Optimization of Enzymatic Extraction Process of Polysaccharides from Pseudostellaria heterophylla Fibrous Roots by Response Surface Methodology and Its Pilot Application

[Objectives]To study and optimize the process conditions of enzymatic hydrolysis technology for extracting polysaccharides from Pseudostellaria heterophylla fibrous roots and its application in workshop pilot tests.[Methods]P.heterophylla fibrous roots were taken as the matrix material,and Box Behnken design was used to analyze the extraction time,composite enzyme addition amount,and liquid-solid ratio for response surface optimization experiments,and then applied to the pilot extraction of P.heterophylla fibrous roots.[Results]Response surface analysis showed that all factors had a significant impact on the experimental indicators.The optimal extraction process conditions for polysaccharides from P.heterophylla fibrous roots were extraction time of 2.7 h,compound enzyme addition of 2.5%,and liquid-solid ratio of 32.The yield of polysaccharides from P.heterophylla fibrous roots was 4.83%.The water extraction process of P.heterophylla fibrous roots extraction pilot was used as the control group for response surface optimization of the pilot experiment.The optimization results showed that the extraction time was 3 h,the amount of composite enzyme added was 2.5%,and the liquid-solid ratio was 28.The polysaccharide yield was 4.75%,an increase of 4.63%compared to the control group.[Conclusions]This paper could provide feasibility for the innovation of enzy-matic hydrolysis technology for P.heterophylla fibrous roots and its workshop pilot practice application,as well as a reference for the industrial application of its medicinal resources.

Screening of Anti-inflammatory Active Ingredients from Gancao Qinlian Extract and Study of Its Efficacy

[Objectives]To establish the chromatographic fingerprint of Gancao Qinlian Extracts(GQE)and reveal the possible material basis of the anti-inflammatory effect of GQE by the correlation analysis between the fingerprint chromatographic peaks of different components of GQE and its anti-inflammatory activity.[Methods]Ultra-performance liquid chromatography(UPLC)was used to detect the different ingredients of GQE to establish its chromatographic fingerprint and analyze the differences among the three medicine components;LPS stimulated RAW264.7 cells to construct an inflammatory cell model.The NO secretion of cells was detected by the Griess method.ELISA was used to detect the changes in TNF-αand IL-10 contents.RT-qPCR tested the mRNA expression levels of TNF-αand IL-10.Grey relational analysis was carried out by combining fingerprint chromatographic peak data and anti-inflammatory activity data.[Results]The GQE fingerprint was established,34 fingerprint characteristic peaks were calibrated,and 33 related chromatographic peaks were screened out.The corresponding chromatographic peaks in the three components were obtained,and the content of the components was calculated;the anti-inflammatory results showed that the content of NO,TNF-α,and the expression of TNF-αmRNA in the high and medium-dose groups of GQE were significantly lower than those in the blank group(P<0.01).The NO content and TNF-αmRNA expression in the high-dose group of GQE I was considerably lower than those in the blank group(P<0.01).The secretion of NO,TNF-α,and the expression of TNF-αmRNA in the high,medium,and low dose groups of GQE II were significantly lower than those in the blank group(P<0.01);the results of grey relational analysis showed that the correlation degree of the three components was GQE II>GQE>GQE I,and the characteristic fingerprint peaks 12,15,22,23,28,31,33 may be closely related to the anti-inflammatory effect.[Conclusions]The best component of the anti-inflammatory effect in GQE is water-soluble component,and its main components are flavonoids and alkaloids.These components can alleviate cellular inflammatory damage by inhibiting the excessive secretion of NO and reducing the expression of TNF-αmRNA.

Saponins Content in Fibrous Roots of Pseudostellaria heterophylla and Optimization of the SEP Extraction Technology

[Objectives]To explore the saponins resources in fibrous roots of Pseudostellaria heterophylla and optimize the SEP technology for extracting saponins.[Methods]Saponins contents in fibrous roots and root tubers of P.heterophylla were compared;with the fibrous roots as host materials,this experiment applied Box-Behnken design to analyze the influence of steam pressure,maintenance pressure time,moisture content of host materials on the content of saponins extracts.[Results]Saponins content was higher in fibrous roots than in tuberous roots of P.heterophylla;the response surface optimization showed that SEP(steam explosion pretreatment)promoted the contents of saponins and extracts in fibrous roots,and the optimal extracting conditions were stream pressure 1.50 Mpa,maintenance pressure time 54 s,and moisture content of host materials 30%.Under this extracting conditions,the verification value of saponins content experiment was 0.441%,36.53%higher than the untreated control group.[Conclusions]This research offered a new method of exploring saponins resources from fibrous roots of P.heterophylla,and provided a reference for developing new medicinal parts of P.heterophylla.

Pseudostellaria heterophylla:Antioxidant Activity and Its Mechanism of Action

The tonic traditional Chinese medicine Pseudostellaria heterophylla both medicinal and nutritional effects.It has been applied to research in the field of modern aquaculture,and its anti-oxidant clinical trials have also become a hot spot.Through searching domestic and foreign literature databases to sort out related literature,the anti-oxidation property of P.heterophylla was reviewed systematically from the three levels of in vitro chemical method,biological method and animal experiment method.On this basis,the functional mechanism of the anti-oxidant activity of P.heterophylla explored,in order to provide a reference for the follow-up in-depth research on the anti-oxidation of P.heterophylla and the discovery and development of feed and health care value of P.heterophylla the field of modern animal breeding.

Improving Ultraviolet Stability of Perovskite Solar Cells via Singlet Fission Down-Conversion

The instability of perovskite materials under continuous ultraviolet(UV)light irradiation and high sensitivity in humid environments remain obstacles to future commercialization.Especially,the photovoltaic performance of perovskite solar cells(PVSCs)is prone to decline under UV light exposure for sustained periods of time.However,in conventional methods,preventing UV light from entering PVSCs usually comes at the expense of reducing short circuit photocurrent(Jsc).Herein,the UV stability of PVSCs is modified by in-troducing a singlet fission down-conversion layer 6,13-bis(triisopropylsilylethynyl)pentacene(TIPS-PEN)via one-step anti-solvent method without sacrificing device efficiency.The introduction of down conversion layer can not only improve the Jsc by converting UV light into multiple excitons,but also enhance the open-circuit voltage(Voc)owing to a better matched energy level alignment at the perovskite/spiro-OMeTAD interface.Consequently,the TIPS-PEN incorporated PVSCs attain the champion power conversion effi-ciency(PCE)up to 22.92%accompanied with dramatically increased UV photostability which can retain 80%of its primitive PCE un-der continuous UV light soaking for 150 h.Moreover,the unencapsulated PVSCs with TIPS-PEN exhibit remarkable moisture stability which can sustain over 80%of the initial value under air conditions(50%relative humidity,25℃)after 1000 h.

Dual Triplet Sensitization Strategy for Efficient and Stable Triplet–Triplet Annihilation Upconversion Perovskite Solar Cells

The novel triplet–triplet annihilation(TTA)upconversion(UC)field of rubrene(Rub)and dibenzotetraphenylperiflanthene(DBP)sensitized by bulk metal halide perovskite,integrated with copper-2,3,9,10,16,17,23,24-octafluorophthalocyanine(F_(8)CuPc)as cosensitizer,have been investigated in perovskite solar cells(PVSCs)to minimize sub-bandgap photon transmission loss.The firm hydrogen bonding interaction(F…H–N between F_(8)CuPc and MA+),cation-πinteraction(MA+with Rub),and the hydrophobic characteristic of additives enable F_(8)CuPc:Rub:DBP dually-sensitized p-i-n PVSCs based on MAPbI_(3)and Cs_(0.05)(FA_(0.83)MA_(0.17))_(0.95)Pb(Br_(0.17)I_(0.83))_(3)absorbers to attain champion efficiencies of 20.83%and 21.51%,respectively.Furthermore,due to the excellent photochemical and thermal stability of F_(8)CuPc,the corresponding PVSCs can maintain nearly 80%of the original efficiencies exposed to air with 50∼70%relative humidity over 1100 h and N_(2)at 85℃for 300 h.