Shu Qing Zhang scite author profile

Tian

et al. 2022

J. Agric. Food Chem.

Chlorogenic acid (CGA) displays cognition-improving properties, but the underlying mechanisms remain unclear. Herein, CGA supplementation (150 mg/kg body weight) for 14 weeks significantly prevented obesity and insulin resistance, cognitive–behavioral disturbances, and synaptic dysfunction induced by a high-fat and high-fructose diet (HFFD). Moreover, CGA supplementation enhanced the expression of genes enriched in the neuroactive ligand–receptor interaction pathway and reduced inflammatory factor expressions. Furthermore, CGA treatment increased gut microbiota diversity and the level of bacterial genera producing SCFAs. CGA also decreased the concentration of energy metabolism substrates, while it increased phosphorylcholine. Finally, we observed a significant correlation among synaptic transmission genes, gut microbiota, and neurotransmission in the CGA supplementation group by targeted multiomics analysis. Together, our results supported that the alteration of gut microbiota and metabolite composition is the underlying mechanism of CGA improving cognitive function. CGA is also a promising intervention strategy to prevent HFFD-induced cognitive impairment.

Phosphate Solubilizing Microorganisms and Phosphate Solubilizing <i>Rhizobium</i> – Mini Review

Shi

et al. 2013

AMM

Phosphorus is the main nutrient element for plant growth, whereas most of phosphate in soil is fixated by calcium, aluminum, iron and organic compounds. Available phosphate deficiency has been the main limiting factor that influences the yield and quality of agricultural products. P solubilizing microorganisms have been widely reported of solubilizing different forms of insoluble phosphates. P solubilizing Rhizobium, especially for strains with the ability of secreting 3-Indole acetic acid, which is also capable of fixating N and inoculation, is found excellent in promoting growth and yield of legume crops, which decreases the cost of agricultural production and the side effect of P application to the environment. The mechanism and amount range of P solubilization for Rhizobium are varied among strains. These results and phenomena from different studies are discussed in this paper.

Multi-Fractal Based Fault Diagnosis Method of Rotating Machinery

et al. 2011

AMM

Aiming at complex features of the fault rotating machinery such as nonstationary and nonlinearity, a new method for fault diagnosis based on multi-fractal was introduced. The vibration signals firstly are analyzed by multi-fractal theory and have multi-fractal characteristics. Then the area of multi-fractal spectrum S and the entropy of multi-fractal spectrum Hm were extracted as new criterions to diagnose machinery faults. Results of experimental analysis indicate that the method is effective and it provides a new way in fault diagnosis of rotating machinery.

Influence of Solid Dissolved Al3+ Ions in Adsorption Alkali Ability of C-S-H

2013

AMR

Four Materials as Carriers for Phosphate Dissolving <i>Rhizobium Sp.</i> Inoculants

Shi

et al. 2010

AMR

As the most commonly used carrier for commercial inoculants, the development of peat has been limited because peat is a material of nonrenewable resource. Many other materials have been evaluated as alternatives to peat as carriers of rhizobia, yet seldom have been included in inoculants of phosphate dissolving rhizobia. As accessible and inexpensive carriers for rhizobial inoculants, corn stalk powder, loessal soil and vermiculite powder were used in the study to compare with peat carrier on the capacities of rhizobial solution absorption, pH value maintaining of microenvironment, viable rhizobial cells maintaining and the control of contamination. Completely randomized design and 4 replicates were used in the experiment. Twelve different compositions of selected inoculant carrier with different absorption volumes of rhizobial suspension, and were evaluated the ability of maintaining viable rhizobial cells and undesired microbes during the period of 120 days at room temperature. Thereafter, pH value, viable rhizobial cell number and undesired microbes of inoculants with selected absorption volume of rhizobial suspension that stored at 4 and room temperature respectively, after 1a storage, were evaluated. Viable rhizobial cells in inoculants were examined after 120d and 1a storage by plate counting method, and ratio of undesirable microbes was examined by antibiotic-carrying and normal plates counting method. The result indicated that: for a period of 120days at room temperature, maximum viable rhizobial cells were found in peat, vermiculite powder, corn stalk powder and loessal soil based inoculants when the absorption volume of rhizobial suspension of inoculants were 450, 500, 1000 and 200ml/kg, respectively; viable rhizobial cell numbers were better maintained in corn stalk powder than in peat, loessal soil and vermiculite, but undesired microbes contamination was a severe problem. In the study, viable rhizobial cell numbers in loessal soil was found the highest, followed by peat, while the most serious contamination was found in peat inoculants; corn stalk powder and vermiculite could not be used as inoculant carrier because fewer viable rhizobial cells existed in these inoculants. The greatest pH change was found in peat and loessal soil based inoculants during 1a storage because of enhanced acidification caused by metabolism of phosphate dissolving rhizobia; more viable rhizobial cells were found in the 4 carriers that stored at 4 than at room temperature after 1a storage. As carriers of phosphate dissolving Rhizobium inoculants, viable rhizobial cells of corn stalk powder after short time storage (120d) and of loessal soil after long time storage (1a) were found better than that of peat, and was also found more cost effective compared with peat, commercially. Both of the two carriers could be used as inoculant carriers at room temperature, but corn stalk powder could only be used as carrier with short shelf life.