- Email: [email protected]
λZLG6: a phage lambda vector for high-efficiency cloning and surface expression of cDNA libraries on filamentous phage
Gene, 173 (1996)179--181 0 1996 Elsevier
Science B.V. All rights reserved.
179
0378-l I19/96/$15.00
09814
GENE
Short Communications
hZLG6: a phage lambda vector for high-efficiency cloning and surface expression of cDNA libraries on filamentous phage (Phage
display; gene VI; selection;
site-specific
recombination)
S. Jespersa,b, Annick De Keysera and Patrick
Laurent
E. Stanssen?*
"Corvas International N. V.. 9000 Gent, Belgium; and bCenter for Transgene Technology and Gene Therapy, Campus Gasthuisherg, 3000 Leuven, Belgium
Received by M.J. Benedik:
10 August
1995; Revised/Accepted:
12 November/24
November
1995; Received at publishers:
11 March
1996
SUMMARY
We describe filamentous
a vector,
phage display
l4. The hZLG6
library
hZLG6,
combining
the high efficiency
of cDNA-encoded is converted
products.
The cDNAs
to a pZLG6-cDNA
infection generates a library of phagemid responding nucleotide sequences within.
particles
of cDNA
are expressed
phagemid
displaying
library
in bacteriophage
display
vectors
based
on gpII1 fusion
for direct
surface
expression
of cDNA
are not libraries
(O’Neil and Hoess, 1995). Display of cDNA products as fusions to the N terminus of this coat protein depends on the presence, in a random primed library, of appropriately 3’-truncated cDNAs that lack the stop codon at the
Recently, phage
h with
as fusions to the 3’ end of Ml3
by in vivo mass excision.
the cDNA-encoded
a functional ideal
cloning
products
Helper
and containing
end of the coding region and are yet capable
INTRODUCTION
Phage
library
gene phage
the cor-
of encoding
product. we have described
display
vector
allowing
an alternative
filamentous
ligand-based
selection
of
cDNAs (Jespers et al., 1995). The system is based on the covalent linkage of cDNA-encoded products to the C terminus
of the Ml3 minor coat protein
VI (gpV1). Three
phagemid vectors (pDONG61, 62 and 63) were derived from pUC119 (Vieira and Messing, 1987) for unidirec-
Correspondence to: Dr. L. Jespers, at his present address: Center for Transgene Technology and Gene Therapy, Campus Gasthuisberg,
tional cloning of cDNA libraries in each reading frame downstream from gene I’Z. Direct fusion of oligo(dT)-
Herestraat
primed
49, 3000 Leuven,
Belgium. Tel. (32-16) 346036; Fax (32-16)
345990; e-mail: [email protected] * Present
address:
The Netherlands. Abbreviations:
Keygene
N.V., P.O. Box 216, 6700 AE Wageningen,
Tel. (31-317) 424141; Fax (31-317) 424939. A, absorbance
(1 cm); Ap, ampicillin;
Cre recombinase
of coliphage
Pl; ELISA,
enzyme-
linked immunosorbent assay; kb, kilobase or 1000 bp; lacZ’, gene encoding the N-terminal end of B-galactosidase; loxP, Cre-specific recombination
site; MCS, multiple
cloning
site; ORF,
open
reading
frame; ori, origin of DNA replication; ori, origin of DNA replication; PCR, polymerase chain reaction; PNPP, p-nitrophenyl phosphate; R, resistance/resistant; TBS, Tris-buffered saline (0.1 M Tris pH 7.4/140 mM NaCl). PII 037X-11
19(96)00217-X
through
practical way to ensure otic host.
their 5’-end represents their
expression
the most
in a prokary-
bp, base pair(s);
CATRIN, Canine Ancylostoma TRypsin INhibitor; cDNA, DNA complementary to RNA; gpIII or gpV1, gene III or VI products of M13; we, gene encoding
cDNAs
EXPERIMENTAL
AND DISCUSSION
(a) Construction of h vectors with excisable phagemid for cDNA display on filamentous phage In order to combine the properties of the pDONG6-vectors with the high efficiency of bacteriophage h for cDNA cloning, we have assembled three h
180 vectors from which gene T/I cDNA expressing phagemids can be excised by an in vivo process. Hogrefe et al. (1993) have described similar h vectors for the cloning and surface display of antibody repertoires fused to the N terminus of gpII1. The h vectors described here are based on hZIPLOX (D’Alessio et al., 1992; Life Technologies, Gaithersburg, MD, USA) which includes a Cre-loxP recombination system (Abremski et al., 1983) enabling automatic phagemid release in Cre-producing DH 12S( ZIP) cells Three separate MunI-Not1 fragments, each containing the Ml3 gene I/I followed by a @I-EcoRI-PmeI-Not1 MCS in a different reading frame, were assembled by PCR technology and inserted within the 1~2’ gene (Fig. 1). The intended h vectors result from the ligation of each MunI-
Not1 fragment with the hZIPLOX/EcoRI left arm and the hZIPLOX/NotI right arm. These vectors allow the directional cloning of cDNA libraries as EcoRI-Not1 (or SJiI-NotI) fragments. The hZLG6 vectors are primarily useful with oligo(dT)-primed cDNA libraries; no stop codons were engineered immediately downstream the Not1 site so as to terminate 3’-truncated ORFs which may occur on random primed cDNAs. (b) Comparison of pZLG6 and pDONG6 phagemid vectors The pZLG6- and pDONG6-type of vectors were compared with respect to their efficiency in directing the surface expression of gene T/I-cDNA fusions. The pDONG6 vectors were previously used to select a cDNA encoding
h ZLG6 1,62 and 63 (40.5 kb) cIts857
nin.5
Sam100
Cre-loxP recombination
’ linkerG
G
MCS
1
I CCTCAGCGGCCGC Not1
Fig. 1. The hZLG6/pZLG6
'
GQVGQNSV* pZLG61
GPSRPESRLNLSGR GGGCCAAGTCGGCCAGAATTCCGTTTAAACCTCAGCGGCCGC NotI PmeI EcoRI
pZLG62
PFKPQRP SAKSARI TCGGCCAAGTCGGCCAGAATTCCGTTTAAACCTCAGCGGCCGC Not1 PmeI EcoRI SfiI
pZLG63
vectors. The three h vectors allow the directional
cloning
of cDNA libraries
in each reading
frame downstream
from the
Ml3 gene VI. The hZLG6 libraries can rapidly be converted in vivo to phagemid libraries (pZLG61, 62 and 63, respectively) by infection of E. coli DHlZS(ZIP) harboring the cre gene on the resident phagemid pZIP (D’Alessio et al., 1992). As the copy number of phagemid rises, the incA locus of pZLG6 inhibits the replication of pZIP by interaction with its Pl ori, leading to a decline in the level of recombinase. The sequence between the EcoRI/MunI ligation point (see section a; underlined), at the junction between lac and Ml3 reads: 5’-GAATTGTTGC TAACATACTG CGTAATAAGG AGTCTTAATC ATG.
sequences,
and the gene VI start codon
(underlined)
181
.
pDONG61 -CATRIP
0
pZLG6 1-CATRIN
0
MI3K07
(c) Conclusions (I) The reported series of h vectors enables efficient cloning of cDNA libraries as fusions to the 3’ end of Ml3 gene I/I. Gene I/I-cDNA expressing phagemid libraries are excised from hZLG6 libraries through Cre-LoxPmediated recombination. Following infection by helper phage, cDNAs can be selected by planning the phage display library against a target such as the natural ligand or an antibody. (2) In an example, the pZLG6 vector was shown to work equally well than the previously reported pDONG6 vector for phage display of cDNA-encoded products.
ACKNOWLEDGEMENT
1o’O Phage/well Fig. 2. Analysis
of pDONG61-CATRIN
phage by ELISA. Streptavidin-coated bated
Tween-10,
Phage
were incubated
was used as negative
phosphatase
serially
trypsin diluted
(biotin-SS-NHS
in TBS containing
in the wells for 2 h. Helper
control.
phage were detected
rum, alkaline PNPP
samples,
After washing by incubation
conjugated
fusion
96 well plates (Pierce) were incu-
with 100 ul of 10 nM biotinylated
gent; Pierce).
bound
and pZLG61-CATRIN
We are grateful to Dr. George Vlasuk for critically reading this manuscript.
rea-
phage M13K07
with TBSjO. 1% Tween-20, with rabbit
anti-rabbit
anti-Ml3
REFERENCES
2%
antise-
goat IgG (Sigma) and
as substrate.
Abremski, of
K., Hoess,
Pl
R. and Sternberg,
site-specific
unlinked
N.: Studies
recombination:
products
following
evidence
on the properties for
recombination.
topologically
Cell
32
(1983)
13Oll1307. D’Alessio,
J.M., Behee, R., Hartley,
Lambda
ZIPLOX:
automatic
J.L., Noon, subcloning
MC.
and Polayes,
of cDNA.
D.:
Focus
14
(1992) 76-79. Hogrefe,
a trypsin inhibitor, CATRIN, from Ancylostoma caninum (Jespers et al., 1995). After transferring the selected cDNA from pDONG61 to pZLG61, pDONG61-CATRIN and pZLG61-CATRIN fusion phage were rescued by helper phage infection and analysed by phage-ELISA in trypsincoated wells (Jespers et al., 1995). The similar dosedependent ELISA signals (Fig. 2) strongly suggests that pZLG6 and pDONG6 function with similar efficiency.
H.H.,
Mullinax,
R.L., Lovejoy,
J.A.: A bacteriophage
lambda
of immunoglobulin Fab fragments phage. Gene 128 (1993) 1199126. Jespers,
L.S., Messens,
Brande, Stanssens, cDNAs
A.E., Hay, on the surface
J.H., De Keyser,
I., Gansemans,
A., Eeckhout,
Y.G., Lauwereys,
P.E.: Surface
expression
fused to filamentous
B.N. and Sorge,
vector for the cloning
of filamentous D., Van Den
M.J., Vlasuk,
and ligand-based
phage
and expression
G.P. and
selection
gene VI. Bio/Technology
of 13
(1995) 378-382. O’Neil, K.T. and Hoess, directed
evolution.
R.H.: Phage
display:
Curr. Opin. Struct.
protein
engineering
Biol. 5 (1995) 443-449.
by
Science B.V. All rights reserved.
179
0378-l I19/96/$15.00
09814
GENE
Short Communications
hZLG6: a phage lambda vector for high-efficiency cloning and surface expression of cDNA libraries on filamentous phage (Phage
display; gene VI; selection;
site-specific
recombination)
S. Jespersa,b, Annick De Keysera and Patrick
Laurent
E. Stanssen?*
"Corvas International N. V.. 9000 Gent, Belgium; and bCenter for Transgene Technology and Gene Therapy, Campus Gasthuisherg, 3000 Leuven, Belgium
Received by M.J. Benedik:
10 August
1995; Revised/Accepted:
12 November/24
November
1995; Received at publishers:
11 March
1996
SUMMARY
We describe filamentous
a vector,
phage display
l4. The hZLG6
library
hZLG6,
combining
the high efficiency
of cDNA-encoded is converted
products.
The cDNAs
to a pZLG6-cDNA
infection generates a library of phagemid responding nucleotide sequences within.
particles
of cDNA
are expressed
phagemid
displaying
library
in bacteriophage
display
vectors
based
on gpII1 fusion
for direct
surface
expression
of cDNA
are not libraries
(O’Neil and Hoess, 1995). Display of cDNA products as fusions to the N terminus of this coat protein depends on the presence, in a random primed library, of appropriately 3’-truncated cDNAs that lack the stop codon at the
Recently, phage
h with
as fusions to the 3’ end of Ml3
by in vivo mass excision.
the cDNA-encoded
a functional ideal
cloning
products
Helper
and containing
end of the coding region and are yet capable
INTRODUCTION
Phage
library
gene phage
the cor-
of encoding
product. we have described
display
vector
allowing
an alternative
filamentous
ligand-based
selection
of
cDNAs (Jespers et al., 1995). The system is based on the covalent linkage of cDNA-encoded products to the C terminus
of the Ml3 minor coat protein
VI (gpV1). Three
phagemid vectors (pDONG61, 62 and 63) were derived from pUC119 (Vieira and Messing, 1987) for unidirec-
Correspondence to: Dr. L. Jespers, at his present address: Center for Transgene Technology and Gene Therapy, Campus Gasthuisberg,
tional cloning of cDNA libraries in each reading frame downstream from gene I’Z. Direct fusion of oligo(dT)-
Herestraat
primed
49, 3000 Leuven,
Belgium. Tel. (32-16) 346036; Fax (32-16)
345990; e-mail: [email protected] * Present
address:
The Netherlands. Abbreviations:
Keygene
N.V., P.O. Box 216, 6700 AE Wageningen,
Tel. (31-317) 424141; Fax (31-317) 424939. A, absorbance
(1 cm); Ap, ampicillin;
Cre recombinase
of coliphage
Pl; ELISA,
enzyme-
linked immunosorbent assay; kb, kilobase or 1000 bp; lacZ’, gene encoding the N-terminal end of B-galactosidase; loxP, Cre-specific recombination
site; MCS, multiple
cloning
site; ORF,
open
reading
frame; ori, origin of DNA replication; ori, origin of DNA replication; PCR, polymerase chain reaction; PNPP, p-nitrophenyl phosphate; R, resistance/resistant; TBS, Tris-buffered saline (0.1 M Tris pH 7.4/140 mM NaCl). PII 037X-11
19(96)00217-X
through
practical way to ensure otic host.
their 5’-end represents their
expression
the most
in a prokary-
bp, base pair(s);
CATRIN, Canine Ancylostoma TRypsin INhibitor; cDNA, DNA complementary to RNA; gpIII or gpV1, gene III or VI products of M13; we, gene encoding
cDNAs
EXPERIMENTAL
AND DISCUSSION
(a) Construction of h vectors with excisable phagemid for cDNA display on filamentous phage In order to combine the properties of the pDONG6-vectors with the high efficiency of bacteriophage h for cDNA cloning, we have assembled three h
180 vectors from which gene T/I cDNA expressing phagemids can be excised by an in vivo process. Hogrefe et al. (1993) have described similar h vectors for the cloning and surface display of antibody repertoires fused to the N terminus of gpII1. The h vectors described here are based on hZIPLOX (D’Alessio et al., 1992; Life Technologies, Gaithersburg, MD, USA) which includes a Cre-loxP recombination system (Abremski et al., 1983) enabling automatic phagemid release in Cre-producing DH 12S( ZIP) cells Three separate MunI-Not1 fragments, each containing the Ml3 gene I/I followed by a @I-EcoRI-PmeI-Not1 MCS in a different reading frame, were assembled by PCR technology and inserted within the 1~2’ gene (Fig. 1). The intended h vectors result from the ligation of each MunI-
Not1 fragment with the hZIPLOX/EcoRI left arm and the hZIPLOX/NotI right arm. These vectors allow the directional cloning of cDNA libraries as EcoRI-Not1 (or SJiI-NotI) fragments. The hZLG6 vectors are primarily useful with oligo(dT)-primed cDNA libraries; no stop codons were engineered immediately downstream the Not1 site so as to terminate 3’-truncated ORFs which may occur on random primed cDNAs. (b) Comparison of pZLG6 and pDONG6 phagemid vectors The pZLG6- and pDONG6-type of vectors were compared with respect to their efficiency in directing the surface expression of gene T/I-cDNA fusions. The pDONG6 vectors were previously used to select a cDNA encoding
h ZLG6 1,62 and 63 (40.5 kb) cIts857
nin.5
Sam100
Cre-loxP recombination
’ linkerG
G
MCS
1
I CCTCAGCGGCCGC Not1
Fig. 1. The hZLG6/pZLG6
'
GQVGQNSV* pZLG61
GPSRPESRLNLSGR GGGCCAAGTCGGCCAGAATTCCGTTTAAACCTCAGCGGCCGC NotI PmeI EcoRI
pZLG62
PFKPQRP SAKSARI TCGGCCAAGTCGGCCAGAATTCCGTTTAAACCTCAGCGGCCGC Not1 PmeI EcoRI SfiI
pZLG63
vectors. The three h vectors allow the directional
cloning
of cDNA libraries
in each reading
frame downstream
from the
Ml3 gene VI. The hZLG6 libraries can rapidly be converted in vivo to phagemid libraries (pZLG61, 62 and 63, respectively) by infection of E. coli DHlZS(ZIP) harboring the cre gene on the resident phagemid pZIP (D’Alessio et al., 1992). As the copy number of phagemid rises, the incA locus of pZLG6 inhibits the replication of pZIP by interaction with its Pl ori, leading to a decline in the level of recombinase. The sequence between the EcoRI/MunI ligation point (see section a; underlined), at the junction between lac and Ml3 reads: 5’-GAATTGTTGC TAACATACTG CGTAATAAGG AGTCTTAATC ATG.
sequences,
and the gene VI start codon
(underlined)
181
.
pDONG61 -CATRIP
0
pZLG6 1-CATRIN
0
MI3K07
(c) Conclusions (I) The reported series of h vectors enables efficient cloning of cDNA libraries as fusions to the 3’ end of Ml3 gene I/I. Gene I/I-cDNA expressing phagemid libraries are excised from hZLG6 libraries through Cre-LoxPmediated recombination. Following infection by helper phage, cDNAs can be selected by planning the phage display library against a target such as the natural ligand or an antibody. (2) In an example, the pZLG6 vector was shown to work equally well than the previously reported pDONG6 vector for phage display of cDNA-encoded products.
ACKNOWLEDGEMENT
1o’O Phage/well Fig. 2. Analysis
of pDONG61-CATRIN
phage by ELISA. Streptavidin-coated bated
Tween-10,
Phage
were incubated
was used as negative
phosphatase
serially
trypsin diluted
(biotin-SS-NHS
in TBS containing
in the wells for 2 h. Helper
control.
phage were detected
rum, alkaline PNPP
samples,
After washing by incubation
conjugated
fusion
96 well plates (Pierce) were incu-
with 100 ul of 10 nM biotinylated
gent; Pierce).
bound
and pZLG61-CATRIN
We are grateful to Dr. George Vlasuk for critically reading this manuscript.
rea-
phage M13K07
with TBSjO. 1% Tween-20, with rabbit
anti-rabbit
anti-Ml3
REFERENCES
2%
antise-
goat IgG (Sigma) and
as substrate.
Abremski, of
K., Hoess,
Pl
R. and Sternberg,
site-specific
unlinked
N.: Studies
recombination:
products
following
evidence
on the properties for
recombination.
topologically
Cell
32
(1983)
13Oll1307. D’Alessio,
J.M., Behee, R., Hartley,
Lambda
ZIPLOX:
automatic
J.L., Noon, subcloning
MC.
and Polayes,
of cDNA.
D.:
Focus
14
(1992) 76-79. Hogrefe,
a trypsin inhibitor, CATRIN, from Ancylostoma caninum (Jespers et al., 1995). After transferring the selected cDNA from pDONG61 to pZLG61, pDONG61-CATRIN and pZLG61-CATRIN fusion phage were rescued by helper phage infection and analysed by phage-ELISA in trypsincoated wells (Jespers et al., 1995). The similar dosedependent ELISA signals (Fig. 2) strongly suggests that pZLG6 and pDONG6 function with similar efficiency.
H.H.,
Mullinax,
R.L., Lovejoy,
J.A.: A bacteriophage
lambda
of immunoglobulin Fab fragments phage. Gene 128 (1993) 1199126. Jespers,
L.S., Messens,
Brande, Stanssens, cDNAs
A.E., Hay, on the surface
J.H., De Keyser,
I., Gansemans,
A., Eeckhout,
Y.G., Lauwereys,
P.E.: Surface
expression
fused to filamentous
B.N. and Sorge,
vector for the cloning
of filamentous D., Van Den
M.J., Vlasuk,
and ligand-based
phage
and expression
G.P. and
selection
gene VI. Bio/Technology
of 13
(1995) 378-382. O’Neil, K.T. and Hoess, directed
evolution.
R.H.: Phage
display:
Curr. Opin. Struct.
protein
engineering
Biol. 5 (1995) 443-449.
by