Multiomic Analysis Reveals Core Regulatory Mechanisms underlying Steroidal Glycoalkaloid Metabolism in Potato Tubers.

Steroidal glycoalkaloids (SGAs) present in germinated potato tubers are toxic; however, the mechanisms underlying SGA metabolism are poorly understood. Therefore, integrated transcriptome, metabolome, and hormone analyses were performed in this study to identify and characterize the key regulatory genes, metabolites, and phytohormones related to glycoalkaloid regulation. Based on transcriptome sequencing of bud eyes of germinated and dormant potato tubers, a total of 6260 differentially expressed genes were identified, which were mainly responsible for phytohormone signal transduction, carbohydrate metabolism, and secondary metabolite biosynthesis. Two TCP14 genes were identified as the core transcription factors that potentially regulate SGA synthesis. Metabolite analysis indicated that 149 significantly different metabolites were detected, and they were enriched in metabolic and biosynthetic pathways of secondary metabolites. In these pathways, the α-solanine content was increased and the expression of genes related to glycoalkaloid biosynthesis was upregulated. Levels of gibberellin and jasmonic acid were increased, whereas that of abscisic acid was decreased. This study lays a foundation for investigating the biosynthesis and regulation of SGAs and provides the reference for the production and consumption of potato tubers.

A novel xanthone dimer derivative with antibacterial activity isolated from the bark of Garcinia mangostana.

A novel xanthone dimer derivative, garmoxanthone (1), together with 10 known compounds (2-11), were isolated from bark of Garcinia mangostana. Their structures were established through spectroscopic methods. Garmoxanthone exhibited strong inhibitory activities against MRSA ATCC 43300 and MRSA CGMCC 1.12409 (with MIC values of both 3.9 µg/mL) and moderate activities against tested strains of Vibrio (with MIC values ranging from 15.6 to 31.2 µg/mL). Garmoxanthone is a unique xanthone dimer with linkage of a fused 5/6 ring system and its absolute configuration was elucidated on the basis of experimental and calculated electronic circular dichroism. Garmoxanthone exhibited strong antibacterial activity which partially validated the ethnobotanical use of G. mangostana in the treatment of infections.

Chemical Composition and Acetylcholinesterase Inhibitory Activity of Essential Oils from Piper Species.

The essential oils (EOs) derived from aromatic plants such as Piper species are considered to play a role in alleviating neuronal ailments that are associated with inhibition of acetylcholinesterase (AChE). The chemical compositions of 23 EOs prepared from 16 Piper spp. were analyzed by both gas chromatography with a flame ionization detector (GC-FID) and gas chromatography-mass spectrometry (GC-MS). A total of 76 compounds were identified in the EOs from the leaves and stems of 19 samples, while 30 compounds were detected in the EOs from the fruits of four samples. Sesquiterpenes and phenylpropanoids were found to be rich in these EOs, of which asaricin, caryophyllene, caryophyllene oxide, isospathulenol, (+)-spathulenol, and ß-bisabolene are the major constituents. The EOs from the leaves and stems of Piper austrosinense, P. puberulum, P. flaviflorum, P. betle, and P. hispidimervium showed strong AChE inhibitory activity with IC50 values in the range of 1.51 to 13.9 mg/mL. A thin-layer chromatography (TLC) bioautography assay was employed to identify active compound(s) in the most active EO from P. hispidimervium. The active compound was isolated and identified as asaricin, which gave an IC50 value of 0.44 ± 0.02 mg/mL against AChE, comparable to galantamine with an IC50 0.15 ± 0.01 mg/mL.

Influence of bacterial extracellular polymeric substances on the sorption of Zn on γ-alumina: A combination of FTIR and EXAFS studies.

Extracellular polymeric substances (EPS) isolated from bacteria, are abound of functional groups which can react with metals and consequently influence the immobilization of metals. In this study, we combined with Zn K-edge Extended X-ray Absorption Fine Structure (EXAFS), Fourier Transform Infrared (FTIR) spectroscopy, and High-Resolution Transmission Electron Microscopy (HRTEM) techniques to study the effects of EPS isolated from Bacillus subtilis and Pseudomonas putida on Zn sorption on γ-alumina. The results revealed that Zn sorption on aluminum oxide was pH-dependent and significantly influenced by bacterial EPS. At pH 7.5, Zn sorbed on γ-alumina was in the form of Zn-Al layered doubled hydroxide (LDH) precipitates, whereas at pH 5.5, Zn sorbed on γ-alumina was as a Zn-Al bidentate mononuclear surface complex. The amount of sorbed Zn at pH 7.5 was 1.3-3.7 times higher than that at pH 5.5. However, in the presence of 2 g L-1 EPS, regardless of pH conditions and EPS source, Zn + EPS + γ-alumina ternary complex was formed on the surface of γ-alumina, which resulted in decreased Zn sorption (reduced by 8.4-67.8%) at pH 7.5 and enhanced Zn sorption (increased by 10.0-124.7%) at pH 5.5. The FTIR and EXAFS spectra demonstrated that both the carboxyl and phosphoryl moieties of EPS were crucial in this process. These findings highlight EPS effects on Zn interacts with γ-alumina.

Literature Analysis of Acupuncture-moxibustion in Attenuating Nausea and Vomit Induced by Chemotherapy / 上海针灸杂志

Objective Through analyzing the literatures about acupuncture-moxibustion in releasing chemotherapyinduced nausea and vomit,to understand its current situation and progress,preparing for further studies in the future.Method Four databanks were retrieved.Two researchers independently skimmed the titles and abstracts for filtering the collected data,and then carefully read through the full texts for further selection.Snowball retrieval of the references in each recruited article completed the whole literature search.Result A total of 407 manuscripts were collected by retrieving databanks,but 80 were excluded due to ineligible designs or intervention protocols.Finally,76 articles were included.Conclusion Acupuncture-moxibustion is effective in preventing and treating nausea and vomit induced by chemotherapy.Future studies should rigorously follow the randomized controlled trials design and adopt precise efficacy evaluations,to provide foundation for subsequent evidence-based studies.

Biomimetic membrane-conjugated graphene nanoarchitecture for light-manipulating combined cancer treatment in vitro.

We report that through facile lipid self-assembly, biomimetic membrane-conjugated mesoporous silica-coated graphene oxide is constructed as targeting nanocarrier toward efficient combination of photothermal therapy and chemotherapy. Impressively, the simple surface modification with folate-contained lipid bilayer allows the graphene-based nanoarchitecture above to be selectively internalized by tumor cells overexpressing relevant receptors. Compared to pure drug, 7-fold doxorubicin is delivered into tumor cells by the nanoarchitecture. After cellular internalization, upon near infrared light illumination, graphene oxide in the nanoarchitecture can convert light energy into heat to kill cancer cells partially. Simultaneously, hyperthermia will drive rapid release of doxorubicin from the nanoarchitecture above to further cause the death of more cancer cells. Thus, integrated cancer treatment with higher efficacy is achieved in vitro compared to that of individual therapy.

Microbial communities play important roles in modulating paddy soil fertility.

We studied microbial communities in two paddy soils, which did not receive nitrogen fertilization and were distinguished by the soil properties. The two microbial communities differed in the relative abundance of gram-negative bacteria and total microbial biomass. Variability in microbial communities between the two fields was related to the levels of phosphorus and soil moisture. Redundancy analysis for individual soils showed that the bacterial community dynamics in the high-yield soil were significantly correlated with total carbon, moisture, available potassium, and pH, and those in the low-yield cores were shaped by pH, and nitrogen factors. Biolog Eco-plate data showed a more active microbial community in the high yield soil. The variations of enzymatic activities in the two soils were significantly explained by total nitrogen, total potassium, and moisture. The enzymatic variability in the low-yield soil was significantly explained by potassium, available nitrogen, pH, and total carbon, and that in the high-yield soil was partially explained by potassium and moisture. We found the relative abundances of Gram-negative bacteria and Actinomycetes partially explained the spatial and temporal variations of soil enzymatic activities, respectively. The high-yield soil microbes are probably more active to modulate soil fertility for rice production.

A Survey of the Chemical Compounds of Piper spp. (Piperaceae) and Their Biological Activities.

The genus Piper is one of the largest genera in the Piperaceae, with most species widely distributed globally, covering all continents. To date, many Piper species have been scientifically investigated for their chemical diversities and interesting broad spectrum of bioactivities, including central nervous system (CNS), pesticidal, antifungal and antibacterial effects. This review systematically summarizes the scaffolds of the alkaloids reported, the major chemicals isolated from Piper spp., and their biological activities. Besides the alkaloids, some neolignans with rearranged skeletons show structural diversities, while the chalcones, flavonoids and kava-pyrones have some potential activities. Herein, the sesquiterpenes and phenolic compounds from Piper species and their bioactivities are also surveyed.

Specific serum microRNA profile in the molecular diagnosis of Hirschsprung's disease.

Hirschsprung's disease (HSCR), a congenital gastrointestinal disorder, is one of the most common causes of neonatal bowel obstruction. Without an early screening and diagnosis, some patients develop serious complications, such as toxic megacolon or acute enterocolitis. We sought to identify specific serum microRNAs (miRNAs) that can serve as novel early, non-invasive screening signature and then to test their specificity and sensitivity in diagnosing Hirschsprung's disease. We obtained serum samples from 95 HSCR cases and 104 matched controls. An initial screening of miRNA expression was performed through TaqMan Low Density Array. The candidate miRNAs were validated by individual reverse transcription quantitative real-time PCR arranged in the training and a two-stage validation set. Additional double-blind testing was performed in 23 patients with clinically suspected HSCR to evaluate the diagnostic value and accuracy of the serum miRNA profile in predicting HSCR. Following a multi-stage evaluation approach, five miRNAs were significantly increased in HSCR cases compared with controls. The areas under the receiver operating characteristic (ROC) curve of this five-serum miRNA signature were 0.895, 0.893 and 0.925 in training set and two validation sets, respectively. The accuracy rate of the five-miRNA profile as HSCR signature was 82.6%, which, in the double-blind testing set, was markedly higher than that of contrast enema (70%), the most commonly used test performed to diagnose HSCR. Our results indicate that a five-serum miRNA signature may be linked to HSCR, representing a potential, novel, non-invasive diagnostic approach for early screening of HSCR.

Synthesis of A B C-ring subunit of C-nor-D-homo-steroidal alkaloids: towards the total synthesis of cyclopamine.

A practical approach to the synthesis of the A, B and C-ring subunit of cyclopamine has been developed. This synthetic tactic highlights the utility of mandelate acetal-mediated resolution of the fused ring ketone (±)-4 and IBX-mediated oxidation cascades from 12 to 9. The availability of advanced intermediates from enantiomerically pure (+)-4 and 2 could provide efficient access to biologically active and structurally diverse C-nor-D-homo-steroidal alkaloids such as cyclopamine.

Flos lonicerae extracts and chlorogenic acid protect human umbilical vein endothelial cells from the toxic damage of perfluorooctane sulphonate.

Chlorogenic acid (CGA), one of the most common phenolic acids, is found in many food and traditional Chinese herbs. Various bioactivities of CGA are studied. However, little is known about these properties of Flos Lonicerae extracts, and the difference in the effect between Flos Lonicerae extracts and CGA has not been reported. CGA was identified in Flos Lonicerae extracts by HPLC and determined qualitatively by quadrupole ion trap mass spectrometry. In this study, we evaluated the effect of Flos Lonicerae extracts and CGA on inflammatory-related gene expression, adhesion molecule expression and reactive oxygen species (ROS) production in perfluorooctane sulphonate (PFOS)-treated human umbilical vein endothelial cells (HUVECs). The suppression of transcription of IL-1ß, IL-6, COX-2, and P-Selectin genes with Flos Lonicerae extracts was greater than that of CGA in PFOS-treated HUVECs, while the degree of suppression on PFOS-induced expression of NOS3 and ICAM-1 was greater for CGA. Furthermore, the suppressive effect of Flos Lonicerae extracts on adhesion of monocytes onto PFOS-induced HUVECs was greater than that of CGA. In addition, Flos Lonicerae extracts and CGA were highly effective in reducing ROS although their effects were almost comparable. So, Flos Lonicerae extracts exhibited antioxidant activity and CGA was a major contributor to this activity. These results suggest that Flos Lonicerae extracts could be useful to prevent PFOS-mediated inflammatory diseases.

Evolution from unconventional spin density wave to superconductivity and a pseudogaplike phase in NaFe(1-x)Co(x)As.

We report the doping, temperature, and spatial evolutions of the electronic structure of NaFe(1-x)Co(x)As studied by scanning tunneling microscopy. In the parent state we directly observe the spin density wave gap, which exhibits unconventional features that are incompatible with simple Fermi surface nesting. The optimally doped sample has a single superconducting gap, but in the overdoped regime a novel pseudogaplike feature emerges. The pseudogaplike phase coexists with superconductivity in the ground state, persists well into the normal state, and shows strong spatial variations. The characteristics of the three distinct electronic states revealed here shed important new lights on the microscopic models for the iron-based superconductors.

[An analysis of etiological and genetic factors of a patient with familial hemophagocytic lymphohistiocytosis].

OBJECTIVE: To analyze the etiological factor and genetic feature of a familial hemophagocytic lymphohistiocytosis patient with PRF1 mutation (FHL2) with human herpesvirus 7 (HHV7) infection and its family constellation. METHODS: Clinical characteristics, laboratory examinations of a FHL2 case with HHV7 infection were reported. HHV1-HHV8 virus DNA was screened by PCR; NK cell function was analyzed by flow cytometry; PRF1 gene mutations were analyzed by PCR and direct sequencing, structure of mutant PRF1 proteins were analyzed using ExPasy and I-TASSER server and genetics pedigree were analyzed. RESULTS: The patient's HHV7 viral was detected positive with DNA copy number of 350/10(6) peripheral nucleated cells. Flow cytometry analysis showed decrease both in proportion of perforin positive NK cells and perforin protein expression. Genetic testing showed PRF1 biallelic heterozygote mutations (c.503G > A/p.S168N and c.1177T > C/p.C393R) and pedigree analysis showed they were inherited. The patient was then treated with antivirus therapy, dexamethasone and VP16 therapy, but only achieved partial response. The patient was then followed by human leukocyte antigen 10/10 allele identical non-consanguinity allogeneic hematopoietic stem cell transplantations (allo-HSCT) and soon the successful implantation of donor hematopoietic cells and persistent recovery was achieved. The patient was now surviving without recurrence for 9 months after allo-HSCT. CONCLUSIONS: FHL is prone to be misdiagnosed as lymphoma. Genetic analysis of related gene mutation and herpes simplex virus detection will help in early and accurate diagnosis. Allo-HSCT is a fundamental treatment of FHL.

Preferential adsorption of extracellular polymeric substances from bacteria on clay minerals and iron oxide.

The adsorption of extracellular polymeric substances (EPS) from Bacillus subtilis on montmorillonite, kaolinite and goethite was investigated as a function of pH and ionic strength using batch studies coupled with Fourier transform infrared (FTIR) spectroscopy. The adsorption isotherms of EPS on minerals conformed to the Langmuir equation. The amount of EPS-C and -N adsorbed followed the sequence of montmorillonite>goethite>kaolinite. However, EPS-P adsorption was in the order of goethite>montmorillonite>kaolinite. A marked decrease in the mass fraction of EPS adsorption on minerals was observed with the increase of final pH from 3.1 to 8.3. Calcium ion was more efficient than sodium ion in promoting EPS adsorption on minerals. At various pH values and ionic strength, the mass fraction of EPS-N was higher than those of EPS-C and -P on montmorillonite and kaolinite, while the mass fraction of EPS-P was the highest on goethite. These results suggest that proteinaceous constituents were adsorbed preferentially on montmorillonite and kaolinite, and phosphorylated macromolecules were absorbed preferentially on goethite. Adsorption of EPS on clay minerals resulted in obvious shifts of infrared absorption bands of adsorbed water molecules, showing the importance of hydrogen bonding in EPS adsorption. The highest K values in equilibrium adsorption and FTIR are consistent with ligand exchange of EPS phosphate groups for goethite surface. The information obtained is of fundamental significance for understanding interfacial reactions between microorganisms and minerals.

Conformation, activity and proteolytic stability of acid phosphatase on clay minerals and soil colloids from an Alfisol.

The present study was carried out to investigate the conformation, enzymatic activity and proteolytic stability of acid phosphatase on montmorillonite, kaolinite and soil colloids from an Alfisol by means of circular dichroism (CD) spectroscopy, isothermal titration microcalorimetry (ITC) and biochemical assay, respectively. The results showed that the secondary structure of phosphatase was changed from disordered type to ordered form during adsorption/desorption cycle, organic substance and 2:1-clay mineral in Brown Soil benefited the formation of ordered structure. Enzymatic activity of phosphatase was inhibited while the proteolytic stability was promoted after the interaction with active particles from permanent charge soil. The decrease of enzymatic activity and the increase of proteolytic stability resulted by montmorillonite and organic colloid were both greater than that by kaolinite and inorganic colloid, which was in consistent with the extent of structural change induced by different colloid particles. Thus, one of the most significant factors responsible for the variation of enzymatic activity and proteolytic stability might be the hiding or even damage of active sites and the irrecognition of cleavage sites in enzyme molecules induced by the formation of ordered structure. The information obtained in this study is of crucial significance for the understanding of the behavior and fate of extracellular enzymes in soils with permanent charges.

Immobilization and phytotoxicity of Cd in contaminated soil amended with chicken manure compost.

The experiment was conducted to evaluate the effect of compost application on the immobilization and biotoxicity of Cd in winter wheat (Triticum aestivum L.) potted soils. Soils treated with various levels of Cd (0-50 mg Cd kg(-1) soil) were amended with 0, 30, 60 and 120 g compost kg(-1) soil. The fractions of Cd in soil were evaluated by a sequential extraction procedure. Compost application resulted in more than 70% lower soluble/exchangeable Cd (KNO(3)) but increased the concentration of organic-bound (NaOH) and inorganic precipitates (EDTA) Cd in soils. Addition of compost was effective in reducing the phytotoxicity of Cd by decreasing more than 50% Cd uptake by wheat tissue and improving wheat growth. Alleviation of Cd phytotoxicity by compost was attributed primarily to the increase of soil pH, complexation of Cd by the organic matter and coprecipitation with P content. Compost was effective in the immobilization of Cd in soils and can be used to remediate Cd-contaminated soils.