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IDN3 (NIPBL) (NM_133433) Human Tagged ORF Clone

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SKU
RG211489
NIPBL (tGFP-tagged) - Human Nipped-B homolog (Drosophila) (NIPBL), transcript variant A
  • TrueORF®
    TrueORF®

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

    Click here to learn more.

ORF Plasmid: tGFP DDK
Lentiviral Particles: DDK
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Datasheet SDS Plasmid Map
NM_133433 in other vectors (3)
Reconstitution Protocol
$3,607.00
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Size
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Specifications
Product Data
Type Human Tagged ORF Clone
Target Symbol IDN3
Synonyms CDLS; CDLS1; IDN3; IDN3-B; Scc2
Vector pCMV6-AC-GFP
E. coli Selection Ampicillin (100 ug/mL)
Mammalian Cell Selection Neomycin
Sequence Data
ORF Nucleotide Sequence
>RG211489 representing NM_133433
Red=Cloning site Blue=ORF Green=Tags(s)

TTTTGTAATACGACTCACTATAGGGCGGCCGGGAATTCGTCGACTGGATCCGGTACCGAGGAGATCTGCC
GCCGCGATCGCC

ATGAATGGGGATATGCCCCATGTCCCCATTACTACTCTTGCGGGGATTGCTAGTCTCACAGACCTCCTGA
ACCAGCTGCCTCTTCCATCTCCTTTACCTGCTACAACTACAAAGAGCCTTCTCTTTAATGCACGAATAGC
AGAAGAGGTGAACTGCCTTTTGGCTTGTAGGGATGACAATTTGGTTTCACAGCTTGTCCATAGCCTCAAC
CAGGTATCAACAGATCACATAGAGTTGAAAGATAACCTTGGCAGTGATGACCCAGAAGGTGACATACCAG
TCTTGTTGCAGGCCGTCCTGGCAAGGAGTCCTAATGTTTTCAGGGAGAAAAGCATGCAGAACAGATATGT
ACAAAGTGGAATGATGATGTCTCAGTATAAACTTTCTCAGAATTCCATGCACAGTAGTCCTGCATCTTCC
AATTATCAACAAACCACTATCTCACATAGCCCCTCCAGCCGGTTTGTGCCACCACAGACAAGCTCTGGGA
ACAGATTTATGCCACAGCAAAATAGCCCAGTGCCTAGTCCATACGCCCCACAAAGCCCTGCAGGATACAT
GCCATATTCCCATCCTTCAAGTTACACAACACATCCACAGATGCAACAAGCATCGGTATCAAGTCCCATT
GTTGCAGGTGGTTTGAGAAACATACATGATAATAAAGTTTCTGGTCCGTTGTCTGGCAATTCAGCTAATC
ATCATGCTGATAATCCTAGACATGGTTCAAGTGAGGACTACCTACACATGGTGCACAGGCTAAGTAGTGA
CGATGGAGATTCTTCAACAATGAGGAATGCTGCATCTTTTCCCTTGAGATCTCCACAGCCAGTATGCTCC
CCTGCTGGAAGTGAAGGAACTCCTAAAGGCTCAAGACCACCTTTAATCCTACAATCTCAGTCTCTACCTT
GTTCATCACCTCGAGATGTTCCACCAGATATCTTGCTAGATTCTCCAGAAAGAAAACAAAAGAAGCAGAA
GAAAATGAAATTAGGCAAGGATGAAAAAGAGCAGAGTGAGAAAGCGGCAATGTATGATATAATTAGTTCT
CCATCCAAGGACTCTACTAAACTTACATTAAGACTTTCTCGTGTAAGGTCTTCAGACATGGACCAGCAAG
AGGATATGATTTCTGGTGTGGAAAATAGCAATGTTTCAGAAAATGATATTCCTTTTAATGTGCAGTACCC
AGGACAGACTTCAAAAACACCCATTACTCCACAAGATATAAACCGCCCACTAAATGCTGCTCAATGTTTG
TCGCAGCAAGAACAAACAGCATTCCTTCCAGCAAATCAAGTGCCTGTTTTACAACAGAACACTTCAGTTG
CTGCAAAACAACCCCAGACTTCTGTGGTACAGAATCAACAACAGATATCACAACAGGGACCTATATATGA
TGAAGTGGAATTGGATGCATTGGCTGAAATTGAGCGAATAGAGAGAGAATCAGCTATTGAAAGGGAGCGC
TTCTCAAAAGAAGTTCAAGATAAAGATAAGCCTTTGAAAAAAAGAAAACAAGATTCTTACCCACAGGAGG
CTGGGGGTGCTACAGGAGGTAATAGACCAGCTTCTCAGGAGACGGGTTCTACGGGAAATGGGTCAAGGCC
AGCATTAATGGTTAGCATTGATCTTCATCAGGCAGGAAGAGTGGACTCTCAGGCTTCTATAACTCAGGAT
TCAGACTCCATAAAAAAGCCTGAAGAAATCAAACAATGTAATGATGCACCTGTTTCTGTTCTTCAGGAAG
ATATTGTTGGAAGTCTTAAATCTACACCAGAAAACCATCCTGAGACACCTAAAAAAAAGTCTGATCCTGA
GCTTTCAAAGAGTGAAATGAAACAAAGTGAAAGTAGATTAGCAGAATCTAAACCAAATGAAAACCGATTG
GTGGAGACAAAATCAAGTGAAAATAAGTTAGAAACTAAAGTTGAGACCCAAACAGAAGAACTTAAACAGA
ATGAGAGCAGAACAACTGAATGCAAACAAAACGAGAGCACCATAGTTGAGCCTAAACAAAATGAAAATAG
ACTGTCTGACACAAAACCAAATGACAACAAACAAAATAATGGCAGATCAGAAACAACAAAATCAAGGCCT
GAAACCCCAAAGCAAAAGGGTGAAAGCCGGCCTGAGACTCCAAAACAAAAGAGTGATGGGCATCCTGAAA
CCCCAAAACAGAAGGGTGATGGAAGGCCTGAAACTCCAAAGCAAAAAGGTGAGAGCCGCCCTGAAACTCC
AAAGCAAAAAAATGAAGGGCGACCTGAAACACCAAAACACAGGCATGACAATAGGAGGGATTCTGGAAAG
CCATCTACAGAGAAAAAACCTGAAGTGTCTAAACATAAACAAGATACTAAATCTGACTCACCTCGGTTAA
AATCAGAACGAGCTGAAGCCTTAAAGCAGAGACCTGATGGGCGATCTGTTTCTGAGTCACTAAGACGTGA
CCATGATAATAAACAAAAATCAGATGACAGGGGTGAATCAGAGCGACATCGAGGGGATCAGTCTAGGGTT
CGAAGACCAGAAACATTGAGATCCTCTAGTAGAAATGAACATGGCATTAAATCTGATAGTTCAAAAACTG
ATAAACTAGAACGAAAACACAGGCATGAATCAGGGGACTCAAGGGAAAGACCATCTTCTGGGGAACAAAA
ATCAAGACCTGACAGTCCTCGTGTTAAACAAGGAGATTCTAATAAATCAAGATCTGATAAACTTGGTTTT
AAATCACCAACTAGTAAAGATGACAAAAGGACAGAGGGTAACAAGAGTAAAGTAGACACTAATAAAGCAC
ACCCTGACAATAAGGCAGAATTTCCAAGTTATTTGTTGGGGGGCAGGTCTGGTGCGTTGAAAAATTTTGT
CATTCCGAAAATCAAGAGGGATAAAGATGGCAATGTTACTCAGGAGACAAAGAAAATGGAAATGAAAGGA
GAGCCGAAAGACAAAGTAGAAAAAATAGGATTAGTTGAAGATCTAAATAAAGGAGCTAAGCCTGTAGTTG
TGCTACAAAAACTGTCTTTGGATGATGTTCAGAAACTTATTAAAGATAGAGAGGACAAATCAAGAAGTTC
CCTTAAACCTATCAAGAATAAACCATCAAAGTCAAATAAAGGTAGTATAGATCAATCAGTGTTAAAAGAA
TTACCCCCTGAACTCCTGGCAGAAATTGAGTCCACCATGCCACTTTGTGAACGTGTGAAAATGAACAAAC
GCAAGCGTAGCACAGTTAATGAAAAGCCAAAATATGCTGAAATCAGTTCAGATGAAGATAATGATAGTGA
TGAAGCTTTTGAATCCTCTAGGAAACGACATAAAAAAGATGATGATAAAGCTTGGGAATATGAAGAGCGT
GACAGAAGAAGCTCTGGGGATCATAGGAGAAGTGGCCACTCTCATGAAGGAAGAAGGAGTTCAGGTGGTG
GTCGTTATCGAAACCGAAGTCCGTCAGATTCTGACATGGAAGATTATTCTCCTCCTCCCAGCCTTAGTGA
GGTTGCTAGGAAAATGAAGAAAAAAGAAAAACAGAAGAAAAGGAAAGCATATGAACCAAAACTAACACCT
GAAGAAATGATGGACTCTTCAACTTTTAAGAGATTCACAGCCTCAATAGAGAATATTTTGGATAATTTGG
AAGATATGGATTTTACTGCGTTTGGTGATGATGATGAAATTCCTCAGGAACTGCTCTTAGGAAAACATCA
GCTTAATGAACTTGGCAGTGAATCTGCTAAAATAAAAGCAATGGGTATAATGGATAAGCTTTCAACTGAC
AAAACTGTGAAAGTCTTAAATATCTTGGAGAAGAATATTCAGGATGGGTCAAAGCTTTCCACTTTGTTAA
ATCATAATAACGATACTGAAGAAGAAGAAAGGTTATGGAGAGACCTTATTATGGAGAGAGTTACAAAATC
AGCGGATGCTTGTCTTACAACTATCAACATTATGACATCCCCTAACATGCCAAAAGCTGTGTACATTGAG
GATGTAATTGAAAGAGTTATACAGTACACTAAATTTCATTTGCAGAATACACTTTATCCTCAGTATGATC
CTGTTTACAGATTAGATCCTCATGGAGGAGGCTTATTAAGTTCAAAAGCAAAACGGGCTAAATGTTCTAC
CCATAAGCAGAGAGTAATAGTAATGCTTTATAACAAAGTTTGTGACATTGTTAGCAGCTTATCAGAATTG
CTAGAGATACAACTTCTTACAGACACAACAATTCTTCAGGTTTCATCTATGGGAATAACACCATTTTTTG
TGGAAAATGTCAGTGAACTACAGTTGTGTGCCATTAAGTTAGTCACTGCAGTATTCTCAAGATATGAAAA
ACATAGGCAGTTAATTTTGGAAGAAATTTTTACTTCACTTGCAAGATTACCAACCAGCAAGAGGAGTTTA
AGGAACTTCAGGTTAAACAGTAGTGATATGGATGGAGAACCTATGTATATTCAGATGGTTACAGCACTGG
TTTTACAACTTATTCAGTGTGTGGTACACTTACCATCATCAGAGAAGGACTCTAATGCAGAAGAAGATTC
AAATAAAAAAATTGACCAGGATGTTGTCATTACTAACTCTTATGAAACAGCTATGCGAACAGCCCAAAAC
TTCCTCTCCATCTTCCTTAAAAAATGTGGTAGTAAGCAAGGTGAAGAAGATTACAGACCACTGTTTGAAA
ATTTTGTTCAAGACCTTCTTTCAACAGTCAATAAGCCTGAATGGCCAGCTGCTGAACTACTCCTTAGTTT
GTTAGGGAGACTGTTGGTTCATCAGTTCAGTAACAAGTCAACAGAGATGGCTTTAAGAGTGGCATCTCTT
GATTACCTTGGAACTGTTGCTGCACGGCTAAGAAAAGATGCTGTTACAAGCAAAATGGATCAAGGATCTA
TAGAACGCATTTTAAAACAGGTTTCAGGAGGGGAAGATGAAATCCAACAATTACAAAAAGCATTGCTTGA
TTACTTGGATGAAAACACTGAGACTGATCCTTCACTAGTGTTTTCTCGTAAATTCTATATAGCCCAGTGG
TTTCGAGACACAACTCTGGAAACAGAAAAAGCAATGAAATCACAAAAAGATGAAGAATCATCTGAAGGAA
CACATCATGCAAAGGAAATTGAGACAACTGGCCAAATTATGCATCGAGCTGAAAACCGAAAAAAGTTTCT
TAGAAGCATTATCAAAACCACACCTTCTCAGTTTAGCACATTAAAGATGAACTCTGATACTGTGGACTAT
GATGATGCTTGCTTGATTGTTCGATACTTGGCCTCCATGAGGCCGTTTGCCCAGAGCTTTGATATTTATT
TGACACAGATCCTACGAGTTCTTGGTGAAAATGCAATTGCTGTTCGAACAAAAGCCATGAAGTGTTTGTC
TGAGGTTGTTGCTGTAGACCCCAGTATTCTAGCAAGGCTTGATATGCAACGAGGTGTTCATGGACGATTG
ATGGATAATTCGACTAGTGTCCGAGAAGCAGCAGTAGAATTACTAGGTCGATTTGTCCTTTGTCGACCTC
AGCTTGCTGAACAGTATTATGATATGCTGATTGAAAGAATATTGGATACTGGTATCAGTGTCAGGAAAAG
AGTAATAAAGATTCTCAGAGACATTTGTATTGAACAACCAACATTTCCAAAAATCACAGAAATGTGTGTA
AAAATGATTCGCAGAGTCAATGATGAAGAGGGCATTAAGAAATTAGTAAATGAAACATTCCAGAAACTCT
GGTTTACTCCAACTCCACACAATGACAAAGAAGCAATGACAAGGAAAATTTTAAACATTACCGATGTGGT
TGCAGCATGCAGAGATACTGGATATGACTGGTTTGAGCAACTGCTTCAAAACTTGTTGAAGTCCGAAGAG
GATTCCTCATATAAACCTGTGAAGAAAGCTTGTACTCAACTTGTTGATAACCTAGTTGAGCACATTCTTA
AATATGAGGAATCTCTAGCTGACTCTGACAATAAAGGTGTGAATTCTGGAAGATTGGTAGCTTGCATAAC
CACTTTGTTCTTATTCAGCAAAATAAGACCCCAGCTCATGGTTAAACATGCAATGACTATGCAACCATAC
CTTACCACTAAATGTAGTACGCAAAATGATTTCATGGTTATCTGCAATGTTGCAAAAATCCTAGAGCTAG
TTGTACCACTGATGGAGCATCCAAGTGAAACTTTTCTTGCCACTATTGAGGAAGATCTAATGAAGCTCAT
CATCAAATATGGCATGACTGTAGTGCAACATTGTGTGAGCTGTCTTGGAGCTGTTGTAAATAAAGTGACA
CAAAATTTTAAATTTGTGTGGGCTTGTTTCAATAGATACTATGGTGCCATTTCAAAATTAAAAAGTCAAC
ACCAAGAGGACCCAAATAACACTTCACTTCTAACAAACAAACCAGCACTTCTTAGATCCCTTTTCACCGT
TGGAGCACTATGTCGGCATTTTGATTTTGATCTGGAAGATTTTAAAGGCAACAGCAAGGTTAACATAAAA
GATAAAGTACTTGAACTATTGATGTATTTTACAAAACACTCAGATGAAGAAGTACAAACAAAAGCTATCA
TTGGTCTAGGATTTGCCTTTATTCAGCATCCAAGTCTAATGTTCGAGCAAGAAGTGAAGAATCTATATAA
TAATATTTTATCTGATAAGAACTCCTCAGTCAATTTAAAAATACAAGTGTTAAAAAACCTCCAGACCTAC
CTACAAGAAGAAGATACACGTATGCAGCAGGCAGATAGAGACTGGAAGAAAGTTGCAAAACAGGAAGACT
TAAAAGAAATGGGTGATGTTTCCTCAGGGATGAGTAGTTCCATCATGCAGCTTTATCTCAAACAGGTGCT
TGAGGCATTTTTTCACACCCAGTCAAGTGTACGCCACTTTGCCCTAAATGTCATTGCATTGACTCTAAAT
CAAGGTCTTATTCATCCAGTTCAGTGTGTGCCATATTTAATTGCTATGGGCACAGACCCAGAACCTGCTA
TGCGGAACAAGGCTGATCAGCAACTTGTGGAAATAGACAAAAAATATGCTGGATTCATTCATATGAAAGC
AGTGGCTGGTATGAAGATGTCTTACCAGGTACAACAGGCAATCAACACATGCCTAAAAGATCCTGTAAGG
GGTTTCAGACAAGACGAGTCCTCTAGCGCTTTGTGTTCACACCTTTACTCCATGATCCGTGGAAACCGCC
AACACAGACGAGCCTTTCTTATTTCTTTACTCAACCTCTTTGATGACACAGCAAAAACAGACGTGACTAT
GCTCTTGTATATAGCAGACAATCTAGCCTGTTTTCCATACCAGACACAGGAAGAGCCGTTGTTTATAATG
CATCATATAGACATTACACTCTCAGTTTCTGGTAGTAACCTACTGCAGTCATTCAAGGAGTCTATGGTAA
AGGACAAAAGGAAAGAGAGAAAATCATCACCTAGTAAGGAAAATGAGTCAAGCGACAGTGAAGAAGAAGT
TTCCAGGCCTCGGAAGTCACGGAAACGTGTAGATTCAGATTCAGATTCAGATTCAGAAGACGATATAAAT
TCAGTGATGAAATGTTTGCCAGAAAATTCAGCTCCTTTAATCGAATTTGCAAATGTGTCCCAGGGTATTT
TATTACTTCTCATGTTAAAACAACATTTGAAGAATCTTTGTGGATTTTCTGATAGTAAAATTCAGAAGTA
CTCTCCATCTGAATCTGCAAAAGTATATGATAAAGCGATAAACCGAAAAACAGGAGTTCATTTTCATCCA
AAACAAACACTGGACTTCCTGCGGAGTGACATGGCTAATTCCAAAATCACAGAAGAGGTGAAAAGGAGTA
TAGTAAAACAGTATCTAGATTTCAAACTTCTCATGGAACATCTGGACCCTGATGAAGAAGAAGAAGAAGG
GGAGGTTTCAGCTAGCACAAATGCTCGGAACAAAGCAATTACCTCACTGCTTGGAGGAGGCAGCCCTAAA
AATAATACAGCAGCAGAGACAGAAGATGATGAAAGTGATGGGGAGGATAGAGGAGGAGGCACTTCAGGGT
CATTGAGAAGGTCAAAACGAAATTCAGACTCTACGGAGTTGGCAGCACAGATGAATGAAAGTGTTGACGT
CATGGATGTCATCGCTATTTGCTGTCCAAAGTACAAAGATCGACCACAAATTGCAAGAGTAGTGCAGAAA
ACCAGCAGTGGCTTCAGTGTTCAGTGGATGGCAGGCTCCTACAGTGGCTCCTGGACTGAGGCTAAGCGCC
GTGATGGCCGCAAACTGGTGCCTTGGGTAGACACTATTAAAGAGTCAGACATTATTTACAAAAAAATTGC
TCTAACGAGTGCTAATAAGCTGACTAATAAAGTTGTTCAGACTTTACGATCCCTGTATGCCGCCAAGGAT
GGGACTTCCAGC

ACGCGTACGCGGCCGCTCGAG - GFP Tag - GTTTAA
Protein Sequence
>RG211489 representing NM_133433
Red=Cloning site Green=Tags(s)

MNGDMPHVPITTLAGIASLTDLLNQLPLPSPLPATTTKSLLFNARIAEEVNCLLACRDDNLVSQLVHSLN
QVSTDHIELKDNLGSDDPEGDIPVLLQAVLARSPNVFREKSMQNRYVQSGMMMSQYKLSQNSMHSSPASS
NYQQTTISHSPSSRFVPPQTSSGNRFMPQQNSPVPSPYAPQSPAGYMPYSHPSSYTTHPQMQQASVSSPI
VAGGLRNIHDNKVSGPLSGNSANHHADNPRHGSSEDYLHMVHRLSSDDGDSSTMRNAASFPLRSPQPVCS
PAGSEGTPKGSRPPLILQSQSLPCSSPRDVPPDILLDSPERKQKKQKKMKLGKDEKEQSEKAAMYDIISS
PSKDSTKLTLRLSRVRSSDMDQQEDMISGVENSNVSENDIPFNVQYPGQTSKTPITPQDINRPLNAAQCL
SQQEQTAFLPANQVPVLQQNTSVAAKQPQTSVVQNQQQISQQGPIYDEVELDALAEIERIERESAIERER
FSKEVQDKDKPLKKRKQDSYPQEAGGATGGNRPASQETGSTGNGSRPALMVSIDLHQAGRVDSQASITQD
SDSIKKPEEIKQCNDAPVSVLQEDIVGSLKSTPENHPETPKKKSDPELSKSEMKQSESRLAESKPNENRL
VETKSSENKLETKVETQTEELKQNESRTTECKQNESTIVEPKQNENRLSDTKPNDNKQNNGRSETTKSRP
ETPKQKGESRPETPKQKSDGHPETPKQKGDGRPETPKQKGESRPETPKQKNEGRPETPKHRHDNRRDSGK
PSTEKKPEVSKHKQDTKSDSPRLKSERAEALKQRPDGRSVSESLRRDHDNKQKSDDRGESERHRGDQSRV
RRPETLRSSSRNEHGIKSDSSKTDKLERKHRHESGDSRERPSSGEQKSRPDSPRVKQGDSNKSRSDKLGF
KSPTSKDDKRTEGNKSKVDTNKAHPDNKAEFPSYLLGGRSGALKNFVIPKIKRDKDGNVTQETKKMEMKG
EPKDKVEKIGLVEDLNKGAKPVVVLQKLSLDDVQKLIKDREDKSRSSLKPIKNKPSKSNKGSIDQSVLKE
LPPELLAEIESTMPLCERVKMNKRKRSTVNEKPKYAEISSDEDNDSDEAFESSRKRHKKDDDKAWEYEER
DRRSSGDHRRSGHSHEGRRSSGGGRYRNRSPSDSDMEDYSPPPSLSEVARKMKKKEKQKKRKAYEPKLTP
EEMMDSSTFKRFTASIENILDNLEDMDFTAFGDDDEIPQELLLGKHQLNELGSESAKIKAMGIMDKLSTD
KTVKVLNILEKNIQDGSKLSTLLNHNNDTEEEERLWRDLIMERVTKSADACLTTINIMTSPNMPKAVYIE
DVIERVIQYTKFHLQNTLYPQYDPVYRLDPHGGGLLSSKAKRAKCSTHKQRVIVMLYNKVCDIVSSLSEL
LEIQLLTDTTILQVSSMGITPFFVENVSELQLCAIKLVTAVFSRYEKHRQLILEEIFTSLARLPTSKRSL
RNFRLNSSDMDGEPMYIQMVTALVLQLIQCVVHLPSSEKDSNAEEDSNKKIDQDVVITNSYETAMRTAQN
FLSIFLKKCGSKQGEEDYRPLFENFVQDLLSTVNKPEWPAAELLLSLLGRLLVHQFSNKSTEMALRVASL
DYLGTVAARLRKDAVTSKMDQGSIERILKQVSGGEDEIQQLQKALLDYLDENTETDPSLVFSRKFYIAQW
FRDTTLETEKAMKSQKDEESSEGTHHAKEIETTGQIMHRAENRKKFLRSIIKTTPSQFSTLKMNSDTVDY
DDACLIVRYLASMRPFAQSFDIYLTQILRVLGENAIAVRTKAMKCLSEVVAVDPSILARLDMQRGVHGRL
MDNSTSVREAAVELLGRFVLCRPQLAEQYYDMLIERILDTGISVRKRVIKILRDICIEQPTFPKITEMCV
KMIRRVNDEEGIKKLVNETFQKLWFTPTPHNDKEAMTRKILNITDVVAACRDTGYDWFEQLLQNLLKSEE
DSSYKPVKKACTQLVDNLVEHILKYEESLADSDNKGVNSGRLVACITTLFLFSKIRPQLMVKHAMTMQPY
LTTKCSTQNDFMVICNVAKILELVVPLMEHPSETFLATIEEDLMKLIIKYGMTVVQHCVSCLGAVVNKVT
QNFKFVWACFNRYYGAISKLKSQHQEDPNNTSLLTNKPALLRSLFTVGALCRHFDFDLEDFKGNSKVNIK
DKVLELLMYFTKHSDEEVQTKAIIGLGFAFIQHPSLMFEQEVKNLYNNILSDKNSSVNLKIQVLKNLQTY
LQEEDTRMQQADRDWKKVAKQEDLKEMGDVSSGMSSSIMQLYLKQVLEAFFHTQSSVRHFALNVIALTLN
QGLIHPVQCVPYLIAMGTDPEPAMRNKADQQLVEIDKKYAGFIHMKAVAGMKMSYQVQQAINTCLKDPVR
GFRQDESSSALCSHLYSMIRGNRQHRRAFLISLLNLFDDTAKTDVTMLLYIADNLACFPYQTQEEPLFIM
HHIDITLSVSGSNLLQSFKESMVKDKRKERKSSPSKENESSDSEEEVSRPRKSRKRVDSDSDSDSEDDIN
SVMKCLPENSAPLIEFANVSQGILLLLMLKQHLKNLCGFSDSKIQKYSPSESAKVYDKAINRKTGVHFHP
KQTLDFLRSDMANSKITEEVKRSIVKQYLDFKLLMEHLDPDEEEEEGEVSASTNARNKAITSLLGGGSPK
NNTAAETEDDESDGEDRGGGTSGSLRRSKRNSDSTELAAQMNESVDVMDVIAICCPKYKDRPQIARVVQK
TSSGFSVQWMAGSYSGSWTEAKRRDGRKLVPWVDTIKESDIIYKKIALTSANKLTNKVVQTLRSLYAAKD
GTSS

TRTRPLE - GFP Tag - V
Restriction Sites SgfI-MluI Cloning Scheme for this gene Plasmid Map
ACCN NM_133433
ORF Size 8412 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_133433.4
RefSeq Size 9717 bp
RefSeq ORF 8415 bp
Locus ID 25836
UniProt ID Q6KC79
Cytogenetics 5p13.2
Summary This gene encodes the homolog of the Drosophila melanogaster Nipped-B gene product and fungal Scc2-type sister chromatid cohesion proteins. The Drosophila protein facilitates enhancer-promoter communication of remote enhancers and plays a role in developmental regulation. It is also homologous to a family of chromosomal adherins with broad roles in sister chromatid cohesion, chromosome condensation, and DNA repair. The human protein has a bipartite nuclear targeting sequence and a putative HEAT repeat. Condensins, cohesins and other complexes with chromosome-related functions also contain HEAT repeats. Mutations in this gene result in Cornelia de Lange syndrome, a disorder characterized by dysmorphic facial features, growth delay, limb reduction defects, and cognitive disability. Two transcript variants encoding different isoforms have been found for this gene. [provided by RefSeq, Jul 2008]
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You're reviewing:IDN3 (NIPBL) (NM_133433) Human Tagged ORF Clone
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"NM_133433" in other vectors (3)
SKU Description Size Price
RC211489 NIPBL (Myc-DDK-tagged)-Human Nipped-B homolog (Drosophila) (NIPBL), transcript variant A 10 ug
$3,407.00
RC211489L1 Lenti ORF clone of Human Nipped-B homolog (Drosophila) (NIPBL), transcript variant A, Myc-DDK-tagged 10 ug
$3,707.00
SC309093 NIPBL (untagged)-Human Nipped-B homolog (Drosophila) (NIPBL), transcript variant A 10 ug
$3,636.00

Citations

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