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EDD (UBR5) (NM_015902) Human Tagged ORF Clone

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SKU
RG216868
UBR5 (tGFP-tagged) - Human ubiquitin protein ligase E3 component n-recognin 5 (UBR5)
  • TrueORF®
    TrueORF®

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

    Click here to learn more.

ORF Plasmid: tGFP DDK
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Datasheet SDS Plasmid Map
NM_015902 in other vectors (2)
Reconstitution Protocol
$3,601.00
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Frequently Bought Together (4)

TA315471 Rabbit polyclonal anti-UBR5 / EDD antibody 100 ul
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TA150041 Mouse monoclonal turboGFP antibody, clone OTI2H8 100 ul
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PRIMER Forward sequencing primer VP1.5, Reverse sequencing primer XL39, 100pmoles each 100 pmol
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PS100010 pCMV6-AC-GFP, mammalian vector with C-terminal tGFP tag, 10ug 10 ug
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Specifications
Product Data
Type Human Tagged ORF Clone
Target Symbol EDD
Synonyms DD5; EDD; EDD1; HYD
Vector pCMV6-AC-GFP
E. coli Selection Ampicillin (100 ug/mL)
Mammalian Cell Selection Neomycin
Sequence Data
ORF Nucleotide Sequence
>RG216868 representing NM_015902
Red=Cloning site Blue=ORF Green=Tags(s)

TTTTGTAATACGACTCACTATAGGGCGGCCGGGAATTCGTCGACTGGATCCGGTACCGAGGAGATCTGCC
GCCGCGATCGCC

ATGACGTCCATCCATTTCGTGGTTCACCCGCTGCCGGGCACCGAGGACCAGCTCAATGACAGGTTACGAG
AAGTTTCTGAGAAGCTGAACAAATATAATTTAAACAGCCACCCCCCTTTGAATGTATTGGAACAGGCTAC
TATTAAACAGTGTGTGGTGGGACCAAATCATGCTGCCTTTCTTCTTGAGGATGGTAGAGTTTGCAGGATT
GGTTTTTCAGTACAGCCAGACAGATTGGAATTGGGTAAACCTGATAATAATGATGGGTCAAAGTTGAACA
GCAACTCGGGGGCAGGGAGGACGTCAAGGCCTGGTAGGACAAGCGACTCTCCATGGTTTCTCTCAGGTTC
TGAGACTCTAGGCAGGCTGGCAGGCAACACCTTAGGAAGCCGCTGGAGTTCTGGAGTGGGTGGAAGTGGT
GGAGGATCCTCTGGTAGGTCATCAGCTGGAGCTCGAGATTCCCGCCGGCAGACTCGAGTTATTCGGACAG
GACGGGATCGAGGGTCTGGGCTTTTGGGCAGTCAGCCCCAGCCAGTTATTCCAGCATCTGTCATTCCAGA
GGAGCTGATTTCACAGGCCCAAGTTGTTTTACAAGGCAAATCCAGAAGTGTCATTATTCGAGAACTTCAG
AGAACAAATCTTGATGTGAACCTTGCTGTAAATAATTTACTTAGCCGGGATGATGAAGATGGAGATGATG
GGGATGATACAGCCAGCGAATCTTATTTGCCTGGAGAGGATCTTATGTCTCTCCTTGATGCCGACATTCA
TTCTGCCCACCCAAGTGTCATTATTGATGCAGATGCCATGTTTTCTGAAGACATTAGCTATTTTGGTTAC
CCTTCTTTTCGTCGTTCATCACTTTCCAGGCTAGGCTCATCTCGAGTTCTCCTTCTTCCCTTAGAGAGAG
ACTCTGAGCTGTTGCGTGAACGTGAATCCGTTTTACGTTTACGTGAACGAAGGTGGCTTGATGGAGCCTC
ATTTGATAATGAAAGGGGTTCTACCAGCAAGGAAGGAGAGCCAAACTTGGATAAGAAGAATACACCTGTT
CAAAGTCCAGTATCTCTAGGAGAAGATTTGCAGTGGTGGCCTGATAAGGATGGAACAAAATTCATCTGTA
TTGGGGCTCTGTATTCTGAACTTCTGGCTGTCAGCAGTAAAGGAGAACTTTATCAGTGGAAATGGAGTGA
ATCTGAGCCTTACAGAAATGCCCAGAATCCTTCATTACATCATCCACGAGCAACATTTTTGGGGTTAACC
AATGAAAAGATAGTCCTCCTGTCTGCAAATAGCATAAGAGCAACTGTAGCTACAGAAAATAACAAGGTTG
CTACATGGGTGGATGAAACTTTAAGTTCTGTGGCTTCTAAATTAGAGCACACTGCTCAGACTTACTCTGA
ACTTCAAGGAGAGCGGATAGTTTCTTTACATTGCTGTGCCCTTTACACCTGCGCTCAGCTGGAAAACAGT
TTATATTGGTGGGGTGTAGTTCCTTTTAGTCAAAGGAAGAAAATGTTAGAGAAAGCTAGAGCAAAAAATA
AAAAGCCTAAATCCAGTGCTGGTATTTCTTCAATGCCGAACATCACTGTTGGTACCCAGGTATGCTTGAG
AAATAATCCTCTTTATCATGCTGGAGCAGTTGCATTTTCAATTAGTGCTGGGATTCCTAAAGTTGGTGTC
TTAATGGAGTCAGTTTGGAATATGAATGACAGCTGTAGATTTCAACTTAGATCTCCTGAAAGCTTGAAAA
ACATGGAAAAAGCTAGCAAAACTACTGAAGCTAAGCCTGAAAGTAAGCAGGAGCCAGTGAAAACAGAAAT
GGGTCCTCCACCATCTCCAGCATCCACGTGTAGTGATGCATCCTCAATTGCCAGCAGTGCATCAATGCCA
TACAAACGACGACGGTCAACCCCTGCACCAAAAGAAGAGGAAAAGGTGAATGAAGAGCAGTGGTCTCTTC
GGGAAGTGGTTTTTGTGGAAGATGTCAAGAATGTTCCTGTTGGCAAGGTGCTAAAAGTAGATGGTGCCTA
TGTTGCTGTAAAATTTCCAGGAACCTCCAGTAATACTAACTGTCAGAACAGCTCTGGTCCAGATGCTGAC
CCTTCTTCTCTCCTGCAGGATTGTAGGTTACTTAGAATTGATGAATTGCAGGTTGTCAAAACTGGTGGAA
CACCGAAGGTTCCCGACTGTTTCCAAAGGACTCCTAAAAAGCTTTGTATACCTGAAAAAACAGAAATATT
AGCAGTGAATGTAGATTCCAAAGGTGTTCATGCTGTTCTGAAGACTGGAAATTGGGTACGATACTGTATC
TTTGATCTTGCTACAGGAAAAGCAGAACAGGAAAATAATTTTCCTACAAGCAGCATTGCTTTCCTTGGTC
AGAATGAGAGGAATGTAGCCATTTTCACTGCTGGACAGGAATCTCCCATTATTCTTCGAGATGGAAATGG
TACCATCTACCCAATGGCCAAAGATTGCATGGGAGGAATAAGGGATCCCGATTGGCTGGATCTTCCACCT
ATTAGTAGTCTTGGAATGGGTGTGCATTCTTTAATAAATCTTCCTGCCAATTCAACAATCAAAAAGAAAG
CTGCTGTTATCATCATGGCTGTAGAGAAACAAACCTTAATGCAACACATTCTGCGCTGTGACTATGAGGC
CTGTCGACAATATCTAATGAATCTTGAGCAAGCGGTTGTTTTAGAGCAGAATCTACAGATGCTGCAGACA
TTCATCAGCCACAGATGTGATGGAAATCGAAATATTTTGCATGCTTGTGTATCAGTTTGCTTTCCAACCA
GCAATAAAGAAACTAAAGAAGAAGAGGAAGCGGAGCGTTCTGAAAGAAATACATTTGCAGAAAGGCTTTC
TGCTGTTGAGGCCATTGCAAATGCAATATCAGTTGTTTCAAGTAATGGCCCAGGTAATCGGGCTGGATCA
TCAAGTAGCCGAAGTTTGAGATTACGGGAAATGATGAGACGTTCGTTGAGAGCAGCTGGTTTGGGTAGAC
ATGAAGCTGGAGCTTCATCCAGTGACCACCAGGATCCAGTTTCACCCCCCATAGCTCCCCCTAGTTGGGT
TCCTGACCCTCCTGCGATGGATCCTGATGGTGACATTGATTTTATCCTGGCCCCCGCTGTGGGATCTCTT
ACCACAGCAGCAACCGGTACTGGTCAAGGACCAAGCACCTCCACTATTCCAGGTCCTTCCACAGAGCCAT
CTGTAGTAGAATCCAAGGATCGAAAGGCGAATGCTCATTTTATATTGAAATTGTTATGTGACAGTGTGGT
TCTCCAGCCCTATCTACGAGAACTTCTTTCTGCCAAGGATGCAAGAGGGATGACCCCATTTATGTCAGCT
GTAAGTGGCCGAGCTTATCCTGCTGCAATTACCATCTTAGAAACTGCTCAGAAAATTGCAAAAGCTGAAA
TATCCTCAAGTGAAAAAGAGGAAGATGTATTCATGGGAATGGTTTGCCCATCAGGTACCAACCCTGATGA
CTCTCCTTTATATGTTTTATGTTGTAATGACACTTGCAGTTTTACATGGACTGGAGCAGAGCACATTAAC
CAGGATATTTTTGAGTGTCGAACTTGTGGCTTGCTGGAGTCACTGTGTTGTTGTACGGAATGTGCAAGGG
TTTGTCATAAAGGTCATGATTGCAAACTCAAACGGACATCACCAACAGCCTACTGTGATTGTTGGGAGAA
ATGTAAATGTAAAACTCTTATTGCTGGACAGAAATCTGCTCGTCTTGATCTACTTTATCGCCTGCTCACT
GCTACTAATCTGGTTACTCTGCCAAACAGCAGGGGAGAGCACCTCTTACTATTCTTAGTACAGACAGTCG
CAAGGCAGACGGTGGAGCATTGTCAATACAGGCCACCTCGAATCAGGGAAGATCGTAACCGAAAAACAGC
CAGTCCTGAAGATTCAGATATGCCAGATCATGATTTAGAGCCTCCAAGATTTGCCCAGCTTGCATTGGAG
CGTGTTCTACAGGACTGGAATGCCTTGAAATCTATGATTATGTTTGGGTCGCAGGAGAATAAAGACCCTC
TTAGTGCCAGCAGTAGAATAGGCCATCTTTTGCCAGAAGAGCAAGTATACCTCAATCAGCAAAGTGGCAC
AATTCGGCTGGACTGTTTCACTCATTGCCTTATAGTTAAGTGTACAGCAGATATTTTGCTTTTAGATACT
CTACTAGGTACACTAGTGAAAGAACTCCAAAACAAATATACACCTGGACGTAGAGAAGAAGCTATTGCTG
TGACAATGAGGTTTCTACGTTCAGTGGCAAGAGTTTTTGTTATTCTGAGTGTGGAAATGGCTTCATCCAA
AAAGAAAAACAACTTTATTCCACAGCCAATTGGAAAATGCAAGCGTGTATTCCAAGCATTGCTACCTTAC
GCTGTGGAAGAATTGTGCAACGTAGCAGAGTCACTGATTGTTCCTGTCAGAATGGGGATTGCTCGTCCAA
CTGCACCATTTACCCTGGCTAGTACTAGCATAGATGCCATGCAGGGCAGTGAAGAATTATTTTCAGTGGA
ACCACTACCACCACGACCATCATCTGATCAGTCTAGCAGCTCCAGTCAGTCTCAGTCATCCTACATCATC
AGGAATCCACAGCAGAGGCGCATCAGCCAGTCACAGCCCGTTCGGGGCAGAGATGAAGAACAGGATGATA
TTGTTTCAGCAGATGTGGAAGAGGTTGAGGTGGTGGAGGGTGTGGCTGGAGAAGAGGATCATCATGATGA
ACAGGAAGAACACGGGGAAGAAAATGCTGAGGCAGAGGGACAACATGATGAGCATGATGAAGACGGGAGT
GATATGGAGCTGGACTTGTTAGCAGCAGCTGAAACAGAAAGTGATAGTGAAAGTAACCACAGCAACCAAG
ATAATGCTAGTGGGCGCAGAAGCGTTGTCACTGCAGCAACTGCTGGTTCAGAAGCAGGAGCAAGCAGTGT
TCCTGCCTTCTTTTCTGAAGATGATTCTCAATCGAATGACTCAAGTGATTCTGATAGCAGTAGTAGTCAG
AGTGACGACATAGAACAGGAGACCTTTATGCTTGATGAGCCATTAGAAAGAACCACAAATAGCTCCCATG
CCAATGGTGCTGCCCAAGCTCCCCGTTCAATGCAGTGGGCTGTCCGCAACACCCAGCATCAGCGAGCAGC
CAGTACAGCCCCTTCCAGTACATCTACACCAGCAGCAAGTTCAGCGGGTTTGATTTATATTGATCCTTCA
AACTTACGCCGGAGTGGTACCATCAGTACAAGTGCTGCAGCTGCAGCAGCTGCTTTGGAAGCTAGCAACG
CCAGCAGTTACCTAACATCTGCAAGCAGTTTAGCCAGGGCTTACAGCATTGTCATTAGACAAATCTCGGA
CTTGATGGGCCTTATTCCTAAGTATAATCACCTAGTATACTCTCAGATTCCAGCAGCTGTGAAATTGACT
TACCAAGATGCAGTAAACTTACAGAACTATGTAGAAGAAAAGCTTATTCCCACTTGGAACTGGATGGTCA
GTATTATGGATTCTACTGAAGCTCAATTACGTTATGGTTCTGCATTAGCATCTGCTGGTGATCCTGGACA
TCCAAATCATCCTCTTCACGCTTCTCAGAATTCAGCGAGAAGAGAGAGGATGACTGCGCGAGAAGAAGCT
AGCTTACGAACACTTGAAGGCAGACGACGTGCCACCTTGCTTAGCGCCCGTCAAGGAATGATGTCTGCAC
GAGGAGACTTCCTAAATTATGCTCTGTCTCTAATGCGGTCTCATAATGATGAGCATTCTGATGTTCTTCC
AGTTTTGGATGTTTGCTCATTGAAGCATGTGGCATATGTTTTTCAAGCACTTATATACTGGATTAAGGCA
ATGAATCAGCAGACAACATTGGATACACCTCAACTAGAACGCAAAAGGACGCGAGAACTCTTGGAACTGG
GTATTGATAATGAAGATTCAGAACATGAAAATGATGATGACACCAATCAAAGTGCTACTTTGAATGATAA
GGATGATGACTCTCTTCCTGCAGAAACTGGCCAAAACCATCCATTTTTCCGACGTTCAGACTCCATGACA
TTCCTTGGGTGTATACCCCCAAATCCATTTGAAGTGCCTCTGGCTGAAGCCATCCCCTTGGCTGATCAGC
CACATCTGTTGCAGCCAAATGCTAGAAAGGAGGATCTTTTTGGCCGTCCAAGTCAGGGTCTTTATTCTTC
ATCTGCCAGTAGTGGGAAATGTTTAATGGAGGTTACAGTGGATAGAAACTGCCTAGAGGTTCTTCCAACA
AAAATGTCTTATGCTGCCAATCTGAAAAATGTAATGAACATGCAAAACCGGCAAAAAAAAGAAGGGGAAG
AACAGCCCGTGCTGCCAGAAGAAACTGAGAGTTCAAAACCAGGGCCATCTGCTCATGATCTTGCTGCACA
ATTAAAAAGTAGCTTACTAGCAGAAATAGGACTTACTGAAAGTGAAGGGCCACCTCTCACATCTTTCAGG
CCACAGTGTAGCTTTATGGGAATGGTTATTTCCCATGATATGCTGCTAGGACGTTGGCGCCTTTCTTTAG
AACTGTTCGGCAGGGTATTCATGGAAGATGTTGGAGCAGAACCTGGATCAATCCTAACTGAATTGGGTGG
TTTTGAGGTAAAAGAATCAAAATTCCGCAGAGAAATGGAAAAACTGAGAAACCAGCAGTCAAGAGATTTG
TCACTAGAGGTTGATCGGGATCGAGATCTTCTCATTCAGCAGACTATGAGGCAGCTTAACAATCACTTTG
GTCGAAGATGTGCTACTACACCAATGGCTGTACACAGAGTAAAAGTCACATTTAAGGATGAGCCAGGAGA
GGGCAGTGGTGTAGCACGAAGTTTTTATACAGCCATTGCACAAGCATTTTTATCAAATGAAAAATTGCCA
AATCTAGAGTGTATCCAAAATGCCAACAAAGGCACCCACACAAGTTTAATGCAGAGATTAAGGAACCGAG
GAGAGAGAGACCGGGAAAGGGAGAGAGAAAGGGAAATGAGGAGGAGTAGTGGTTTGCGAGCAGGTTCTCG
GAGGGACCGGGATAGAGACTTTAGAAGACAGCTTTCCATCGACACTAGGCCCTTTAGACCAGCCTCTGAA
GGGAATCCTAGCGATGATCCTGAGCCTTTGCCAGCACATCGGCAGGCACTTGGAGAGAGGCTTTATCCTC
GTGTACAAGCAATGCAACCAGCATTTGCAAGTAAAATCACTGGCATGTTGTTGGAATTATCCCCAGCTCA
GCTGCTTCTCCTTCTAGCAAGTGAGGATTCTCTGAGAGCAAGAGTGGATGAGGCCATGGAACTCATTATT
GCACATGGACGGGAAAATGGAGCTGATAGTATCCTGGATCTTGGATTAGTAGACTCCTCAGAAAAGGTAC
AGCAGGAAAACCGAAAGCGCCATGGCTCTAGTCGAAGTGTAGTAGATATGGATTTAGATGATACAGATGA
TGGTGATGACAATGCCCCTTTGTTTTACCAACCTGGGAAAAGAGGATTTTATACTCCAAGGCCTGGCAAG
AACACAGAAGCAAGGTTGAATTGTTTCAGAAACATTGGCAGGATTCTTGGACTATGTCTGTTACAGAATG
AACTATGTCCTATCACATTGAATAGACATGTAATTAAAGTATTGCTTGGTAGAAAAGTCAATTGGCATGA
TTTTGCTTTTTTTGATCCTGTAATGTATGAGAGTTTGCGGCAACTAATCCTCGCGTCTCAGAGTTCAGAT
GCTGATGCTGTTTTCTCAGCAATGGATTTGGCATTTGCAATTGACCTGTGTAAAGAAGAAGGTGGAGGAC
AGGTTGAACTCATTCCTAATGGTGTAAATATACCAGTCACTCCACAGAATGTATATGAGTATGTGCGGAA
ATACGCAGAACACAGAATGTTGGTAGTTGCAGAACAGCCCTTACATGCAATGAGGAAAGGTCTACTAGAT
GTGCTTCCAAAAAATTCATTAGAAGATTTAACGGCAGAAGATTTTAGGCTTTTGGTAAATGGCTGCGGTG
AAGTCAATGTGCAAATGCTGATCAGTTTTACCTCTTTCAATGATGAATCAGGAGAAAATGCTGAGAAGCT
TCTGCAGTTCAAGCGTTGGTTCTGGTCAATAGTAGAGAAGATGAGCATGACAGAACGACAAGATCTTGTT
TACTTTTGGACATCAAGCCCATCACTGCCAGCCAGTGAAGAAGGATTCCAGCCTATGCCCTCAATCACAA
TAAGACCACCAGATGACCAACATCTTCCTACTGCAAATACTTGCATTTCTCGACTTTACGTCCCACTCTA
TTCCTCTAAACAGATTCTCAAACAGAAATTGTTACTCGCCATTAAGACCAAGAATTTTGGTTTTGTG

ACGCGTACGCGGCCGCTCGAG - GFP Tag - GTTTAA
Protein Sequence
>RG216868 representing NM_015902
Red=Cloning site Green=Tags(s)

MTSIHFVVHPLPGTEDQLNDRLREVSEKLNKYNLNSHPPLNVLEQATIKQCVVGPNHAAFLLEDGRVCRI
GFSVQPDRLELGKPDNNDGSKLNSNSGAGRTSRPGRTSDSPWFLSGSETLGRLAGNTLGSRWSSGVGGSG
GGSSGRSSAGARDSRRQTRVIRTGRDRGSGLLGSQPQPVIPASVIPEELISQAQVVLQGKSRSVIIRELQ
RTNLDVNLAVNNLLSRDDEDGDDGDDTASESYLPGEDLMSLLDADIHSAHPSVIIDADAMFSEDISYFGY
PSFRRSSLSRLGSSRVLLLPLERDSELLRERESVLRLRERRWLDGASFDNERGSTSKEGEPNLDKKNTPV
QSPVSLGEDLQWWPDKDGTKFICIGALYSELLAVSSKGELYQWKWSESEPYRNAQNPSLHHPRATFLGLT
NEKIVLLSANSIRATVATENNKVATWVDETLSSVASKLEHTAQTYSELQGERIVSLHCCALYTCAQLENS
LYWWGVVPFSQRKKMLEKARAKNKKPKSSAGISSMPNITVGTQVCLRNNPLYHAGAVAFSISAGIPKVGV
LMESVWNMNDSCRFQLRSPESLKNMEKASKTTEAKPESKQEPVKTEMGPPPSPASTCSDASSIASSASMP
YKRRRSTPAPKEEEKVNEEQWSLREVVFVEDVKNVPVGKVLKVDGAYVAVKFPGTSSNTNCQNSSGPDAD
PSSLLQDCRLLRIDELQVVKTGGTPKVPDCFQRTPKKLCIPEKTEILAVNVDSKGVHAVLKTGNWVRYCI
FDLATGKAEQENNFPTSSIAFLGQNERNVAIFTAGQESPIILRDGNGTIYPMAKDCMGGIRDPDWLDLPP
ISSLGMGVHSLINLPANSTIKKKAAVIIMAVEKQTLMQHILRCDYEACRQYLMNLEQAVVLEQNLQMLQT
FISHRCDGNRNILHACVSVCFPTSNKETKEEEEAERSERNTFAERLSAVEAIANAISVVSSNGPGNRAGS
SSSRSLRLREMMRRSLRAAGLGRHEAGASSSDHQDPVSPPIAPPSWVPDPPAMDPDGDIDFILAPAVGSL
TTAATGTGQGPSTSTIPGPSTEPSVVESKDRKANAHFILKLLCDSVVLQPYLRELLSAKDARGMTPFMSA
VSGRAYPAAITILETAQKIAKAEISSSEKEEDVFMGMVCPSGTNPDDSPLYVLCCNDTCSFTWTGAEHIN
QDIFECRTCGLLESLCCCTECARVCHKGHDCKLKRTSPTAYCDCWEKCKCKTLIAGQKSARLDLLYRLLT
ATNLVTLPNSRGEHLLLFLVQTVARQTVEHCQYRPPRIREDRNRKTASPEDSDMPDHDLEPPRFAQLALE
RVLQDWNALKSMIMFGSQENKDPLSASSRIGHLLPEEQVYLNQQSGTIRLDCFTHCLIVKCTADILLLDT
LLGTLVKELQNKYTPGRREEAIAVTMRFLRSVARVFVILSVEMASSKKKNNFIPQPIGKCKRVFQALLPY
AVEELCNVAESLIVPVRMGIARPTAPFTLASTSIDAMQGSEELFSVEPLPPRPSSDQSSSSSQSQSSYII
RNPQQRRISQSQPVRGRDEEQDDIVSADVEEVEVVEGVAGEEDHHDEQEEHGEENAEAEGQHDEHDEDGS
DMELDLLAAAETESDSESNHSNQDNASGRRSVVTAATAGSEAGASSVPAFFSEDDSQSNDSSDSDSSSSQ
SDDIEQETFMLDEPLERTTNSSHANGAAQAPRSMQWAVRNTQHQRAASTAPSSTSTPAASSAGLIYIDPS
NLRRSGTISTSAAAAAAALEASNASSYLTSASSLARAYSIVIRQISDLMGLIPKYNHLVYSQIPAAVKLT
YQDAVNLQNYVEEKLIPTWNWMVSIMDSTEAQLRYGSALASAGDPGHPNHPLHASQNSARRERMTAREEA
SLRTLEGRRRATLLSARQGMMSARGDFLNYALSLMRSHNDEHSDVLPVLDVCSLKHVAYVFQALIYWIKA
MNQQTTLDTPQLERKRTRELLELGIDNEDSEHENDDDTNQSATLNDKDDDSLPAETGQNHPFFRRSDSMT
FLGCIPPNPFEVPLAEAIPLADQPHLLQPNARKEDLFGRPSQGLYSSSASSGKCLMEVTVDRNCLEVLPT
KMSYAANLKNVMNMQNRQKKEGEEQPVLPEETESSKPGPSAHDLAAQLKSSLLAEIGLTESEGPPLTSFR
PQCSFMGMVISHDMLLGRWRLSLELFGRVFMEDVGAEPGSILTELGGFEVKESKFRREMEKLRNQQSRDL
SLEVDRDRDLLIQQTMRQLNNHFGRRCATTPMAVHRVKVTFKDEPGEGSGVARSFYTAIAQAFLSNEKLP
NLECIQNANKGTHTSLMQRLRNRGERDREREREREMRRSSGLRAGSRRDRDRDFRRQLSIDTRPFRPASE
GNPSDDPEPLPAHRQALGERLYPRVQAMQPAFASKITGMLLELSPAQLLLLLASEDSLRARVDEAMELII
AHGRENGADSILDLGLVDSSEKVQQENRKRHGSSRSVVDMDLDDTDDGDDNAPLFYQPGKRGFYTPRPGK
NTEARLNCFRNIGRILGLCLLQNELCPITLNRHVIKVLLGRKVNWHDFAFFDPVMYESLRQLILASQSSD
ADAVFSAMDLAFAIDLCKEEGGGQVELIPNGVNIPVTPQNVYEYVRKYAEHRMLVVAEQPLHAMRKGLLD
VLPKNSLEDLTAEDFRLLVNGCGEVNVQMLISFTSFNDESGENAEKLLQFKRWFWSIVEKMSMTERQDLV
YFWTSSPSLPASEEGFQPMPSITIRPPDDQHLPTANTCISRLYVPLYSSKQILKQKLLLAIKTKNFGFV

TRTRPLE - GFP Tag - V
Restriction Sites SgfI-MluI Cloning Scheme for this gene Plasmid Map
ACCN NM_015902
ORF Size 8397 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_015902.6
RefSeq Size 9410 bp
RefSeq ORF 8400 bp
Locus ID 51366
UniProt ID O95071
Cytogenetics 8q22.3
Protein Families Druggable Genome
Protein Pathways Ubiquitin mediated proteolysis
Summary This gene encodes a progestin-induced protein, which belongs to the HECT (homology to E6-AP carboxyl terminus) family. The HECT family proteins function as E3 ubiquitin-protein ligases, targeting specific proteins for ubiquitin-mediated proteolysis. This gene is localized to chromosome 8q22 which is disrupted in a variety of cancers. This gene potentially has a role in regulation of cell proliferation or differentiation. [provided by RefSeq, Jul 2008]
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"NM_015902" in other vectors (2)
SKU Description Size Price
RC216868 UBR5 (Myc-DDK-tagged)-Human ubiquitin protein ligase E3 component n-recognin 5 (UBR5) 10 ug
$3,401.00
SC304366 UBR5 (untagged)-Human ubiquitin protein ligase E3 component n-recognin 5 (UBR5) 10 ug
$3,402.00

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