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Plasmid Files

pMCS-Green Renilla Luc

Intracellular green Renilla luciferase vector for cloning a transcriptional regulatory element.

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pMCS-Green Renilla Luc.dna
Map and Sequence File:    Download    Open   
Sequence Author:  Thermo Fisher (Pierce)
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EcoRI (7) SpeI (1) AarI (5233) EcoRV (4939) ApaI (4599) PspOMI (4595) AflII (4586) DrdI (4253) AlwNI (3946) MauBI (3657) NruI (3584) ScaI (3140) PvuI (3030) FspI (2882) AfeI (2710) SalI (2550) Acc65I (13) KpnI (17) Eco53kI (21) SacI (23) PaeR7I - XhoI (25) HindIII (31) BamHI (37) XcmI (471) EcoNI (724) NotI (986) AvrII (1555) TspMI - XmaI (1576) SmaI (1578) PflFI - Tth111I (1726) BsiWI (1740) RsrII (1800) BstEII (1818) SacII (1898) BsmBI (2076) NgoMIV (2356) NaeI (2358) BsmI (2493) BstZ17I (2545) pMCS-Green Renilla Luc 5263 bp
EcoRI  (7)
1 site
G A A T T C C T T A A G
SpeI  (1)
1 site
A C T A G T T G A T C A
AarI  (5233)
1 site
C A C C T G C ( N ) 4 G T G G A C G ( N ) 4 ( N ) 4

Efficient cleavage requires at least two copies of the AarI recognition sequence.
Sticky ends from different AarI sites may not be compatible.
After cleavage, AarI can remain bound to DNA and alter its electrophoretic mobility.
EcoRV  (4939)
1 site
G A T A T C C T A T A G

EcoRV is reportedly more prone than its isoschizomer Eco32I to delete a base after cleavage.
ApaI  (4599)
1 site
G G G C C C C C C G G G

ApaI can be used between 25°C and 37°C.
PspOMI  (4595)
1 site
G G G C C C C C C G G G
AflII  (4586)
1 site
C T T A A G G A A T T C
DrdI  (4253)
1 site
G A C N N N N N N G T C C T G N N N N N N C A G

Sticky ends from different DrdI sites may not be compatible.
AlwNI  (3946)
1 site
C A G N N N C T G G T C N N N G A C

Sticky ends from different AlwNI sites may not be compatible.
MauBI  (3657)
1 site
C G C G C G C G G C G C G C G C
NruI  (3584)
1 site
T C G C G A A G C G C T
ScaI  (3140)
1 site
A G T A C T T C A T G A
PvuI  (3030)
1 site
C G A T C G G C T A G C
FspI  (2882)
1 site
T G C G C A A C G C G T
AfeI  (2710)
1 site
A G C G C T T C G C G A
SalI  (2550)
1 site
G T C G A C C A G C T G
Acc65I  (13)
1 site
G G T A C C C C A T G G
KpnI  (17)
1 site
G G T A C C C C A T G G
Eco53kI  (21)
1 site
G A G C T C C T C G A G
SacI  (23)
1 site
G A G C T C C T C G A G
PaeR7I  (25)
1 site
C T C G A G G A G C T C

PaeR7I does not recognize the sequence CTCTCGAG.
XhoI  (25)
1 site
C T C G A G G A G C T C
HindIII  (31)
1 site
A A G C T T T T C G A A
BamHI  (37)
1 site
G G A T C C C C T A G G

After cleavage, BamHI-HF™ (but not the original BamHI) can remain bound to DNA and alter its electrophoretic mobility.
XcmI  (471)
1 site
C C A N N N N N N N N N T G G G G T N N N N N N N N N A C C

The 1-base overhangs produced by XcmI may be hard to ligate.
Sticky ends from different XcmI sites may not be compatible.
EcoNI  (724)
1 site
C C T N N N N N A G G G G A N N N N N T C C

The 1-base overhangs produced by EcoNI may be hard to ligate.
Sticky ends from different EcoNI sites may not be compatible.
NotI  (986)
1 site
G C G G C C G C C G C C G G C G
AvrII  (1555)
1 site
C C T A G G G G A T C C
TspMI  (1576)
1 site
C C C G G G G G G C C C
XmaI  (1576)
1 site
C C C G G G G G G C C C

Efficient cleavage requires at least two copies of the XmaI recognition sequence.
Full cleavage with XmaI may require a long incubation.
SmaI  (1578)
1 site
C C C G G G G G G C C C

SmaI can be used at 37°C for brief incubations.
PflFI  (1726)
1 site
G A C N N N G T C C T G N N N C A G

The 1-base overhangs produced by PflFI may be hard to ligate.
Sticky ends from different PflFI sites may not be compatible.
Tth111I  (1726)
1 site
G A C N N N G T C C T G N N N C A G

The 1-base overhangs produced by Tth111I may be hard to ligate.
Sticky ends from different Tth111I sites may not be compatible.
BsiWI  (1740)
1 site
C G T A C G G C A T G C

BsiWI is typically used at 55°C, but is 50% active at 37°C.
RsrII  (1800)
1 site
C G G W C C G G C C W G G C

Efficient cleavage requires at least two copies of the RsrII recognition sequence.
Sticky ends from different RsrII sites may not be compatible.
For full activity, add fresh DTT.
BstEII  (1818)
1 site
G G T N A C C C C A N T G G

Sticky ends from different BstEII sites may not be compatible.
BstEII is typically used at 60°C, but is 50% active at 37°C.
SacII  (1898)
1 site
C C G C G G G G C G C C

Efficient cleavage requires at least two copies of the SacII recognition sequence.
BsmBI  (2076)
1 site
C G T C T C N G C A G A G N ( N ) 4

Sticky ends from different BsmBI sites may not be compatible.
NgoMIV  (2356)
1 site
G C C G G C C G G C C G

Efficient cleavage requires at least two copies of the NgoMIV recognition sequence.
NaeI  (2358)
1 site
G C C G G C C G G C C G

Efficient cleavage requires at least two copies of the NaeI recognition sequence.
BsmI  (2493)
1 site
G A A T G C N C T T A C G N

Sticky ends from different BsmI sites may not be compatible.
BstZ17I  (2545)
1 site
G T A T A C C A T A T G
Green Renilla Luciferase
49 .. 984  =  936 bp
311 amino acids  =  36.0 kDa
Product: green-emitting variant of Renilla luciferase
human codon-optimized
Green Renilla Luciferase
49 .. 984  =  936 bp
311 amino acids  =  36.0 kDa
Product: green-emitting variant of Renilla luciferase
human codon-optimized
AmpR
2587 .. 3447  =  861 bp
286 amino acids  =  31.6 kDa
   Segment 2:  
   2587 .. 3378  =  792 bp
   263 amino acids  =  28.9 kDa
Product: β-lactamase
confers resistance to ampicillin, carbenicillin, and related antibiotics
AmpR
2587 .. 3447  =  861 bp
286 amino acids  =  31.6 kDa
   Segment 1:  signal sequence  
   3379 .. 3447  =  69 bp
   23 amino acids  =  2.6 kDa
Product: β-lactamase
confers resistance to ampicillin, carbenicillin, and related antibiotics
AmpR
2587 .. 3447  =  861 bp
286 amino acids  =  31.6 kDa
2 segments
Product: β-lactamase
confers resistance to ampicillin, carbenicillin, and related antibiotics
PuroR
1684 .. 2283  =  600 bp
199 amino acids  =  21.5 kDa
Product: puromycin N-acetyltransferase
confers resistance to puromycin
PuroR
1684 .. 2283  =  600 bp
199 amino acids  =  21.5 kDa
Product: puromycin N-acetyltransferase
confers resistance to puromycin
ori
3711 .. 4299  =  589 bp
high-copy-number ColE1/pMB1/pBR322/pUC origin of replication
ori
3711 .. 4299  =  589 bp
high-copy-number ColE1/pMB1/pBR322/pUC origin of replication
SV40 promoter
1241 .. 1570  =  330 bp
SV40 enhancer and early promoter
SV40 promoter
1241 .. 1570  =  330 bp
SV40 enhancer and early promoter
SV40 poly(A) signal
2413 .. 2534  =  122 bp
SV40 polyadenylation signal
SV40 poly(A) signal
2413 .. 2534  =  122 bp
SV40 polyadenylation signal
bGH poly(A) signal
1007 .. 1118  =  112 bp
bovine growth hormone polyadenylation signal
bGH poly(A) signal
1007 .. 1118  =  112 bp
bovine growth hormone polyadenylation signal
pause site
5172 .. 5263  =  92 bp
RNA polymerase II transcriptional pause signal from the human α2 globin gene
pause site
5172 .. 5263  =  92 bp
RNA polymerase II transcriptional pause signal from the human α2 globin gene
EM7 promoter
1618 .. 1665  =  48 bp
synthetic bacterial promoter
EM7 promoter
1618 .. 1665  =  48 bp
synthetic bacterial promoter
MCS
1 .. 42  =  42 bp
multiple cloning site
MCS
1 .. 42  =  42 bp
multiple cloning site
lac operator
5041 .. 5057  =  17 bp
The lac repressor binds to the lac operator to inhibit transcription in E. coli. This inhibition can be relieved by adding lactose or isopropyl-β-D-thiogalactopyranoside (IPTG).
lac operator
5041 .. 5057  =  17 bp
The lac repressor binds to the lac operator to inhibit transcription in E. coli. This inhibition can be relieved by adding lactose or isopropyl-β-D-thiogalactopyranoside (IPTG).
SV40 ori
1421 .. 1556  =  136 bp
SV40 origin of replication
SV40 ori
1421 .. 1556  =  136 bp
SV40 origin of replication
ORF:  49 .. 984  =  936 bp
ORF:  311 amino acids  =  36.0 kDa
ORF:  1684 .. 2283  =  600 bp
ORF:  199 amino acids  =  21.5 kDa
ORF:  2717 .. 2983  =  267 bp
ORF:  88 amino acids  =  9.3 kDa
ORF:  1844 .. 2170  =  327 bp
ORF:  108 amino acids  =  12.0 kDa
ORF:  2587 .. 3447  =  861 bp
ORF:  286 amino acids  =  31.6 kDa
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