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首页    载体及质粒    pIRES2-AcGFP1
1

pIRES2-AcGFP1

pIRES2-AcGFP1
上一个: pBApo-CMV
下一个: pIREShyg3

pIRES2-AcGFP1

 

编号

载体名称

北京华越洋生物VECT6114

pIRES2-AcGFP1

 

pIRES2-AcGFP1载体基本信息

载体名称:

pIRES2-AcGFP1

质粒类型:

哺乳细胞表达载体 双顺反子载体;荧光报告载体

高拷贝/低拷贝:

高拷贝

克隆方法:

多克隆位点,限制性内切酶

启动子:

CMV

载体大小:

5307 bp

5' 测序引物及序列:

--

3' 测序引物及序列:

--

载体标签:

绿色荧光蛋白AcGFP1

载体抗性:

卡那霉素Kanamycin

筛选标记:

Neomycin

备注:

pIRES2-AcGFP1载体含有AcGFP1报告基因,绿色荧光蛋白AcGFP1EGFP相比,亮度更高,细胞毒性更低;
  含内部核糖体结合位点(IRES)元件,目的基因与报告基因以双顺反子的形式转录,分别翻译。

稳定性:

稳表达 瞬表达

组成型/诱导型:

组成型

病毒/非病毒:

非病毒

 

pIRES2-AcGFP1载体质粒图谱和多克隆位点信息

 

pIRES2-AcGFP1载体简介

pIRES2-AcGFP1 contains the internal ribosome entry site (IRES; 1, 2) of the encephalomyocarditis virus (ECMV) between the MCSand theAequorea coerulescens green fluorescent protein (AcGFP1) coding region.This permits both the gene of interest (cloned into the MCS) and the AcGFP1 gene to be translated from a single bicistronic mRNA. pIRES2-AcGFP1 is designed for the efficient selection (by flow cytometry or other methods) of transiently transfected mammalian cells expressing AcGFP1 and the protein of interest.This vector can also be used to express AcGFP1 alone or to obtain stably transfected cell lines without time-consuming drug and clonal selection.AcGFP1 is a green fluorescent protein (GFP) from Aequorea coerulescens. (Excitation maximum = 475 nm; emission maximum = 505 nm). AcGFP1 contains silent mutations that create an open reading frame comprised almost entirely of preferred human codons. These changes increase the translational efficiency of the AcGFP1 mRNA and consequently the expression of AcGFP1 in mammalian and plant cells.

The MCS in pIRES2-AcGFP1 is between the immediate early promoter of cytomegalovirus (PCMVIE) and the IRES sequence. Additional features include SV40 polyadenylation signals downstream of the AcGFP1 gene to direct proper processing of the 3' end of the bicistronic mRNA. The vector backbone also contains an SV40 origin for replication in mammalian cells expressing the SV40T antigen. A neomycin-resistance cassette (Neor), consisting of the SV40 early promoter, the neomycin/kanamycin resistance gene of Tn5, and polyadenylation signals from the herpes simplex virus thymidine kinase (HSV TK) gene, allows stably transfected eukaryotic cells to be selected using G418 (3). A bacterial promoter upstream of this cassette expresses kanamycin resistance in E. coli. The pIRES2-AcGFP1 backbone also provides a pUC origin of replication for propagation in E. coli and an f1 origin for single-stranded DNA production.

 

pIRES2-AcGFP1载体序列

ORIGIN

    1 TAGTTATTAA TAGTAATCAA TTACGGGGTC ATTAGTTCAT AGCCCATATA TGGAGTTCCG

   61 CGTTACATAA CTTACGGTAA ATGGCCCGCC TGGCTGACCG CCCAACGACC CCCGCCCATT

  121 GACGTCAATA ATGACGTATG TTCCCATAGT AACGCCAATA GGGACTTTCC ATTGACGTCA

  181 ATGGGTGGAG TATTTACGGT AAACTGCCCA CTTGGCAGTA CATCAAGTGT ATCATATGCC

  241 AAGTACGCCC CCTATTGACG TCAATGACGG TAAATGGCCC GCCTGGCATT ATGCCCAGTA

  301 CATGACCTTA TGGGACTTTC CTACTTGGCA GTACATCTAC GTATTAGTCA TCGCTATTAC

  361 CATGGTGATG CGGTTTTGGC AGTACATCAA TGGGCGTGGA TAGCGGTTTG ACTCACGGGG

  421 ATTTCCAAGT CTCCACCCCA TTGACGTCAA TGGGAGTTTG TTTTGGCACC AAAATCAACG

  481 GGACTTTCCA AAATGTCGTA ACAACTCCGC CCCATTGACG CAAATGGGCG GTAGGCGTGT

  541 ACGGTGGGAG GTCTATATAA GCAGAGCTGG TTTAGTGAAC CGTCAGATCC GCTAGCGCTA

  601 CCGGACTCAG ATCTCGAGCT CAAGCTTCGA ATTCTGCAGT CGACGGTACC GCGGGCCCGG

  661 GATCCGCCCC TCTCCCTCCC CCCCCCCTAA CGTTACTGGC CGAAGCCGCT TGGAATAAGG

  721 CCGGTGTGCG TTTGTCTATA TGTTATTTTC CACCATATTG CCGTCTTTTG GCAATGTGAG

  781 GGCCCGGAAA CCTGGCCCTG TCTTCTTGAC GAGCATTCCT AGGGGTCTTT CCCCTCTCGC

  841 CAAAGGAATG CAAGGTCTGT TGAATGTCGT GAAGGAAGCA GTTCCTCTGG AAGCTTCTTG

  901 AAGACAAACA ACGTCTGTAG CGACCCTTTG CAGGCAGCGG AACCCCCCAC CTGGCGACAG

  961 GTGCCTCTGC GGCCAAAAGC CACGTGTATA AGATACACCT GCAAAGGCGG CACAACCCCA

 1021 GTGCCACGTT GTGAGTTGGA TAGTTGTGGA AAGAGTCAAA TGGCTCTCCT CAAGCGTATT

 1081 CAACAAGGGG CTGAAGGATG CCCAGAAGGT ACCCCATTGT ATGGGATCTG ATCTGGGGCC

 1141 TCGGTACACA TGCTTTACAT GTGTTTAGTC GAGGTTAAAA AAACGTCTAG GCCCCCCGAA

 1201 CCACGGGGAC GTGGTTTTCC TTTGAAAAAC ACGATGATAA TATGGCCACA ACCATGGTGA

 1261 GCAAGGGCGC CGAGCTGTTC ACCGGCATCG TGCCCATCCT GATCGAGCTG AATGGCGATG

 1321 TGAATGGCCA CAAGTTCAGC GTGAGCGGCG AGGGCGAGGG CGATGCCACC TACGGCAAGC

 1381 TGACCCTGAA GTTCATCTGC ACCACCGGCA AGCTGCCTGT GCCCTGGCCC ACCCTGGTGA

 1441 CCACCCTGAG CTACGGCGTG CAGTGCTTCT CACGCTACCC CGATCACATG AAGCAGCACG

 1501 ACTTCTTCAA GAGCGCCATG CCTGAGGGCT ACATCCAGGA GCGCACCATC TTCTTCGAGG

 1561 ATGACGGCAA CTACAAGTCG CGCGCCGAGG TGAAGTTCGA GGGCGATACC CTGGTGAATC

 1621 GCATCGAGCT GACCGGCACC GATTTCAAGG AGGATGGCAA CATCCTGGGC AATAAGATGG

 1681 AGTACAACTA CAACGCCCAC AATGTGTACA TCATGACCGA CAAGGCCAAG AATGGCATCA

 1741 AGGTGAACTT CAAGATCCGC CACAACATCG AGGATGGCAG CGTGCAGCTG GCCGACCACT

 1801 ACCAGCAGAA TACCCCCATC GGCGATGGCC CTGTGCTGCT GCCCGATAAC CACTACCTGT

 1861 CCACCCAGAG CGCCCTGTCC AAGGACCCCA ACGAGAAGCG CGATCACATG ATCTACTTCG

 1921 GCTTCGTGAC CGCCGCCGCC ATCACCCACG GCATGGATGA GCTGTACAAG TGAGCGGCCG

 1981 CGACTCTAGA TCATAATCAG CCATACCACA TTTGTAGAGG TTTTACTTGC TTTAAAAAAC

 2041 CTCCCACACC TCCCCCTGAA CCTGAAACAT AAAATGAATG CAATTGTTGT TGTTAACTTG

 2101 TTTATTGCAG CTTATAATGG TTACAAATAA AGCAATAGCA TCACAAATTT CACAAATAAA

 2161 GCATTTTTTT CACTGCATTC TAGTTGTGGT TTGTCCAAAC TCATCAATGT ATCTTAAGGC

 2221 GTAAATTGTA AGCGTTAATA TTTTGTTAAA ATTCGCGTTA AATTTTTGTT AAATCAGCTC

 2281 ATTTTTTAAC CAATAGGCCG AAATCGGCAA AATCCCTTAT AAATCAAAAG AATAGACCGA

 2341 GATAGGGTTG AGTGTTGTTC CAGTTTGGAA CAAGAGTCCA CTATTAAAGA ACGTGGACTC

 2401 CAACGTCAAA GGGCGAAAAA CCGTCTATCA GGGCGATGGC CCACTACGTG AACCATCACC

 2461 CTAATCAAGT TTTTTGGGGT CGAGGTGCCG TAAAGCACTA AATCGGAACC CTAAAGGGAG

 2521 CCCCCGATTT AGAGCTTGAC GGGGAAAGCC GGCGAACGTG GCGAGAAAGG AAGGGAAGAA

 2581 AGCGAAAGGA GCGGGCGCTA GGGCGCTGGC AAGTGTAGCG GTCACGCTGC GCGTAACCAC

 2641 CACACCCGCC GCGCTTAATG CGCCGCTACA GGGCGCGTCA GGTGGCACTT TTCGGGGAAA

 2701 TGTGCGCGGA ACCCCTATTT GTTTATTTTT CTAAATACAT TCAAATATGT ATCCGCTCAT

 2761 GAGACAATAA CCCTGATAAA TGCTTCAATA ATATTGAAAA AGGAAGAGTC CTGAGGCGGA

 2821 AAGAACCAGC TGTGGAATGT GTGTCAGTTA GGGTGTGGAA AGTCCCCAGG CTCCCCAGCA

 2881 GGCAGAAGTA TGCAAAGCAT GCATCTCAAT TAGTCAGCAA CCAGGTGTGG AAAGTCCCCA

 2941 GGCTCCCCAG CAGGCAGAAG TATGCAAAGC ATGCATCTCA ATTAGTCAGC AACCATAGTC

 3001 CCGCCCCTAA CTCCGCCCAT CCCGCCCCTA ACTCCGCCCA GTTCCGCCCA TTCTCCGCCC

 3061 CATGGCTGAC TAATTTTTTT TATTTATGCA GAGGCCGAGG CCGCCTCGGC CTCTGAGCTA

 3121 TTCCAGAAGT AGTGAGGAGG CTTTTTTGGA GGCCTAGGCT TTTGCAAAGA TCGATCAAGA

 3181 GACAGGATGA GGATCGTTTC GCATGATTGA ACAAGATGGA TTGCACGCAG GTTCTCCGGC

 3241 CGCTTGGGTG GAGAGGCTAT TCGGCTATGA CTGGGCACAA CAGACAATCG GCTGCTCTGA

 3301 TGCCGCCGTG TTCCGGCTGT CAGCGCAGGG GCGCCCGGTT CTTTTTGTCA AGACCGACCT

 3361 GTCCGGTGCC CTGAATGAAC TGCAAGACGA GGCAGCGCGG CTATCGTGGC TGGCCACGAC

 3421 GGGCGTTCCT TGCGCAGCTG TGCTCGACGT TGTCACTGAA GCGGGAAGGG ACTGGCTGCT

 3481 ATTGGGCGAA GTGCCGGGGC AGGATCTCCT GTCATCTCAC CTTGCTCCTG CCGAGAAAGT

 3541 ATCCATCATG GCTGATGCAA TGCGGCGGCT GCATACGCTT GATCCGGCTA CCTGCCCATT

 3601 CGACCACCAA GCGAAACATC GCATCGAGCG AGCACGTACT CGGATGGAAG CCGGTCTTGT

 3661 CGATCAGGAT GATCTGGACG AAGAGCATCA GGGGCTCGCG CCAGCCGAAC TGTTCGCCAG

 3721 GCTCAAGGCG AGCATGCCCG ACGGCGAGGA TCTCGTCGTG ACCCATGGCG ATGCCTGCTT

 3781 GCCGAATATC ATGGTGGAAA ATGGCCGCTT TTCTGGATTC ATCGACTGTG GCCGGCTGGG

 3841 TGTGGCGGAC CGCTATCAGG ACATAGCGTT GGCTACCCGT GATATTGCTG AAGAGCTTGG

 3901 CGGCGAATGG GCTGACCGCT TCCTCGTGCT TTACGGTATC GCCGCTCCCG ATTCGCAGCG

 3961 CATCGCCTTC TATCGCCTTC TTGACGAGTT CTTCTGAGCG GGACTCTGGG GTTCGAAATG

 4021 ACCGACCAAG CGACGCCCAA CCTGCCATCA CGAGATTTCG ATTCCACCGC CGCCTTCTAT

 4081 GAAAGGTTGG GCTTCGGAAT CGTTTTCCGG GACGCCGGCT GGATGATCCT CCAGCGCGGG

 4141 GATCTCATGC TGGAGTTCTT CGCCCACCCT AGGGGGAGGC TAACTGAAAC ACGGAAGGAG

 4201 ACAATACCGG AAGGAACCCG CGCTATGACG GCAATAAAAA GACAGAATAA AACGCACGGT

 4261 GTTGGGTCGT TTGTTCATAA ACGCGGGGTT CGGTCCCAGG GCTGGCACTC TGTCGATACC

 4321 CCACCGAGAC CCCATTGGGG CCAATACGCC CGCGTTTCTT CCTTTTCCCC ACCCCACCCC

 4381 CCAAGTTCGG GTGAAGGCCC AGGGCTCGCA GCCAACGTCG GGGCGGCAGG CCCTGCCATA

 4441 GCCTCAGGTT ACTCATATAT ACTTTAGATT GATTTAAAAC TTCATTTTTA ATTTAAAAGG

 4501 ATCTAGGTGA AGATCCTTTT TGATAATCTC ATGACCAAAA TCCCTTAACG TGAGTTTTCG

 4561 TTCCACTGAG CGTCAGACCC CGTAGAAAAG ATCAAAGGAT CTTCTTGAGA TCCTTTTTTT

 4621 CTGCGCGTAA TCTGCTGCTT GCAAACAAAA AAACCACCGC TACCAGCGGT GGTTTGTTTG

 4681 CCGGATCAAG AGCTACCAAC TCTTTTTCCG AAGGTAACTG GCTTCAGCAG AGCGCAGATA

 4741 CCAAATACTG TTCTTCTAGT GTAGCCGTAG TTAGGCCACC ACTTCAAGAA CTCTGTAGCA

 4801 CCGCCTACAT ACCTCGCTCT GCTAATCCTG TTACCAGTGG CTGCTGCCAG TGGCGATAAG

 4861 TCGTGTCTTA CCGGGTTGGA CTCAAGACGA TAGTTACCGG ATAAGGCGCA GCGGTCGGGC

 4921 TGAACGGGGG GTTCGTGCAC ACAGCCCAGC TTGGAGCGAA CGACCTACAC CGAACTGAGA

 4981 TACCTACAGC GTGAGCTATG AGAAAGCGCC ACGCTTCCCG AAGGGAGAAA GGCGGACAGG

 5041 TATCCGGTAA GCGGCAGGGT CGGAACAGGA GAGCGCACGA GGGAGCTTCC AGGGGGAAAC

 5101 GCCTGGTATC TTTATAGTCC TGTCGGGTTT CGCCACCTCT GACTTGAGCG TCGATTTTTG

 5161 TGATGCTCGT CAGGGGGGCG GAGCCTATGG AAAAACGCCA GCAACGCGGC CTTTTTACGG

 5221 TTCCTGGCCT TTTGCTGGCC TTTTGCTCAC ATGTTCTTTC CTGCGTTATC CCCTGATTCT

 5281 GTGGATAACC GTATTACCGC CATGCAT

//

 

其他哺乳动物表达载体:

pEBVHis   A

pcDNA5/TO

pDsRed2-Bid

pNFκB-MetLuc2-Reporter

pGL4.10

pBApo-CMV-neo

pAcGFP1-N1

pEF1α-IRES-DsRed-Express2

pGL4.29

pDsRed-Monomer

pSecTag2   A

pCMV-DsRed-Express2

pGL4.13

pIRES

pGL4.27

pcDNA3.1/NT-GFP-TOPO

pG5   luciferase

pIRES-hrGFP-1a

pGL4.26

pEF1α-IRES-ZsGreen1

pCMV-AD

pDsRed-Express2-N1

pACT

pCMV-Tag   2A

pRevTet-Off

pCMV-Tag   3B

pBIND-Id   Control

pCMV-Tag   5B

pTet-Off

pCRE-hrGFP

pTRE2

pAcGFP1-C   In-Fusion Ready

pTRE2-hygro

pDsRED2-Mito

pRevTRE

p3XFLAG-CMV-14

pVgRxR

pAcGFP1-F

pTK-hyg

p3XFLAG-CMV-8

pOPI3CAT

pAcGFP1-C1

pTRE3G-Luc

pFLAG-CMV-2

pBK-RSV

pAsRed2-C1

pSwitch

pcDNA3.3-TOPO

pIRES2-DsRed2

pAsRed2-N1

pcDNA4/His   C

pcDNA6.2/cLumio-DEST

pCMV-Myc

pAcGFP1-Lam

c-Flag   pcDNA3

pCMV-tdTomato

pCMV-Tag   2C

pAcGFP1-C

pcDNA4/TO/Myc-His   A

pAcGFP1-Mito

pCMV-Tag   5A

pSEAP2-Basic

pcDNA6/myc-His   B

pAcGFP1-N   In-Fusion Ready

pCMV-Tag   3C

pBI-CMV3

pcDNA6/V5-His   B

pDsRed-Monomer-N   In-Fusion Ready

p3XFLAG-CMV-7

pNFkB-DD-tdTomato

pcDNA6.2/nTC-Tag-DEST

pcDNA4/TO/Myc-His   B

p3XFLAG-CMV-9

pcDNA3.1/His   A

pOptiVEC-TOPO

pIRES2-EGFP

pFLAG-CMV-4

pEBVHis   B

pcDNA5/FRT

pcDNA3.1/His   C

pBI-CMV4

pGL4.75

pGL4.30

pcDNA3.1/CT-GFP-TOPO

pcDNA4/His   A

pGL4.20

pGL4.19

pEF1α-IRES-AcGFP1

pcDNA4/myc-His   B

pCMV-SPORT6

pACT-MyoD

pcDNA3.2/V5/GW/D-TOPO

pcDNA4/HisMax   C

pCMV-SPORT6

pCMV-BD

pcDNA4/TO/Myc-His/LacZ

pCMV-Tag   4A

pBIND

pCMV-Tet3G

pcDNA4/HisMax-TOPO

pcDNA6/myc-His   C

pBD-NF-κB

pTet   on advanced

p3XFLAG-CMV-13

pCMV-Tag   2B

pRevTet-On

pTRE-Tight

p3xFLAG-CMV-10

pGRN145

pTet-On

pIND

pFLAG-CMV-3

pCMV-MEK1

pTRE3G

pGene/V5-His   B

pcDNA4/TO/Myc-His   C

pCMV-Tag   3A

pcDNA4/TO

pOPRSVI

pcDNA6.2/C-YFP-DEST

pCMVLacI

pcDNA4/His   B

pcDNA4/HisMax   A

pcDNA6.2/cTC-Tag-DEST

pBI-CMV1

pcDNA4/HisMax   B

pIRESpuro3

pcDNA6.2/nGeneBLAzer-DEST

pEF1α-AcGFP1-N1

pcDNA4/myc-His   C

pIRESneo3

pCRE-MetLuc2-Reporter

pCMV-LacZ

pcDNA3.1/His   B

pIRESneo2

pEF1α-DsRed-Express2

pCMV-Tag   4B

pcDNA6/V5-His   C

pcDNA4/myc-His   A

pDsRed-Express-C1

pCMV-Tag   5C

pCHO1.0

pCMV-PKA

pEF1α-DsRed-Monomer-N1

plRES2-ZsGreen1

pGL3-Promoter

pAcGFP1-N3

pDD-AmCyan1   Reporter

p3XFLAG-CMV-7.1

pCMV-MEKK1

pcDNA5/FRT/TO

pCRE-DD-AmCyan1

pFLAG-CMV-5a

pFLAG-CMV2

pBApo-CMV-Pur

pIRES2-DsRed-Express2

pBudCE4.1

pAcGFP1-C2

pBApo-EF1α-pur

pDsRed-Express-N1

pREP4

ptdTomato-C1

ptdTomato-N1

pcDNA6.2/nLumio-DEST

pBApo-CMV

pCRE-DD-tdTomato

pAcGFP1-Golgi

pcDNA6/myc-His   A

pIRES2-AcGFP1

pAcGFP1-Hyg-C1

pAcGFP1-p53

pcDNA6/V5-His   A

pIREShyg3

pAcGFP1-Mem

pAcGFP1-Actin

pcDNA5/FRT/TO-TOPO

pcDNA6/TR

pAcGFP1-C3

pBI-CMV2

pcDNA6.2/V5/GW/D-TOPO

pDsRed-Express2-C1

pTT5

pEF1α-tdTomato

pcDNA6.2/cGeneBLAzer-DEST

pBI-CMV5

pSEAP2-Control

pEF1α-tdTomato

pcDNA6.2/nGeneBLAzer-GW/D-TOPO

pAmCyan1-C1

pSEAP2-Control




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