Morphology and Thermal Characteristics of Polysaccharide Extracted by Ultrasound from Ophiopogon japonicus

The crude polysaccharide UPOJ was extracted by ultrasound from Ophiopogon japonicus and purified by DEAE-cellulose52 column and Sephadex G-150 gel column. Purified polysaccharide UPOJ-DS was obtained. The thermal characteristics of UPOJ-DS were studied by using the thermal analysis system Q1000DSC LNCS FACS Q600SDT. The heating rate was 10 ̊C/min and the test temperature was 20 ̊C ~ 800 ̊C. The results showed that there were three large mass losses in the process of heating, in which the maximum weight loss rate was 66.68% at 220 ̊C ~ 330 ̊C and the decomposition reaction took place in the polysaccharide itself, which indicated that the composition, water content, intermolecular interaction and aggregation behavior of UPOJ-DS were affected by temperature. The surface morphology of UPOJ-DS was observed by environmental scanning electron microscope (ESEM). The results indicated that the polysaccharide molecules were lamellar or clastic, with smooth surface, strong intermolecular interaction and close binding.


Introduction
As a traditional Chinese medicine, the plant Ophiopogon japonicus is used for nourishing Yin and nourishing the heart, the treatment of dryness, dry cough, insomnia, constipation, etc [1] [2].The main chemical constituents are isoflavones, saponins, volatile oils, alcohols, inorganic elements and polysaccharides [3] [4].The polysaccharide is one of the main active components in Ophiopogon japonicus, which has the functions of hypoglycemic activity, anti-fatigue, auxiliary inhibition of tumor, anti-radiation and so on [5] [6] [7].Ophiopogon japonicus polysaccharide is very important and significant to study its thermal stability and morphology because it has many pharmacological and physiological functions.
Thermal analysis is the technology measuring the relationship of physical properties and temperature dependence under the program control temperature.
The commonly used methods include thermogravimetric method (TG), derivative thermogravimetric method (DTG), differential thermal analysis (DTA) and differential scanning calorimetry (DSC).Thermal analysis technique can determine rapidly and accurately the transformation of crystal material type, melting, sublimation, absorption, dehydration and decomposition of change, is an important method to test the physical and chemical properties of inorganic, organic and polymer materials.Thermal analysis technology has been widely used in physics, chemistry, chemical industry, metallurgy, geology, building materials, fuel, textile, food and biology [8] [9] [10].

Thermogravimetry (TG) and Derivative Thermogravimetry (DTG)
Thermogravimetry (TG) is the measurement of the weight change of sample during heating.Temperature is abscissa and the percentage of weight loss is ordinaten in TG curve.Composition, thermal stability, thermal decomposition and products generated could be obtained from TG curve.As well as the temperature range of decomposition and thermal stability could also be obtained from TG curve.The first derivative of the TG curve with respect to temperature is the thermogravimetry (DTG) curve, which reflects the relationship between the rate of change of sample mass and temperature [11].

Differential Thermal Analysis (DTA)
Differential thermal analysis (DTA) is a thermal analysis method to measure the relationship between temperature between samples and reference materials under programmed temperature control [12].Temperature or time is abscissa and the temperature difference is ordinaten in DTA curve.The physical or chemical processes of samples could be analyzed qualitatively according to the characteristics of differential thermal analysis curves, such as all kinds of endothermic and exothermic peak number, shape, and the corresponding temperature.Reaction heat also can be measured quantitatively according to peak area.

Environmental Scanning Electron Microscope (ESEM)
Environmental Scanning Electron Microscope (ESEM) is a new electronic optical instrument, which uses extremely thin electron beam to scan the sample surface, collects the generated secondary electron with the special detector, forms the electric signal to the picture tube, displays the object on the fluorescent screen.Three-dimensional images of the surface of cells and tissues could be photographed.It has been widely used in physics, chemistry, materials, geology, geography, biology, medicine and other disciplines, and metallurgy, ceramics, electronics, semiconductor and other industries, and promote the development of relevant disciplines, has wide application prospect [14] [15].

Materials and Reagents
Ophiopogon japonicus (produced in Zhejiang province) was purchased from the traditional Chinese medicine market of Wan Shou road, xi' an.Sodium chloride, concentrated sulfuric acid, phenol, 95% ethanol were all analytical pure reagents.

Isolation and Purification of Ophiopogon japonicas Polysaccharide
The root of Ophiopogon japonicas was crushed after drying at 60˚C, and then The polysaccharide UPOJ was eluted in succession with doubly distilled water by DEAE-52 cellulose column equilibrated with distilled water (2.5 × 60 cm).
The eluate was detected by phenol-sulfuric acid method.Only one component obtained, which was named UPOJ-D.The sample of UPOJ-D was purified by Sephadex G-150 gel column (2.5 × 60 cm) using doubly distilled water as eluent.
Only one component was obtained, named UPOJ-DS.Then UPOJ-DS was concentrated, dialyzed and lyophilized for further study.

Thermogravimetry (TG), Differential Thermal Analysis (DTA) and Differential Scanning Calorimetry (DSC)
With reference to literature [16], the thermal characteristics and aggregation state of Ophiopogon japonicus polysaccharide UPOJ-DS was studied using a thermal analysis system.Test condition: Freeze-dried polysaccharide sample powder was 5 -10 mg, nitrogen environment (static), test temperature was 20˚C -800˚C, heating rate was 10˚C/min, the scanning speed was 2˚C/min.

Environmental Scanning Electron Microscope (ESEM) Observations
A proper amount of polysaccharide sample powder was glued to the conductive adhesive of the experimental bench.The floating sample was blown off with rubber suction bulb and placed in a gold conductive layer of 10 nm thickness in a vacuum plating instrument.The accelerating voltage of the electron gun was 20 KV, observed by use of ESEM.

Sephadex G-150 Gel Column Chromatography
Figure 2 showed that the polysaccharide UPOJ-DS showed a single symmetric peak after the chromatography of Sephadex G-150 gel chromatography, indicating that UPOJ-DS was a polysaccharide with homogeneous components.

TG-DTG Analysis of UPOJ-DS
As shown in Figure 3, dry UPOJ-DS had three big mass loss from 20˚C to 800˚C in the process of temperature rising.The weight loss ratio was 7.774% in the   process of 20˚C ~ 100˚C, which was the process of loss of the adsorption of water.In 220˚C ~ 330˚C, the weight loss ratio was 66.68%, suggesting that poly-saccharide decomposition reaction happened.In 330˚C ~ 700˚C, the weight loss ratio was 18.68%.Thereafter until heated to 800˚C, the weight of UPOJ-DS had been continuously decreasing, but the weight loss ratio significantly smaller than before.These results indicated that these change of UPOJ-DS was related to its composition, water content, molecular interaction and aggregation behavior.
DTG curves reflected the relationship between the mass-change rate and temperature.The mass-change rate also has two peaks in Figure 3.It had a higher peak and a greater weight loss rate at 220˚C ~ 330˚C.The weight loss rate was largest at 283˚C especially.

DTA and DSC Analysis
Figure 4 and Figure 5 were DTA and DSC analysis charts of UPOJ-DS respectively.From Figure 4, there were two endothermic peaks.The weight of sample was decreased from 99.36% to 91.96% in the first peak at 21˚C ~ 110˚C.This was the process of water evaporates and absorbs heat.The second peak was the heat absorbed by polysaccharide decomposition at 230˚C ~ 330˚C, which was consistent with the TG analysis results.From Figure 5, the heat of sample absorption was in two stages.The first stage began to heat absorption at 20˚C and stopped heat absorption at 65˚C, and the weight of sample was decreased in the process.
It was caused by losing adsorption water known by the preceding analysis.The second stage, there was a peak in 233˚C ~ 330˚C.In this process, the sample absorbed heat and underwent a thermal change.The key indicators of the thermal changes were as follows: extrapolation starting temperature was 233.11˚C, extrapolation end temperature was 328.37˚C, extreme value was 283.63˚C, the peak height flow was 8.526 w/g, enthalpy value was 211.3 J/g.These results were consistent with the literature [17].It indicated that UPOJ-DS has good thermal stability.The results showed that the sample was lamellar or clastic and the surface was smooth.The curly shape, the smooth sheet surface and holes could be clearly observed at 500 of magnification multiples.At high magnification multiples, the surface was relatively compact, indicating that the polysaccharide molecules interact strongly with each other and bind closely.

Conclusion
The above conclusion indicated that the molecular structure of Ophiopogon japonicas polysaccharide UPOJ-DS will change with the change of temperature.
The experiments of TG, DTA and DSC were used to study the thermal characteristics of UPOJ-DS.The analysis results showed that the UPOJ-DS was relatively

1. 3 .
Differential Scanning Calorimetry (DSC) Differential scanning calorimetry (DSC) is a technique for measuring the relationship between temperature and power difference of material and reference material under programmed temperature control.The DSC curve takes temperature or time as the horizontal coordinate, and the differential of enthalpy with X. M. Wang et al.DOI: 10.4236/ajps.2018.981231701 American Journal of Plant Sciences respect to time (dH/dt) as the vertical coordinate.It has the characteristics of sensitive reaction and high resolution [13].
200 g dry powder was put into 1000 ml beaker, added 4 times the volume of 95% ethanol to degrease, stirring 20 min, centrifuge, collect precipitate and dry after repeated three times.It was added to distilled water according to the ratio of 1:10 to extract polysaccharide by used of ultrasound.The extraction conditions as follows: ultrasonic power: 80 W, ultrasonic time: 10 s, ultrasonic frequency: 90 times, interval time: 15 s, extract twice, respectively.The twice extract was combined, and added to four times the amount of 95% ethyl alcohol to precipitate American Journal of Plant Sciences polysaccharide after vacuum concentration, then centrifuge, dialyze three days by running water and vacuum freeze-drying.Crude polysaccharide UPOJ was obtained.No absorption was observed at 280 nm and 260 nm in the UV absorption spectra of UPOJ, which demonstrated the absence of protein and nucleic acid in the polysaccharides.

Figure 1
Figure 1 showed that only one peak of polysaccharide UPOJ-D was obtained by DEAE-52 cellulose chromatographic column chromatography, indicating that the polysaccharide UPOJ-D was relatively simple.

Figure 6 (
Figure 6(a), Figure 6(b), and Figure 6(c) were the electron microscope scanning photos of polysaccharide UPOJ-DS at different magnification multiples.