Retroviral expression vector of fish Sleeping Beauty 11 (SB11) transposase in mammalian cells.
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Other clones in our bank
External Database Salmon Sleeping Beauty transposase Reference sequence |
Ordering | This clone is provided directly from Dr. Hideto Koso of the Institute of Medical Science, Tokyo University. |
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提供依頼 | 本クローンは、東京大学医科学研究所の高祖秀登先生から直接提供いたします。 |
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Electronic file
Original reference
original | Sumiyoshi, K., Spontaneous development of intratumoral heterogeneity in a transposon-induced mouse model of glioma. Cancer Sci. 109 (5): 1513-1523 (2018). PMID 29575648. |
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Further references such as user reports and related articles (go to bottom)
Featured content
RIKEN BRC has sequenced portions of this material for quality test.
Please review the QC test results indicated by icon as well as clone information before placing your order.
Test sheet | RDB16060_A8Idp1.pdf |
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Nucleotide sequence of a portion of this resource (if available).
Primer: MMLV-pol_F2 Sequence file: RDB16060_A8Ida.seq |
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>D05854A1-2_A8Id_MMLV-pol_F2_F02_17_ABI24.ab1 1 TCGAGGGGGG GTTTGAATTC CTTCTAGACT GCCGGATCTA GCTAGTTAAT TAAGGATCCA 61 CCATGGGAAA ATCAAAAGAA ATCAGCCAAG ACCTCAGAAA AAAAATTGTA GACCTCCACA 121 AGTCTGGTTC ATCCTTGGGA GCAATTTCCA AACGCCTGAA AGTACCACGT TCATCTGTAC 181 AAACAATAGT ACGCAAGTAT AAACACCATG GGACCACGCA GCCGTCATAC CGCTCAGGAA 241 GGAGACGCGT TCTGTCTCCT AGAGATGAAC GTACTTTGGT GCGAAAAGTG CAAATCAATC 301 CCAGAACAAC AGCAAAGGAC CTTGTGAAGA TGCTGGAGGA AACAGGTACA AAAGTATCTA 361 TATCCACAGT AAAACGAGTC CTATATCGAC ATAACCTGAA AGGCCGCTCA GCAAGGAAGA 421 AGCCACTGCT CCAAAACCGA CATAAGAAAG CCAGACTACG GTTTGCAAGA GCACATGGGG 481 ACAAAGATCG TACTTTTTGG AGAAATGTCC TCTGGTCTGA TGAAACAAAA ATAGAACTGT 541 TTGGCCATAA TGACCATCGT TATGTTTGGA GGAAGAAGGG GGAGGCTTGC AAGCCGAAGA 601 ACACCATCCC AACCGTGAAG CACGGGGGTG GCAGCATCAT GTTGTGGGGG TGCTTTGCTG 661 CAGGAGGGAC TGGTGCACTT CACAAAATAG ATGGCATCAT GAGGAAGGAA AATTATGTGG 721 ATATATTGAA GCAACATCTC AAGACATCAG TCAGGAAGTT AAAGCTTGGT CGCAAATGGG 781 TCTTCCAACA AGACAATGAC CCCAAGCATA CTTCCAAACA CGTGAGAAAA TGGCTTAAGG 841 ACAACAAAGT CAAAGGTATT GGAGTGGCCA TCACAAAGCC CTGACCTCAA TCCTATAGAA 901 AATTTGTGGG CAGAACTGAA AAAAGCGTGT GCGAGCAAAG GAGGCCTACA AACCCTGACT 961 CAGTTTACAC CCAGCTCTGT CAGGAGAAAT GGGCCCAAAT TCACCCAACT TATGTGGAAG 1021 CTTGTGGCAA GGCTACCGAA CCGTTTGACC AAGTCGACCA ATTTAAAGTC AATGCTACCT 1081 AAT // |
Primer: CSII-CMV3' Sequence file: RDB16060_A8Idb.seq |
>D05854A1-2_A8Id_CSII-CMV3'_G02_20_ABI24.ab1 1 GGGCGGATAG TAGCGGCCGC GGCGCGCCGG CCCTCGAGGC CTGCAGGAAT TCGCCCTTCT 61 AGTATTTGGT AGCATTGCCT TTAAATTGTT TAACTTGGGT CAAACGTTTC GGGTAGCCTT 121 CCACAAGCTT CCCACAATAA GTTGGGTGAA TTTTGGCCCA TTCCTCCTGA CAGAGCTGGT 181 GTAACTGAGT CAGGTTTGTA GGCCTCCTTG CTCGCACACG CTTTTTCAGT TCTGCCCACA 241 AATTTTCTAT AGGATTGAGG TCAGGGCTTT GTGATGGCCA CTCCAATACC TTGACTTTGT 301 TGTCCTTAAG CCATTTTCTC ACGTGTTTGG AAGTATGCTT GGGGTCATTG TCTTGTTGGA 361 AGACCCATTT GCGACCAAGC TTTAACTTCC TGACTGATGT CTTGAGATGT TGCTTCAATA 421 TATCCACATA ATTTTCCTTC CTCATGATGC CATCTATTTT GTGAAGTGCA CCAGTCCCTC 481 CTGCAGCAAA GCACCCCCAC AACATGATGC TGCCACCCCC GTGCTTCACG GTTGGGATGG 541 TGTTCTTCGG CTTGCAAGCC TCCCCCTTCT TCCTCCAAAC ATAACGATGG TCATTATGGC 601 CAAACAGTTC TATTTTTGTT TCATCAGACC AGAGGACATT TCTCCAAAAA GTACGATCTT 661 TGTCCCCATG TGCTCTTGCA AACCGTAGTC TGGCTTTCTT ATGTCGGTTT TGGAGCAGTG 721 GCTTCTTCCT TGCTGAGCGG CCTTTCAGGT TATGTCGATA TAGGACTCGT TTTACTGTGG 781 ATATAGATAC TTTTGTACCT GTTTCCTCCA GCATCTTCAC AAGGTCCTTT GCTGTTGTTC 841 TGGGATTGAT TTGCACTTTT CGCACCAAAG TACGTTCATC TCTAGGAGAC AGAACGCGTC 901 TCCTTCCTGA GCGGTATGAC GGCTGCGTGG TCCCATGGGT GTTTATACTT GCGTACTATT 961 GTTTGTACAG ATGAAACGTG GTACTTTCAG GCGTTTGGGA AAATTGGCTC CCAACGATGG 1021 AACCAGACTT GTTGAGTCTA CAATTTTTTT TCTGAAGTCC TGCTGGATTT TCCTTTTGAA 1081 TTTTCCCC // |
Primer: IRES-F Sequence file: RDB16060_A8Idc.seq |
>D05854A1-2_A8Id_IRES-F_H02_23_ABI24.ab1 1 GCAGCTTTCA TGTGTTTAGT CGAGGTTAAA AAACGTCTAG GCCCCCCGAA CCACGGGGAC 61 GTGGTTTTCC TTTGAAAAAC ACGATGATAA TATGGCCACA ACCATGGTTA CCGAGTACAA 121 GCCCACGGTG CGCCTCGCCA CCCGCGACGA CGTCCCCAGG GCCGTACGCA CCCTCGCCGC 181 CGCGTTCGCC GACTACCCCG CCACGCGCCA CACCGTCGAT CCGGACCGCC ACATCGAGCG 241 GGTCACCGAG CTGCAAGAAC TCTTCCTCAC GCGCGTCGGG CTCGACATCG GCAAGGTGTG 301 GGTCGCGGAC GACGGCGCCG CGGTGGCGGT CTGGACCACG CCGGAGAGCG TCGAAGCGGG 361 GGCGGTGTTC GCCGAGATCG GCCCGCGCAT GGCCGAGTTG AGCGGTTCCC GGCTGGCCGC 421 GCAGCAACAG ATGGAAGGCC TCCTGGCGCC GCACCGGCCC AAGGAGCCCG CGTGGTTCCT 481 GGCCACCGTC GGCGTCTCGC CCGACCACCA GGGCAAGGGT CTGGGCAGCG CCGTCGTGCT 541 CCCCGGAGTG GAGGCGGCCG AGCGCGCCGG GGTGCCCGCC TTCCTGGAGA CCTCCGCGCC 601 CCGCAACCTC CCCTTCTACG AGCGGCTCGG CTTCACCGTC ACCGCCGACG TCGAGGTGCC 661 CGAAGGACCG CGCACCTGGT GCATGACCCG CAAGCCCGGT GCCTGAGTCG ACGATAAAAT 721 AAAAGATTTT ATTTAGTCTC CAGAAAAAGG GGGGAATGAA AGACCCCACC TGTAGGTTTG 781 GCAAGCTAGC TTAAGTAACG CCATTTTGCA AAGGCATGGA AAAATACATA ACTGAGAATA 841 GAGAAGTTCA GATCAAGGTC AGGAACAGAT GGAACAGCTG AATATGGGCC CAAACAGGAT 901 ATCTGTGGGT AAGCAGTTTC CTGCCCCGGG CTCATGGCCC AAGAAACAGA TGGACAGCTG 961 ATATGGGCCA AACCAGATAT TCTGTGGTAG CAGTTCTTGC CTCACTCAAG ACAGACAGAT 1021 GATCCCCAGA TGCCGATCAG TCTCAGTCAG ATTCTAGAAC CTATCAGATG GATA // |
Primer: PuroR_F Sequence file: RDB16060_A8Idd.seq |
>D05854A1-2_A8Id_PuroR_F_C01_03_ABI08.ab1 1 TTGCGTTTTC GGCCGGACGT CGAGGTGCCC GAAGGACCGC GCACCTGGTG CATGACCCGC 61 AAGCCCGGTG CCTGAGTCGA CGATAAAATA AAAGATTTTA TTTAGTCTCC AGAAAAAGGG 121 GGGAATGAAA GACCCCACCT GTAGGTTTGG CAAGCTAGCT TAAGTAACGC CATTTTGCAA 181 GGCATGGAAA AATACATAAC TGAGAATAGA GAAGTTCAGA TCAAGGTCAG GAACAGATGG 241 AACAGCTGAA TATGGGCCAA ACAGGATATC TGTGGTAAGC AGTTCCTGCC CCGGCTCAGG 301 GCCAAGAACA GATGGAACAG CTGAATATGG GCCAAACAGG ATATCTGTGG TAAGCAGTTC 361 CTGCCCCGGC TCAGGGCCAA GAACAGATGG TCCCCAGATG CGGTCCAGCC CTCAGCAGTT 421 TCTAGAGAAC CATCAGATGT TTCCAGGGTG CCCCAAGGAC CTGAAATGAC CCTGTGCCTT 481 ATTTGAACTA ACCAATCAGT TCGCTTCTCG CTTCTGTTCG CGCGCTTCTG CTCCCCGAGC 541 TCAATAAAAG AGCCCACAAC CCCTCACTCG GGGCGCCAGT CCTCCGATTG ACTGAGTCGC 601 CCGGGTACCC GTGTATCCAA TAAACCCTCT TGCAGTTGCA TCCGACTTGT GGTCTCGCTG 661 TTCCTTGGGA GGGTCTCCTC TGAGTGATTG ACTACCCGTC AGCGGGGGTC TTTCACATGC 721 AGCATGTATC AAAATTAATT TGGTTTTTTT TCTTAAGTAT TTACATTAAA TGGCCATAGT 781 TGCATTAATG AATCGGCCAA CGCGCGGGGA GAGGCGGTTT GCGTATTGGG CGCTCTTCCG 841 CTTCCTCGCT CACTGACTCG CTGCGCTCGG TCGTTCGGCT GCGGCGAGCG GTATCAGCTC 901 ACTCAAAGGG CGGTAATACG GTTATCCACA GAATCAGGGG ATAACGCAGG AAAGAACATG 961 TGAGCAAAAG GCCAGCAAAA GGCCAGGGAA CCCGTAAAAA GGCCGCGTTG CTGGGCGTTT 1021 TTTCCATAGG CTCCGCCCCC CCTGACGAGC ATCACAAAAA AATCGACGCT CAAGGTCAGA 1081 GTGGCGAAAC CCGAACAAGG GACTTATAAG AATACCAGGC GTTTCCCCTG AGCTCCATCG 1141 GTGGCGCTTC TCTTGTTCCG GACTCTGTGC CGGCCTTAAC CGGAAATACC CCTGTGATC // |
Primer: Amp_R Sequence file: RDB16060_A8Ide.seq |
>D05854A1-2_A8Id_Amp_R_A01_01_ABI08.ab1 1 GCTTTTTTTT CATATTATTG AAGCATTTAT CAGGGTTATT GTCTCATGAG CGGATACATA 61 TTTGAATGTA TTTAGAAAAA TAAACAAATA GGGGTTCCGC GCACATTTCC CCGAAAAGTG 121 CCACCTGCAT AATGAAAGAC CCCACCTGTA GGTTTGGCAA GCTAGCTTAA GTAACGCCAT 181 TTTGCAAGGC ATGGAAAAAT ACATAACTGA GAATAGAAAA GTTCAGATCA AGGTCAGGAA 241 CAGATGGAAC AGCTGAATAT GGGCCAAACA GGATATCTGT GGTAAGCAGT TCCTGCCCCG 301 GCTCAGGGCC AAGAACAGAT GGAACAGCTG AATATGGGCC AAACAGGATA TCTGTGGTAA 361 GCAGTTCCTG CCCCGGCTCA GGGCCAAGAA CAGATGGTCC CCAGATGCGG TCCAGCCCTC 421 AGCAGTTTCT AGAGAACCAT CAGATGTTTC CAGGGTGCCC CAAGGACCTG AAATGACCCT 481 GTGCCTTATT TGAACTAACC AATCAGTTCG CTTCTCGCTT CTGTTCGCGC GCTTCTGCTC 541 CCCGAGCTCA ATAAAAGAGC CCACAACCCC TCACTCGGCG CGCCAGTCCT CCGATTGACT 601 GAGTCGCCCG GGTACCCGTG TATCCAATAA ACCCTCTTGC AGTTGCATCC GACTTGTGGT 661 CTCGCTGTTC CTTGGGAGGG TCTCCTCTGA GTGATTGACT ACCCGTCAGC GGGGGTCTTT 721 CATTTGGGGG CTCGTCCGGG ATCGGGAGAC CCCTGCCCAG GGACCACCGA CCCACCACCG 781 GGAGGTAAGC TGGCCAGCAA CTTATCTGTG TCTGTCCGAT TGTCTAGTGT CTATGACTGA 841 TTTTATGCGC CTGCGTCGGT ACTAGTTAGC TAACTAGCTC TGTATCTGGC GGACCCGTGG 901 TGGAACTGAC GAGTTCGGAA CACCCGGCCG CAACCCTGGG AGACGTCCCA GGGACTTCGG 961 GGGCCGTTTT TGTGGCCCGA CCTGAGTCCA AAAATCCCGA TCGTTTTGAC TCTTTGGGTG 1021 CACCCCCCTA ATAGGAGGGA TATGTGGTTC TGGTAGGAGA CGAGAACCTA AAACAGTTCC 1081 CGCCTCCGTC TGAATTTTTG CTTTCGGTTG GACCGAAGCG CGTCGCGCGA TCCTGGTCTG 1141 GCTGCCAGCC ATCGATTCGT GATGATGGAT CTCCCTGGTT CCTGGA // |
Please visit Sequencing and PCR primers for primer information.
Original, user report and related articles
original | Sumiyoshi, K., Spontaneous development of intratumoral heterogeneity in a transposon-induced mouse model of glioma. Cancer Sci. 109 (5): 1513-1523 (2018). PMID 29575648. |
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2022.05.17
GNP_filter3_RDBDEP_html_220516.pl