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Specificity of DNA uptake in genetic transformation of gonococci
Vol. 86, No. 1, 1979
BIOCHEMICAL
AND BIOPHYSICAL RESEARCH COMMUNICATIONS
January 15, 1979
Pages 97-104
SPECIFICITY OF DNA UPTAKE IN GENETIC TRANSFORMATION OF GONOCOCCI Thomas J. Dougherty,
Anneleen
Asmus and Alexander
Tomasz
The Rockefeller University New York, New York 10021
Received
November 20,1978
Summary. Genetic transformation of gonococci to streptomycin resistance was inhibited by homo logous DNA or by DNA from related Neisseriae, but not by high concentrations of heterologous DNAs. Gonococci were capable of adsorbing large quantities (up to about 50 ng per 108 cells) of both homologous and heterologous DNA, which could not be eluted by strong shearing forces. Treatment with externally added DNase removed virtually all the heterologous DNA while a small fraction of the homologous DNA, not influenced by the presence of excess heterologous DNA, remained cell-bound in a form resistant to nuclease treatment. Competing homologous DNA suppressed nuclease-resistant binding. These findings suggest that gonococci have two types of DNA binding components at their surface. Competence of gonococci for genetic transformation undergoes a rapid decay if the cells are incubated with homologous (but DNA. -not with heterologous) INTRODUCTION.
Genetic
and adsorption
of exogenous
surface. this
Recent
step.
stranded
ribonucleotides
or double
duplexes
compete
of specificity uptake
tivity
of exogenous
the
a surface
located
binding
sites
of interaction
between
have two kinds
of DNA binding
components degree
(7).
A recent,
evidence
protein
exogenous
at the cell
of specificity
the DNA binding
(4,12).
stranded
system
degree
in which
DNA or DNA isolated
elegant
investigation
that
We describe
DNA and competent
poly-
An even higher
base sequence (3).
seem to
hetero
transformation
indicating
in
sites
double
to homologous
of a specific
bacterial
by the capture
polyribo-polydeoxyribonucleotide
in the Hemophylus
produced
initiated
polydeoxynucleotides,
these
species
recognition
a high
pneumococci
DNA was restricted
related
and Deich,has is
for
is
to binding
revealed
stranded
was observed
taxonomically Sisco
have
In competent
to double
do not
of bacteria
DNA molecules
experiments
adsorption
be restricted
transformation
the basis in
by H. Smith, of this
the exogenous
here gonococci
from
still which
selecDNA by
another appear
type to
components. 0006-291X/79/010097-08$01.00/0 97
Copyright All rights
@ 1979 by Academic Press, Inc. in any form reserved.
of reproduction
Vol.
86,
No.
1, 1979
BIOCHEMICAL
AND
Materials 51 colony University
BIOPHYSICAL
RESEARCH
COMMUNICATIONS
and Methods. 1) Bacterial strains: Neisseria gonorrhoeae strain type T2 and T4 were provided by Dr. Richard B. Roberts of Cornell Medical College. A streptomycin resistant (STRR) strain (M.I.C. > 1 mg/ml) of this organism was constructed by transformation. N. gonorrhoeae MHD 316 (Hypoxanthine', Proline', Uracil-, Arginine') was obtained from Dr. Wesley Catlin, Medical College of Wisconsin, Milwaukee, Wisconsin. N. meningitidis was obtained from Dr. Emil Gotschlich of this university. NT subflava (ATCC 10555) was from the American Type Culture Collection. Bacteria were maintained by daily transfer on solid medium in candle jars at 37'C. 2) Medium The liquid medium used in this study was Brain Heart Infusion (DIFCO) with 1% defined supplements (Isovitalex) and 4 mM MgC12. For agar plates, GCBA Agar (Baltimore Biological Laboratories) with defined supplements was used. 3) Transformation Procedure The procedure for obtaining competent cells was essentially that used by Sarubbi Clonal types T2 were --et al. (6). scraped from an 18 hr GCBA plate and suspended in prewarmed BHI-supplements-Mg*. The cells were routinely suspended to a Nephelos value between 100 and 200 using a Coleman Nepho-Colorimeter. A value of N = 100 represents approximately 1.5 x 108 colony forming units. One milliliter of cells was added to tubes containing the DNA and incubated at 37°C for 20 minutes. The reaction was terminated with 50 ug/ml pancreatic DNase (Worthington 2X crystallized) and incubated 5 mins at 37'C. The cells were then diluted ten and one hundredfold in Brain Heart Infusion and 0.1 ml of each dilution added to 4 ml of soft GCBA agar at 48"C, mixed and immediately layered onto the surface of plates containing 20 ml of GCBA agar plus supplement. The plates were incubated at 37'C for at least 7 hours to allow phenotypic expression and then each plate received 5 mls of soft GCBA agar containing sufficient streptomycin to give a final concentration of 300 pg/ml throughout the plate. After 4 days of incubation, colonies were counted with a New Brunswick colony counter. 4) DNA Binding and U take Assay Cells from agar piates were suspended --%-(cell conztration: 3 X 10 viable units per ml) in Beef Heart Infusion with supplements and 4 mM MgC12. Radioactively'labeled DNA was added to 2 mls of this suspension and incubated for 20 minutes. For total binding, the cells were chilled and washed by centrifugation (12,000 X G, 10 mins, 4°C) 3 times with ice cold medium. The pellet was resuspended in cold saline and an aliquot transferred to tubes containing ice cold 10% CC13COOH (2 mls). After 10 mins on ice, the precipitate was collected on Whatman GFfA glass fiber filters, washed 2X with cold 10% CC13COOH and 2X with 95% ethanol. Radioactivity was assayed by placing the discs in 10 mls of toluene based scintillation fluid For DNase reusing a Nuclear-Chicago Mark II scintillation spectrometer. sistant uptake, the cells were incubated with labeled DNA for 20 mins and then The cells were then chilled and received 50 )Ig/ml DNase for 5 mins at 37°C. vrocessed as described above for total bindinn. 5) DNA preparations. E. coli B, g. p erfringens, & luteus DNAs were .' obtained from Sigma Chemical Co. h viral DNA was from Miles Laboratories. All were dissolved in saline. DNA was extracted from Neisseria species and Str. pneumoniae by sodium dodecyl sulfate-deoxycholate lysis of the cells (5). The DNA was suspended in 150 mM NaCl-15 mM sodium citrate and dialyzed at 4OC against 2 changes of the same buffer (500 volumes each) and 2 changes of saline 260 nm in a Zeiss PMQ-2 spectrophotometer where one absorbance unit = 50 & DNA. Radioactive DNA was obtained by biosynthetic labeling (8). 3H-pneumococcal DNA was from Str. pneumonia1 TVS (thymidine requirer) labeled with 3H- thymfdine (56 Ci/m mol= England Nuclear) in CpH8. Specific activity of the DNA reparation was 2.6 X 106 CPM/ug. N. gonorrhoeae MHD 316 was labeled with 3 H uracil (23.3 Ci/m mol- New Englazd Nuclear) in Beef Heart Infusion plus supplements. Specific activity of this DNA preparation was 1.43 X lo5 CPMfug. For testing the shear-sensitivity of DNA adsorbed to the cell surface, the cells were vortexed on a Vortex Jr. Mixer (maximum speed setting) for 5 seconds after each resuspension in the washing procedure. Control cells were gently
98
BIOCHEMICAL
Vol. 86, No. 1, 1979
AND BIOPHYSICAL RESEARCH COMMUNICATIONS
TABLE EFFECT
source Transforming
N.
OF HETEROLOCOUS DNA PREPARATIONS ON THE GENETIC TP.ANSFORMATION OF CONOCOCCI
Source Competing
of DNA
Number of (Concentration 0
---
---
---
3.01
3.11
2.30
1.76
---
4.3
3.22
2.32
1.90
PI. luteus
---
2.90
2.50
2.60
2.40
Str.
---
3.26
3.0
2.30
2.30
A
---
2.18
1.81
1.99
1.68
gonorrheae
---
0.8
0.5
0.13
0.08
coli
B
perfringens
pneumoniae
Phage N. Homologous,
STRR DNA (with
1 ~g/ml
and
Transformants (X 105) per ml of competing DNA pg per ml) 2 50 -10 -100 ---
*One
Cl.
of
of DNA
1.94
gonorrhoeaea E.
a
1
the
and without
DNas)
assays
performed
resuspended by finger agitation. This DNA in the pneumococcal transformation
vortexing system.
Effect
Results.
of gonococci. gonococcal
transformation
competing
of heterologous Competent
DNA (carrying a concentration
sufficient
see Fig.
2) and various
heterologous
tion
of these
was tested.
preparations
competing
Table
when used at loo-fold number
of transformants
DNA; the reason In contrast, from
excess
two Neisseria
for
this
Figure
effect
is
on the
assay, and
of transforma-
heterologous
DNA frequency
increase of competing
at the present
homologous
to gonococci
99
DNA concentration:
transformation
not understood
related
transformation
of transforming
the frequency
A substantial
that
Methods.
concentrations
at low concentrations
1 demonstrates
taxonomically
marker;
none of the six
concentration,
under
the transformation
DNAs to suppress
was noted
to mixtures
resistance
effect
a concentration
remove surface-bound
DNAs at different
inhibitory
at
DNA on the genetic
to saturate
1 shows that
had marked
would
exposed
the streptomycin
1 pg/ml,
the ability
were
added
as described
and homologous
gonococci
was
---
in the heterologous time.
DNA and DNA isolated significantly
even
inhibited
Vol.
86,
No.
1, 1979
BIOCHEMICAL
KG Figure
Competition
1.
DNA was purified gonococci . 1 A. 1 ug StrR DNA B. 1 ug StrR DNA C. 1 pg StrR DNA.
S trs
Cells 37Oc.
were
assayed
Reaction
gonococcal
Specificity can adsorb only ternally
added
competing, (both
from gonococci) cells
that
related
per
COMMUNICATIONS
ml
Neisseria
species.
Gonococcal
DNA and 1, 5 and 10 Dgs of StrS
g.
Gonococcal
DNA and 1, 5 and
E. meningitidis
10 ugs of StrS
after 20 minutes for StrR transformants was terminated with 50 ug/ml DNase.
and the degree
of the competing of DNA uptake
pancreatic
had DNA bound
2 demonstrates
of both
bound DNase,
inhibition were
homologous
in a form p resumably
DNA suppresses
and heterologous), causes
of inhibition
subflava
of incubation
at
was proportional
to
DNAs.
Table
quantities
DNA becomes
non-radioactive
homologous
DNA
RESEARCH
from 5. subflava and N. meningitidis, as well as from ml of T2 Gonococci (N = iO5) were added to tubes containing: Gonococcal DNA and 1, 5 and 10 ugs of StrS gonococcal
substantial
homologous
BIOPHYSICAL
COMPETING
of DNA from
transformation
the concentration
AND
only
resistant
the amounts homologous
to shearing
100
competent
gonococci
and heterologous to treatment
due to cellular
of nuclease-resistant subjected
that
DNA but with
uptake.
ex-
While
of surface-adsorbed competing
DNA (i.e.
DNA binding. forces,
DNA
there
DNA When
was no
BIOCHEMICAL
Vol. 86, No. 1, 1979
AND BIOPHYSICAL RESEARCH COMMUNICATIONS
TABLE 2 __BINDING MD uww Radioactive (uglml)
DNA
OF DNA bY COMPETENT GONOCOCCJ
Competing DNA (w/ml)
-_--_none
pneumococcal (1.0 ug)
45
0.16*
gonococcal (10)
26.5
0.32
pneumococcal (10)
22.3
0.20
none
65.7
4.1
gonococcal (5 )
34.1
2.1
pneumococcal (5 )
28.1
3.8
E. coli (5 )
21.6
4.3
gonococcal (In, up)
*less
than 1% DNase resistant
substantial
loss
of counts
CPM vortexed
sample;
tained
T4 colony
using
Saturation
binding
CPM control
sample).
20568 type
large
sites
Figure
radioactive
DNA).
At cell
concentrations
saturation
of this
binding
capacity
amounts
concentration,
control
The same results
(19852
were
ob-
2 shows that
gonococci
of DNA (as measured
by the adsorption
of 3 X lo8 viable
occured
at about
a maximum level
are capable
bacteria
50 pg/ml
of genetic
of
per ml,
pneumococcal
transformation
DNA. was
by 1 ng DNA per ml.
Decay of gonococcal
homologous
resuspended
cells.
relatively
Portions
background.
to a gently
of binding
attained
represents
as compared
of DNA binding
At the same cell
DNA Uptake (nuclease resistant binding, ng per 2 x 108 cells)
DNA Binding (Cell-associated DNA, ng per 2 x 108 cells)
competence
of a gonococcal
culture
STRR DNA was added
was determined
(Fig.
3).
to undergo were
preincubated
at intervals
A decline
genetic with
and the number
in STRR transformants
101
transformation homologous
STRS DNA,
of STRR transformants occurred
with
in-
Vol. 86, No. 1, 1979
BIOCHEMICAL
AND BIOPHYSICAL RESEARCH COMMUNICATIONS
1055 Km
104 -i f P
----mm_ ---me .----
---___...._
. . . . . .I I----
\ 5\
*-a
E a103I 8 5-
‘l
2 f E 1025-
I 0.01 I
0.05
0.1
0.5
1
2
5
10
2030 PREINCUBATION
03 Figure
2.
Saturation
of Binding
and Transformation
Total binding of increasing DNA (2.26 X lo6 CPM/Hg) to 2 mls described under Methods (e--a). of StrR gonococcal DNA were added of transformants to streptomycin cubations were for 20 minutes at Figure
3.
Decay of Competence
DNA
WITH
(minutes)
in Competant
Gonococci
concentrations of radioactive pneumococcal of T2 Gonococci (N = 180) was measured as For transformation, increasing concentrations to (N = 165) StrS T2 Gonococci and the number resistance was assayed (M). All in37OC.
by Pretreatment
with
Homologous
DNA.
Cultures of StrS Gonococci (N = 150) received 1 pg homologous StrS DNA at time 0. At intervals, 1 Dg of homologous StrR DNA was added and the number of transformants after 25 minutes of incubation at 37'C was assayed (v). For comparison purposes, 1 pg of pneumococcal DNA was added to 1 ml of competent cells, and 1 Hg of StrR gonococcal DNA added at indicated intervals and assayed for transformants @--+). All incubations were terminated with 50 rig/ml DNase.
creasing
time
of preincubation
STRS DNA did
not
Discussion.
The observations
petent These
gonococci two receptors
heterologous
cause
contains
in STRS DNA.
a similar
loss
DNA adsorb
here
2 independent
to receptor
with
the heterologous
of competence.
reported
have several
Preincubation
kinds
contrasting 1, while
102
suggest
that
the surface
of DNA binding features. binding
I)
sites Both
to receptor
of comor receptors.
homologous
and
2 seems to be
BIOCHEMICAL
Vol. 86, No. 1, 1979
restricted
to homologous
ii)
Large
not
all,
quantities of these
a portion
cells
of DNA can adsorb molecules
or about
concentration)
were
from pneumococcal some fashion. bound
iii)
Deterologous
formation.
In contrast,
Maximum amounts while
homologous decline
(but
high
in levels
capable pendages studies
It
(2)
with
for
trans-
receptor
2.
at physiological
temperatures
inhibited
at 0“C (unpublished
the specificity
of receptor (Fig.
DNA.
2 for
3) that
rapid
by incubation
The mechanism
of this
with phenomenon
time.
has been several
was found (10)
and it
of Tl and T2 cells dealt
of genetic
1 even at low temperature
may be initiated
have revealed
bacterium.
cells.
1 has virtually
competes
by the finding
of gonococci
studies
of DNA binding
have
for
heterologous)
of transformability
(pili)
are
transformability
transformation
this
only
in
out by the finding
to receptor
to receptors
illustrated
at the present
and further
uptake
is
is ruled
DNA molecules
evidence
remove DNA
protected
DNA or on the frequency
and transformation
-not with
understood
Genetic (10)
homologous
DNA molecules of gonococcal
is not
of homologous
that
of
the surface
T2 and T4 (non-piliated)
the medium or attached
v) A further
homologous
in both
of DNA from
the DNA is
DNA
because
(vortexing)
that
DNA per
at saturating
presumably
protection
2 seems to function
DNA uptake
observations).
forces
in shear
of DNA can bind
receptor
cells
if
DNase, while
to 4 ng gonococcal
to the
indicates
resistant
DNA in
on the uptake
This
of pili
shear
no effect
both
(9).
species.
1 but most,
to external
to be no loss
to shearing
related
receptor
accessible
2 (amounting
appeared
subjected cells
DNA is
at a site
via
to DNase treatment,
There
The role
that
since
resistant
taxonomically
to gonococci
to receptor
transport.
when the cells
(O°C),
remain
from
6% of the DNA adsorbed
becomes
intracellular
iv)
DNA or DNA isolated
of DNA attached
2 X lo8
AND BIOPHYSICAL RESEARCH COMMUNICATIONS
physiological
only all
colonial
the four
has been suggested may play
a role
parameters
103
described
interesting
that
while
first
that
by Sparling
features types colonial
of DNA 1 and 2 have types
the surface
in DNA uptake of gonococcal
(1).
were apSeveral
transformation
(11).
Vol. 86, No. 1, 1979
The novelty specificity
BIOCHEMICAL
of the observations
of gonococcal
report,
gonococcal
genetic
transformation
description iates
considered
transformation
(3).
the latter
is
in Hemophylus
either
the
case
(3, 9 ).
Acknowledgements.
Public
1. 2. 3. 4. 5. 6. 7. 8. 9. 10. 11. 12.
Institutes Health
Literature
This
Service
Award
homologous
of H. Smith
elements
(#AI
system,
in Sexually
T.J.D.
Transmitted
Scocca
of
detailed
and his
basis
colleagues
assoc-
is
of selective indicate
in this
report
sources
via
in their
has been supported 12932).
the mechanism
molecular
described
growing
In this
molecules.
enzyme or a base-sequence
from heterologous
in gonococci
the apparent
In the first
and his
DNA uptake
is
closely
of a restriction
investigation
of Health
report
(3,7).
as the possible
of gonococcal
may not occur
influenzae
activity
studies
of genetic
transformation
National
the
for
this
of the Hemophylus
Recent
The specificity acquisition
system
in
seems to resemble
of the DNA receptors
DNA uptake
that
described
DNA uptake
of the specificity
specificity
AND BIOPHYSICAL RESEARCH COMMUNICATIONS
natural
by a grant the recipient
that
suggests genetic environment.
from
the
of a
Diseases.
cited
Biswas, G.D., Sox, T., Blackman, E. and Sparling, Bacterial. 129, 983-992. Catlin, B.W. (1967). J. Bacterial. 94, 719-733. Deich, R.A., Sisco, K. and Smith, H.0.(1978). p. 4th European Meeting on Bacterial Transformation University of York, York England. Lacks, S. (1977). p. 35-44 in Portoles, A., Lopez, teds.), Modern Trends in Bacterial Transformation North-Holland Press, Amsterdam. J. Mol. Biol. 3, 208-218. Marmur, J. (1961). Sarubbi, F.A. and Sparling, P.F. (1974). J. Inf. Scocca, J.J., Poland, R.L. and Zoon, K.C. (1974). 369-373. Seto, H. and Tomasx, A. (1974). Proc. Nat. Acad. Sisco, K. and Smith, H.O. (1979) Proc. Natl. Acad. Sparling, P.F. (1966). J. Bacterial. 92, 1364-1371. Sparling, P.F., Biswas, G.D. -and Sox, T.E. (1977). Roberts, R.B. (ed.) The Gonococcus, J. Wiley and Tomasz, A. (1973). p. 81-88 in Archer, L.J. (ed.) Academic Press, New York.
104
P.F.
(1977).
J.
46 Abstracts of the and Transfection, R. and Espinosa, and Transfection,
M.
Dis. 130, 660-663. J. Bacterial. 118, Sci. US 71, 1493-1498. Sci. US, in press. p. 155-176 in Sons, New York. Bacterial Transformation,
BIOCHEMICAL
AND BIOPHYSICAL RESEARCH COMMUNICATIONS
January 15, 1979
Pages 97-104
SPECIFICITY OF DNA UPTAKE IN GENETIC TRANSFORMATION OF GONOCOCCI Thomas J. Dougherty,
Anneleen
Asmus and Alexander
Tomasz
The Rockefeller University New York, New York 10021
Received
November 20,1978
Summary. Genetic transformation of gonococci to streptomycin resistance was inhibited by homo logous DNA or by DNA from related Neisseriae, but not by high concentrations of heterologous DNAs. Gonococci were capable of adsorbing large quantities (up to about 50 ng per 108 cells) of both homologous and heterologous DNA, which could not be eluted by strong shearing forces. Treatment with externally added DNase removed virtually all the heterologous DNA while a small fraction of the homologous DNA, not influenced by the presence of excess heterologous DNA, remained cell-bound in a form resistant to nuclease treatment. Competing homologous DNA suppressed nuclease-resistant binding. These findings suggest that gonococci have two types of DNA binding components at their surface. Competence of gonococci for genetic transformation undergoes a rapid decay if the cells are incubated with homologous (but DNA. -not with heterologous) INTRODUCTION.
Genetic
and adsorption
of exogenous
surface. this
Recent
step.
stranded
ribonucleotides
or double
duplexes
compete
of specificity uptake
tivity
of exogenous
the
a surface
located
binding
sites
of interaction
between
have two kinds
of DNA binding
components degree
(7).
A recent,
evidence
protein
exogenous
at the cell
of specificity
the DNA binding
(4,12).
stranded
system
degree
in which
DNA or DNA isolated
elegant
investigation
that
We describe
DNA and competent
poly-
An even higher
base sequence (3).
seem to
hetero
transformation
indicating
in
sites
double
to homologous
of a specific
bacterial
by the capture
polyribo-polydeoxyribonucleotide
in the Hemophylus
produced
initiated
polydeoxynucleotides,
these
species
recognition
a high
pneumococci
DNA was restricted
related
and Deich,has is
for
is
to binding
revealed
stranded
was observed
taxonomically Sisco
have
In competent
to double
do not
of bacteria
DNA molecules
experiments
adsorption
be restricted
transformation
the basis in
by H. Smith, of this
the exogenous
here gonococci
from
still which
selecDNA by
another appear
type to
components. 0006-291X/79/010097-08$01.00/0 97
Copyright All rights
@ 1979 by Academic Press, Inc. in any form reserved.
of reproduction
Vol.
86,
No.
1, 1979
BIOCHEMICAL
AND
Materials 51 colony University
BIOPHYSICAL
RESEARCH
COMMUNICATIONS
and Methods. 1) Bacterial strains: Neisseria gonorrhoeae strain type T2 and T4 were provided by Dr. Richard B. Roberts of Cornell Medical College. A streptomycin resistant (STRR) strain (M.I.C. > 1 mg/ml) of this organism was constructed by transformation. N. gonorrhoeae MHD 316 (Hypoxanthine', Proline', Uracil-, Arginine') was obtained from Dr. Wesley Catlin, Medical College of Wisconsin, Milwaukee, Wisconsin. N. meningitidis was obtained from Dr. Emil Gotschlich of this university. NT subflava (ATCC 10555) was from the American Type Culture Collection. Bacteria were maintained by daily transfer on solid medium in candle jars at 37'C. 2) Medium The liquid medium used in this study was Brain Heart Infusion (DIFCO) with 1% defined supplements (Isovitalex) and 4 mM MgC12. For agar plates, GCBA Agar (Baltimore Biological Laboratories) with defined supplements was used. 3) Transformation Procedure The procedure for obtaining competent cells was essentially that used by Sarubbi Clonal types T2 were --et al. (6). scraped from an 18 hr GCBA plate and suspended in prewarmed BHI-supplements-Mg*. The cells were routinely suspended to a Nephelos value between 100 and 200 using a Coleman Nepho-Colorimeter. A value of N = 100 represents approximately 1.5 x 108 colony forming units. One milliliter of cells was added to tubes containing the DNA and incubated at 37°C for 20 minutes. The reaction was terminated with 50 ug/ml pancreatic DNase (Worthington 2X crystallized) and incubated 5 mins at 37'C. The cells were then diluted ten and one hundredfold in Brain Heart Infusion and 0.1 ml of each dilution added to 4 ml of soft GCBA agar at 48"C, mixed and immediately layered onto the surface of plates containing 20 ml of GCBA agar plus supplement. The plates were incubated at 37'C for at least 7 hours to allow phenotypic expression and then each plate received 5 mls of soft GCBA agar containing sufficient streptomycin to give a final concentration of 300 pg/ml throughout the plate. After 4 days of incubation, colonies were counted with a New Brunswick colony counter. 4) DNA Binding and U take Assay Cells from agar piates were suspended --%-(cell conztration: 3 X 10 viable units per ml) in Beef Heart Infusion with supplements and 4 mM MgC12. Radioactively'labeled DNA was added to 2 mls of this suspension and incubated for 20 minutes. For total binding, the cells were chilled and washed by centrifugation (12,000 X G, 10 mins, 4°C) 3 times with ice cold medium. The pellet was resuspended in cold saline and an aliquot transferred to tubes containing ice cold 10% CC13COOH (2 mls). After 10 mins on ice, the precipitate was collected on Whatman GFfA glass fiber filters, washed 2X with cold 10% CC13COOH and 2X with 95% ethanol. Radioactivity was assayed by placing the discs in 10 mls of toluene based scintillation fluid For DNase reusing a Nuclear-Chicago Mark II scintillation spectrometer. sistant uptake, the cells were incubated with labeled DNA for 20 mins and then The cells were then chilled and received 50 )Ig/ml DNase for 5 mins at 37°C. vrocessed as described above for total bindinn. 5) DNA preparations. E. coli B, g. p erfringens, & luteus DNAs were .' obtained from Sigma Chemical Co. h viral DNA was from Miles Laboratories. All were dissolved in saline. DNA was extracted from Neisseria species and Str. pneumoniae by sodium dodecyl sulfate-deoxycholate lysis of the cells (5). The DNA was suspended in 150 mM NaCl-15 mM sodium citrate and dialyzed at 4OC against 2 changes of the same buffer (500 volumes each) and 2 changes of saline 260 nm in a Zeiss PMQ-2 spectrophotometer where one absorbance unit = 50 & DNA. Radioactive DNA was obtained by biosynthetic labeling (8). 3H-pneumococcal DNA was from Str. pneumonia1 TVS (thymidine requirer) labeled with 3H- thymfdine (56 Ci/m mol= England Nuclear) in CpH8. Specific activity of the DNA reparation was 2.6 X 106 CPM/ug. N. gonorrhoeae MHD 316 was labeled with 3 H uracil (23.3 Ci/m mol- New Englazd Nuclear) in Beef Heart Infusion plus supplements. Specific activity of this DNA preparation was 1.43 X lo5 CPMfug. For testing the shear-sensitivity of DNA adsorbed to the cell surface, the cells were vortexed on a Vortex Jr. Mixer (maximum speed setting) for 5 seconds after each resuspension in the washing procedure. Control cells were gently
98
BIOCHEMICAL
Vol. 86, No. 1, 1979
AND BIOPHYSICAL RESEARCH COMMUNICATIONS
TABLE EFFECT
source Transforming
N.
OF HETEROLOCOUS DNA PREPARATIONS ON THE GENETIC TP.ANSFORMATION OF CONOCOCCI
Source Competing
of DNA
Number of (Concentration 0
---
---
---
3.01
3.11
2.30
1.76
---
4.3
3.22
2.32
1.90
PI. luteus
---
2.90
2.50
2.60
2.40
Str.
---
3.26
3.0
2.30
2.30
A
---
2.18
1.81
1.99
1.68
gonorrheae
---
0.8
0.5
0.13
0.08
coli
B
perfringens
pneumoniae
Phage N. Homologous,
STRR DNA (with
1 ~g/ml
and
Transformants (X 105) per ml of competing DNA pg per ml) 2 50 -10 -100 ---
*One
Cl.
of
of DNA
1.94
gonorrhoeaea E.
a
1
the
and without
DNas)
assays
performed
resuspended by finger agitation. This DNA in the pneumococcal transformation
vortexing system.
Effect
Results.
of gonococci. gonococcal
transformation
competing
of heterologous Competent
DNA (carrying a concentration
sufficient
see Fig.
2) and various
heterologous
tion
of these
was tested.
preparations
competing
Table
when used at loo-fold number
of transformants
DNA; the reason In contrast, from
excess
two Neisseria
for
this
Figure
effect
is
on the
assay, and
of transforma-
heterologous
DNA frequency
increase of competing
at the present
homologous
to gonococci
99
DNA concentration:
transformation
not understood
related
transformation
of transforming
the frequency
A substantial
that
Methods.
concentrations
at low concentrations
1 demonstrates
taxonomically
marker;
none of the six
concentration,
under
the transformation
DNAs to suppress
was noted
to mixtures
resistance
effect
a concentration
remove surface-bound
DNAs at different
inhibitory
at
DNA on the genetic
to saturate
1 shows that
had marked
would
exposed
the streptomycin
1 pg/ml,
the ability
were
added
as described
and homologous
gonococci
was
---
in the heterologous time.
DNA and DNA isolated significantly
even
inhibited
Vol.
86,
No.
1, 1979
BIOCHEMICAL
KG Figure
Competition
1.
DNA was purified gonococci . 1 A. 1 ug StrR DNA B. 1 ug StrR DNA C. 1 pg StrR DNA.
S trs
Cells 37Oc.
were
assayed
Reaction
gonococcal
Specificity can adsorb only ternally
added
competing, (both
from gonococci) cells
that
related
per
COMMUNICATIONS
ml
Neisseria
species.
Gonococcal
DNA and 1, 5 and 10 Dgs of StrS
g.
Gonococcal
DNA and 1, 5 and
E. meningitidis
10 ugs of StrS
after 20 minutes for StrR transformants was terminated with 50 ug/ml DNase.
and the degree
of the competing of DNA uptake
pancreatic
had DNA bound
2 demonstrates
of both
bound DNase,
inhibition were
homologous
in a form p resumably
DNA suppresses
and heterologous), causes
of inhibition
subflava
of incubation
at
was proportional
to
DNAs.
Table
quantities
DNA becomes
non-radioactive
homologous
DNA
RESEARCH
from 5. subflava and N. meningitidis, as well as from ml of T2 Gonococci (N = iO5) were added to tubes containing: Gonococcal DNA and 1, 5 and 10 ugs of StrS gonococcal
substantial
homologous
BIOPHYSICAL
COMPETING
of DNA from
transformation
the concentration
AND
only
resistant
the amounts homologous
to shearing
100
competent
gonococci
and heterologous to treatment
due to cellular
of nuclease-resistant subjected
that
DNA but with
uptake.
ex-
While
of surface-adsorbed competing
DNA (i.e.
DNA binding. forces,
DNA
there
DNA When
was no
BIOCHEMICAL
Vol. 86, No. 1, 1979
AND BIOPHYSICAL RESEARCH COMMUNICATIONS
TABLE 2 __BINDING MD uww Radioactive (uglml)
DNA
OF DNA bY COMPETENT GONOCOCCJ
Competing DNA (w/ml)
-_--_none
pneumococcal (1.0 ug)
45
0.16*
gonococcal (10)
26.5
0.32
pneumococcal (10)
22.3
0.20
none
65.7
4.1
gonococcal (5 )
34.1
2.1
pneumococcal (5 )
28.1
3.8
E. coli (5 )
21.6
4.3
gonococcal (In, up)
*less
than 1% DNase resistant
substantial
loss
of counts
CPM vortexed
sample;
tained
T4 colony
using
Saturation
binding
CPM control
sample).
20568 type
large
sites
Figure
radioactive
DNA).
At cell
concentrations
saturation
of this
binding
capacity
amounts
concentration,
control
The same results
(19852
were
ob-
2 shows that
gonococci
of DNA (as measured
by the adsorption
of 3 X lo8 viable
occured
at about
a maximum level
are capable
bacteria
50 pg/ml
of genetic
of
per ml,
pneumococcal
transformation
DNA. was
by 1 ng DNA per ml.
Decay of gonococcal
homologous
resuspended
cells.
relatively
Portions
background.
to a gently
of binding
attained
represents
as compared
of DNA binding
At the same cell
DNA Uptake (nuclease resistant binding, ng per 2 x 108 cells)
DNA Binding (Cell-associated DNA, ng per 2 x 108 cells)
competence
of a gonococcal
culture
STRR DNA was added
was determined
(Fig.
3).
to undergo were
preincubated
at intervals
A decline
genetic with
and the number
in STRR transformants
101
transformation homologous
STRS DNA,
of STRR transformants occurred
with
in-
Vol. 86, No. 1, 1979
BIOCHEMICAL
AND BIOPHYSICAL RESEARCH COMMUNICATIONS
1055 Km
104 -i f P
----mm_ ---me .----
---___...._
. . . . . .I I----
\ 5\
*-a
E a103I 8 5-
‘l
2 f E 1025-
I 0.01 I
0.05
0.1
0.5
1
2
5
10
2030 PREINCUBATION
03 Figure
2.
Saturation
of Binding
and Transformation
Total binding of increasing DNA (2.26 X lo6 CPM/Hg) to 2 mls described under Methods (e--a). of StrR gonococcal DNA were added of transformants to streptomycin cubations were for 20 minutes at Figure
3.
Decay of Competence
DNA
WITH
(minutes)
in Competant
Gonococci
concentrations of radioactive pneumococcal of T2 Gonococci (N = 180) was measured as For transformation, increasing concentrations to (N = 165) StrS T2 Gonococci and the number resistance was assayed (M). All in37OC.
by Pretreatment
with
Homologous
DNA.
Cultures of StrS Gonococci (N = 150) received 1 pg homologous StrS DNA at time 0. At intervals, 1 Dg of homologous StrR DNA was added and the number of transformants after 25 minutes of incubation at 37'C was assayed (v). For comparison purposes, 1 pg of pneumococcal DNA was added to 1 ml of competent cells, and 1 Hg of StrR gonococcal DNA added at indicated intervals and assayed for transformants @--+). All incubations were terminated with 50 rig/ml DNase.
creasing
time
of preincubation
STRS DNA did
not
Discussion.
The observations
petent These
gonococci two receptors
heterologous
cause
contains
in STRS DNA.
a similar
loss
DNA adsorb
here
2 independent
to receptor
with
the heterologous
of competence.
reported
have several
Preincubation
kinds
contrasting 1, while
102
suggest
that
the surface
of DNA binding features. binding
I)
sites Both
to receptor
of comor receptors.
homologous
and
2 seems to be
BIOCHEMICAL
Vol. 86, No. 1, 1979
restricted
to homologous
ii)
Large
not
all,
quantities of these
a portion
cells
of DNA can adsorb molecules
or about
concentration)
were
from pneumococcal some fashion. bound
iii)
Deterologous
formation.
In contrast,
Maximum amounts while
homologous decline
(but
high
in levels
capable pendages studies
It
(2)
with
for
trans-
receptor
2.
at physiological
temperatures
inhibited
at 0“C (unpublished
the specificity
of receptor (Fig.
DNA.
2 for
3) that
rapid
by incubation
The mechanism
of this
with phenomenon
time.
has been several
was found (10)
and it
of Tl and T2 cells dealt
of genetic
1 even at low temperature
may be initiated
have revealed
bacterium.
cells.
1 has virtually
competes
by the finding
of gonococci
studies
of DNA binding
have
for
heterologous)
of transformability
(pili)
are
transformability
transformation
this
only
in
out by the finding
to receptor
to receptors
illustrated
at the present
and further
uptake
is
is ruled
DNA molecules
evidence
remove DNA
protected
DNA or on the frequency
and transformation
-not with
understood
Genetic (10)
homologous
DNA molecules of gonococcal
is not
of homologous
that
of
the surface
T2 and T4 (non-piliated)
the medium or attached
v) A further
homologous
in both
of DNA from
the DNA is
DNA
because
(vortexing)
that
DNA per
at saturating
presumably
protection
2 seems to function
DNA uptake
observations).
forces
in shear
of DNA can bind
receptor
cells
if
DNase, while
to 4 ng gonococcal
to the
indicates
resistant
DNA in
on the uptake
This
of pili
shear
no effect
both
(9).
species.
1 but most,
to external
to be no loss
to shearing
related
receptor
accessible
2 (amounting
appeared
subjected cells
DNA is
at a site
via
to DNase treatment,
There
The role
that
since
resistant
taxonomically
to gonococci
to receptor
transport.
when the cells
(O°C),
remain
from
6% of the DNA adsorbed
becomes
intracellular
iv)
DNA or DNA isolated
of DNA attached
2 X lo8
AND BIOPHYSICAL RESEARCH COMMUNICATIONS
physiological
only all
colonial
the four
has been suggested may play
a role
parameters
103
described
interesting
that
while
first
that
by Sparling
features types colonial
of DNA 1 and 2 have types
the surface
in DNA uptake of gonococcal
(1).
were apSeveral
transformation
(11).
Vol. 86, No. 1, 1979
The novelty specificity
BIOCHEMICAL
of the observations
of gonococcal
report,
gonococcal
genetic
transformation
description iates
considered
transformation
(3).
the latter
is
in Hemophylus
either
the
case
(3, 9 ).
Acknowledgements.
Public
1. 2. 3. 4. 5. 6. 7. 8. 9. 10. 11. 12.
Institutes Health
Literature
This
Service
Award
homologous
of H. Smith
elements
(#AI
system,
in Sexually
T.J.D.
Transmitted
Scocca
of
detailed
and his
basis
colleagues
assoc-
is
of selective indicate
in this
report
sources
via
in their
has been supported 12932).
the mechanism
molecular
described
growing
In this
molecules.
enzyme or a base-sequence
from heterologous
in gonococci
the apparent
In the first
and his
DNA uptake
is
closely
of a restriction
investigation
of Health
report
(3,7).
as the possible
of gonococcal
may not occur
influenzae
activity
studies
of genetic
transformation
National
the
for
this
of the Hemophylus
Recent
The specificity acquisition
system
in
seems to resemble
of the DNA receptors
DNA uptake
that
described
DNA uptake
of the specificity
specificity
AND BIOPHYSICAL RESEARCH COMMUNICATIONS
natural
by a grant the recipient
that
suggests genetic environment.
from
the
of a
Diseases.
cited
Biswas, G.D., Sox, T., Blackman, E. and Sparling, Bacterial. 129, 983-992. Catlin, B.W. (1967). J. Bacterial. 94, 719-733. Deich, R.A., Sisco, K. and Smith, H.0.(1978). p. 4th European Meeting on Bacterial Transformation University of York, York England. Lacks, S. (1977). p. 35-44 in Portoles, A., Lopez, teds.), Modern Trends in Bacterial Transformation North-Holland Press, Amsterdam. J. Mol. Biol. 3, 208-218. Marmur, J. (1961). Sarubbi, F.A. and Sparling, P.F. (1974). J. Inf. Scocca, J.J., Poland, R.L. and Zoon, K.C. (1974). 369-373. Seto, H. and Tomasx, A. (1974). Proc. Nat. Acad. Sisco, K. and Smith, H.O. (1979) Proc. Natl. Acad. Sparling, P.F. (1966). J. Bacterial. 92, 1364-1371. Sparling, P.F., Biswas, G.D. -and Sox, T.E. (1977). Roberts, R.B. (ed.) The Gonococcus, J. Wiley and Tomasz, A. (1973). p. 81-88 in Archer, L.J. (ed.) Academic Press, New York.
104
P.F.
(1977).
J.
46 Abstracts of the and Transfection, R. and Espinosa, and Transfection,
M.
Dis. 130, 660-663. J. Bacterial. 118, Sci. US 71, 1493-1498. Sci. US, in press. p. 155-176 in Sons, New York. Bacterial Transformation,