This study was conducted to determine the effect of cover crop inter-row in vineyard on main mono-phenol content of grape berry and wine. Three such cover crops, two perennial legumes (white clover and alfalfa) and ...This study was conducted to determine the effect of cover crop inter-row in vineyard on main mono-phenol content of grape berry and wine. Three such cover crops, two perennial legumes (white clover and alfalfa) and a perennial gramineous grass (tall fescue) were sown in vineyard. The main phenolic compounds of mature grape berry and wines vinified under the same conditions were extracted with ethyl acetate and diethyl ether and analyzed by high- performance liquid chromatography (HPLC) by comparing to soil tillage. A total of ten phenolic compounds were identified and quantified in the different grape berry and wines, including nonflavonoids (hydroxybenzoic and hydroxycinnamic acids) and flavonoids (flavanols and flavonols). The concentration of flavonoid compounds (409.43 to 538.63 mg kg^-1 and 56.16 to 81.30 mg L^-1) was higher than nonflavonoids (76.91 to 98.85 mg kg^-1 and 30.65 to 41.22 mg L^-1) for Cabernet Sauvignon grape and wine under different treatments, respectively. In the flavonoid phenolics, Catechin was the most abundant in the different grapes and wines, accounting for 74.94 to 79.70% and 48.60 to 50.62% of total nonanthocyanin phenolics quantified, respectively. Compared to soil tillage, the sward treatments showed a higher content of main mono-phenol and total nonanthocyanin phenolics in grapes and wines. There were significant differences between two cover crop treatments (tall fescue and white clover) and soil tillage for the content of benzoic acid, salicylic acid, caffeic acid, catechin, and total phenolics in the grape berry (P 〈 0.05 or P〈0.01). The wine from tall fescue cover crop had the highest gallic acid, caffeic acid and catechin. Cover crop system increased the total nonanthocyanin phenolics of grapes and wines in order of the four treatments: tall fescue, white clover, alfalfa, and soil tillage (control). Cover crop in vineyard increased total phenols of grape berry and wine, and thus improved the quality of wine evidently.展开更多
Vibrational relaxation dynamics of monomeric water molecule dissolved in d-chloroform solution were revisited using the two dimensional Infrared (2D IR) spectroscopy. The vibrational lifetime of OH bending in monome...Vibrational relaxation dynamics of monomeric water molecule dissolved in d-chloroform solution were revisited using the two dimensional Infrared (2D IR) spectroscopy. The vibrational lifetime of OH bending in monomeric water shows a bi-exponential decay. The fast compo- nent (T1=(1.2±0.1) ps) is caused by the rapid population equilibration between the vibrational modes of the monomeric water molecule. The slow component (T2=(26.4±0.2) ps) is mainly caused by the vibrational population decay of OH bending mode. The reorientation of the OH bending in monomeric water is determined with a time constant of t=(1.2±0.1) ps which is much faster than the rotational dynamics of water molecules in the bulk solution. Furthermore, we are able to reveal the direct vibrational energy transfer from OH stretching to OH bending in monomeric water dissolved in d-chloroform for the first time. The vibrational coupling and relative orientation of transition dipole moment between OH bending and stretching that effect their intra-molecular vibrational energy transfer rates are discussed in detail.展开更多
Insulin controls hyperglycemia caused by diabetes,and virtually all treatments require exogenous insulin. The monomeric B27 Lys destripeptide insulin has 80% bioactivity of wild type. It is a potential drug for clinic...Insulin controls hyperglycemia caused by diabetes,and virtually all treatments require exogenous insulin. The monomeric B27 Lys destripeptide insulin has 80% bioactivity of wild type. It is a potential drug for clinic. But the yield of monomeric B27 Lys destripeptide insulin is limited, because monomeric B27 Lys destripeptide insulin precursor( MIP) was easily to form inclusion body,when MIP is expressed in E. coli. The precursor,MIP,is not only fused to an N-terminal HIS-small ubiquitin-related modifier( SUMO) tag,but also added five Arginine( 5 R) at the C-terminal,which can improve the solubility of the fusion protein. By this way,the yield of fusion protein has been up to 1. 45 mg/L cell culture.This work set up the foundation for the clinical application of B27 Lys destripeptide insulin.展开更多
(CH_3OCH_2CH_2C_5H_4)_2LnI(Ln=La,Nd)complexes have been synthesized by the reaction between NaI and[(CH_3OCH_2CH_2C_5H_4)_2LnCl]2 in THF;A single crystal X-ray study has shown that the lanthanum complex is an unsolvat...(CH_3OCH_2CH_2C_5H_4)_2LnI(Ln=La,Nd)complexes have been synthesized by the reaction between NaI and[(CH_3OCH_2CH_2C_5H_4)_2LnCl]2 in THF;A single crystal X-ray study has shown that the lanthanum complex is an unsolvated monomer with lanthanum(Ⅲ)in a trigonal bipyramidal coordination geometry if the cyclopentadienyl ring is regarded as occupying a single polyhedral vertex.展开更多
A study was conducted to find out the effect of citric acid on total monomeric anthocyanins and antioxidant activity of liquor made from unprocessed purple-leafed TRFK 306 Kenyan tea, brewed at various time/temperatur...A study was conducted to find out the effect of citric acid on total monomeric anthocyanins and antioxidant activity of liquor made from unprocessed purple-leafed TRFK 306 Kenyan tea, brewed at various time/temperature combinations. Most purple tea consumers usually brew the tea leaves then add some lemon juice before consuming it. Citric acid was used here to mimic the use of lemon juice. Documentation on the quality of such a brew is scanty and the effect of acid on its quality is equally scanty. The current study used brewing time/temperature combinations of 5, 10 and 15 minutes with 70°C and 92°C drinking water. Total monomeric anthocyanins were analysed using UV-1800 spectrophotometer (Shimadzu, Japan) while DDPH method was used to assay for antioxidant activity. Citric acid concentration of 0, 0.1% to 0.5% was used to check their effect on the brews with the highest total anthocyanins and antioxidant activity. The results showed that brewing temperature of 70°C had 9.5 mg/L to 27.7 mg/L, with 5 minutes brewing time being the highest. Temperature of 92°C had 37.5 mg/L to 92 mg/L with 5 minutes brewing time having the highest total monomeric anthocyanins. Antioxidant activity of 92°C brewing temperature ranged from 90.7% to 92.0%. Total monomeric anthocyanins increased with increased citric acid concentration up to 0.3% before it decreases while for antioxidant activity, it decreased with addition of citric acid. It was concluded that for maximum anthocyanins extraction, 5 minutes brewing time is the best while ten minutes brewing time could give optimum antioxidant activity.展开更多
The solid waste generated in industrial berry juice production was considered as a low cost raw material for the extraction of natural antioxidants. Berries contain phenolic compounds with high antioxidant potential, ...The solid waste generated in industrial berry juice production was considered as a low cost raw material for the extraction of natural antioxidants. Berries contain phenolic compounds with high antioxidant potential, including anthocianin. Quantitative determination method for monomeric anthocianins in bilberry juice and marc was validated. An official method from Association of Analytical Communities was used to determine anthocianins in juice and marc extracts by measuring light absorption for solutions with pH values 1.0 and 4.5 at 520 nm and 700 rim. Results were expressed as cyanidin-3-glucoside equivalent, as it is the most common anthocianin pigment. Calibration curve was obtained, linearity was checked, working interval and accuracy was determined and samples were tested. Mentioned method was evaluated as appropriate for quantitative anthocianin analysis in bilberry juice and marc. Necessity of calibration curve was approved using extinction coefficient of cyanidin-3-glucoside instead. Method assures adequate precision and accuracy as well.展开更多
This review covers structural parameters of almost two thousand monomeric Pt coordination complexes. The Pt is found in the oxidation states zero, +1, +2, +3 and +4, from which oxidation state +2 by far prevails. Ther...This review covers structural parameters of almost two thousand monomeric Pt coordination complexes. The Pt is found in the oxidation states zero, +1, +2, +3 and +4, from which oxidation state +2 by far prevails. There is a wide variety of donor atom ligands from uni-, bi-, ter- and tetradentate with over seventeen types of donor atoms, from which by far prevails P and N donor ligands and chlorine atom. The Pt(0) atoms are two-, three- and four-coordinated;Pt(I) and Pt(III) are only four-coordinated, Pt(II) are four- and five-coordinated, and Pt(IV) are five- and six-coor-dinated. About 10% of these complexes exist as isomers. Included are distortion (65%), cis-trans (30%), mixed isomers and ligand isomerism. The structural parameters are discussed in terms of the coordination about the platinum atom, and correlations are drawn between donor atom, bond length and interbond angles with attention to any trans-effect.展开更多
Through many years' cooperation,SGCC and Shanghai Silicate Research Institute of Chinese Academy of Science successfully developed 650 ampere-hours capacity sodium-sulfur monomeric storage battery with the indepen...Through many years' cooperation,SGCC and Shanghai Silicate Research Institute of Chinese Academy of Science successfully developed 650 ampere-hours capacity sodium-sulfur monomeric storage battery with the independent intellectual property展开更多
This review comprehensively covers recent developments of cyclodextrin-mediated chemical transformations for green chemistry.These cyclic oligomers of glucose are nontoxic,eco-friendly,and recyclable to accomplish emi...This review comprehensively covers recent developments of cyclodextrin-mediated chemical transformations for green chemistry.These cyclic oligomers of glucose are nontoxic,eco-friendly,and recyclable to accomplish eminent functions in water.Their most important feature is to form inclusion complexes with reactants,intermediates,and/or catalysts.As a result,their cavities serve as sterically restricted and apolar reaction fields to promote the efficiency and selectivity of reactions.Furthermore,unstable reagents and intermediates are protected from undesired side reactions.The scope of their applications has been further widened through covalent or noncovalent modifications.Combinations of them with metal catalysis are especially successful.In terms of these effects,various chemical reactions are achieved with high selectivity and yield so that valuable chemicals are synthesized from multiple components in one-pot reactions.Furthermore,cyclodextrin units are orderly assembled in oligomers and polymers to show their cooperation for advanced properties.Recently,cyclodextrin-based metal-organic frameworks and polyoxometalate-cyclodextrin frameworks have been fabricated and employed for unique applications.Cyclodextrins fulfill many requirements for green chemistry and should make enormous contributions to this growing field.展开更多
There have been many achievements in the research on carbon isotopes of alkane hydrocarbon gases in oil and gas bearing basins in China. Because of the limited molecular types and the simple molecular structures of C&...There have been many achievements in the research on carbon isotopes of alkane hydrocarbon gases in oil and gas bearing basins in China. Because of the limited molecular types and the simple molecular structures of C<sub>1-4</sub> alkane hydrocarbon gases, the information provided by these carbon isotopes is limited. C<sub>5-8</sub> light hydrocarbons are found more often in wet gas, and their molecules have more complex structures and展开更多
Abundant carbon isotopic information of single molecule can be obtained from the trace samples (chromatographic grade) on the basis of carbon isotopic on-line analytical technique developed in the late 1980s. This bri...Abundant carbon isotopic information of single molecule can be obtained from the trace samples (chromatographic grade) on the basis of carbon isotopic on-line analytical technique developed in the late 1980s. This brings the carbon isotopic study of the petroleum and natural gases into a new development stage.展开更多
The changes of mechanical properties and biological activities of monomeric erythrocytes are studied using optical tweezers micromanipulation technology.Firstly,the mechanical properties of irradiated erythrocyte memb...The changes of mechanical properties and biological activities of monomeric erythrocytes are studied using optical tweezers micromanipulation technology.Firstly,the mechanical properties of irradiated erythrocyte membranes are obtained.Weaker power laser irradiation can delay the decay of the mechanical properties of erythrocytes and promote the biological activity of erythrocytes,while higher power laser irradiation damages erythrocytes.The stronger the laser irradiation is,the more obvious and rapid the damage will be.The temperature of the cell surface will be changed by regulating the laser power and irradiation time,so the biological functions of erythrocyte can be controlled.Secondly,the finite element simulation of the temperature change on the cell surface under the condition of laser irradiation is carried out using simulation software,and the precise temperature of the cell surface irradiated cumulatively by a laser with different powers is obtained.Finally,the processes of abscission,unfolding,and denaturation of hemoglobins in erythrocytes at different temperatures due to the photothermal effect are analyzed using the model.The mechanism of laser irradiation on the elasticity of erythrocyte membranes is also obtained.展开更多
Electrocatalysis offers efficient and targeted conversion of monomers derived from waste polyester plastics to chemical products under ambient temperature and pressure conditions.This review provides analysis of resea...Electrocatalysis offers efficient and targeted conversion of monomers derived from waste polyester plastics to chemical products under ambient temperature and pressure conditions.This review provides analysis of research on electrochemical upgrading of monomers derived from waste polyester plastics published from2021 to present.Factors for assessing upgrading of waste polyester plastics include alkaline hydrolysis pretreatment,indices of electrochemical reaction process(activity,stability,and techno-economic a nalysis),separation,and product recovery.Types of depolymerization monomers and their value-added products are summarized along with electrocatalytic mechanisms and reaction pathways.Notably,cathode coupled reactions offer significant value for anodic waste plastic oxidation during electrolysis processes.Development of bifunctional electrocatalysts can reduce the cost of coupled systems and complexity of the electrolyzer.Upgrading and recycling of waste plastic monomers using electrocatalytic technology should undergo downstream processing to form high-value products containing C-N and C-S derived functional groups obtained from depolymerized monomers,Electrochemical conversion and upgrading of monomers derived from waste polyester plastics can contribute to industrialization and global economies and help to realize environmental sustainability.展开更多
Hepatocellular carcinoma(HCC)represents the most prevalent form of primary liver cancer,characterized by high mortality rates,frequent recurrence and metastasis,poor clinical prognosis,and a complex pathogenesis with ...Hepatocellular carcinoma(HCC)represents the most prevalent form of primary liver cancer,characterized by high mortality rates,frequent recurrence and metastasis,poor clinical prognosis,and a complex pathogenesis with limited therapeutic options.Autophagy plays a pivotal role in the immune response and functions as a lysosome-mediated degradation mechanism essential for recycling cellular components and eliminating aggregated proteins,damaged organelles,and invasive pathogens,thereby maintaining cellular function and dynamic homeostasis.Additionally,autophagy regulates several critical proteins and signaling pathways,including mammalian target of the rapamycin(mTOR),Beclin-1,the phosphatidylinositol 3-kinase/protein kinase B/mTOR signaling pathway,the Hippo/yes-associated protein signaling pathway,and the Janus kinase/signal transducer of activation signaling pathway.This regulatory capa-city of autophagy can potentially prevent or delay the progression of HCC.Nowadays,many studies have shown that different types of herbal monomers such as the more common quercetin,baicalein,berberine and emodin can further regulate autophagy and exert preventive and therapeutic effects on HCC through the modulation of mTOR and other related signaling pathways and so on.In this paper,we examine the mechanisms of autophagy,key proteins and signaling pathways involved,and the modulation of autophagy by Chinese medicine monomers in the prevention and treatment of HCC.This review aims to provide valuable insights for the development of Chinese medicine strategies against HCC and to inform the rational use of these therapies in clinical practice.展开更多
Chemically recyclable polythioesters are of particular interest owing to their unique properties and desired sustainability.By the exploit of a benzo-fusion strategy toε-thiocaprolactone,we successfully improved the ...Chemically recyclable polythioesters are of particular interest owing to their unique properties and desired sustainability.By the exploit of a benzo-fusion strategy toε-thiocaprolactone,we successfully improved the chemical recyclability and regulated the thermal and mechanical properties of the resulting polythioesters.The efficient ring-opening polymerization(ROP)of benzo-fused thiolactone monomers(M)containing different substituents gave rise to high-molecular-weight semi-aromatic polythioesters P(M)s.The resulting P(M)s showcased tunable physical and mechanical properties.The debenzylation of P(M3)was able to generate P(M3-OH)with free hydroxyl sidechains.Notably,chemical recycling of the resulting P(M)s back to their corresponding monomers via bulk thermal depolymerization achieved high efficiency(>95%yield,99%purity),establishing a closed-loop lifecycle.展开更多
A traditional Chinese medicine(TCM)monomer is a bioactive compound extracted from Chinese herbal medicines possessing determined biological activity and pharmacological effects,and has gained much attention for treati...A traditional Chinese medicine(TCM)monomer is a bioactive compound extracted from Chinese herbal medicines possessing determined biological activity and pharmacological effects,and has gained much attention for treating neuronal diseases.However,the application of TCM monomers is limited by their low solubility and poor ability to cross the blood-brain barrier(BBB).Exosomes are small extracellular vesicles(EVs)ranging in size from 30 to 150 nm in diameter and can be used as drug delivery carriers that directly target cells or tissues with unique advantages,including low toxicity,low immunogenicity,high stability in blood,and the ability to cross the BBB.This review discusses the biogenesis,components,stability,surface modification,isolation technology,advantages,and disadvantages of exosomes as drug carriers and compares exosomes and other similar drug delivery systems.Furthermore,exosome-encapsulated TCM monomers exert neuroprotective roles,such as anti-inflammation,anti-apoptosis,anti-mitophagy,and anti-oxidation,in various neuronal diseases,including Alzheimer's disease(AD),Parkinson's disease(PD),multiple sclerosis(MS),and cerebral ischemia and reperfusion(CI/R)injury,as well as anti-drug resistance,anti-tumorigenesis,anti-angiogenesis,and promotion of apoptosis in brain tumors,providing more inspiration to promote the development of an exosome-based delivery tool in targeted therapy for neuronal diseases.展开更多
This study investigates the long-term thermal-oxidative stability and mechanical properties of phenolcontaining phthalonitrile monomer(PN75)and dicyanate ester of bisphenol-A(DCBA)composites reinforced with short carb...This study investigates the long-term thermal-oxidative stability and mechanical properties of phenolcontaining phthalonitrile monomer(PN75)and dicyanate ester of bisphenol-A(DCBA)composites reinforced with short carbon fibers T700SC(SCF)within a temperature range of 330375℃.The research focuses on the PN75 monomer and DCBA blend reinforced SCF composites with varying SCF content,examining mass loss and changes in flexural strength after thermal aging for 50 h(h).Results show that the SCF-reinforced composites based on the PN75/DCBA blend consistently outperform the neat blend in flexural strength,both at room temperature and after thermal aging.The introduction of the SCF significantly improves the composites'thermal stability and mechanical retention,with higher SCF content correlating to better performance.Notably,after aging at 350℃,the SCF-reinforced composites based(30%(mass)SCF)retained 88.8%of its flexural strength,compared to 61.1%for the neat blend.Morphological analysis reveals that while thermal aging causes degradation of the PN75/DCBA blend layer on SCF surfaces,the overall composite structure maintains good mechanical properties up to 350℃.At 375℃,significant degradation occurs,yet the composites still retain flexural strengths above 78 MPa.This study demonstrates the potential of the SCF-reinforced composites based on PN75/DCBA blend for high-temperature applications,establishing their upper-temperature limit for long-term use in oxidative environments.展开更多
Tongji University:Recombination of agricultural residues into moldable composites Increasing efforts have been devoted to developing biobased and biodegrad-able plastics and composites from lig-nocellulosic biomass.Cu...Tongji University:Recombination of agricultural residues into moldable composites Increasing efforts have been devoted to developing biobased and biodegrad-able plastics and composites from lig-nocellulosic biomass.Current bioplastic production entails multiple challenging steps including monomer production from biomass as well as polymer synthesis and modification.Here,the research team led by Professor Lei Zhendong and Wu Deli at Tongji University reports a pr actical recom-bination strategy to transform agricultural residues into moldable cellulose-reinforced lignin(CRL)composites.展开更多
The coordination number of the gadolinium atom and bond distances in the crystal of inonomeric porphyrinate,[Gd(TPP)acac-8H2O 3TCB] (TCB: 1,2,4-trichlorobenzene,acac: anion of acetylacetone),were determined by EXAFS m...The coordination number of the gadolinium atom and bond distances in the crystal of inonomeric porphyrinate,[Gd(TPP)acac-8H2O 3TCB] (TCB: 1,2,4-trichlorobenzene,acac: anion of acetylacetone),were determined by EXAFS method.The Gd atom is eight-coordinated to the four nitrogen atoms of a tetraphenylporphyrin ring,to the two oxygen atoms of one acetylacetonato anion and to two water molecules with Gd-N=0.232 nm,Gd-O=0.243 nm.展开更多
Our dynamic laser light scattering(LLS) study shows that the current widely used protocols of dissolving amyloidogenic protein/peptide do not really result in a true solution;namely,there always exist a trace amount o...Our dynamic laser light scattering(LLS) study shows that the current widely used protocols of dissolving amyloidogenic protein/peptide do not really result in a true solution;namely,there always exist a trace amount of interchain aggregates,which greatly affect the association kinetics,partially explaining why different kinetics were reported even for a solution with identical protein and solvent.Recently,using a combination of the conventional dissolution procedure and our newly developed ultra-filtration method,we have developed a novel protocol to prepare a true solution of amyloidogenic protein/peptide without any interchain aggregates.The resultant solutions remain in their monomeric state for at least one week,which is vitally important for further study of the very initial stage of the interchain association under the physiological conditions because more and more evidence suggests that it is those small oligomers rather than large fabric aggregates that are cytotoxic.In addition,this study shows that combining static and dynamic LLS can lead to more physical and microscopic information about the protein association instead of only the size distribution.展开更多
基金supported by "13115" Science and Tech-nology Innovation Programme of Shaanxi Province,China (2007ZDKG-09)the National Agricultural Industrial Technology System Foundation of China(Z225020901)Young Academic Backbone Scientific Research Program of Northwest A&F University,China (01140303)
文摘This study was conducted to determine the effect of cover crop inter-row in vineyard on main mono-phenol content of grape berry and wine. Three such cover crops, two perennial legumes (white clover and alfalfa) and a perennial gramineous grass (tall fescue) were sown in vineyard. The main phenolic compounds of mature grape berry and wines vinified under the same conditions were extracted with ethyl acetate and diethyl ether and analyzed by high- performance liquid chromatography (HPLC) by comparing to soil tillage. A total of ten phenolic compounds were identified and quantified in the different grape berry and wines, including nonflavonoids (hydroxybenzoic and hydroxycinnamic acids) and flavonoids (flavanols and flavonols). The concentration of flavonoid compounds (409.43 to 538.63 mg kg^-1 and 56.16 to 81.30 mg L^-1) was higher than nonflavonoids (76.91 to 98.85 mg kg^-1 and 30.65 to 41.22 mg L^-1) for Cabernet Sauvignon grape and wine under different treatments, respectively. In the flavonoid phenolics, Catechin was the most abundant in the different grapes and wines, accounting for 74.94 to 79.70% and 48.60 to 50.62% of total nonanthocyanin phenolics quantified, respectively. Compared to soil tillage, the sward treatments showed a higher content of main mono-phenol and total nonanthocyanin phenolics in grapes and wines. There were significant differences between two cover crop treatments (tall fescue and white clover) and soil tillage for the content of benzoic acid, salicylic acid, caffeic acid, catechin, and total phenolics in the grape berry (P 〈 0.05 or P〈0.01). The wine from tall fescue cover crop had the highest gallic acid, caffeic acid and catechin. Cover crop system increased the total nonanthocyanin phenolics of grapes and wines in order of the four treatments: tall fescue, white clover, alfalfa, and soil tillage (control). Cover crop in vineyard increased total phenols of grape berry and wine, and thus improved the quality of wine evidently.
文摘Vibrational relaxation dynamics of monomeric water molecule dissolved in d-chloroform solution were revisited using the two dimensional Infrared (2D IR) spectroscopy. The vibrational lifetime of OH bending in monomeric water shows a bi-exponential decay. The fast compo- nent (T1=(1.2±0.1) ps) is caused by the rapid population equilibration between the vibrational modes of the monomeric water molecule. The slow component (T2=(26.4±0.2) ps) is mainly caused by the vibrational population decay of OH bending mode. The reorientation of the OH bending in monomeric water is determined with a time constant of t=(1.2±0.1) ps which is much faster than the rotational dynamics of water molecules in the bulk solution. Furthermore, we are able to reveal the direct vibrational energy transfer from OH stretching to OH bending in monomeric water dissolved in d-chloroform for the first time. The vibrational coupling and relative orientation of transition dipole moment between OH bending and stretching that effect their intra-molecular vibrational energy transfer rates are discussed in detail.
基金China Postdoctoral Science Foundation Projects(No.2015M571455)National Undergraduate Training Program for Innovation and Entrepreneurship,China(No.17T10509)
文摘Insulin controls hyperglycemia caused by diabetes,and virtually all treatments require exogenous insulin. The monomeric B27 Lys destripeptide insulin has 80% bioactivity of wild type. It is a potential drug for clinic. But the yield of monomeric B27 Lys destripeptide insulin is limited, because monomeric B27 Lys destripeptide insulin precursor( MIP) was easily to form inclusion body,when MIP is expressed in E. coli. The precursor,MIP,is not only fused to an N-terminal HIS-small ubiquitin-related modifier( SUMO) tag,but also added five Arginine( 5 R) at the C-terminal,which can improve the solubility of the fusion protein. By this way,the yield of fusion protein has been up to 1. 45 mg/L cell culture.This work set up the foundation for the clinical application of B27 Lys destripeptide insulin.
文摘(CH_3OCH_2CH_2C_5H_4)_2LnI(Ln=La,Nd)complexes have been synthesized by the reaction between NaI and[(CH_3OCH_2CH_2C_5H_4)_2LnCl]2 in THF;A single crystal X-ray study has shown that the lanthanum complex is an unsolvated monomer with lanthanum(Ⅲ)in a trigonal bipyramidal coordination geometry if the cyclopentadienyl ring is regarded as occupying a single polyhedral vertex.
文摘A study was conducted to find out the effect of citric acid on total monomeric anthocyanins and antioxidant activity of liquor made from unprocessed purple-leafed TRFK 306 Kenyan tea, brewed at various time/temperature combinations. Most purple tea consumers usually brew the tea leaves then add some lemon juice before consuming it. Citric acid was used here to mimic the use of lemon juice. Documentation on the quality of such a brew is scanty and the effect of acid on its quality is equally scanty. The current study used brewing time/temperature combinations of 5, 10 and 15 minutes with 70°C and 92°C drinking water. Total monomeric anthocyanins were analysed using UV-1800 spectrophotometer (Shimadzu, Japan) while DDPH method was used to assay for antioxidant activity. Citric acid concentration of 0, 0.1% to 0.5% was used to check their effect on the brews with the highest total anthocyanins and antioxidant activity. The results showed that brewing temperature of 70°C had 9.5 mg/L to 27.7 mg/L, with 5 minutes brewing time being the highest. Temperature of 92°C had 37.5 mg/L to 92 mg/L with 5 minutes brewing time having the highest total monomeric anthocyanins. Antioxidant activity of 92°C brewing temperature ranged from 90.7% to 92.0%. Total monomeric anthocyanins increased with increased citric acid concentration up to 0.3% before it decreases while for antioxidant activity, it decreased with addition of citric acid. It was concluded that for maximum anthocyanins extraction, 5 minutes brewing time is the best while ten minutes brewing time could give optimum antioxidant activity.
文摘The solid waste generated in industrial berry juice production was considered as a low cost raw material for the extraction of natural antioxidants. Berries contain phenolic compounds with high antioxidant potential, including anthocianin. Quantitative determination method for monomeric anthocianins in bilberry juice and marc was validated. An official method from Association of Analytical Communities was used to determine anthocianins in juice and marc extracts by measuring light absorption for solutions with pH values 1.0 and 4.5 at 520 nm and 700 rim. Results were expressed as cyanidin-3-glucoside equivalent, as it is the most common anthocianin pigment. Calibration curve was obtained, linearity was checked, working interval and accuracy was determined and samples were tested. Mentioned method was evaluated as appropriate for quantitative anthocianin analysis in bilberry juice and marc. Necessity of calibration curve was approved using extinction coefficient of cyanidin-3-glucoside instead. Method assures adequate precision and accuracy as well.
文摘This review covers structural parameters of almost two thousand monomeric Pt coordination complexes. The Pt is found in the oxidation states zero, +1, +2, +3 and +4, from which oxidation state +2 by far prevails. There is a wide variety of donor atom ligands from uni-, bi-, ter- and tetradentate with over seventeen types of donor atoms, from which by far prevails P and N donor ligands and chlorine atom. The Pt(0) atoms are two-, three- and four-coordinated;Pt(I) and Pt(III) are only four-coordinated, Pt(II) are four- and five-coordinated, and Pt(IV) are five- and six-coor-dinated. About 10% of these complexes exist as isomers. Included are distortion (65%), cis-trans (30%), mixed isomers and ligand isomerism. The structural parameters are discussed in terms of the coordination about the platinum atom, and correlations are drawn between donor atom, bond length and interbond angles with attention to any trans-effect.
文摘Through many years' cooperation,SGCC and Shanghai Silicate Research Institute of Chinese Academy of Science successfully developed 650 ampere-hours capacity sodium-sulfur monomeric storage battery with the independent intellectual property
文摘This review comprehensively covers recent developments of cyclodextrin-mediated chemical transformations for green chemistry.These cyclic oligomers of glucose are nontoxic,eco-friendly,and recyclable to accomplish eminent functions in water.Their most important feature is to form inclusion complexes with reactants,intermediates,and/or catalysts.As a result,their cavities serve as sterically restricted and apolar reaction fields to promote the efficiency and selectivity of reactions.Furthermore,unstable reagents and intermediates are protected from undesired side reactions.The scope of their applications has been further widened through covalent or noncovalent modifications.Combinations of them with metal catalysis are especially successful.In terms of these effects,various chemical reactions are achieved with high selectivity and yield so that valuable chemicals are synthesized from multiple components in one-pot reactions.Furthermore,cyclodextrin units are orderly assembled in oligomers and polymers to show their cooperation for advanced properties.Recently,cyclodextrin-based metal-organic frameworks and polyoxometalate-cyclodextrin frameworks have been fabricated and employed for unique applications.Cyclodextrins fulfill many requirements for green chemistry and should make enormous contributions to this growing field.
文摘There have been many achievements in the research on carbon isotopes of alkane hydrocarbon gases in oil and gas bearing basins in China. Because of the limited molecular types and the simple molecular structures of C<sub>1-4</sub> alkane hydrocarbon gases, the information provided by these carbon isotopes is limited. C<sub>5-8</sub> light hydrocarbons are found more often in wet gas, and their molecules have more complex structures and
文摘Abundant carbon isotopic information of single molecule can be obtained from the trace samples (chromatographic grade) on the basis of carbon isotopic on-line analytical technique developed in the late 1980s. This brings the carbon isotopic study of the petroleum and natural gases into a new development stage.
基金supported by the National Natural Science Foundation of China (No.61575087)the Natural Science Foundation of Jiangsu Province (No.BK20151164)+2 种基金the Natural Science Foundation of the Jiangsu Higher Education Institutions of China (No.16KJB140005)the Priority Academic Program Development of Jiangsu Higher Education Institutions (PAPD)Jiangsu Collaborative Innovation Center of Advanced Laser Technology and Emerging Industry for the generous financial support
文摘The changes of mechanical properties and biological activities of monomeric erythrocytes are studied using optical tweezers micromanipulation technology.Firstly,the mechanical properties of irradiated erythrocyte membranes are obtained.Weaker power laser irradiation can delay the decay of the mechanical properties of erythrocytes and promote the biological activity of erythrocytes,while higher power laser irradiation damages erythrocytes.The stronger the laser irradiation is,the more obvious and rapid the damage will be.The temperature of the cell surface will be changed by regulating the laser power and irradiation time,so the biological functions of erythrocyte can be controlled.Secondly,the finite element simulation of the temperature change on the cell surface under the condition of laser irradiation is carried out using simulation software,and the precise temperature of the cell surface irradiated cumulatively by a laser with different powers is obtained.Finally,the processes of abscission,unfolding,and denaturation of hemoglobins in erythrocytes at different temperatures due to the photothermal effect are analyzed using the model.The mechanism of laser irradiation on the elasticity of erythrocyte membranes is also obtained.
基金financially supported by the National Natural Science Foundation of China(Nos.22178181)the Natural Science Fund of Tianjin(No.21JCZDJC00180)the Fundamental Research Funds for the Central Universities(Nankai University(No.63243129)).
文摘Electrocatalysis offers efficient and targeted conversion of monomers derived from waste polyester plastics to chemical products under ambient temperature and pressure conditions.This review provides analysis of research on electrochemical upgrading of monomers derived from waste polyester plastics published from2021 to present.Factors for assessing upgrading of waste polyester plastics include alkaline hydrolysis pretreatment,indices of electrochemical reaction process(activity,stability,and techno-economic a nalysis),separation,and product recovery.Types of depolymerization monomers and their value-added products are summarized along with electrocatalytic mechanisms and reaction pathways.Notably,cathode coupled reactions offer significant value for anodic waste plastic oxidation during electrolysis processes.Development of bifunctional electrocatalysts can reduce the cost of coupled systems and complexity of the electrolyzer.Upgrading and recycling of waste plastic monomers using electrocatalytic technology should undergo downstream processing to form high-value products containing C-N and C-S derived functional groups obtained from depolymerized monomers,Electrochemical conversion and upgrading of monomers derived from waste polyester plastics can contribute to industrialization and global economies and help to realize environmental sustainability.
文摘Hepatocellular carcinoma(HCC)represents the most prevalent form of primary liver cancer,characterized by high mortality rates,frequent recurrence and metastasis,poor clinical prognosis,and a complex pathogenesis with limited therapeutic options.Autophagy plays a pivotal role in the immune response and functions as a lysosome-mediated degradation mechanism essential for recycling cellular components and eliminating aggregated proteins,damaged organelles,and invasive pathogens,thereby maintaining cellular function and dynamic homeostasis.Additionally,autophagy regulates several critical proteins and signaling pathways,including mammalian target of the rapamycin(mTOR),Beclin-1,the phosphatidylinositol 3-kinase/protein kinase B/mTOR signaling pathway,the Hippo/yes-associated protein signaling pathway,and the Janus kinase/signal transducer of activation signaling pathway.This regulatory capa-city of autophagy can potentially prevent or delay the progression of HCC.Nowadays,many studies have shown that different types of herbal monomers such as the more common quercetin,baicalein,berberine and emodin can further regulate autophagy and exert preventive and therapeutic effects on HCC through the modulation of mTOR and other related signaling pathways and so on.In this paper,we examine the mechanisms of autophagy,key proteins and signaling pathways involved,and the modulation of autophagy by Chinese medicine monomers in the prevention and treatment of HCC.This review aims to provide valuable insights for the development of Chinese medicine strategies against HCC and to inform the rational use of these therapies in clinical practice.
基金financially supported by the National Key R&D Program of China(No.2021YFA1501700)the National Natural Science Foundation of China(Nos.22371194 and 22301197)Fundamental Research Funds from Sichuan University(Nos.2023SCUNL103 and 2024SCUQJTX005)。
文摘Chemically recyclable polythioesters are of particular interest owing to their unique properties and desired sustainability.By the exploit of a benzo-fusion strategy toε-thiocaprolactone,we successfully improved the chemical recyclability and regulated the thermal and mechanical properties of the resulting polythioesters.The efficient ring-opening polymerization(ROP)of benzo-fused thiolactone monomers(M)containing different substituents gave rise to high-molecular-weight semi-aromatic polythioesters P(M)s.The resulting P(M)s showcased tunable physical and mechanical properties.The debenzylation of P(M3)was able to generate P(M3-OH)with free hydroxyl sidechains.Notably,chemical recycling of the resulting P(M)s back to their corresponding monomers via bulk thermal depolymerization achieved high efficiency(>95%yield,99%purity),establishing a closed-loop lifecycle.
基金funded by the National Natural Science Foundation of China(Grant No.:31900694).
文摘A traditional Chinese medicine(TCM)monomer is a bioactive compound extracted from Chinese herbal medicines possessing determined biological activity and pharmacological effects,and has gained much attention for treating neuronal diseases.However,the application of TCM monomers is limited by their low solubility and poor ability to cross the blood-brain barrier(BBB).Exosomes are small extracellular vesicles(EVs)ranging in size from 30 to 150 nm in diameter and can be used as drug delivery carriers that directly target cells or tissues with unique advantages,including low toxicity,low immunogenicity,high stability in blood,and the ability to cross the BBB.This review discusses the biogenesis,components,stability,surface modification,isolation technology,advantages,and disadvantages of exosomes as drug carriers and compares exosomes and other similar drug delivery systems.Furthermore,exosome-encapsulated TCM monomers exert neuroprotective roles,such as anti-inflammation,anti-apoptosis,anti-mitophagy,and anti-oxidation,in various neuronal diseases,including Alzheimer's disease(AD),Parkinson's disease(PD),multiple sclerosis(MS),and cerebral ischemia and reperfusion(CI/R)injury,as well as anti-drug resistance,anti-tumorigenesis,anti-angiogenesis,and promotion of apoptosis in brain tumors,providing more inspiration to promote the development of an exosome-based delivery tool in targeted therapy for neuronal diseases.
基金funded by the Innovative Research Group project of the National Natural Science Foundation of China(52373003).
文摘This study investigates the long-term thermal-oxidative stability and mechanical properties of phenolcontaining phthalonitrile monomer(PN75)and dicyanate ester of bisphenol-A(DCBA)composites reinforced with short carbon fibers T700SC(SCF)within a temperature range of 330375℃.The research focuses on the PN75 monomer and DCBA blend reinforced SCF composites with varying SCF content,examining mass loss and changes in flexural strength after thermal aging for 50 h(h).Results show that the SCF-reinforced composites based on the PN75/DCBA blend consistently outperform the neat blend in flexural strength,both at room temperature and after thermal aging.The introduction of the SCF significantly improves the composites'thermal stability and mechanical retention,with higher SCF content correlating to better performance.Notably,after aging at 350℃,the SCF-reinforced composites based(30%(mass)SCF)retained 88.8%of its flexural strength,compared to 61.1%for the neat blend.Morphological analysis reveals that while thermal aging causes degradation of the PN75/DCBA blend layer on SCF surfaces,the overall composite structure maintains good mechanical properties up to 350℃.At 375℃,significant degradation occurs,yet the composites still retain flexural strengths above 78 MPa.This study demonstrates the potential of the SCF-reinforced composites based on PN75/DCBA blend for high-temperature applications,establishing their upper-temperature limit for long-term use in oxidative environments.
文摘Tongji University:Recombination of agricultural residues into moldable composites Increasing efforts have been devoted to developing biobased and biodegrad-able plastics and composites from lig-nocellulosic biomass.Current bioplastic production entails multiple challenging steps including monomer production from biomass as well as polymer synthesis and modification.Here,the research team led by Professor Lei Zhendong and Wu Deli at Tongji University reports a pr actical recom-bination strategy to transform agricultural residues into moldable cellulose-reinforced lignin(CRL)composites.
基金Project supported by the National Natural Science Foundation of China (No. 29701002)the Sate Educational Committee of ChinaShandong University of China
文摘The coordination number of the gadolinium atom and bond distances in the crystal of inonomeric porphyrinate,[Gd(TPP)acac-8H2O 3TCB] (TCB: 1,2,4-trichlorobenzene,acac: anion of acetylacetone),were determined by EXAFS method.The Gd atom is eight-coordinated to the four nitrogen atoms of a tetraphenylporphyrin ring,to the two oxygen atoms of one acetylacetonato anion and to two water molecules with Gd-N=0.232 nm,Gd-O=0.243 nm.
基金support of the National Natural Science Foundation of China Project(20934005)the Hong Kong Special Administration Region Earmarked Project(CUHK4046/08P,2160365+1 种基金CUHK4039/08P,2160361 CUHK4042/09P,2160396)
文摘Our dynamic laser light scattering(LLS) study shows that the current widely used protocols of dissolving amyloidogenic protein/peptide do not really result in a true solution;namely,there always exist a trace amount of interchain aggregates,which greatly affect the association kinetics,partially explaining why different kinetics were reported even for a solution with identical protein and solvent.Recently,using a combination of the conventional dissolution procedure and our newly developed ultra-filtration method,we have developed a novel protocol to prepare a true solution of amyloidogenic protein/peptide without any interchain aggregates.The resultant solutions remain in their monomeric state for at least one week,which is vitally important for further study of the very initial stage of the interchain association under the physiological conditions because more and more evidence suggests that it is those small oligomers rather than large fabric aggregates that are cytotoxic.In addition,this study shows that combining static and dynamic LLS can lead to more physical and microscopic information about the protein association instead of only the size distribution.
