAGGCAAAGCAGG
GCCAGAACAAGTTCCTTTCAGAGATTGAGGATGAGCTTTTTAATCCAGATTATGTGGAGGTTGACCGGAT
AATGGACTTTGCACGTAGCACAGATGACCGGGGAGAGCCTGTGACTCACTATCTGGTGAAGTGGTGTTCA
CTTCCTTATGAAGACAGCACGTGGGAGCGGAGGCAGGACATAGATCAAGCAAAGATCGAGGAGTTTGAGA
AACTAATGTCCAGGGAGCCGGAAACAGAGCGTGTGGAGCGACCTCCTGCTGATGATTGGAAGAAATCGGA
GAGTTCCAGGGAGTATAAAAACAATAACAAACTCAGGGAATACCAGTTGGAGGGAGTAAACTGGCTACTT
TTCAATTGGTACAACATGCGAAACTGCATTTTAGCAGATGAAATGGGTTTGGGAAAAACTATCCAGTCCA
TTACATTTCTCTATGAGATATATTTGAAAGGAATCCATGGCCCTTTTTTAGTAATTGCCCCATTGTCCAC
AATCCCCAACTGGGAAAGGGAATTCCGAACCTGGACAGAGTTGAACGTGGTTGTGTATCATGGGAGTCAA
GCTAGTCGTCGGACCATTCAGTTGTATGAAATGTACTTCAAAGATCCCCAGGGTCGAGTGATAAAGGGGT
CCTATAAGTTTCATGCCATCATCACTACATTTGAGATGATTTTGACTGATTGTCCTGAGCTGCGGAATAT
TCCATGGCGCTGTGTAGTCATTGATGAAGCCCACAGGCTGAAGAACAGGAACTGCAAGCTGTTGGAGGGA
CTCAAGATGATGGACTTGGAACACAAAGTGCTGCTGACGGGAACCCCACTCCAGAACACTGTGGAAGAAC
TCTTCAGCTTGCTTCATTTCTTGGAACCAAGTCGCTTCCCTTCAGAAACCACATTTATGCAAGAATTTGG
TGATCTAAAAACAGAAGAGCAGGTGCAAAAACTTCAAGCTATTCTAAAGCCAATGATGTTGAGACGTCTC
AAAGAGGATGTAGAAAAGAACTTGGCCCCCAAAGAAGAAACTATTATTGAAGTTGAGCTAACAAACATTC
AGAAGAAATATTACCGAGCCATCCTTGAGAAGAATTTCACATTTCTTTCCAAAGGCGGTGGTCAAGCTAA
CGTACCTAACCTATTAAACACTATGATGGAATTGCGGAAGTGCTGCAATCATCCGTACCTTATCAATGGT
GCTGAAGAGAAAATTTTGGAAGAGTTTAAAGAAACACACAATGCAGAGTCTCCAGATTTTCAGCTCCAGG
CAATGATCCAGGCTGCTGGCAAGCTAGTGCTGATTGACAAGCTGCTGCCAAAACTGAAGGCTGGTGGCCA
CAGGGTGCTTATCTTTTCCCAGATGGTGCGCTGCTTGGACATACTGGAAGACTACCTCATTCAAAGACGG
TACCCATATGAAAGGATCGACGGCCGAGTAAGAGGCAACCTCCGCCAGGCAGCTATCGACAGATTCTCCA
AACCTGATTCTGATAGGTTTGTTTTCCTCCTGTGTACAAGGGCAGGAGGTTTAGGCATTAACCTCACTGC
TGCTGATACCTGCATCATCTTTGATTCAGACTGGAATCCCCAAAATGACCTCCAGGCTCAGGCTAGATGT
CATAGAATAGGACAGAGCAAATCTGTGAAAATCTACAGGCTGATTACAAGAAATTCCTATGAAAGGGAAA
TGTTCGACAAGGCTAGTTTGAAACTGGGCCTGGATAAAGCTGTGCTACAGTCTATGAGTGGAAGAGAAAA
TGCTACCAATGGGGTACAACAGCTTTCCAAGAAAGAAATAGAGGATCTTCTACGAAAAGGGGCCTATGGT
GCACTCATGGATGAGGAGGATGAAGGGTCTAAATTCTGTGAAGAAGATATTGATCAGATCCTCCTACGTC
GAACCCACACCATTACCATTGAGTCAGAAGGGAAAGGTTCCACATTTGCTAAGGCCAGTTTTGTTGCATC
TGGAAATAGGACAGATATTTCCTTGGATGATCCAAATTTCTGGCAAAAGTGGGCTAAGAAGGCTGAATTG
GATATTGATGCCTTAAATGGGAGGAACAACCTGGTTATTGATACTCCAAGAGTGAGAAAGCAGACCAGGC
TCTACAGTGCAGTGAAGGAAGATGAGCTGATGGAGTTCTCAGACTTGGAAAGTGATTCTGAAGAAAAGCC
CTGTGCAAAGCCACGGCGTCCCCAGGATAAGTCACAGGGCTATGCAAGGAGTGAATGTTTCAGGGTGGAG
AAGAATCTGCTTGTCTATGGTTGGGGACGGTGGACAGACATTCTTTCCCACGGACGCTATAAACGCCAAC
TCACTGAGCAAGATGTAGAAACCATCTGCAGAACCATCCTGGTGTACTGTCTTAATCATTACAAAGGGGA
TGAGAATATCAAAAGCTTCATCTGGGATCTGATCACACCCACAGCGGATGGCCAGACTCGAGCCTTGGTC
AACCATTCCGGTTTGTCAGCTCCTGTGCCAAGGGGAAGGAAGGGAAAGAAGGTGAAAGCCCAGAGCACAC
AGCCGGTGGTGCAGGATGCCGACTGGCTGGCCAGCTGCAACCCAGATGCCCTGTTCCAGGAGGACAGCTA
CAAGAAACACCTGAAGCATCACTGTAACAAGGTCCTGCTGCGTGTCCGCATGCTGTACTACCTAAGACAA
GAAGTGATAGGAGACCAGGCGGATAAGATCTTAGAGGGTGCTGACTCAAGTGAAGCCGATGTGTGGATCC
CTGAACCTTTCCATGCTGAAGTTCCTGCAGATTGGTGGGATAAGGAAGCAGACAAATCCCTCTTAATTGG
AGTGTTCAAACATGGCTATGAGAAGTACAACTCCATGCGAGCTGACCCCGCGCTGTGCTTTCTGGAACGA
GTCGGTATGCCTGATGCCAAGGCCATAGCTGCCGAGCAAAGAGGAACAGACATGCTAGCAGATGGTGGTG
ACGGGGGAGAATTTGATAGAGAAGATGAAGACCCAGAATATAAACCAACCAGAACACCGTTCAAAGATGA
AATAGATGAATTTGCAAATTCTCCTTCAGAGGATAAGGAAGAATCCATGGAAATACATGCCACAGGCAAG
CACAGTGAGAGTAATGCTGAGTTAGGCCAACTTTACTGGCCTAACACTTCAACCCTGACTACACGTCTGC
GCCGGCTCATTACTGCCTATCAGCGCAGCTATAAAAGGCAACAGATGAGGCAAGAGGCCCTAATGAAGAC
TGACCGGCGCAGACGGCGGCCTCGAGAGGAAGTGAGAGCTCTGGAAGCGGAAAGGGAAGCTATTATATCT
GAGAAGCGGCAAAAGTGGACAAGAAGAGAAGAGGCTGATTTTTACCGTGTGGTATCCACCTTTGGGGTTA
TTTTTGACCCTGTGAAACAGCAATTTGACTGGAACCAATTTAGAGCCTTTGCCAGGCTTGACAAAAAATC
TGATGAGAGTTTGGAGAAATACTTCAGTTGTTTTGTGGCCATGTGTAGGCGAGTATGTCGAATGCCCGTC
AAGCCAGATGATGAACCGCCCGACCTCTCCTCCATAATTGAGCCGATCACAGAGGAGCGAGCCTCTCGAA
CTCTGTACCGCATTGAGCTGCTACGGAAGATCCGCGAGCAGGTTCTCCATCACCCCCAGCTGGGAGAGAG
GCTTAAGCTCTGCCAGCCAAGCTTGGATCTGCCAGAGTGGTGGGAGTGTGGACGGCATGACCGAGACTTG
CTGGTTGGTGCTGCTAAACACGGGGTCAGTCGGACGGATTATCACATCCTCAATGACCCTGAGTTATCCT
TCTTGGATGCACATAAAAACTTTGCTCAAAACAGAGGGGCAGGTAATACATCTTCCTTGAACCCACTGGC
AGTTGGATTTGTCCAGACTCCTCCAGTCATCTCATCTGCTCATATTCAAGATGAGAGGGTACTGGAACAA
GCCGAAGGCAAAGTGGAGGAGCCTGAAAACCCAGCTGCCAAGGAGAAATGTGAGGGCAAAGAAGAGGAAG
AAGAAACCGATGGCAGCGGGAAGGAGAGCAAGCAGGAATGTGAGGCAGAGGCCAGCTCTGTGAAAAATGA
ACTGAAAGGTGTTGAGGTCGGCGCAGACACTGGGTCCAAATCTATTTCAGAGAAAGGTTCCGAAGAGGAT
GAAGAGGAAAAGCTGGAGGATGACGATAAGTCGGAAGAGTCTTCCCAGCCCGAAGGAGCTGTCTCTAGAG
GGAAGAATTTTGATGAAGAAAGCAATGCTTCCATGAGCACTGCTAGAGATGAAACCCGAGATGGATTCTA
CATGGAGGACGGAGATCCTTCAGTAGCTCAGCTCCTTCATGAAAGAACATTTGCCTTCTCGTTTTGGCCT
AAGGATAGAGTAATGATAAACCGCTTAGACAACATCTGTGAAGCAGTGTTGAAAGGCAAATGGCCAGTAA
ATAGGCGCCAGATGTTTGATTTCCAAGGCCTCATCCCAGGTTACACACCCACCACAGTGGACAGCCCCTT
GCAGAAGAGGAGCTTTGCTGAGCTCTCCATGGTCGGCCAAGCCAGCATTAGTGGGAGTGAGGACATCACT
ACGTCTCCTCAGTTGTCAAAGGAAGATGCCCTCAACCTCTCTGTCCCTCGCCAGCGGAGGAGGAGGAGGA
GAAAAATCGAAATTGAGGCCGAAAGAGCTGCCAAGAGGCGAAATCTCATGGAGATGGTTGCCCAGCTTCG
AGAGTCTCAGGTGGTCTCAGAAAATGGACAAGAAAAAGTTGTAGATTTATCAAAGGCCTCAAGAGAGGCA
ACAAGCTCTACCTCAAATTTTTCATCTCTTTCTTCAAAGTTTATCTTGCCTAATGTCTCAACACCAGTGT
CTGATGCCTTTAAGACTCAAATGGAACTGCTCCAAGCAGGCCTTTCGCGCACACCCACAAGGCATCTCCT
TAATGGCTCCCTAGTGGATGGAGAGCCTCCCATGAAGAGGAGGCGGGGAAGGAGGAAAAATGTGGAGGGA
CTTGATCTGCTTTTCATGAGCCACAAACGGACGTCATTGAGTGCAGAGGATGCTGAGGTGACCAAAGCTT
TTGAAGAAGATATAGAGACCCCACCAACAAGAAACATTCCTTCTCCCGGACAGCTGGACCCAGACACACG
GATCCCTGTTATCAATCTTGAAGATGGGACTAGGCTGGTGGGGGAAGATGCTCCTAAAAATAAGGATTTA
GTTGAATGGCTGAAGCTGCACCCTACTTACACTGTTGATATGCCAAGTTATGTACCAAAGAATGCAGATG
TGCTGTTTTCCTCATTTCAGAAACCGAAACAGAAACGACATAGATGTCGAAACCCTAATAAATTGGATAT
AAACACTTTGACAGGAGAAGAAAGGGTGCCTGTTGTCAATAAACGAAATGGGAAGAAGATGGGTGGAGCT
ATGGCGCCTCCAATGAAGGATCTACCCAGGTGGCTGGAAGAAAATCCTGAATTTGCAGTTGCTCCAGACT
GGACTGATATAGTTAAGCAGTCTGGTTTTGTTCCTGAGTCGATGTTTGACCGCCTTCTCACTGGGCCTGT
AGTGCGGGGAGAGGGAGCGAGCAGAAGAGGAAGAAGGCCCAAAAGTGAGATCGCCAGAGCAGCCGCGGCC
GCCGCTGCTGTGGCCTCCACGTCAGGGATCAACCCTTTGCTGGTGAACAGCCTGTTTGCTGGAATGGACC
TGACGAGCCTTCAGAATCTCCAGAATCTCCAGTCGCTCCAGCTGGCAGGCCTCATGGGCTTCCCTCCAGG
ACTGGCAACAGCTGCCACCGCCGGAGGCGATGCGAAGAACCCTGCTGCTGTGCTGCCCCTGATGCTGCCA
GGAATGGCGGGCCTGCCCAACGTGTTTGGCTTGGGCGGGCTGTTGAATAACCCTCTGTCAGCTGCTACTG
GAAACACCACTACTGCTTCTAGTCAAGGAGAACCGGAAGACAGCACTTCAAAAGGAGAGGAGAAAGGAAA
TGAGAATGAAGACGAGAACAAAGACTCTGAGAAAAGCACAGATGCTGTTTCGGCTGCTGACTCTGCGAAT
GGATCTGTTGGTGCTGCTACTGCCCCGGCTGGATTGCCCTCAAACCCGCTAGCCTTCAACCCTTTCCTCC
TGTCCACAATGGCCCCGGGCCTCTTCTACCCATCCATGTTTCTACCTCCAGGACTGGGGGGATTGACGCT
GCCTGGGTTCCCAGCATTGGCAGGACTTCAGAATGCCGTGGGCTCCAGCGAAGAAAAGGCTGCTGACAAG
GCTGAGGGAGGACCCTTTAAAGATGGAGAGACCCTTGAAGGCAGCGATGCCGAGGAGAGCCTGGATAAGA
CTGCAGAGTCCTCCCTCTTAGAAGACGAAATAGCACAGGGTGAAGAGCTAGACTCACTTGATGGGGGGGA
TGAAATAGAAAACAATGAAAATGATGAA

ACGCGTACGCGGCCGCTCGAGCAGAAACTCATCTCAGAAGAGGATCTGGCAGCAAATGATATCCTGGATT
ACAAGGATGACGACGATAAGGTTTAA
Protein Sequence
>RC221060 representing NM_017780
Red=Cloning site Green=Tags(s)

MADPGMMSLFGEDGNIFSEGLEGLGECGYPENPVNPMGQQMPIDQGFASLQPSLHHPSTNQNQTKLTHFD
HYNQYEQQKMHLMDQPNRMMSNTPGNGLASPHSQYHTPPVPQVPHGGSGGGQMGVYPGMQNERHGQSFVD
SSSMWGPRAVQVPDQIRAPYQQQQPQPQPPQPAPSGPPAQGHPQHMQQMGSYMARGDFSMQQHGQPQQRM
SQFSQGQEGLNQGNPFIATSGPGHLSHVPQQSPSMAPSLRHSVQQFHHHPSTALHGESVAHSPRFSPNPP
QQGAVRPQTLNFSSRSQTVPSPTINNSGQYSRYPYSNLNQGLVNNTGMNQNLGLTNNTPMNQSVPRYPNA
VGFPSNSGQGLMHQQPIHPSGSLNQMNTQTMHPSQPQGTYASPPPMSPMKAMSNPAGTPPPQVRPGSAGI
PMEVGSYPNMPHPQPSHQPPGAMGIGQRNMGPRNMQQSRPFIGMSSAPRELTGHMRPNGCPGVGLGDPQA
IQERLIPGQQHPGQQPSFQQLPTCPPLQPHPGLHHQSSPPHPHHQPWAQLHPSPQNTPQKVPVHQHSPSE
PFLEKPVPDMTQVSGPNAQLVKSDDYLPSIEQQPQQKKKKKKNNHIVAEDPSKGFGKDDFPGGVDNQELN
RNSLDGSQEEKKKKKRSKAKKDPKEPKEPKEKKEPKEPKTPKAPKIPKEPKEKKAKTATPKPKSSKKSSN
KKPDSEASALKKKVNKGKTEGSENSDLDKTPTPSPPPEEDEDPGVQKRRSSRQVKRKRYTEDLEFKISDE
EADDADAAGRDSPSNTSQSEQQESVDAEGPVVEKIMSSRSVKKQKESGEEVEIEEFYVKYKNFSYLHCQW
ASIEDLEKDKRIQQKIKRFKAKQGQNKFLSEIEDELFNPDYVEVDRIMDFARSTDDRGEPVTHYLVKWCS
LPYEDSTWERRQDIDQAKIEEFEKLMSREPETERVERPPADDWKKSESSREYKNNNKLREYQLEGVNWLL
FNWYNMRNCILADEMGLGKTIQSITFLYEIYLKGIHGPFLVIAPLSTIPNWEREFRTWTELNVVVYHGSQ
ASRRTIQLYEMYFKDPQGRVIKGSYKFHAIITTFEMILTDCPELRNIPWRCVVIDEAHRLKNRNCKLLEG
LKMMDLEHKVLLTGTPLQNTVEELFSLLHFLEPSRFPSETTFMQEFGDLKTEEQVQKLQAILKPMMLRRL
KEDVEKNLAPKEETIIEVELTNIQKKYYRAILEKNFTFLSKGGGQANVPNLLNTMMELRKCCNHPYLING
AEEKILEEFKETHNAESPDFQLQAMIQAAGKLVLIDKLLPKLKAGGHRVLIFSQMVRCLDILEDYLIQRR
YPYERIDGRVRGNLRQAAIDRFSKPDSDRFVFLLCTRAGGLGINLTAADTCIIFDSDWNPQNDLQAQARC
HRIGQSKSVKIYRLITRNSYEREMFDKASLKLGLDKAVLQSMSGRENATNGVQQLSKKEIEDLLRKGAYG
ALMDEEDEGSKFCEEDIDQILLRRTHTITIESEGKGSTFAKASFVASGNRTDISLDDPNFWQKWAKKAEL
DIDALNGRNNLVIDTPRVRKQTRLYSAVKEDELMEFSDLESDSEEKPCAKPRRPQDKSQGYARSECFRVE
KNLLVYGWGRWTDILSHGRYKRQLTEQDVETICRTILVYCLNHYKGDENIKSFIWDLITPTADGQTRALV
NHSGLSAPVPRGRKGKKVKAQSTQPVVQDADWLASCNPDALFQEDSYKKHLKHHCNKVLLRVRMLYYLRQ
EVIGDQADKILEGADSSEADVWIPEPFHAEVPADWWDKEADKSLLIGVFKHGYEKYNSMRADPALCFLER
VGMPDAKAIAAEQRGTDMLADGGDGGEFDREDEDPEYKPTRTPFKDEIDEFANSPSEDKEESMEIHATGK
HSESNAELGQLYWPNTSTLTTRLRRLITAYQRSYKRQQMRQEALMKTDRRRRRPREEVRALEAEREAIIS
EKRQKWTRREEADFYRVVSTFGVIFDPVKQQFDWNQFRAFARLDKKSDESLEKYFSCFVAMCRRVCRMPV
KPDDEPPDLSSIIEPITEERASRTLYRIELLRKIREQVLHHPQLGERLKLCQPSLDLPEWWECGRHDRDL
LVGAAKHGVSRTDYHILNDPELSFLDAHKNFAQNRGAGNTSSLNPLAVGFVQTPPVISSAHIQDERVLEQ
AEGKVEEPENPAAKEKCEGKEEEEETDGSGKESKQECEAEASSVKNELKGVEVGADTGSKSISEKGSEED
EEEKLEDDDKSEESSQPEGAVSRGKNFDEESNASMSTARDETRDGFYMEDGDPSVAQLLHERTFAFSFWP
KDRVMINRLDNICEAVLKGKWPVNRRQMFDFQGLIPGYTPTTVDSPLQKRSFAELSMVGQASISGSEDIT
TSPQLSKEDALNLSVPRQRRRRRRKIEIEAERAAKRRNLMEMVAQLRESQVVSENGQEKVVDLSKASREA
TSSTSNFSSLSSKFILPNVSTPVSDAFKTQMELLQAGLSRTPTRHLLNGSLVDGEPPMKRRRGRRKNVEG
LDLLFMSHKRTSLSAEDAEVTKAFEEDIETPPTRNIPSPGQLDPDTRIPVINLEDGTRLVGEDAPKNKDL
VEWLKLHPTYTVDMPSYVPKNADVLFSSFQKPKQKRHRCRNPNKLDINTLTGEERVPVVNKRNGKKMGGA
MAPPMKDLPRWLEENPEFAVAPDWTDIVKQSGFVPESMFDRLLTGPVVRGEGASRRGRRPKSEIARAAAA
AAAVASTSGINPLLVNSLFAGMDLTSLQNLQNLQSLQLAGLMGFPPGLATAATAGGDAKNPAAVLPLMLP
GMAGLPNVFGLGGLLNNPLSAATGNTTTASSQGEPEDSTSKGEEKGNENEDENKDSEKSTDAVSAADSAN
GSVGAATAPAGLPSNPLAFNPFLLSTMAPGLFYPSMFLPPGLGGLTLPGFPALAGLQNAVGSSEEKAADK
AEGGPFKDGETLEGSDAEESLDKTAESSLLEDEIAQGEELDSLDGGDEIENNENDE

TRTRPLEQKLISEEDLAANDILDYKDDDDKV
Restriction Sites SgfI-MluI Cloning Scheme for this gene Plasmid Map
ACCN NM_017780
ORF Size 8988 bp
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 clone was engineered to express the complete ORF with an expression tag. Expression varies depending on the nature of the gene.
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_017780.4
RefSeq Size 11589 bp
RefSeq ORF 8994 bp
Locus ID 55636
UniProt ID Q9P2D1
Cytogenetics 8q12.2
MW 336.4 kDa
Summary This gene encodes a protein that contains several helicase family domains. Mutations in this gene have been found in some patients with the CHARGE syndrome. Two transcript variants encoding different isoforms have been found for this gene. [provided by RefSeq, Oct 2015]
Reviews
Write Your Own Review
You're reviewing:CHD7 (NM_017780) Human Tagged ORF Clone
Your Rating
Documents
Product Manuals
FAQs
SDS
Resources
cDNA Clone Resources
"NM_017780" in other vectors (3)
SKU Description Size Price
RC221060L1 Lenti ORF clone of Human chromodomain helicase DNA binding protein 7 (CHD7), Myc-DDK-tagged 10 ug
$3,941.00
RG221060 CHD7 (tGFP-tagged) - Human chromodomain helicase DNA binding protein 7 (CHD7) 10 ug
$3,841.00
SC304529 CHD7 (untagged)-Human chromodomain helicase DNA binding protein 7 (CHD7) 10 ug
$3,886.00
Related Products
Check items to add to the cart or
  1. CHD7 (NM_017780) Human Tagged ORF Clone
    CHD7 (NM_017780) Human Tagged ORF Clone
    $3,841.00
    Add to Compare
  2. CHD7 (NM_017780) Human Tagged Lenti ORF Clone
    CHD7 (NM_017780) Human Tagged Lenti ORF Clone
    $3,941.00
    Add to Compare
  3. CHD7 (NM_017780) Human Tagged ORF Clone Lentiviral Particle
    CHD7 (NM_017780) Human Tagged ORF Clone Lentiviral Particle
    $4,191.00
    Add to Compare
  4. CHD7 (NM_017780) Human Untagged Clone
    CHD7 (NM_017780) Human Untagged Clone
    $3,886.00
    Add to Compare
  5. pCMV6-Entry Mammalian Expression Vector
    pCMV6-Entry Mammalian Expression Vector
    $650.00
    Add to Compare

Citations

*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.