Protocol for Polyamine
Analysis in Bacterial Cells:
1.Extraction & Dansylation (Derivatization):
·
Take
approx. 40 mg of lyophilized cells in a tube.
·
Extract
(Hydrolysed) with 1 ml of 0.2 M Perchloric Acid (HClO4).
·
Add
internal standard 1, 8-diaminooctane (25 µmol/40 mg of cells) (Required Usually
for HPLC, for TLC =????)
·
Incubate
at 1000C for 30 min. with occasional shaking after 15 min. interval.
·
After
extraction the samples were centrifuged, at 8000 rpm for 10 min.
·
Transfer
0.2 ml of supernatant to a tube containing 0.3 ml of Na2CO3
solution (100 mg/ml) and 0.8 ml of dansylchloride solution (7.5mg/ml in
acetone).
·
The
tube was closed tightly & dansylation was performed by incubating the tube
for 20 min at 600C (usually in dark condition).
·
Add
0.1 ml of proline solution (50 mg/ml) to bind excessive dansyl chloride.
Incubate for 10 min. at 600C.
(Usually
the volume can be adjusted as;
Supernatant
(Samples) : Na2CO3 : Dansylchloride : Proline = 0.4 ml :
1.2 ml : 3.2 ml : 0.4 ml)
·
Cool
in refrigerator (at 4-50C)
·
Add
200-500 µl of toluene and shake or vortex for 30 sec.
·
Centrifuge
if required to separate toluene phase from aqueous phase.
Ø
Toluene Extract can be analyzed either by HPLC or
TLC.
2.For TLC:
Ø
The
solvent cyclohexane/ethylacetate (2:3) (usually 100 ml) must be prepared some
hours before chromatography & placed in tank for saturation.
(Chloform/triethylamine , 4:1 v/v may also be use as
solvet)
Ø
Take
TLC Plate (silica gel 60,20 X 20 cm; Merck Cat. No. 105553).
Ø
Samples
& Standards are loaded in the application Zone by using micropipette.
Generally 10-40 µl of each toluene extract are applied. Large volume must be
loaded by repeated applications of small aliquots with solvent evaporation in
between increment.
Ø
After
loading the sample, the plates are dried & then placed vertically into the
chamber dipping the immersion zone into the developing solvent.
Ø
The
chamber is then sealed tightly.
Ø
Plates
are developed for 40 min. when used cyclohexane/Ethylacetate solvent & for
1 hr. 15 min. is used chloroform/triethylamine solvents.
Ø
Once
developed, the plate is removed from the chamber & dried quickly for 10
min. at 600C .
Ø
Spots corresponding to the different amines are visualized under
UV light, and identified by comparison to standards.
Ø
When developed in 2:3 (V/V) cyclohexane/ethylacetate, the migration
order of the different polyamines is spermine (firstly separated) followed by
spermidine, and finally, putrescine and cadaverine (if present) poorly
separated.
Ø
When developed in 4:1 (V/V) chloroform/triethylamine, the migration
order of the different polyamines is diaminopropane (firstly separated)
followed by putrescine, cadaverine, and finally, spermidine and spermine.
Ø
Once visualized, the spot bounders are marked with pencil.
3.For HPLC analysis:
Ø
After the extraction of the dansylated polyamines, 400 ul of the
organic phase (the toluene extract) is removed, dried (e.g., under a stream of
) and re-dissolved in 800ul of acetonitrile (which is compatible with the HPLC
column). Finally, the samples are passes through a 0.45 pore size syringe
filter before injection in HPLC.
4.Preparation of standard solutions:
Ø Stock
solutions of commercial polyamine standards: diaminopropane, putrescine,
cadaverine, spermidine and spermine (in the form of hydrochlorides)
are prepared at the concentration of 1 mM in water (or in 0.01 N HCl).
Ø For the
HPLC procedure, a stock solution 1 mM of 1,7- diaminoheptane
is also prepared. The unnatural amine 1,7 diaminoheptane is used
in HPLC as internal reference compound because it resolves well from
derivatives of endogenous amines, elutes near amines of interest, and it is
stable under storage conditions (Smith and Davies, 1987).
Ø Working
standard solutions for HPLC (0.05 mM) are prepared by 1:20
dilution of the stock [i.e., 50 1 mM stock + 950 (or 0.01 N HCl)].
Ø Working
standard solutions for TLC will be the 1 mM stock solutions,
undiluted.
Ø Standards
are stable for at least 2 months if stored at –20 °C in plastic tubes. Plastic
containers (e.g., Eppendorf tubes) must be used for storage because polyamines
adsorb to the surface of glass (Smith and Davies, 1987).
Dansylation of standards is carried out in the same way described
for samples, but consider:
Ø
Polyamine standards for HPLC are prepared by mixing 40 of
each 0.05 mM working solutions (diaminopropane, putrescine, cadaverine,
1,7-diaminoheptane, spermidine and spermine), having a final volume of 240
Moreover, 40 µL 1,7-diaminoheptane 0.05 mM are added to each sample before
dansylation, as internal reference, thus having equal experimental volumes for
samples and
standards.
standards.
Ø
Polyamine standards for TLC are prepared by mixing 20 of each
1 mM stock solutions (diaminopropane, putrescine, cadaverine, spermidine and
spermine). Final volume of 200 (equal to sample aliquots) is achieved by adding
100 (or HCl 0.1 N). Alternatively, different concentrations of standards can be
prepared (e.g., 25, 20, 15, 10 of each 1mM stock + 75, 100, 125, 150 µL water in order to obtain a
standard curve for each amine (i.e.,
concentration vs. fluorescence).
concentration vs. fluorescence).
Ø
Dansylation must be performed in the dark since the derivatives
are
light sensitive, but dim light in the laboratory is tolerable. Solution of
dansyl chloride in acetone can be stored for 24 h at 4 °C in the dark. After
the dansylation reaction, samples must be kept in the dark or in dark vials.
light sensitive, but dim light in the laboratory is tolerable. Solution of
dansyl chloride in acetone can be stored for 24 h at 4 °C in the dark. After
the dansylation reaction, samples must be kept in the dark or in dark vials.
Fig:
Polyamine Bands in TLC
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