| 出品公司: | Clontech |
|---|---|
| 载体名称: | pDsRed-Express-DR |
| 质粒类型: | 无启动子载体;荧光报告载体 |
| 高拷贝/低拷贝: | 高拷贝 |
| 克隆方法: | 限制性内切酶,多克隆位点 |
| 启动子: | 无启动子 |
| 载体大小: | 4240 bp |
| 5' 测序引物及序列: | 5'd[GTACTGGAACTGGGGGGACAG] |
| 3' 测序引物及序列: | -- |
| 载体标签: | 红色荧光蛋白DsRed-Express-DR |
| 载体抗性: | 卡那霉素 |
| 筛选标记: | 新霉素(Neomycin) |
| 克隆菌株: | TOP10, DH5α, HB101 |
| 宿主细胞(系): | 真核细胞 |
| 备注: |
pDsRed-Express-DR载体不含启动子,将待研究的目的启动子插入MCS区,用于研究启动子及顺式转录元件在细胞内的作用水平; DsRed-Express-DR与DsRed-Express相比,半衰期短,适用于需要报告基因逆转速度快的研究领域。 |
| 产品目录号: | 632423 |
| 稳定性: | 瞬表达 或 稳表达 |
| 组成型/诱导型: | -- |
| 病毒/非病毒: | 非病毒 |
买家导航
pDsRed-Express-DR载体质粒基本信息
pDsRed-Express-DR质粒图谱载体图谱和pDsRed-Express-DR载体序列质粒序列多克隆位点信息
pDsRed-Express-DR质粒载体简介
pDsRed-Express-DR载体描述
pDsRed-Express-DR is a promoterless vector that encodes DsRed-Express-DR, a destabilized variant of Discosoma sp. red fluorescent protein (DsRed). In contrast to the original protein, which is extremely stable, DsRed-Express-DR has a short half-life, making it well suited for studies that require rapid reporter turnover. Though its geneology can be traced to wild-type DsRed (1), DsRed-Express-DR is directly derived from DsRed-Express, a DsRed variant engineered for rapid fluorescence development (2, 3). DsRed-Express contains nine amino acid substitutions (listed on page 2), which improve the protein’s solubility and decrease the time from transfection to detection of red fluorescence (2). The substitutions also reduce the level of residual green emission (2). The destabilized variant, DsRed-Express-DR, was constructed by fusing the C-terminus of the protein to amino acid residues 422–461 of mouse ornithine decarboxylase (MODC), one of the most shortlived proteins in mammalian cells (4). This region of MODC contains a PEST sequence that targets the protein for degradation, resulting in rapid protein turnover (4, 5). The DsRed-Express-DR gene is human codon-optimized for high expression in mammalian cells (6), and sequences upstream of the gene have been converted to a Kozak consensus translation initiation site (7) to enhance translation efficiency in eukaryotic cells.
pDsRed-Express-DR can be used to monitor transcription from different promoters and promoter/ enhancer combinations inserted into the multiple cloning site (MCS), located upstream of the DsRed-Express-DR coding sequence. SV40 polyadenylation signals downstream of the DsRed- Express-DR gene direct proper processing of the 3' end of the DsRed-Express-DR mRNA. The vector backbone contains an SV40 origin for replication in mammalian cells expressing the SV40 large T antigen, a pUC origin of replication for propagation in E. coli, and an f1 origin for single-stranded DNA production. A neomycin-resistance cassette (Neor) allows stably transfected eukaryotic cells to be selected using G418. This cassette consists 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. A bacterial promoter upstream of the cassette expresses kanamycin resistance in E. coli.
DsRed-Express-DR can be used as an in vivo reporter of gene expression. Because of its rapid turnover rate, its expression from a promoter of interest provides a more accurate assessment of the promoter's activity over time than does the more stable DsRed-Express. Promoter/enhancer elements should be inserted into the MCS upstream of the DsRed-Express-DR coding sequence. Without the addition of a functional promoter, this vector will not express DsRed-Express-DR. The recombinant pDsRed-Express-DR vector can be transfected into mammalian cells using any standard transfection method. If required, stable transformants can be selected using G418 (8).
pDsRed-Express-DR载体含有以下元件:
MCS: 12–89
Destabilized Discosoma sp. Red Fluorescent Protein (DsRed-Express-DR) gene
Kozak consensus translation initiation site: 90–100
Start codon (ATG): 97–99; Stop codon: 904–906
CGC→GCC (Arg-2 to Ala) mutation: 100–102
AAG→GAG (Lys-5 to Glu) mutation: 109–111
AAC→GAC (Asn-6 to Asp) mutation: 112–114
ACC→TCC (Thr-21 to Ser) mutation: 157–159
CAC→ACC (His-41 to Thr) mutation: 217–219
AAC→CAG (Asn-42 to Gln) mutation: 220–222
GTG→GCC (Val-44 to Ala) mutation: 226–228
TGC→TCC (Cys-117 to Ser) mutation: 445–447
ACC→GCC (Thr-217 to Ala) mutation: 745–747
Mouse ornithine decarboxylase PEST sequence: 784–906
SV40 early mRNA polyadenylation signal
Polyadenylation signals: 1059–1064 & 1088–1093
mRNA 3' ends: 1097 & 1109
f1 single-strand DNA origin: 1156–1611
(Packages noncoding strand of DsRed-Express-DR.)
Ampicillin resistance (β-lactamase) promoter
–35 region: 1673–1678; –10 region: 1696–1701
Transcription start point: 1708
SV40 origin of replication: 1952–2087
SV40 early promoter
Enhancer (72-bp tandem repeats): 1783–1856 & 1857–1928
21-bp repeats: 1932–1952, 1953–1973 & 1975–1995
Early promoter element: 2008–2014
Major transcription start points: 2004, 2042, 2048 & 2053
Kanamycin/neomycin resistance gene
Neomycin phosphotransferase coding sequences:
Start codon (ATG): 2136–2138; stop codon: 2928–2930
G→A mutation to remove Pst I site: 2318
C→A (Arg→Ser) mutation to remove BssH II site: 2664
Herpes simplex virus (HSV) thymidine kinase (TK) polyadenylation signal
Polyadenylation signals: 3166–3171 & 3179–3184
pUC plasmid replication origin: 3515–4158
Propagation in E. Coli
Suitable host strains: DH5α, HB101 and other general purpose strains. Single-stranded DNA production requires
a host containing an F plasmid such as JM109 or XL1-Blue.
Selectable marker: plasmid confers resistance to kanamycin (50 μg/ml) to E. coli hosts.
E. coli replication origin: pUC
Copy number: ~500
Plasmid incompatibility group: pMB1/Col E1
Excitation and emission maxima of DsRed-Express
Excitation maximum = 557 nm
Emission maximum = 579 nm
pDsRed-Express-DR质粒序列载体序列
LOCUS pDsREd-Express-DR 4240 bp DNA SYN
DEFINITION pDsREd-Express-DR
ACCESSION
KEYWORDS
SOURCE
ORGANISM other sequences; artificial sequences; vectors.
FEATURES Location/Qualifiers
source 1..4240
/organism="pDsREd-Express-DR"
/mol_type="other DNA"
CDS complement(25..789)
/label="ORF frame 2"
/translation="MADITSQEQVVAALGALVLLHDGVVLVVGGDVQLGVHVVVAGQL
HGLLGHVDGLELHQVVAAVLQLQGLVDLALQHAVAGVQALGGGLPAHSLLLHYGAVGG
EVHADELHLVDEGAVLQGGVLGHGHHAAVLEVHHALPLEALGEGQLLVVGDVGGVLHV
HLGAVLELGGQDVPGEGQGAALGHLQLGGLGALVGAALALALDLELVAVHGALHAHLE
AHELLDDVLGGGHGGDRWIPGPRYRRLQNSKLELEI*"
CDS 97..906
/label="ORF frame 1"
/translation="MASSEDVIKEFMRFKVRMEGSVNGHEFEIEGEGEGRPYEGTQTA
KLKVTKGGPLPFAWDILSPQFQYGSKVYVKHPADIPDYKKLSFPEGFKWERVMNFEDG
GVVTVTQDSSLQDGSFIYKVKFIGVNFPSDGPVMQKKTMGWEASTERLYPRDGVLKGE
IHKALKLKDGGHYLVEFKSIYMAKKPVQLPGYYYVDSKLDITSHNEDYTIVEQYERAE
GRHHLFLTSDISHGFPPAVAAQDDGTLPMSCAQESGMDRHPAACASARINV*"
gene 100..771
/label="DsRed_Express"
/gene="DsRed_Express"
/translation="MASSEDVIKEFMRFKVRMEGSVNGHEFEIEGEGEGRPYEGTQTA
KLKVTKGGPLPFAWDILSPQFQYGSKVYVKHPADIPDYKKLSFPEGFKWERVMNFEDG
GVVTVTQDSSLQDGSFIYKVKFIGVNFPSDGPVMQKKTMGWEASTERLYPRDGVLKGE
IHKALKLKDGGHYLVEFKSIYMAKKPVQLPGYYYVDSKLDITSHNEDYTIVEQYERAE
GRHHLFLTSDISHGFPPAVAAQDDGTLPMSCAQESGMDRHPAACASARINV*"
misc_feature complement(277..297)
/label="dsRed1_N_primer"
/translation="MASSEDVIKEFMRFKVRMEGSVNGHEFEIEGEGEGRPYEGTQTA
KLKVTKGGPLPFAWDILSPQFQYGSKVYVKHPADIPDYKKLSFPEGFKWERVMNFEDG
GVVTVTQDSSLQDGSFIYKVKFIGVNFPSDGPVMQKKTMGWEASTERLYPRDGVLKGE
IHKALKLKDGGHYLVEFKSIYMAKKPVQLPGYYYVDSKLDITSHNEDYTIVEQYERAE
GRHHLFLTSDISHGFPPAVAAQDDGTLPMSCAQESGMDRHPAACASARINV*"
misc_feature 689..712
/label="dsRed1_C_primer"
/translation="MASSEDVIKEFMRFKVRMEGSVNGHEFEIEGEGEGRPYEGTQTA
KLKVTKGGPLPFAWDILSPQFQYGSKVYVKHPADIPDYKKLSFPEGFKWERVMNFEDG
GVVTVTQDSSLQDGSFIYKVKFIGVNFPSDGPVMQKKTMGWEASTERLYPRDGVLKGE
IHKALKLKDGGHYLVEFKSIYMAKKPVQLPGYYYVDSKLDITSHNEDYTIVEQYERAE
GRHHLFLTSDISHGFPPAVAAQDDGTLPMSCAQESGMDRHPAACASARINV*"
misc_feature 1119..1138
/label="EBV_rev_primer"
/translation="MASSEDVIKEFMRFKVRMEGSVNGHEFEIEGEGEGRPYEGTQTA
KLKVTKGGPLPFAWDILSPQFQYGSKVYVKHPADIPDYKKLSFPEGFKWERVMNFEDG
GVVTVTQDSSLQDGSFIYKVKFIGVNFPSDGPVMQKKTMGWEASTERLYPRDGVLKGE
IHKALKLKDGGHYLVEFKSIYMAKKPVQLPGYYYVDSKLDITSHNEDYTIVEQYERAE
GRHHLFLTSDISHGFPPAVAAQDDGTLPMSCAQESGMDRHPAACASARINV*"
rep_origin complement(1288..1594)
/label="f1_origin"
/translation="MASSEDVIKEFMRFKVRMEGSVNGHEFEIEGEGEGRPYEGTQTA
KLKVTKGGPLPFAWDILSPQFQYGSKVYVKHPADIPDYKKLSFPEGFKWERVMNFEDG
GVVTVTQDSSLQDGSFIYKVKFIGVNFPSDGPVMQKKTMGWEASTERLYPRDGVLKGE
IHKALKLKDGGHYLVEFKSIYMAKKPVQLPGYYYVDSKLDITSHNEDYTIVEQYERAE
GRHHLFLTSDISHGFPPAVAAQDDGTLPMSCAQESGMDRHPAACASARINV*"
promoter 1673..1701
/label="AmpR_promoter"
/translation="MASSEDVIKEFMRFKVRMEGSVNGHEFEIEGEGEGRPYEGTQTA
KLKVTKGGPLPFAWDILSPQFQYGSKVYVKHPADIPDYKKLSFPEGFKWERVMNFEDG
GVVTVTQDSSLQDGSFIYKVKFIGVNFPSDGPVMQKKTMGWEASTERLYPRDGVLKGE
IHKALKLKDGGHYLVEFKSIYMAKKPVQLPGYYYVDSKLDITSHNEDYTIVEQYERAE
GRHHLFLTSDISHGFPPAVAAQDDGTLPMSCAQESGMDRHPAACASARINV*"
misc_feature complement(1767..1787)
/label="pBABE_3_primer"
/translation="MASSEDVIKEFMRFKVRMEGSVNGHEFEIEGEGEGRPYEGTQTA
KLKVTKGGPLPFAWDILSPQFQYGSKVYVKHPADIPDYKKLSFPEGFKWERVMNFEDG
GVVTVTQDSSLQDGSFIYKVKFIGVNFPSDGPVMQKKTMGWEASTERLYPRDGVLKGE
IHKALKLKDGGHYLVEFKSIYMAKKPVQLPGYYYVDSKLDITSHNEDYTIVEQYERAE
GRHHLFLTSDISHGFPPAVAAQDDGTLPMSCAQESGMDRHPAACASARINV*"
misc_feature complement(1773..1988)
/label="SV40_enhancer"
/translation="MASSEDVIKEFMRFKVRMEGSVNGHEFEIEGEGEGRPYEGTQTA
KLKVTKGGPLPFAWDILSPQFQYGSKVYVKHPADIPDYKKLSFPEGFKWERVMNFEDG
GVVTVTQDSSLQDGSFIYKVKFIGVNFPSDGPVMQKKTMGWEASTERLYPRDGVLKGE
IHKALKLKDGGHYLVEFKSIYMAKKPVQLPGYYYVDSKLDITSHNEDYTIVEQYERAE
GRHHLFLTSDISHGFPPAVAAQDDGTLPMSCAQESGMDRHPAACASARINV*"
promoter 1785..2053
/label="SV40_promoter"
/translation="MASSEDVIKEFMRFKVRMEGSVNGHEFEIEGEGEGRPYEGTQTA
KLKVTKGGPLPFAWDILSPQFQYGSKVYVKHPADIPDYKKLSFPEGFKWERVMNFEDG
GVVTVTQDSSLQDGSFIYKVKFIGVNFPSDGPVMQKKTMGWEASTERLYPRDGVLKGE
IHKALKLKDGGHYLVEFKSIYMAKKPVQLPGYYYVDSKLDITSHNEDYTIVEQYERAE
GRHHLFLTSDISHGFPPAVAAQDDGTLPMSCAQESGMDRHPAACASARINV*"
rep_origin 1952..2029
/label="SV40_origin"
/translation="MASSEDVIKEFMRFKVRMEGSVNGHEFEIEGEGEGRPYEGTQTA
KLKVTKGGPLPFAWDILSPQFQYGSKVYVKHPADIPDYKKLSFPEGFKWERVMNFEDG
GVVTVTQDSSLQDGSFIYKVKFIGVNFPSDGPVMQKKTMGWEASTERLYPRDGVLKGE
IHKALKLKDGGHYLVEFKSIYMAKKPVQLPGYYYVDSKLDITSHNEDYTIVEQYERAE
GRHHLFLTSDISHGFPPAVAAQDDGTLPMSCAQESGMDRHPAACASARINV*"
misc_feature 2014..2033
/label="SV40pro_F_primer"
/translation="MASSEDVIKEFMRFKVRMEGSVNGHEFEIEGEGEGRPYEGTQTA
KLKVTKGGPLPFAWDILSPQFQYGSKVYVKHPADIPDYKKLSFPEGFKWERVMNFEDG
GVVTVTQDSSLQDGSFIYKVKFIGVNFPSDGPVMQKKTMGWEASTERLYPRDGVLKGE
IHKALKLKDGGHYLVEFKSIYMAKKPVQLPGYYYVDSKLDITSHNEDYTIVEQYERAE
GRHHLFLTSDISHGFPPAVAAQDDGTLPMSCAQESGMDRHPAACASARINV*"
CDS 2136..2930
/label="ORF frame 3"
/translation="MIEQDGLHAGSPAAWVERLFGYDWAQQTIGCSDAAVFRLSAQGR
PVLFVKTDLSGALNELQDEAARLSWLATTGVPCAAVLDVVTEAGRDWLLLGEVPGQDL
LSSHLAPAEKVSIMADAMRRLHTLDPATCPFDHQAKHRIERARTRMEAGLVDQDDLDE
EHQGLAPAELFARLKASMPDGEDLVVTHGDACLPNIMVENGRFSGFIDCGRLGVADRY
QDIALATRDIAEELGGEWADRFLVLYGIAAPDSQRIAFYRLLDEFF*"
gene 2139..2927
/label="NeoR/KanR"
/gene="NeoR/KanR"
/translation="MIEQDGLHAGSPAAWVERLFGYDWAQQTIGCSDAAVFRLSAQGR
PVLFVKTDLSGALNELQDEAARLSWLATTGVPCAAVLDVVTEAGRDWLLLGEVPGQDL
LSSHLAPAEKVSIMADAMRRLHTLDPATCPFDHQAKHRIERARTRMEAGLVDQDDLDE
EHQGLAPAELFARLKASMPDGEDLVVTHGDACLPNIMVENGRFSGFIDCGRLGVADRY
QDIALATRDIAEELGGEWADRFLVLYGIAAPDSQRIAFYRLLDEFF*"
CDS complement(2445..2981)
/label="ORF frame 3"
/translation="MAGWASLGRSFRTPESRSEELVKKAIEGDALRIGSGDTVKHEEA
VSPFAAKLFSNITGSQRYVLIAVRHTQPATVDESRKAAIFHHDIRQAGIAMGHDEILA
VGHARLEPGEQFGWREPLMLFVQIILIDKTGFHPSTCSLDAMFRLVVEWAGSRIKRMQ
PPHCISHDGYFLGRSKVR*"
terminator 3105..3374
/label="TK_PA_terminator"
/translation="MAGWASLGRSFRTPESRSEELVKKAIEGDALRIGSGDTVKHEEA
VSPFAAKLFSNITGSQRYVLIAVRHTQPATVDESRKAAIFHHDIRQAGIAMGHDEILA
VGHARLEPGEQFGWREPLMLFVQIILIDKTGFHPSTCSLDAMFRLVVEWAGSRIKRMQ
PPHCISHDGYFLGRSKVR*"
rep_origin 3522..4141
/label="pBR322_origin"
/translation="MAGWASLGRSFRTPESRSEELVKKAIEGDALRIGSGDTVKHEEA
VSPFAAKLFSNITGSQRYVLIAVRHTQPATVDESRKAAIFHHDIRQAGIAMGHDEILA
VGHARLEPGEQFGWREPLMLFVQIILIDKTGFHPSTCSLDAMFRLVVEWAGSRIKRMQ
PPHCISHDGYFLGRSKVR*"
ORIGIN
1 TAGTTATTAC TAGCGCTACC GGACTCAGAT CTCGAGCTCA AGCTTCGAAT TCTGCAGTCG
61 ACGGTACCGC GGGCCCGGGA TCCACCGGTC GCCACCATGG CCTCCTCCGA GGACGTCATC
121 AAGGAGTTCA TGCGCTTCAA GGTGCGCATG GAGGGCTCCG TGAACGGCCA CGAGTTCGAG
181 ATCGAGGGCG AGGGCGAGGG CCGCCCCTAC GAGGGCACCC AGACCGCCAA GCTGAAGGTG
241 ACCAAGGGCG GCCCCCTGCC CTTCGCCTGG GACATCCTGT CCCCCCAGTT CCAGTACGGC
301 TCCAAGGTGT ACGTGAAGCA CCCCGCCGAC ATCCCCGACT ACAAGAAGCT GTCCTTCCCC
361 GAGGGCTTCA AGTGGGAGCG CGTGATGAAC TTCGAGGACG GCGGCGTGGT GACCGTGACC
421 CAGGACTCCT CCCTGCAGGA CGGCTCCTTC ATCTACAAGG TGAAGTTCAT CGGCGTGAAC
481 TTCCCCTCCG ACGGCCCCGT AATGCAGAAG AAGACTATGG GCTGGGAGGC CTCCACCGAG
541 CGCCTGTACC CCCGCGACGG CGTGCTGAAG GGCGAGATCC ACAAGGCCCT GAAGCTGAAG
601 GACGGCGGCC ACTACCTGGT GGAGTTCAAG TCCATCTACA TGGCCAAGAA GCCCGTGCAG
661 CTGCCCGGCT ACTACTACGT GGACTCCAAG CTGGACATCA CCTCCCACAA CGAGGACTAC
721 ACCATCGTGG AGCAGTACGA GCGCGCCGAG GGCCGCCACC ACCTGTTCCT GACTAGTGAT
781 ATCAGCCATG GCTTCCCGCC GGCGGTGGCG GCGCAGGATG ATGGCACGCT GCCCATGTCT
841 TGTGCCCAGG AGAGCGGGAT GGACCGTCAC CCTGCAGCCT GTGCTTCTGC TAGGATCAAT
901 GTGTAGGCGG CCGCGACTCT AGATCATAAT CAGCCATACC ACATTTGTAG AGGTTTTACT
961 TGCTTTAAAA AACCTCCCAC ACCTCCCCCT GAACCTGAAA CATAAAATGA ATGCAATTGT
1021 TGTTGTTAAC TTGTTTATTG CAGCTTATAA TGGTTACAAA TAAAGCAATA GCATCACAAA
1081 TTTCACAAAT AAAGCATTTT TTTCACTGCA TTCTAGTTGT GGTTTGTCCA AACTCATCAA
1141 TGTATCTTAA GGCGTAAATT GTAAGCGTTA ATATTTTGTT AAAATTCGCG TTAAATTTTT
1201 GTTAAATCAG CTCATTTTTT AACCAATAGG CCGAAATCGG CAAAATCCCT TATAAATCAA
1261 AAGAATAGAC CGAGATAGGG TTGAGTGTTG TTCCAGTTTG GAACAAGAGT CCACTATTAA
1321 AGAACGTGGA CTCCAACGTC AAAGGGCGAA AAACCGTCTA TCAGGGCGAT GGCCCACTAC
1381 GTGAACCATC ACCCTAATCA AGTTTTTTGG GGTCGAGGTG CCGTAAAGCA CTAAATCGGA
1441 ACCCTAAAGG GAGCCCCCGA TTTAGAGCTT GACGGGGAAA GCCGGCGAAC GTGGCGAGAA
1501 AGGAAGGGAA GAAAGCGAAA GGAGCGGGCG CTAGGGCGCT GGCAAGTGTA GCGGTCACGC
1561 TGCGCGTAAC CACCACACCC GCCGCGCTTA ATGCGCCGCT ACAGGGCGCG TCAGGTGGCA
1621 CTTTTCGGGG AAATGTGCGC GGAACCCCTA TTTGTTTATT TTTCTAAATA CATTCAAATA
1681 TGTATCCGCT CATGAGACAA TAACCCTGAT AAATGCTTCA ATAATATTGA AAAAGGAAGA
1741 GTCCTGAGGC GGAAAGAACC AGCTGTGGAA TGTGTGTCAG TTAGGGTGTG GAAAGTCCCC
1801 AGGCTCCCCA GCAGGCAGAA GTATGCAAAG CATGCATCTC AATTAGTCAG CAACCAGGTG
1861 TGGAAAGTCC CCAGGCTCCC CAGCAGGCAG AAGTATGCAA AGCATGCATC TCAATTAGTC
1921 AGCAACCATA GTCCCGCCCC TAACTCCGCC CATCCCGCCC CTAACTCCGC CCAGTTCCGC
1981 CCATTCTCCG CCCCATGGCT GACTAATTTT TTTTATTTAT GCAGAGGCCG AGGCCGCCTC
2041 GGCCTCTGAG CTATTCCAGA AGTAGTGAGG AGGCTTTTTT GGAGGCCTAG GCTTTTGCAA
2101 AGATCGATCA AGAGACAGGA TGAGGATCGT TTCGCATGAT TGAACAAGAT GGATTGCACG
2161 CAGGTTCTCC GGCCGCTTGG GTGGAGAGGC TATTCGGCTA TGACTGGGCA CAACAGACAA
2221 TCGGCTGCTC TGATGCCGCC GTGTTCCGGC TGTCAGCGCA GGGGCGCCCG GTTCTTTTTG
2281 TCAAGACCGA CCTGTCCGGT GCCCTGAATG AACTGCAAGA CGAGGCAGCG CGGCTATCGT
2341 GGCTGGCCAC GACGGGCGTT CCTTGCGCAG CTGTGCTCGA CGTTGTCACT GAAGCGGGAA
2401 GGGACTGGCT GCTATTGGGC GAAGTGCCGG GGCAGGATCT CCTGTCATCT CACCTTGCTC
2461 CTGCCGAGAA AGTATCCATC ATGGCTGATG CAATGCGGCG GCTGCATACG CTTGATCCGG
2521 CTACCTGCCC ATTCGACCAC CAAGCGAAAC ATCGCATCGA GCGAGCACGT ACTCGGATGG
2581 AAGCCGGTCT TGTCGATCAG GATGATCTGG ACGAAGAGCA TCAGGGGCTC GCGCCAGCCG
2641 AACTGTTCGC CAGGCTCAAG GCGAGCATGC CCGACGGCGA GGATCTCGTC GTGACCCATG
2701 GCGATGCCTG CTTGCCGAAT ATCATGGTGG AAAATGGCCG CTTTTCTGGA TTCATCGACT
2761 GTGGCCGGCT GGGTGTGGCG GACCGCTATC AGGACATAGC GTTGGCTACC CGTGATATTG
2821 CTGAAGAGCT TGGCGGCGAA TGGGCTGACC GCTTCCTCGT GCTTTACGGT ATCGCCGCTC
2881 CCGATTCGCA GCGCATCGCC TTCTATCGCC TTCTTGACGA GTTCTTCTGA GCGGGACTCT
2941 GGGGTTCGAA ATGACCGACC AAGCGACGCC CAACCTGCCA TCACGAGATT TCGATTCCAC
3001 CGCCGCCTTC TATGAAAGGT TGGGCTTCGG AATCGTTTTC CGGGACGCCG GCTGGATGAT
3061 CCTCCAGCGC GGGGATCTCA TGCTGGAGTT CTTCGCCCAC CCTAGGGGGA GGCTAACTGA
3121 AACACGGAAG GAGACAATAC CGGAAGGAAC CCGCGCTATG ACGGCAATAA AAAGACAGAA
3181 TAAAACGCAC GGTGTTGGGT CGTTTGTTCA TAAACGCGGG GTTCGGTCCC AGGGCTGGCA
3241 CTCTGTCGAT ACCCCACCGA GACCCCATTG GGGCCAATAC GCCCGCGTTT CTTCCTTTTC
3301 CCCACCCCAC CCCCCAAGTT CGGGTGAAGG CCCAGGGCTC GCAGCCAACG TCGGGGCGGC
3361 AGGCCCTGCC ATAGCCTCAG GTTACTCATA TATACTTTAG ATTGATTTAA AACTTCATTT
3421 TTAATTTAAA AGGATCTAGG TGAAGATCCT TTTTGATAAT CTCATGACCA AAATCCCTTA
3481 ACGTGAGTTT TCGTTCCACT GAGCGTCAGA CCCCGTAGAA AAGATCAAAG GATCTTCTTG
3541 AGATCCTTTT TTTCTGCGCG TAATCTGCTG CTTGCAAACA AAAAAACCAC CGCTACCAGC
3601 GGTGGTTTGT TTGCCGGATC AAGAGCTACC AACTCTTTTT CCGAAGGTAA CTGGCTTCAG
3661 CAGAGCGCAG ATACCAAATA CTGTCCTTCT AGTGTAGCCG TAGTTAGGCC ACCACTTCAA
3721 GAACTCTGTA GCACCGCCTA CATACCTCGC TCTGCTAATC CTGTTACCAG TGGCTGCTGC
3781 CAGTGGCGAT AAGTCGTGTC TTACCGGGTT GGACTCAAGA CGATAGTTAC CGGATAAGGC
3841 GCAGCGGTCG GGCTGAACGG GGGGTTCGTG CACACAGCCC AGCTTGGAGC GAACGACCTA
3901 CACCGAACTG AGATACCTAC AGCGTGAGCT ATGAGAAAGC GCCACGCTTC CCGAAGGGAG
3961 AAAGGCGGAC AGGTATCCGG TAAGCGGCAG GGTCGGAACA GGAGAGCGCA CGAGGGAGCT
4021 TCCAGGGGGA AACGCCTGGT ATCTTTATAG TCCTGTCGGG TTTCGCCACC TCTGACTTGA
4081 GCGTCGATTT TTGTGATGCT CGTCAGGGGG GCGGAGCCTA TGGAAAAACG CCAGCAACGC
4141 GGCCTTTTTA CGGTTCCTGG CCTTTTGCTG GCCTTTTGCT CACATGTTCT TTCCTGCGTT
4201 ATCCCCTGAT TCTGTGGATA ACCGTATTAC CGCCATGCAT
//
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pDsRed-Express-DR质粒载体应用举例
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