eEF1A2 binding protein (IGFN1) (NM_001164586) Human Tagged ORF Clone
CAT#: RG235402
- TrueORF®
IGFN1 (tGFP-tagged) - Homo sapiens immunoglobulin-like and fibronectin type III domain containing 1 (IGFN1)
ORF Plasmid: DDK
"NM_001164586" in other vectors (2)
Specifications
Product Data | |
Type | Human Tagged ORF Clone |
Tag | TurboGFP |
Symbol | eEF1A2 binding protein |
Synonyms | EEF1A2BP1 |
Vector | pCMV6-AC-GFP |
E. coli Selection | Ampicillin (100 ug/mL) |
Mammalian Cell Selection | Neomycin |
Sequence Data |
>RG235402 representing NM_001164586
Red=Cloning site Blue=ORF Green=Tags(s) TTTTGTAATACGACTCACTATAGGGCGGCCGGGAATTCGTCGACTGGATCCGGTACCGAGGAGATCTGCC GCCGCGATCGCC ATGGCAGGAAAGCTCCGGAAGTCCCACATCCCTGGAGTGAGCATCTGGCAGCTGGTGGAGGAGATCCCTG AAGGCTGCAGCACGCCGGACTTTGAGCAGAAGCCCGTCACCTCGGCTCTGCCAGAGGGGAAAAATGCTGT CTTTCGGGCTGTGGTCTGTGGGGAGCCCAGGCCCGAGGTGCGTTGGCAGAACTCCAAAGGTGACCTCAGT GATTCCAGCAAGTACAAGATCTCCTCCAGCCCTGGCAGCAAGGAGCACGTGCTGCAGATCAACAAGCTGA CAGGCGAGGACACGGATCTGTACCGCTGCACAGCAGTAAATGCGTACGGAGAGGCCGCTTGCTCAGTGAG ACTCACTGTCATCGAAGTTGGCTTTCGGAAGAATCGGAAGAGGCACAGGGAACCGCAGGAAGACCTCAGG AAGGAGCTGATGGACTTCCGGAAGTTGCTGAAAAAGAGGGCCCCACCAGCCCCCAAGAAAAAGATGGACC TTGAGCAGATATGGCAGCTGCTGATGACAGCAGACAGGAAGGACTACGAGAAGATCTGCTTGAAGTATGG CATCGTCGACTACCGTGGCATGTTGCGCAGGCTGCAGGAGATGAAGAAGGAACAGGAGGACAAGATGGCA CAGTACATCAACACCATCTCCAGCTTAAGACACATCAGGGTCACCAAGGATGGGAATGCAAAGTTTGACT TGGAGCTGGATCTCAAGGATTCTCAGAGCAAGATTTACCTGTATAAGGATGGTGAGATGATCCCCTATGG CTTCAACAACCAAACCAAGCACTGTCTGCGCCGGCTGGGGAAGCGCTATGAGTTCCAGATTCAAGACCTG AGGCCTGAGGACTCTGGCATTTACCAGGTCAAGGTGGAGGATGCTGTGGTCTTCTCCACAGAACTGGAGG CCAGTGCCATCCCCCCAAGAGTGGTGGTCCCACTGGCGGAGACCCACTGTGAGGAGCAGGGTGACGCAGT CTTTGAATGTACCCTCTCCAGCCCCTGCCCTAGTGCAGCCTGGCATTTCCGGCACCGGCTACTCCACCCC AGTGACAAATATGAAGTGTATGTGTCCCCTGACGGGCTGACCCACCGGCTGGTGGTGAGGGGGGCACGTT TCTCAGACATGGGCCCCTATTCGCTGGGCACCGGGCTCTACACTTCCAGCGCCTGGCTGGTGGTTGAAGC TGGGAAGGATAAAGACCTTCAGTCCACAAGTGCTGACCACAAACTGCAGAGGCAAGGAGCCCAGGCATCA GGAGCAGAAGAGTCTGGGAGCATCGAGAGCCAGGGAGAGAAATCCAGAGAGCAGGGCCCCAGGGGGGGCT CCCTTGAAGGGGCTGGGCCGGCTTCTGGGCTCCAGCACATAGCCAGCCCAGACAGGGATGGCCTTGGCAG ACATGGCTACTCCTTGATGGGGGACAAAGGGACAGCTGACTCAGCCTGGGGCCCTGGACAGGAGGGCGAG GGCTTTCCAGTAGCAGAGGGAAGCAGAGCCACTCTTCCCAGGGAAAATCAATCCCACAGAGAGGGAGGCT GGGCCAGAAGCCTTGCAGAGAGGCCCCATCTACAGGGAGAGAGCTCAGAATCAGGGTTGGGCCTCCCAGA AAAACAACAGCAAGATCGTGGCAGAGACAGCAACAGTGATGAATGCTGGAGGAAAGCAGGAGGCTGGGAG GCTGGGTCCAGTCGGCTTCAGGCTGGAGGACTGGGGAGCAGCAGGGAAGGAAAGGAGCACAGAGGGGACA GTGGAAGACAACTGGACAGGCATGCCCCAGAGCAACTGTGGGATGCTCGACTGGGACCTGGGAGAGGAAA GAGCGACCTGCAGGGATGCCAGTCTGATCCTGTAGGGTCCTGGCCAAGAGGAAAGCAGATAGAGATTTCA CAGGATGACAGCCTGGCTGAGATGGACAGAGGGGATGCTCCAAGTAGGGAAAGGGGGAGAGGAATAGTAG TGTGGGGTGGTGGGACTGGCCTGGGAGAAGCTGGAGACAGCAATGGGGCAGGAGGTCCTGGCACCCTGGA GCTTACTGGAGGAAGAGGTTCTGGCTCCAAGGTGGGCATGGCCCCTGAATCCTGGGGTTCTCAGGGAGGT AGAGATGCTGACTATGGGGAAGCCAGGGGCTACTGGGGGTCAGGAGAGTTGCTAGAACAGATACCTGGAG GCAAGGACTTCCAGGAACCATCAATATCAGGTGGTAGAAAATTCCTTCTGGGAGATGGGAGTCCTGAGAT CAAAGCTGAAGACTCACTGCAGGAGGCAGATGGTATATGCCGGGGGGAGTCTGTAGTTACAGGAAGTGCC TACAAAACTGGCCCTGGAGGCCCAGGAGACCCCAGAGGCTGCGAAGGTGTCCTACAGGAGCTCAGGGGAA GGGATGGCCAGGAAACAGCTTGGGCCTCGGGTGAGGTAGAGTATGACCCCAGAAGCTTCCAGTCTTCCCA GGGCTGGACAGCAGGTCACAGAGCAGCAGGGGGTATTGGCAGAATAGAATCTAAGGGCACAAGTCCTTGG GATGACACACCATCTAGCCTCAGAAAAACTGGGGCCCACCATGGGCCTGGAGTGCTGGGGCCCAGTGGAG GACAAGAGGGTATGGGTGGTATCTGGGTGGCTGGACTGACGGAGTCTGGTCAGGGGGTGGATGCCAGAAG CCACTGGCTAAGTAGGGCTCCAGGCCTGGGTGCTCAGGGATCTGGGGGGACACTAGGAGATAAGAAAGGA TTAAGAGGTCCTGGGTCAATAGGGTCTGAACCAGATTTCTGGAATGGGTCAGGGAGCTCCAGAGTAAAAG GACCCAGAGGTGAGACAGGCTATAAGGATGGCTTGGAAGGTCCCGGGAGAATGGAATCTAGGTACGAGGG TGGCTTAGGATATTCTAGGGAAATAAGCTCTAAAAGCGGGGCTGGTTATAGCTATGGCTCAGGGGTTCCA GGAGAAATGGGGTCCGGCCATGGTGCTGGTTGTAGAGTTTCCCCTAGGGCACCTGCGGGAGTGGAGTCTG AGGAAGGGGGTGGGTACAGGCATGGCTCCGGAGCGCCTGGGGGAGTGTGGTCTGGAAATGAAGATTCTGG CCCTGCAGGAGGAGGGTCTGGGAGAGTTGCCAGTCTTAAAAATGGCTCAGGTGGTCCTGATGGAGCACCC ATGAATGACACCAGGAATTGGGCCTCTGCATGCCAGGCAGGCATGGACCCTAGGGGAGGGCACCATTCAG ATGGTGGCCTAGGGAGTCCTGGGGTGACAGGGTCTGCGGGTAGAGGTGGTCTCAAGGCCCCTGGAGTAGT GGAGACTGTTGGGATGGGATGTGTGGAAGCAGAACCAGAGAGCTCTGGAAGAATAAGGCCTTGGGGTCAG ACTGGAAATTATGGGGGCTTCAGAGCCTCAGAGGCCCTGGGGGCCTTTGGAGAAGGAGGCTATGAAGATG GCTCTGGGGGTCCAGGAGCCATGGGACCAGGGTCTCTGAGGGCAGGAAGCAAAGTGGGTGAGGGGGATGG GACAAGATGCCCTGGTGCTAAGGCCTCTGGAGCTGGAGCTGGTTATAGGGATGATACCAGGCACCCTGAG TCACTCGCACCTCACAATGGGGCCGCTTCTGGGAGCCAGTGGGCTTATGGGGCTGGCAATGTGCTGGGTT ATGAGGATGGATCAGAACTTCCAGGGCCTCAGGGAACTGGGGTCAGAACAGCCTATGGAGAAAGGTCAAG GGGCCTTGGGCCTAGGAGTACAGGGCCAGGGGGTGAGGCAGGCTTTAGAGATGGTTCAGGAGGCCTCCAA GGAATGGGATCAGCAGATGGGCCAGGTTGTAGGAAGGGTATTGGGAGTTCTGGGGAAATGGGGTCAGTGG ATAAGGAAGGTTATAAGAAAGATTTGGGGGCTCCTGAGAATATGGGTTCGGGGAGCAAGGCAGATTATAG GGATGGTGTAGGGGGTTCTGGGGCAATGGGGTCAATGGATGAAGCAGGTTATAGGAAAGATTTAGGGGCT CCTGAGGGAATAAGTTCAGGGAGCAAGGCAGATTATAGGGGTGGTTTACAGGATTCCAGGGAAGCGGGTT CAGGGAGCAAGGCAGATTATAGCGGTGGTTTAAAGGGTTCCAGGGAAATCGGGTCAATGGATGAAACAGA TAATAGGAAAGATTTGGGGGTTCCTGAGGGAATGGGTGCAGGTTACAGGGCTGGTTTAAGGGGTCCTGGG GAGATGGGGTCACTGGATGAGTCAGGTCATAGGAATGGGATTGGAGGTTATGGGGAAATGGGGTCAGGTT ATAGGGAGGATTTGGGGGCTCCTGAGGGAATGGGCACAGGGAGCAAGGCAGGTTATAGGGATGGCTTAAG GGGTTCTGGAGAAATGAGGTCAATGGATGAGGCAGGTTATAGGAAAAATTTGGGAGCTCCTGAGAGAATG GATTCAGGGAGCAAGGCAGGTTACAGGGGTGGTTTAAGGGGTTCTGGGGAAATGGGGTTAATTGAGGCAG GCTATAGGAAAGATTTGGGGGTTTCTGAGGGAGGGGGTTCAGGGAGCAAAGCAGGTTATAGGGGTGGCTT AGGTTCTGGGGAAATGGGGTCTGTGGATAAGGCAGGCTATAGGAAGGATTTGGGGGCTTCTGAGGCAATA GGTTCAGGGAGTAAGGCAGGTTTTACGGATGGTTTAGGAGGTTCTGAAGAAATGGGGTCAGTGAATAAGG CAGGTTATAGGAAGGATTTGGGGGCTCCTAAGGGAATGGGTTCAGGGAGTAAGGCAAGTTTTAGGGATGG TTTAGGAGGTTCTGGAGAAATGGGGTCAGTGAATGAAGCAGGTTATAGGAAGGACTTGGGGGTTCCTGAG GGAATAGGTTCAGGAAGTAAGGCAGGTTTTAGGGATGGTTTAGGGGGTTCTGAAGAAATGGGGTCAGTGA ATAAGGCAGGTTATAGGAAGGATTTGGGGGCTCCTAAGGGAATAGGTTCAGGGAGCAAGGCAGGTTTTAG GGATGGTTTAGGGAGTTCTGGGGAAATGGGGTCAATGGATGAGGCAGGTTATAGGAAGAATTTGGGGGCT CCTGAGGGAATAGGTTCAGGGAGTAAGGCAGGTTTTAGGGATGGTTTAGGGAGTTCTGTAGAAATGGGGT CAGTGAATGAGGCAGGTTATAGGAAGGATTTGGGGGCTCCTGAGGGAATGGGTTCAGGGAGTAAGGCAGG TTTCAGGGATGGTTTAGGGGGTTCTGGAGAAATGGGGTCAGTGAATGAAGCAGGTTATAGGAAGGATTTG GGTGCTCCTAAGGGAATAGGTTCAGGGAGCAAGGCAGATTTTAGGGATGCTTTAGGGAGTTCTGGGGAAA TGGGGTCAATGGATGAGGCAGGTTATAGGAAGGATTTGTGGGCTCCTGAGGGAATAGGTTCAGGAAGTAA GGCAGGTTTTAGGGATGGTTTAGGGAGTTCTGTAGAAATGGGGTCAGTGAATGAGGCAGGTTATAGGAAG GATTTGGGGGCTCCTGAGGGAATGGGTTCAGGGAGTAAGGCAGGTTTCAGGGATGGTTTAGGGGGTTCTG GAGAAATGGGGTCAGTGAATGAAGCAGGTTATAGGAAGGATTTGGGTGCTCCTAAGGGAATAGGTTCAGG GAGCAAGGCAGATTTTAGGGATGCTTTAGGGAGTTCTGGGGAAATGGGGTCAATGGATGAGGCAGGTTAT AGGAAGGATTTGTGGGCTCCTGAGGGAATAGGTTCAGGAAGTAAGGCAGGTTTTAGGGATGGTTTAGGGA GTTCTGTAGAAATGGGGTCAGTGAATGAGGCAGGTTATAGGAAGGATTTGGGGGCTCCTGAGGGAATGGG TTCAGGGAGTAAGGAAGGTTTCAGGGATGGTTTAGGGGGTTCTGAAGAAATGGGGTCAGTGAATAAGGCA GGTTATAGGAAGGATTTGGGGGCTCCTAAGGGAATGGGTTCAGGGAGTAAGGAAGGTTTCAGGGATGGTT TAGGGGGTTCTGAGGAAATGGGGTCAATGGATGAGGCAGGTTATAGGAAGGATTTGGGGGCTCCTGAGGG AATAGGTTCAGGGAGTAAGGCAGGTTTCAGGGATGGTTTAGGGGGTTCTGAAGAAATGCGGTCAATGGAT GAGGCAGGTTATAGGAAGGATTTGGGGGCTCCTGAGAGAATAGGTTCAGGAAGTAAGGCAGGTTTTAGGG ATGGTTTAGGGAGTTCTGTAGAAATGGGGTCAGTGAATGAGGCAGGTTATAGGAAGGATTTAGGGGCTCC TAAGGGAATGGGTTCAGGGAGTAAGACAGGTTTCAGGGATGGTTTAGGGGGTTCTGAAGAAATGGAGTCA ATGGATGAGGCAGGTTATAGGAAGGATTTGGGGGCTCCTGAGGGAATAGGTTCAGGAAGTAAGGCAGGTT TTAGGGATGGTTTAGGGAGTTCTACAGAAATGGGGTCAGTGAATGAGGCAGGTTATAGGAAGGATTTGGG GGCTCCTAAGGGAATGGGTTCAGAGAGTAAGGCAGGTTTTAGGGATGGTTTAGGGAGTTCTGGGGAAATG GGGTCAATGGATGAGGCAGGTTATAGGAAGGATTTGGGAGCTCCTGAGGGAATGGGTTCAGGGAGTAAGG CAGGTTTCAGGGATGGTTTAGGGGGTTCTGAAGAAATGGGGTCAGTGAATAAGGCAGGTTATAGGAAGGA TTTGGGGGCTCCTAAGGGAATGGGTTCAGGGAGTAAGGCAGGTTTCAGGGATGGTTTAGGGAGTTCTGGG GAAATGGGGTCAATGGATGAGGCAGATTATAGGAAGGATTTGGGAGCTCCTGAGGAAATGGGTTCAGGCA GTTACACAGATTACAGGAATGGTTTAGGCAGTTCTGGAAAAATCAGTTCAGGGGATGAGGCAGGTTATAA GAATGTTTTAGGGGGTTCTGGGAGGAATCCATTAGGGAGCGAGGCAGGTTCTAGGGGTAGTTTGGAGGAT TCTGGGTACATTTTGTCATGGAATGAGGCAGGTTCTAGGCAAGGCTTTGGGGGAACTAGTGGCATGGGGT CAGGGAGTGAGGTCAGTTATAGAGGAGGCTCAGGAGGATCTGGGGAAACGGGACCAGAGGGTAAGATGGG TTATGGAGATGGTTCAGGGAGGCTTGGAGTACCAGGCTCACTGGCTGGAATAGGACATGAGGCTGGACCC AGAGGCCATAAAGCCATGGGTCACAGGTCAGGATATTGGGTAGCATCAGAGGGTGACACGAACTCCAAGG ATGGTCCAGAGCGAGCCAGGGAAACCAGGCTTGTGGATGGGGCAGGACCTGGGGTGGAACCTGGGATGGC TGGAATGCCAGGCACTGCAGGTGGCATGGCACACAGAGACAGCCTCAGGGGCACAGGGGTGCTGGGGTCT CAGGGAGGGCGACAGACTCTTTCAGATGAGCGAGGCTCCACCAAAGATCTTGGGGGCTATGGAACTTCAG GGATCCCTGAGGCCTCGGAGGCTGCTGGTGCCAAGGGAAAACCAGATGTCAAAGAATGGCAAGACAGTTC TGGGACTCCAGGGTCTTCTAGAGACAGAGGGGCTCCCAGGGTGAAGGATAGGTCTCCAGACCAAGCAGGG ATAATGGGGGCTTCTGGGTTTCTTGATGGCAAGGGGGCAGTGGAAGGTGAGACCTGGGCAGGAATGGCTG CTCTAGGGTCTGGATATGAACGGGACATCTGGAAAGCAGGCCCAGGAATGACAGACAGGGGTAGAGTTGC TGGCCAGGGGGGGTTGGCATCTCAGGGAGGTGGGGACTCACTTTTGGGAGGCAGAAGGGTAGGCTCAGGG AGTTCAGTGGGGACAGGTCAGGATCTGGACAGCGGCTCTATGCCTGGGGGAAGGGGCAAGTCAACATCAG GGCCTGCTGATAGACAAGGGACGAGCAATGCTTGGGCTCCTGATTGGGAAAACCAGGGGTTTAGCCAAGG CAGCATAGATGCTGGGAAGCAGCCCGCAGGCTCCAGAGCTTCCGGTTCTCTGCAGGAGAAAGATGCCGCT TTTGGTGGGACCCATGAAGGGCCAGGGGGCTTTAAGGGTGGGGAGGGTGCACCAGGCCAAGAGGCGGCTG GTGGATGCCGAAGCCCATGGTCCCTGGATAGCAAAGGTTCAAGTCCTGGAAGGGGCAGTTCTGTTGATGC AGAGGACTCAGGTATCCTGGGCAAGGGGAATTCTACTGAGTGGGGGAATGCCCTCACCCCAAAACCTGGG GAGTCCGGACCTCAGGGAGCCTGGAATGGCTTAGATGGTCCCTTTGGCAGAAAAGCCTCTAGAGATAGGT CAGGAGGGACCCAGGACCTGAGCTCTCAGCGAGGCAAGGGACAGAGAGGAGGAAAGAGGTCCCTCGGGGA GCAGGGGTCCCTGGAGGCTGAGAATGGTGAGGTCCAGGGTCCTGGGGCCCTAAAGGAGGATGAAGGGCAG GGAGTGGAAGAGGCTGGGAGGTCAGGCAGGAGGCCTGGCTCACTCAGGAGCAGGTCTCAGGCACAGTCAG GGGCTGAGGTTGGAGGAGGAAAGAGAAGGGGAGCAGACGAGGCTGGAAGCATGGGGTGGCAGCCTATGGG AGAGAACTGGGGGTGCCTGGAGGAGATGCTGAATGAAGATCAGAGCCGGGAGCCCCCTGGTCACCTTGGT AGCAGGAGAAGTGGCAAAGACGGCAGGTTGGACATCTATGGAGAGAGGAGAGATGCTACCCGGAGTTCCA CATCCAGATACAAGCCTGGCACTGGCAGTTTCTCCAAGGATGCCCAAGGCCCCATGGGCCACTTCTCCCA GGGCCTGGCTGACATGGAAGTGCAGCCGGGGGAGGCCGCCACACTCTCCTGTACCCTCACCAGTGACCTG GGACCTGGCACCTGGTTTAAGGATGGCGTCAAGCTCACCACCCAGGATGGAGTCATCTTTAAGCAAGACG GTCTCGTGCACAGCCTCTTCATCACGCATGTGCAGGGGACCCAAGCTGGGAGGTACACCTTTGTAGCTGG TGACCAGCAGAGCGAGGCCACCCTGACCGTCCAGGATTCCCCTACCATTGCTCCAGATGTGACAGAGAAA CTGAGAGAGCCACTGGTGGTCAAGGCTGGGAAGCCGGTGATAGTGAAGATCCCCTTCCAGAGCCACCTCC CCATTCAGGCTGCCTGGAGGAAGGACGGGGCTGAGGTGGTGGGCAGCAGTGACAGGGAGGCCCAGGTGGA CCTGGGGGATGGCTACACGCGGCTGTGCCTCCCCAGCGCAGGCAGGAAGGACTGTGGCCAGTACAGCGTG ACACTGAGGAGTGAGGGAGGCTCTGTGCAGGCCGAGCTCACTCTGCAAGTCATAGACAAGCCTGATCCCC CACAAGGCCCCATGGAGGTTCAGGATTGCCATAGGGCTGGCGTCTGCCTCCGCTGGCGGCCCCCAAGGGA CAATGGGGGCCGGACTGTAGAGTGCTACGTGGTGGAGAGACGGCAGGCTGGCAGGAGCACTTGGCTGAAG GTGGGCGAGGCCCCCGCTGACAGCACCACCTTCACGGATGCCCATGTGGAGCCAGGCAGGAAGTATACCT TCCGAGTGCGGGCTGTGACCTCAGAGGGGGCTGGCGAGGCCCTGGAGTCTGAGGAGATATTGGTGGCTCC TGAGGCTCTCCCCAAGGCCCCTTCCGCGCCAGCCATCCTGTCGGCCTCCAGCCAGGGCATCACACTGACA TGGACAGCACCTCGGGGCCCCGGCAGCGCCCACATCCTGGGCTACCTGATCGAGAGGCGTAAGAAGGGGA GCAACACCTGGACGGCAGTGAACGACCAGCCGGTGCCTGAGAGGAGGTGGACGGTGGCGGACGTGCGGCA GGGCTGTCAGTATGAGTTCCGGGTCACAGCTGTGGCTCCCTCAGGTCCCGGAGAGCCTGGACCTCCATCG GATGCTGTCTTTGCTCGGGACCCCATGAGACCCCCTGGGCTGGTGAGGAATCTCCAAGTCACAGACAGAT CGAACACCAGCATCACTCTGAGCTGGGCTGGGCCAGACACCCAGGAAGGGGATGAAGCCCAGGGGTATGT GGTGGAGCTGTGCAGCTCAGACAGTCTCCAGTGGCTCCCGTGCCATGTGGGCACCGTGCCAGTCACCACC TACACGGCCAAGGGGCTTCGGCCTGGAGAGGGCTACTTCGTGCGGGTGACAGCAGTTAATGAAGGAGGCC AGAGCCAGCCCAGTGCCCTGGACACATTAGTGCAAGCCATGCCTGTTACTGTCTGTCCCAAGTTCCTCGT GGACTCCAGCACCAAGGACTTGCTGACAGTCAAGGTCGGGGACACAGTTCGTGTGCCCGTCTCCTTTGAA GCCATGCCCATGCCTGAGGTGACCTGGCTGAAGGATGGCTTGCCCTTGCCCAAAAGAAGTGTGACTGTCA CTAAGGATGGCCTCACCCAGCTTCTGATCCCTGTGGCTGGACTCTCAGACAGTGGTCTCTACACTGTGGT GCTGAGGACCCTGCAGGGGAAGGAGGTTGCCCACAGCTTCCGTATCAGGGTGGCAGCATGCCCGCAGGCC CCTGGGCCCATCCACCTGCAGGAGAACGTGCCTGGGACGGTGACGGCCGAGTGGGAACCCTCTCCTGACG AGGCCCAGGATGTCCCGCTGCACTACGCGGTGTTCACACGCTCCTCAGCGCACGGTCCCTGGCACGAGGC AGCCGACCGCATCCACACCAACCGCTTCACCCTCCTGGGCATCCTCCCCGGCCACGAATACCACTTCAGG GTGGTGGCCAAGAATGAGCTGGGGGCCAGCAAACCCTCGGACACCAGCCAGCCCTGGTGCATCCCCCGGC AGCGCGACAGGTTCACAGTGAAGGCTCCGTGCTACCGGGAGCCCGACCTGAGCCAGAAGCCCCGGTTCCT GGTGGGCCTGCGGTCCCACCTGCTGCCCCAGGGCTGCGAGTGCTGCATGAGCTGTGCCGTGCAGGGCTCG CCCCGGCCCCACGTCACCTGGTTCAAGAATGACCGCAGCCTGGAAGGAAACCCCGCGGTGTACAGCACTG ACCTGCTGGGCGTGTGCTCCCTCACCATCCCCAGCGTATCCCCGAAGGACAGCGGGGAGTACAAGGCTGT GGCTGAGAACACGCTGGGCCAGGCAGTCAGCACTGCCACCCTCATTGTCATAGAACCCAGCACC ACGCGTACGCGGCCGCTCGAG - GFP Tag - GTTTAA >RG235402 representing NM_001164586
Red=Cloning site Green=Tags(s) MAGKLRKSHIPGVSIWQLVEEIPEGCSTPDFEQKPVTSALPEGKNAVFRAVVCGEPRPEVRWQNSKGDLS DSSKYKISSSPGSKEHVLQINKLTGEDTDLYRCTAVNAYGEAACSVRLTVIEVGFRKNRKRHREPQEDLR KELMDFRKLLKKRAPPAPKKKMDLEQIWQLLMTADRKDYEKICLKYGIVDYRGMLRRLQEMKKEQEDKMA QYINTISSLRHIRVTKDGNAKFDLELDLKDSQSKIYLYKDGEMIPYGFNNQTKHCLRRLGKRYEFQIQDL RPEDSGIYQVKVEDAVVFSTELEASAIPPRVVVPLAETHCEEQGDAVFECTLSSPCPSAAWHFRHRLLHP SDKYEVYVSPDGLTHRLVVRGARFSDMGPYSLGTGLYTSSAWLVVEAGKDKDLQSTSADHKLQRQGAQAS GAEESGSIESQGEKSREQGPRGGSLEGAGPASGLQHIASPDRDGLGRHGYSLMGDKGTADSAWGPGQEGE GFPVAEGSRATLPRENQSHREGGWARSLAERPHLQGESSESGLGLPEKQQQDRGRDSNSDECWRKAGGWE AGSSRLQAGGLGSSREGKEHRGDSGRQLDRHAPEQLWDARLGPGRGKSDLQGCQSDPVGSWPRGKQIEIS QDDSLAEMDRGDAPSRERGRGIVVWGGGTGLGEAGDSNGAGGPGTLELTGGRGSGSKVGMAPESWGSQGG RDADYGEARGYWGSGELLEQIPGGKDFQEPSISGGRKFLLGDGSPEIKAEDSLQEADGICRGESVVTGSA YKTGPGGPGDPRGCEGVLQELRGRDGQETAWASGEVEYDPRSFQSSQGWTAGHRAAGGIGRIESKGTSPW DDTPSSLRKTGAHHGPGVLGPSGGQEGMGGIWVAGLTESGQGVDARSHWLSRAPGLGAQGSGGTLGDKKG LRGPGSIGSEPDFWNGSGSSRVKGPRGETGYKDGLEGPGRMESRYEGGLGYSREISSKSGAGYSYGSGVP GEMGSGHGAGCRVSPRAPAGVESEEGGGYRHGSGAPGGVWSGNEDSGPAGGGSGRVASLKNGSGGPDGAP MNDTRNWASACQAGMDPRGGHHSDGGLGSPGVTGSAGRGGLKAPGVVETVGMGCVEAEPESSGRIRPWGQ TGNYGGFRASEALGAFGEGGYEDGSGGPGAMGPGSLRAGSKVGEGDGTRCPGAKASGAGAGYRDDTRHPE SLAPHNGAASGSQWAYGAGNVLGYEDGSELPGPQGTGVRTAYGERSRGLGPRSTGPGGEAGFRDGSGGLQ GMGSADGPGCRKGIGSSGEMGSVDKEGYKKDLGAPENMGSGSKADYRDGVGGSGAMGSMDEAGYRKDLGA PEGISSGSKADYRGGLQDSREAGSGSKADYSGGLKGSREIGSMDETDNRKDLGVPEGMGAGYRAGLRGPG EMGSLDESGHRNGIGGYGEMGSGYREDLGAPEGMGTGSKAGYRDGLRGSGEMRSMDEAGYRKNLGAPERM DSGSKAGYRGGLRGSGEMGLIEAGYRKDLGVSEGGGSGSKAGYRGGLGSGEMGSVDKAGYRKDLGASEAI GSGSKAGFTDGLGGSEEMGSVNKAGYRKDLGAPKGMGSGSKASFRDGLGGSGEMGSVNEAGYRKDLGVPE GIGSGSKAGFRDGLGGSEEMGSVNKAGYRKDLGAPKGIGSGSKAGFRDGLGSSGEMGSMDEAGYRKNLGA PEGIGSGSKAGFRDGLGSSVEMGSVNEAGYRKDLGAPEGMGSGSKAGFRDGLGGSGEMGSVNEAGYRKDL GAPKGIGSGSKADFRDALGSSGEMGSMDEAGYRKDLWAPEGIGSGSKAGFRDGLGSSVEMGSVNEAGYRK DLGAPEGMGSGSKAGFRDGLGGSGEMGSVNEAGYRKDLGAPKGIGSGSKADFRDALGSSGEMGSMDEAGY RKDLWAPEGIGSGSKAGFRDGLGSSVEMGSVNEAGYRKDLGAPEGMGSGSKEGFRDGLGGSEEMGSVNKA GYRKDLGAPKGMGSGSKEGFRDGLGGSEEMGSMDEAGYRKDLGAPEGIGSGSKAGFRDGLGGSEEMRSMD EAGYRKDLGAPERIGSGSKAGFRDGLGSSVEMGSVNEAGYRKDLGAPKGMGSGSKTGFRDGLGGSEEMES MDEAGYRKDLGAPEGIGSGSKAGFRDGLGSSTEMGSVNEAGYRKDLGAPKGMGSESKAGFRDGLGSSGEM GSMDEAGYRKDLGAPEGMGSGSKAGFRDGLGGSEEMGSVNKAGYRKDLGAPKGMGSGSKAGFRDGLGSSG EMGSMDEADYRKDLGAPEEMGSGSYTDYRNGLGSSGKISSGDEAGYKNVLGGSGRNPLGSEAGSRGSLED SGYILSWNEAGSRQGFGGTSGMGSGSEVSYRGGSGGSGETGPEGKMGYGDGSGRLGVPGSLAGIGHEAGP RGHKAMGHRSGYWVASEGDTNSKDGPERARETRLVDGAGPGVEPGMAGMPGTAGGMAHRDSLRGTGVLGS QGGRQTLSDERGSTKDLGGYGTSGIPEASEAAGAKGKPDVKEWQDSSGTPGSSRDRGAPRVKDRSPDQAG IMGASGFLDGKGAVEGETWAGMAALGSGYERDIWKAGPGMTDRGRVAGQGGLASQGGGDSLLGGRRVGSG SSVGTGQDLDSGSMPGGRGKSTSGPADRQGTSNAWAPDWENQGFSQGSIDAGKQPAGSRASGSLQEKDAA FGGTHEGPGGFKGGEGAPGQEAAGGCRSPWSLDSKGSSPGRGSSVDAEDSGILGKGNSTEWGNALTPKPG ESGPQGAWNGLDGPFGRKASRDRSGGTQDLSSQRGKGQRGGKRSLGEQGSLEAENGEVQGPGALKEDEGQ GVEEAGRSGRRPGSLRSRSQAQSGAEVGGGKRRGADEAGSMGWQPMGENWGCLEEMLNEDQSREPPGHLG SRRSGKDGRLDIYGERRDATRSSTSRYKPGTGSFSKDAQGPMGHFSQGLADMEVQPGEAATLSCTLTSDL GPGTWFKDGVKLTTQDGVIFKQDGLVHSLFITHVQGTQAGRYTFVAGDQQSEATLTVQDSPTIAPDVTEK LREPLVVKAGKPVIVKIPFQSHLPIQAAWRKDGAEVVGSSDREAQVDLGDGYTRLCLPSAGRKDCGQYSV TLRSEGGSVQAELTLQVIDKPDPPQGPMEVQDCHRAGVCLRWRPPRDNGGRTVECYVVERRQAGRSTWLK VGEAPADSTTFTDAHVEPGRKYTFRVRAVTSEGAGEALESEEILVAPEALPKAPSAPAILSASSQGITLT WTAPRGPGSAHILGYLIERRKKGSNTWTAVNDQPVPERRWTVADVRQGCQYEFRVTAVAPSGPGEPGPPS DAVFARDPMRPPGLVRNLQVTDRSNTSITLSWAGPDTQEGDEAQGYVVELCSSDSLQWLPCHVGTVPVTT YTAKGLRPGEGYFVRVTAVNEGGQSQPSALDTLVQAMPVTVCPKFLVDSSTKDLLTVKVGDTVRVPVSFE AMPMPEVTWLKDGLPLPKRSVTVTKDGLTQLLIPVAGLSDSGLYTVVLRTLQGKEVAHSFRIRVAACPQA PGPIHLQENVPGTVTAEWEPSPDEAQDVPLHYAVFTRSSAHGPWHEAADRIHTNRFTLLGILPGHEYHFR VVAKNELGASKPSDTSQPWCIPRQRDRFTVKAPCYREPDLSQKPRFLVGLRSHLLPQGCECCMSCAVQGS PRPHVTWFKNDRSLEGNPAVYSTDLLGVCSLTIPSVSPKDSGEYKAVAENTLGQAVSTATLIVIEPST TRTRPLE - GFP Tag - V |
Restriction Sites |
SgfI-MluI
Cloning Scheme for this gene
Plasmid Map
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ACCN | NM_001164586 |
ORF Size | 11124 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. |
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_001164586.2 |
RefSeq Size | 11810 bp |
RefSeq ORF | 11127 bp |
Locus ID | 91156 |
UniProt ID | Q86VF2 |
Cytogenetics | 1q32.1 |
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