Poster presentation
179
SEC LIQUID CHROMATOGRAPHY OF CISTANCHE Salsa
POLYSACCHARIDES
Sh.Sh.
Orazova
1
, G.E. Berdimbetova
1
, A.S. Boymirzaev
2
, T.R. Egamberdiev
1
,
K.S.
Jaunbaeva
3
1) Karakalpak Research Institute of Natural Sciences of the Karakalpak Branch of
the Academy of Sciences of the Republic of Uzbekistan, Nukus
2) Namangan Institute of Engineering and Technology, Uzbekistan
Nukus, st. Berdak №41,
e-mail: shaxnoza.orazova@bk.ru,
tel. (97) 474 2212
3) S. Yu. Yunusov Institute of the Chemistry of Plant Substances,
Acaderny of Sciences of the Republic of Uzbekistan,
e-mail: kzhauynbaeva@inbox.ru
In
recent years,
Cistanche salsa
(C.A. May) Beck has been actively studied in the
field of vision, medicine and pharmaceuticals, as it contains various biologically active
substances, including polysaccharides, phenolic compounds
and a large number of
flavonoids. Polysaccharides differ in their structure, physicochemical properties, etc.
Monosaccharide composition, type of glycosidic bond, molecular weight and solubility
in water or alkali. Biological activity depends on molecular parameters and structure.
An analysis of the literature showed that information on the polysaccharides of many
representatives of the genus
Cistanche salsa
(C.A. May) Beck is limited or absent, so it
is necessary to study the molecular weight of the polysaccharide of this genus.
The purpose of the study is to determine the physicochemical
properties of
polysaccharides in the aerial part of the cistanche.
For the study, the aerial part of the
Cistanche salsa
plant, collected in April 2022 in
the Nazarkhan forestry of the Kipchak department of the Amudarya district of the
Republic of Karakalpakstan, was taken.
Size exclusion liquid chromatography (SLC) of the obtained polysaccharides WSP
and PS was performed on an Agilent 1260 Infinity high-speed
liquid chromatograph
(USA) with a refractometric detector. TSK GM PW XL was used as a sorbent with a
linear calibration dependence in the molecular weight separation range from 1102 to
2106. The eluent flow rate was 0.8 ml/min. The volume of the injected sample is 25 µl.
The chromatographic data were processed using the Windows Chemstation 7 program.
A 0.1 M aqueous solution of sodium nitrate served as the eluent. Gel chromatograms of
two samples consist of three fractions of polysaccharides in the aerial part of cistanche.
1 - the peak on the chromatogram characterizes pectin with a molecular weight of 12
kDa, the remaining fractions are oligosaccharides with 3 and 1 kDa, respectively.
Shown are gel chromatograms of two samples obtained from the aerial part of cistanche,
consisting of three chromatographic peaks of polysaccharide
fractions with molecular
weights of 25, 3 and 1 kDa. pectin substances isolated from the underground part of
cistanche have a higher molecular weight (25 kDa) than from the aboveground part.
However, in the samples of polysaccharides isolated from the aboveground and
underground parts of the cistanche, there are fractions of oligosaccharides with an MM
of 3 kDa and 1 kDa. To calculate the average MW of the samples, the universal Benois
calibration dependence for pectin substances and pullulan standards was used. The
following Mark-Kuhn-Houwink equations for pulluans were used to construct the ICP:
[η]=1.9 10-4 М0.67; for pectins [η]= 0.18 10-4 М0.99 in water.