Ranbp2 (NM_011240) Mouse Tagged ORF Clone
CAT#: MR226679
- TrueORF®
Ranbp2 (Myc-DDK-tagged) - Mouse RAN binding protein 2 (Ranbp2)
ORF Plasmid: tGFP
"NM_011240" in other vectors (2)
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CNY 30,500.00
CNY 300.00
Specifications
Product Data | |
Type | Mouse Tagged ORF Clone |
Tag | Myc-DDK |
Synonyms | A430087B05Rik; AI256741; NUP358 |
Vector | pCMV6-Entry |
E. coli Selection | Kanamycin (25 ug/mL) |
Mammalian Cell Selection | Neomycin |
Sequence Data |
>MR226679 representing NM_011240
Red=Cloning site Blue=ORF Green=Tags(s) TTTTGTAATACGACTCACTATAGGGCGGCCGGGAATTCGTCGACTGGATCCGGTACCGAGGAGATCTGCC GCCGCGATCGCC ATGAGGCGTAGCAAGGCCGACGTGGAGCGGTACATCGCCTCGGTGCAGGGCTCCGCCCCGTCGCCCCGAG AGAAGTCAATGAAAGGATTCTATTTTGCAAAGCTGTACTATGAAGCTAAAGAATATGATCTTGCTAAAAA ATACATTTCTACGTATATTAATGTGCAAGAGAGAGACCCTAAAGCCCACAGATTTTTGGGTCTTCTTTAT GAAGTCGAAGAAAATATAGACAAAGCTGTAGAATGTTATAAGCGTTCAGTGGAATTAAACCCAACGCAAA AAGATCTTGTGTTGAAGATTGCAGAATTGCTTTGTAAAAATGATGTGACTGATGGAAGAGCAAAATACTG GGTTGAAAGAGCAGCCAAACTTTTCCCAGGAAGTCCTGCCATTTATAAGTTAAAGGAACAACTTTTAGAT TGTAAAGGTGAAGATGGATGGAATAAACTTTTTGACTTGATTCAGTCAGAACTTTATGCAAGACCTGATG ATATTCATGTAAATATCCGACTAGTAGAGCTTTACCGTTCAAATAAAAGATTGAAGGATGCTGTGGCCCA CTGCCATGAGGCAGACAGGAACACAGCTTTACGTTCAAGTTTAGAATGGAATTTATGTGTTGTACAGACT CTTAAGGAATATCTGGAGTCTCTGCAGTGTTTGGATTCTGATAAAAGTACTTGGAGAGCAACCAATAAAG ACTTACTTCTAGCCTATGCTAACCTTATGCTACTTACACTTTCCACCAGAGATGTGCAGGAAGGTAGAGA ACTATTGGAAAGCTTTGATAGTGCTCTTCAGTCTGTGAAGTCTTCTGTGGGTGGAAATGATGAGCTATCA GCTACTTTCCTAGAAACAAAAGGACATTTCTACATGCATGTTGGTTCTCTGCTTTTGAAGATGGGTCAGC AGAGTGACATCCAGTGGCGAGCTCTTTCTGAGCTGGCTGCATTGTGCTATCTTGTAGCATTTCAGGTTCC CAGACCAAAGGTTAAATTAATAAAAGGAGAAGCTGGACAAAATCTCCTGGAAACGATGGCCCACGATCGC CTTAGCCAGTCAGGGCACATGTTGTTAAACTTAAGTCGTGGCAAGCAAGACTTTCTAAAGGAAGTTGTGG AATCTTTTGCTAACAAAAGCGGCCAGTCTGCTCTCTGTGATGCTCTGTTTTCCAGTCAGTCATCCAAGGA GAGATCCTTTCTTGGGAATGATGATATTGGAAACCTTGATGGACAAGTGCCAGACCCTGATGACTTGGCT AGATATGATACTGGTGCCGTTCGAGCACATAATGGTAGTCTTCAGCACCTTACCTGGCTTGGCTTACAAT GGAATTCACTGTCTACTTTACCAGCAATTCGAAAATGGTTAAAACAGCTCTTCCACCATTTGCCTCAGGA GACGTCAAGGCTTGAAACAAATGCACCTGAATCAATCTGTATTTTAGATCTTGAAGTATTCTTACTTGGA GTTATATATACCAGTCACTTACAATTAAAGGAGAAGTGTAATTCTCACCACACTTCCTATCAACCATTGT GTTTGCCACTTCCTGTGTGCAGACAGCTTTGTACAGAGAGACAGAAGACGTGGTGGGATGCAGTTTGTAC TCTGATTCACCGAAAGGCGCTACCTGGAACCTCAGCAAAATTGCGACTTCTAGTTCAACGTGAAATAAAC AGTCTGAGAGGCCAGGAAAAGCACGGCCTTCAACCTGCTCTGCTTGTGCATTGGGCCCAGAGTCTTCAAA AAACAGGCAGCAGTCTTAATTCTTTTTATGATCAACGGGAATACATAGGCAGAAGTGTTCATTATTGGAG GAAAGTTTTACCATTGTTGAAGATGATCAGAAAGAAGAATAGTATTCCTGAACCTATTGATCCTCTGTTT AAACATTTCCATAGTGTGGATATTCAGGCATCTGAAATTGGTGAATATGAAGAAGATGCACACATAACTT TTGCTATATTGGATGCTGTTAATGGAAATATAGAAGATGCTATGACTGCTTTTGAATCTATTAAAAATGT AGTTTCTTATTGGAATCTTGCACTGATTTTCCACAGGAAAGCAGAAGACATTGAAAATGATGCCTTGTCT CCTGAAGAACAAGAAGAATGCAAAAATTATCTGAGAAAGACTAGGGACTACCTGATAAGGATTTTAGATG ATAGTGATTCAAATACTTCTGTGGTTCAGAAATTGCCTGTTCCCCTTGAGTCTGTAAAAGAGATGCTGAA CTCAGTTATGCAGGAACTTGAAGACTACAGTGAAGGAGGTACTCTTTATAAAAATGGTTGCTGGCGAAGT GCTGATTCAGAGTTAAAGCATTCAACACCATCTCCTACCAAATATTCTCTATCACCAAGTAAAAGTTACA AGTATTCTCCAAAGACACCACCTCGATGGGCAGAAGATCAAAATTCTTTACTGAAAATGATCTGCCAGCA AGTAGAGGCCATTAAGAAAGAGATGCAGGAATTGAAGCTAAATAGCAATAACTCTGCATCCCCTCATCGC TGGCCGGCAGAGCCTTACGGACAAGACCCAGCTCCTGACGGATATCAGGGCTCACAAACTTTTCACGGGG CTCCACTAACAGTTGCAACTACTGGCCCATCAGTATATTATAGTCAGTCACCTGCATATAACTCCCAGTA TCTTCTCAGACCAGCTGCTAATGTAACTCCCACCAAGGGTCCAGTTTATGGCATGAATAGGCTTCCACCC CAACAACATATTTATGCATATTCACAACAGATGCACACACCACCAGTGCAAAGTTCATCTGCTTGTATGT TCTCTCAGGAGATGTATGGTCCTCCCTTGCGTTTTGAGTCTCCTGCAACAGGAATTCTATCACCTAGGGG TGATGATTATTTTAATTACAATGTTCAACAGACAAGCACAAATCCACCTTTGCCAGAACCAGGGTATTTC ACAAAGCCTCCACTTGTAGCTCACGCTTCAAGGTCAGCAGAATCAAAGGTTATAGAATTTGGAAAATCCA ATTTCGTTCAGCCCATGCAGGGTGAAGTAATAAGGCCACCCTTGACAACACCAGCACATACAACACAGCC AACTCCCTTTAAATTTAACTCAAATTTCAAATCAAATGATGGCGACTTCACATTTTCATCACCACAGGTA GTGGCCCAGCCTCCTTCAACAGCTTATAGCAATAGTGAAAGTCTTCTAGGTCTTCTGACTTCAGATAAGC CTTTACAAGGAGATGGCTATAGTGGACTAAAGCCAATATCTGGCCAAGCTAGTGGGTCTCGGAATACATT CAGTTTTGGAAGCAAAAATACACTTACAGAAAACATGGGCCCAAATCAGCAGAAGAATTTTGGTTTTCAT CGCAGTGATGACATGTTTGCTTTTCACGGTCCAGGGAAGTCTGTATTTACAACAGCTGCTTCCGAGCTGG CAAATAAAAGTCATGAGACAGATGGAGGAAGTGCTCATGGGGATGAGGAGGATGATGGCCCTCACTTTGA GCCTGTGGTACCTCTTCCTGACAAGATAGAAGTAAAAACTGGCGAGGAAGATGAAGAAGAATTCTTTTGC AATCGTGCAAAGTTGTTCCGTTTTGATGGTGAATCCAAAGAATGGAAGGAACGTGGGATAGGCAATGTAA AAATACTAAGGCATAAAACATCTGGTAAAATTCGCCTTCTGATGAGACGAGAGCAAGTATTAAAGATCTG TGCAAATCATTACATAAGCCCAGATATGAAACTGACGCCAAATGCTGGCTCAGATAGATCTTTTGTATGG CATGCCCTTGATTATGCAGATGAATTGCCAAAACCAGAACAGCTTGCAATTAGATTCAAAACTCCTGAGG AAGCAGCACTATTTAAGTGTAAATTTGAAGAGGCCCAGAACATTTTAAAAGCCTTAGGAACAAACACATC TACAGCACCAAATCATACTCTTAGAATTGTAAAGGAGTCTGCAACTCAGGATAACAAGGATATTTGCAAA GCTGATGGTGGAAACTTGAATTTTGAATTCCAGATTGTAAAGAAGGAAGGGCCTTACTGGAATTGTAACA GCTGCTCCTTTAAGAATGCTGCAACTGCTAAGAAATGTGTATCATGCCAGAATACAAACCCAACCAGTAA CAAAGAGCTCCTAGGTCCTCCATTAGTTGAAAATGGCTTTGCTCCTAAAACTGGCCTGGAAAATGCTCAA GATCGATTTGCAACAATGACTGCAAATAAAGAAGGCCATTGGGACTGCAGTGTTTGTTTAGTAAGAAATG AACCCACCGTCTCTAGGTGCATTGCATGTCAGAACACAAAGTCTGCGTCTTCGTTTGTTCAAACTTCTTT CAAATTTGGTCAGGGAGATCTTCCTAAGTCTGTTGACAGTGATTTCAGATCTGTTTTTTCTAAAAAAGAA GGTCAGTGGGAATGCAGTGTATGCCTAGTCCGAAATGAAAGAAGCGCTAAAAAATGTGTTGCTTGTGAGA ACCCAGGAAAACAGTTCAAAGAATGGCATTGTAGTTTGTGCTCGGTGAAAAATGAAGCACATGCTATAAA ATGTGTTGCTTGTAATAATCCTGTTACACCAAGTTTATCTACTGCACCTCCCTCTTTTAAGTTTGGTACC TCAGAGATGAGTAAGCCTTTCAGGATTGGATTTGAGGGTATGTTCGCCAAGAAAGAAGGACAGTGGGACT GTAGCTTGTGTTTTGTCCGAAATGAAGCCAGTGCTACTCACTGTATTGCTTGTCAGTATCCAAATAAGCA GAATCAGCCTACATCTTGTGTATCAGCTCCTGCCTCTTCAGAGACAAGCAGGTCTCCAAAGAGTGGATTT GAAGGCTTATTCCCCAAAAAGGAAGGAGAGTGGGAGTGTGCTGTTTGTTCTGTACAAAATGAGAGCTCTT CCCTAAAATGTGTGGCTTGTGAAGCCTCCAAGCCAACTCATAAGCCTCATGAAGCTCCTTCAGCTTTCAC AGTGGGCTCAAAGTCACAGTCAAATGAATCTGCAGGAAGTCAAGTGGGAACAGAATTCAAAAGTAACTTT CCAGAAAAGAATTTTAAAGTTGGCATTTCAGAGCAGAAATTTAAATTTGGGCATGTGGATCAAGAAAAAA CACCTTCCTTTGCCTTTCAGGGTGGCTCTAATACAGAATTTAAGTCAATCAAGGATGGATTTAGTTTTTG CATTCCTGTATCTGCTGATGGGTTTAAATTTGGCATTCAGGAAAAGGGAAATCAAGAGAAAAAGAGTGAA AAACATCTTGAAAATGACCCTAGTTTCCAAGCTCATGATACTAGTGGTCAGAAGAATGGTAGTGGTGTGG TCTTTGGTCAGACAAGCAGCACCTTTACCTTTGCAGATCTTGCAAAGTCAACATCAAGAGAAGGGTTTCA ATTTGGCAAGAAAGACCCTAATTTTAAGGGATTTTCAGGTGCAGGAGAAAAATTATTCTCGTCACAAAGC GGCAAAGTGGCTGAGAAAGCAAATACGTCTTCTGATCTCGAGAAAGATGATGATGCATATAAGACTGAGG ACAGTGATGACATCCATTTTGAGCCAGTAGTGCAGATGCCAGAAAAGGTGGAACTAGTAACAGGAGAAGA AGATGAAAAAGTTTTGTATTCACAAAGGGTGAAATTATTTAGATTTGATGCTGAGATAAGTCAGTGGAAA GAAAGGGGTTTGGGGAATTTAAAAATTCTCAAAAATGAAGTCAATGGTAAACTGAGAATGCTGATGCGAA GAGAACAAGTGCTAAAAGTTTGTGCCAATCATTGGATAACCACTACAATGAACCTGAAGCCTCTCTCGGG GTCAGATAGAGCATGGATGTGGCTAGCTAGTGATTTCTCCGATGGTGACGCGAAACTGGAACAACTGGCT GCAAAGTTTAAAACGCCAGAGCTAGCTGAAGAATTCAAGCAGAAATTTGAGGAGTGTCAACGTCTTCTCT TAGACATTCCACTTCAGACACCCCATAAACTTGTAGATACTGGCAGGGCTGCTAAATTAATACAGAGAGC TGAGGAAATGAAGAGCGGCCTGAAAGATTTCAAAACCTTTTTGACAAATGATCAAGTAAAGGTCACCGAT GAAGAGAATGCAAGTTCAGGTGCAGATGCTCCCAGTGCATCAGACACCACAGCCAAGCAAAATCCTGATA ACACCGGGCCTGCCTTAGAATGGGATAACTATGACTTACGGGAGGACGCCTTGGATGACAGTGTCAGCAG CAGCTCAGTTCATGCTTCTCCATTGGCAAGCAGCCCTGTGCGGAAAAACCTCTTCCGCTTTGGTGAGTCC ACTACAGGATTTAACTTCAGTTTTAAATCTGCTCTGAGTCCATCTAAGTCTCCAGCCAAATTGAACCAGA GTGGAGCTTCAGTTGGCACTGATGAGGAGTCTGATGTTACTCAAGAAGAAGAGAGAGATGGACAGTACTT TGAACCTGTTGTTCCTTTACCTGATCTAGTTGAAGTATCCAGTGGTGAGGAAAATGAACAAGTTGTTTTT AGTCACAGAGCAAAACTTTACAGATACGATAAAGATGTTGGCCAGTGGAAAGAAAGAGGCATTGGAGATA TAAAGATCTTACAGAATTATGATAATAAACAAGTTCGCATCGTGATGAGAAGGGACCAGGTATTAAAACT TTGTGCCAATCACAGAATAACTCCAGATATGACTTTGCAAACTATGAAAGGGACTGAAAGAGTGTGGGTG TGGACTGCATGTGATTTTGCAGATGGAGAAAGAAAAATAGAACATTTGGCTGTTCGTTTTAAACTACAGG ATGTTGCAGACTCATTTAAGAAAATTTTTGATGAAGCAAAAACAGCCCAAGAAAAAGATTCATTGATAAC ACCTCATGTTTCTCATCTGAGCACCCCTAGAGAGTCACCATGTGGCAAAATTGCTATTGCTGTTTTAGAA GAAACCACAAGAGAAAGGACAGATTTAACTCAGGGAGATGAAGTAATAGATACAACTTCAGAAGCTGGAG AAACATCTAGCACTTCTGAAACAACACCAAAAGCAGTAGTTTCTCCTCCTAAGTTTGTATTTGGCTCAGA ATCTGTTAAAAGCATTTTTAGTAGTGAAAAATCCAAGCCATTTGCATTTGGCAACAGTTCAGCCACTGGT TCTTTGTTTGGATTTAGTTTTAATGCACCTTTGAAAAATAGCAATAGTGAAATGACTTCCAGAGTCCAGA GTGGATCTGAAGGAAAAGTAAAACCCGACAAATGTGAGCTGCCACAGAACTCTGACATCAAGCAATCTTC TGATGGCAAAGTCAAAAATCTCAGTGCCTTTTCAAAAGAGAACTCTTCAACTAGTTATACATTTAAAACA CCAGAAAAGGCACAAGAGAAGAGCAAACCTGAAGATCTCCCCTCAGATAATGATATTCTCATTGTGTATG AACTCACTCCCACCCCTGAGCAGAAAGCCCTGGCAGAGAAACTTCTGCTTCCTTCAACTTTCTTTTGTTA TAAGAATAGGCCTGGCTATGTTAGTGAAGAAGAGGAGGATGATGAAGATTATGAAATGGCTGTCAAGAAG CTTAATGGAAAACTCTATCTGGATGACTCAGAAAAACCATTGGAAGAAAATCTAGCAGATAATGACAAGG AATGTGTTATTGTTTGGGAAAAGAAGCCAACAGTTGAAGAAAGAGCAAAAGCAGATACTTTAAAGCTTCC ACCTACATTTTTCTGTGGAGTCTGCAGTGATACTGATGAGGACAATGGAAATGGGGAGGATTTTCAGTCA GAGCTTCGAAAAGTCTGTGAAGCTCAGAAATCCCAGAATGAGAAAGTGACTGATAGAGTTGGTATTGAGC ATATAGGTGAGACTGAAGTAACAAACCCTGTTGGCTGTAAGTCTGAAGAACCTGATTCTGATACCAAACA CAGTAGCTCATCCCCTGTTTCTGGGACTATGGACAAACCTGTCGATTTGTCCACTAGAAAAGAAACTGAC ATGGAATTCCCAAGCAAAGGGGAAAACAAGCCTGTTTTGTTTGGATTTGGAAGTGGTACAGGCCTGTCAT TTGCAGACTTGGCTTCAAGTAATTCTGGAGATTTTGCTTTTGGCTCTAAAGATAAAAATTTCCAGTGGGC AAATACTGGAGCAGCTGTGTTTGGAACACAGACAACAAGTAAAGGTGGCGAGGATGAAGACGGCAGTGAT GAAGATGTAGTTCATAATGAGGACATCCACTTTGAACCTATAGTCTCCTTACCAGAGGTAGAAGTGAAAT CTGGAGAGGAAGATGAAGAAGTTTTGTTCAAAGAGAGAGCCAAACTTTATAGGTGGGACAGAGATGTCAG TCAGTGGAAGGAGAGAGGTATTGGAGATATAAAGATTCTCTGGCATACAATGAAGAAGTATTATCGGATC CTAATGAGAAGAGACCAGGTTTTTAAAGTGTGTGCAAACCATGTTATTACCAAAGCCATGGAATTAAAAC CTTTAAATGTTTCAAACAATGCTTTAGTCTGGACTGCCTCCGATTATGCTGATGGAGAAGCAAAAGTAGA ACAGCTTGCAGTGAGATTTAAGACAAAGGAAATGACTGAGAGTTTTAAGAAAAAATTTGAAGAATGTCAA CAAAATATAATAAAACTCCAGAATGGACATACATCCCTTGCAGCAGAATTATCAAAGGACACCAATCCTG TGGTGTTTTTTGATGTTTGTGCGGATGGTGAACCTCTAGGACGGATAATCATGGAATTATTTTCAAATAT CGTTCCTCAAACTGCTGAGAACTTCAGAGCATTATGCACTGGAGAGAAGGGCTTTGGTTTTAAGAACTCC ATTTTTCACCGAGTAGTTCCAGATTTTATTTGCCAAGGGGGAGATATTACCAAATACAATGGAACAGGTG GACAGTCCATTTATGGAGATAAATTTGACGATGAAAACTTTGATTTGAAACACACTGGTCCTGGCTTACT ATCCATGGCCAATTACGGCCAGAATACCAACAGTTCTCAATTTTTTATAACACTGAAGAAAGCAGAACAT TTGGACTTTAAGCATGTAGTATTTGGGTTTGTTAAGGATGGCATGGATACTGTGAGAAAGATTGAATCAT TTGGTTCTCCTAAAGGGTCTGTTAGTAGAAGAATTTGTATCACAGAATGTGGACAGCTA ACGCGTACGCGGCCGCTCGAGCAGAAACTCATCTCAGAAGAGGATCTGGCAGCAAATGATATCCTGGATT ACAAGGATGACGACGATAAGGTTTAA >MR226679 representing NM_011240
Red=Cloning site Green=Tags(s) MRRSKADVERYIASVQGSAPSPREKSMKGFYFAKLYYEAKEYDLAKKYISTYINVQERDPKAHRFLGLLY EVEENIDKAVECYKRSVELNPTQKDLVLKIAELLCKNDVTDGRAKYWVERAAKLFPGSPAIYKLKEQLLD CKGEDGWNKLFDLIQSELYARPDDIHVNIRLVELYRSNKRLKDAVAHCHEADRNTALRSSLEWNLCVVQT LKEYLESLQCLDSDKSTWRATNKDLLLAYANLMLLTLSTRDVQEGRELLESFDSALQSVKSSVGGNDELS ATFLETKGHFYMHVGSLLLKMGQQSDIQWRALSELAALCYLVAFQVPRPKVKLIKGEAGQNLLETMAHDR LSQSGHMLLNLSRGKQDFLKEVVESFANKSGQSALCDALFSSQSSKERSFLGNDDIGNLDGQVPDPDDLA RYDTGAVRAHNGSLQHLTWLGLQWNSLSTLPAIRKWLKQLFHHLPQETSRLETNAPESICILDLEVFLLG VIYTSHLQLKEKCNSHHTSYQPLCLPLPVCRQLCTERQKTWWDAVCTLIHRKALPGTSAKLRLLVQREIN SLRGQEKHGLQPALLVHWAQSLQKTGSSLNSFYDQREYIGRSVHYWRKVLPLLKMIRKKNSIPEPIDPLF KHFHSVDIQASEIGEYEEDAHITFAILDAVNGNIEDAMTAFESIKNVVSYWNLALIFHRKAEDIENDALS PEEQEECKNYLRKTRDYLIRILDDSDSNTSVVQKLPVPLESVKEMLNSVMQELEDYSEGGTLYKNGCWRS ADSELKHSTPSPTKYSLSPSKSYKYSPKTPPRWAEDQNSLLKMICQQVEAIKKEMQELKLNSNNSASPHR WPAEPYGQDPAPDGYQGSQTFHGAPLTVATTGPSVYYSQSPAYNSQYLLRPAANVTPTKGPVYGMNRLPP QQHIYAYSQQMHTPPVQSSSACMFSQEMYGPPLRFESPATGILSPRGDDYFNYNVQQTSTNPPLPEPGYF TKPPLVAHASRSAESKVIEFGKSNFVQPMQGEVIRPPLTTPAHTTQPTPFKFNSNFKSNDGDFTFSSPQV VAQPPSTAYSNSESLLGLLTSDKPLQGDGYSGLKPISGQASGSRNTFSFGSKNTLTENMGPNQQKNFGFH RSDDMFAFHGPGKSVFTTAASELANKSHETDGGSAHGDEEDDGPHFEPVVPLPDKIEVKTGEEDEEEFFC NRAKLFRFDGESKEWKERGIGNVKILRHKTSGKIRLLMRREQVLKICANHYISPDMKLTPNAGSDRSFVW HALDYADELPKPEQLAIRFKTPEEAALFKCKFEEAQNILKALGTNTSTAPNHTLRIVKESATQDNKDICK ADGGNLNFEFQIVKKEGPYWNCNSCSFKNAATAKKCVSCQNTNPTSNKELLGPPLVENGFAPKTGLENAQ DRFATMTANKEGHWDCSVCLVRNEPTVSRCIACQNTKSASSFVQTSFKFGQGDLPKSVDSDFRSVFSKKE GQWECSVCLVRNERSAKKCVACENPGKQFKEWHCSLCSVKNEAHAIKCVACNNPVTPSLSTAPPSFKFGT SEMSKPFRIGFEGMFAKKEGQWDCSLCFVRNEASATHCIACQYPNKQNQPTSCVSAPASSETSRSPKSGF EGLFPKKEGEWECAVCSVQNESSSLKCVACEASKPTHKPHEAPSAFTVGSKSQSNESAGSQVGTEFKSNF PEKNFKVGISEQKFKFGHVDQEKTPSFAFQGGSNTEFKSIKDGFSFCIPVSADGFKFGIQEKGNQEKKSE KHLENDPSFQAHDTSGQKNGSGVVFGQTSSTFTFADLAKSTSREGFQFGKKDPNFKGFSGAGEKLFSSQS GKVAEKANTSSDLEKDDDAYKTEDSDDIHFEPVVQMPEKVELVTGEEDEKVLYSQRVKLFRFDAEISQWK ERGLGNLKILKNEVNGKLRMLMRREQVLKVCANHWITTTMNLKPLSGSDRAWMWLASDFSDGDAKLEQLA AKFKTPELAEEFKQKFEECQRLLLDIPLQTPHKLVDTGRAAKLIQRAEEMKSGLKDFKTFLTNDQVKVTD EENASSGADAPSASDTTAKQNPDNTGPALEWDNYDLREDALDDSVSSSSVHASPLASSPVRKNLFRFGES TTGFNFSFKSALSPSKSPAKLNQSGASVGTDEESDVTQEEERDGQYFEPVVPLPDLVEVSSGEENEQVVF SHRAKLYRYDKDVGQWKERGIGDIKILQNYDNKQVRIVMRRDQVLKLCANHRITPDMTLQTMKGTERVWV WTACDFADGERKIEHLAVRFKLQDVADSFKKIFDEAKTAQEKDSLITPHVSHLSTPRESPCGKIAIAVLE ETTRERTDLTQGDEVIDTTSEAGETSSTSETTPKAVVSPPKFVFGSESVKSIFSSEKSKPFAFGNSSATG SLFGFSFNAPLKNSNSEMTSRVQSGSEGKVKPDKCELPQNSDIKQSSDGKVKNLSAFSKENSSTSYTFKT PEKAQEKSKPEDLPSDNDILIVYELTPTPEQKALAEKLLLPSTFFCYKNRPGYVSEEEEDDEDYEMAVKK LNGKLYLDDSEKPLEENLADNDKECVIVWEKKPTVEERAKADTLKLPPTFFCGVCSDTDEDNGNGEDFQS ELRKVCEAQKSQNEKVTDRVGIEHIGETEVTNPVGCKSEEPDSDTKHSSSSPVSGTMDKPVDLSTRKETD MEFPSKGENKPVLFGFGSGTGLSFADLASSNSGDFAFGSKDKNFQWANTGAAVFGTQTTSKGGEDEDGSD EDVVHNEDIHFEPIVSLPEVEVKSGEEDEEVLFKERAKLYRWDRDVSQWKERGIGDIKILWHTMKKYYRI LMRRDQVFKVCANHVITKAMELKPLNVSNNALVWTASDYADGEAKVEQLAVRFKTKEMTESFKKKFEECQ QNIIKLQNGHTSLAAELSKDTNPVVFFDVCADGEPLGRIIMELFSNIVPQTAENFRALCTGEKGFGFKNS IFHRVVPDFICQGGDITKYNGTGGQSIYGDKFDDENFDLKHTGPGLLSMANYGQNTNSSQFFITLKKAEH LDFKHVVFGFVKDGMDTVRKIESFGSPKGSVSRRICITECGQL TRTRPLEQKLISEEDLAANDILDYKDDDDKV |
Restriction Sites | SgfI-MluI Cloning Scheme for this gene Plasmid Map |
ACCN | NM_011240 |
ORF Size | 9159 bp |
OTI Disclaimer | 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. |
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_011240.3, NP_035370.2 |
RefSeq Size | 9477 bp |
RefSeq ORF | 9162 bp |
Locus ID | 19386 |
UniProt ID | Q9ERU9 |
MW | 341.1 kDa |
Gene Summary | E3 SUMO-protein ligase which facilitates SUMO1 and SUMO2 conjugation by UBE2I. Involved in transport factor (Ran-GTP, karyopherin)-mediated protein import via the F-G repeat-containing domain which acts as a docking site for substrates. Binds single-stranded RNA (in vitro). May bind DNA. Component of the nuclear export pathway. Specific docking site for the nuclear export factor exportin-1 (By similarity). Sumoylates PML at 'Lys-490' which is essential for the proper assembly of PML-NB. Recruits BICD2 to the nuclear envelope and cytoplasmic stacks of nuclear pore complex known as annulate lamellae during G2 phase of cell cycle. Probable inactive PPIase with no peptidyl-prolyl cis-trans isomerase activity.[UniProtKB/Swiss-Prot Function] |
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