Factors inducing mesophilic bacteria to grow at 55°C

Factors inducing mesophilic bacteria to grow at 55°C

Vol. 6, No. 3, 1961 BIOCHEMICAL FACTORS Department INDUCING MESOPHILIC Received Organisms range Davis, been 1952; mesophilic to grow shown ...

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Vol. 6, No. 3, 1961

BIOCHEMICAL

FACTORS

Department

INDUCING

MESOPHILIC

Received Organisms range Davis,

been

1952;

mesophilic

to grow shown

to require

was

Brooklyn,

and Sobotka,

culture

of several

able

AT

55”C.*

New

York

New Jersey

to grow

Further

as well

studies

when

factor(s)

of mesophilic

yeast

revealed

(Maas that

from

supported

of

(Albimi

medium several

and

a strain

autolysate

that

fluid

which

biothermal

shown

to the culture

as the supernatant

contained

strains

added

their

supplements

we have

at 55°C.

was

than

growth

Recently,

York)

1961).

also

other

City,

higher

additional

1957).

New

preparations

bacterial

at temperatures

et al.,

bacteria

mercial

H. Baker of Medicine, Jersey

College

Hutner

Laboratory,

TO GROW

8, 1961

able

have

Baker

Hall

September

BACTERIA

E. H. C. Sie and H. Sobotka The Mount Sinai Hospital, New York,

of Chemistry,

Seton

AND BIOPHYSICAL RESEARCH COMMUNICATIONS

(Sie, other

com-

a thermophilic grwoth

at 55°C.

bacteria.

Methods To obtain

the supernatant,

B-194,

was

grown

defined

medium

hydrolysate.

aeration et al.,

used

as inoculum.

at 50,000

to one liter

r. p. m.

To test

for 5 ml.

work

The

of test

ml.

portions

Fernbach

flasks;

suspension

was

is supported

G-17492, 205

1 percent

of a 16 hour

casein

culture

by a refrigerated

autoclaved factor(s)

consisting

by grant

with

in a chemically

of the thermophikmedium

clarified was

stearothermophilus

7-9 hours

one ml.

of temperature

medium,

for

supplemented

and the supernatant

the activity

Bacillus

at 55°C.

1953),

Three-hundred-fifty

added

*his

without (Baker

were

natant,

the thermophile,

the same

National

centrifuge day.

in the thermophile

of supernatant

and base, Science

was

superpH 6. 5,was

Foundation.

Vol. 6, No. 3‘1961 added for

BIOCHEMICAL

to 10 ml.

30 minutes

water

Fernbach

flasks,

at 16 psi.

They

suspension

were

carried

medium

et. were

were

1953).

Strains

maintained

Bacillus

strains

alvei,

bacteria

agar

7068;

B.

megatherium,

B.

subtilis,

B.

sphaericus,

coli

9637.

58;

medium

autolysate, philes 0.5 plus

7-hour

at 55°C. percent

proteose

a combination

equalled

or surpassed

B.

is directly

addition

of thermophile

M.

B.

(Baker study

in four

In yeast

extract

at 55°C.

with

when (Table

I).

thermo-

Unlike

yeast

the growth beef

good overnight

Growth

the growth of yeast

206

I).

of meso-

extract

or thermophile peptone,

RA-91,

regular

percent

to the concentration

concentrations

sphaericus,

(Table

incubated

70544;

- B. megatherium

but not with

0.5

842;

and Rscherichia

and B.

autolysate

increases

sphaericus,

did not support

and proteose

media,

B.

strains

7067;

B. macerans,

B. polymyxa,

Allen);

peptone

supplemented

proportional

at low

less;

supernatant

supernatant

medium

as

study:

7064;

(lysogenic);

subtilis

thermophile

that

probe

in this

B. cereus’,

observed

and proteose

In the same

at 55”C.,

Dr.

extract

of beef

6 days.

pronounced

was

less;

being

units

the present

included

subtilis-B2

from

peptone.

required

most

(obtained

without

for

basal

density

a red-sensitive

were 604;

B.

or thermophile

or beef

in optical

megatherium

7067;

subtilis-Ba

autolysate

B.

growth

Assays

and Discussion

B. brevis,

subtilis

RA-91

B.

yeast

phile

B.

at 55°C. and inoculated

selected

bacteria

7056;

At 55°C.)

(lysogenic); with

662;

of a distilled

slants.

of mesophilic

(ATCC)

recorded with

and autoclaved

one drop

uninoculated

equipped

Results Thirteen

was

of mesophilic

on nutrient

with

caps,

and incubated

with

Growth

Densichron,

aluminum

inoculated

Flasks

as controls.

with

bacteria,

out in triplicate.

by a Welch

al.,

covered

of the mesophilic

served

measured

AND BIOPHYSICAL RESEARCH COMMUNICATIONS

supernatant growth

at 55°C.

at 37°C.)

of these

four

of yeast

autolyeate

response.

The

autolysate

and

growth

mesophiles,

effect

(i. e. 1 percent);

alone; is growth

Vol. 6, No. 3,196l

BIOCHEMICAL

AND BIOPHYSICAL RESEARCH COMMUNICATIONS

TABLEI

r

GIiOWTIiOFMFZ3OPHILICBACTERIAAT 37' C. Am 55%. IN THEHMOPHILE SIJP%,NATAEJT AhD IN YEASTAUTOLYSATE f

Growth1 of

7 hr. supenatant (v/v) (in percent)

J+ eubtllisa

lh beef extract l protease peptone 0

;iliS zt

B. subt TAe

37’c. 15 hrs.

0.08

0.42

0.10

0.26

1.x)

0.28

0.95

0.17

1.18

0.66

1.28

I 0.59

1.07

0.68

0.95

0.85

1.43

0.44

1.27

0.80

1.22

0.47

1.10

0.18

1.37

o.l.4

0.94

0.12

1.28

Ob33

1.44

0.43

1.66

0.15

1.60

0.28

1.63

0.73

1.56

0.86

1.60

0.52

2.35

1.25

1.78

1.lJ.l

1.55

0.00

0.003

0.00

0.003

0.00

1.75

0.00

0.003

0.9

0.68

0.60

2.10

0.44

2.80

0.55

1.91

0.66

1.20

0.82

2.29

0.62

3.30

0.75

2.13

1.21

2.30

1.21

2.71

1.76

3.40

1.28

2.&S

0.10

0.22

0.08

0.26

0.08

0.42

0.10

0.26

0.38

1.60

0.24

1.22

0.61

2.00

0.47

0.52

lLJ.4

1.70

1.94

1.33

0.10

0.26

10

0.25

25

50

b

.08

0.26

Yeast autolysati

In thermophil medium 0

Inbeefextract + Pro*oaepeptone

' Growth was recorded in optical density units. 2 A vitamin B, requiring strain. 3 Good growth (O.D. above 1,s) wz.s observed after

207

48 hours of incubation.

Vol. 6, No. 3,196l is also

increased

growth

previously

tone.

No growth

occurs

or thermophilic At 55°C. grow

in liver

factor(s)

autoclaving.

showed

much

Enzymatic and its trypein,

plus

beef

at 37X.

chymotrypsin isolation

The

authors

extract

(10e4

its effect

to

on the

of

autolysate

or by

and proteoee

containing

no yeast

and proteose and B.

hydrolysate,

autolysate

peptone.

subtilis,

suggesting

pep-

7067,

that

can also

the temperature

substances.

in the yeast

autolysate

by 2 volumes (1 N HCl, (Table

is dialyzable of EtOH

autoclaved

and stable

at 4°C.

15 minutes,

in the yeast

with

of either

crystalline

or papain

to acknowledge

Moreover,

II). factor(s)

0.1

to

16 psi)

of the temperature

and identification

wish

spermine

thermophily

of yeast

beef

extract

(lysogenic)

activity

hydrolysis

to yeast

did not maintain

1961),

by addition

in media

autolsate

greater

dialysate

The

and Mr.

yeast

that

peptone

studied

Spermine

in subcultures

It is not precipitable

hydrolyzed

we have

with

in many

factor(s)

proteoae

(1961)

and Sobotka,

possible

or yeast

may be present

Temperature ,

Baker

megatherium

extract

inactivation,

in combination

supernatant , B.

by Tabor

temperature.

is made

supernatant

plus

temperature.

(Sie,

organisms

thermophile

heat

at high

extract

finding

at high

of mesophiles

mesophilic

acid

from

of mesophiles

As shown

of beef

of the recent

M) stabilized.DNA

the growth

AND BIOPHYSICAL RESEARCH COMMUNICATIONS

by the addition

In view

autolyeate. lo-?

BIOCHEMICAL

mg. /ml.

does

not alter

of the factor(s)

the technical

P. Shield

208

autolysate pepsin,

its effectiveness. is underway.

assistance

of Mrs.

H. Harvey

BIOCHEMICAL

Vol. 6, No. 3,196l

AND BIOPHYSICAL RESEARCH COMMUNICATIONS

TABLE II GROW!N OF MESOpHllJC BACTERIA AT 37%

AMI AT s5.C. IN 2 PERCENT YXAST AU'IULYSATE l’¶IAT WASTRJUTEII Ih’ VARIOUS WAYS, AND IN DIFEEREXT BASA.L MEDIA

T

hmrtll 1erium

of B. subtilia

w

Treatment

Base

6 days

15 hour8

WC. 6 daya

15 hour8

H90

0.04

1.42

0.20

1.55

B.P.l

0.10

1.49

0.9

1.20

R.T.M:

0.66

1.10

0.89

1.10

W

0.70

1.n

0.98

2.45

B.P.

0.85

1.39

1.20

2.50

R.T.M.

1.52

1.49

1.58

2.60

*a0

0.10

1.40

0.48

1.70

B.P.

al4

1.3h

0.48

0.80

R.T.Y.

0.62

2.20

1.12

1.9

W

0.42

0.80

0.38

1.20

B.P.

0.12

1.u)

0.42

1.20

R.TY.

1.02

1.99

L42

1.35

None

Acid hydralyzed and neutralized

Concentrated dialyeate (48 hour8 against 10 volumes of H,O under continuous stirring at L’ C.)

Concentrated dialpate, acid hydrolyzed and neutralized

ssc.

37-c.

37%

l Soof extract + protease pePton z Regular thenophile medium. References Baker,

H.,

Sobotka,

H.,

Hutner, S.H., Baker, H., Lockwood, S., Sanders,

Maas, Sie, Tabor,

W. K. , and Davis, E.H.

C.,

Baker,

H. t Biochem.

H.,

and Hutner,

S.H.,

J. Gen. Microbiol.9, 485 (1953F

Aaronson, S., Nathan, H.A., Rodriguez, E., M., and Petersen, R. A., J. Protosool 4,259 (1957). B. D.,

Proc.

Sobotka,

Biophys.

Natl.

H. ) Nature

Res.

209

Comm.

Acad.

Sci. 2,785

(1961). 4,228

In press.

(1961).

(1952).