Drought has the potential to induce extensive defoliation in forest trees.However,the responses of non-structural carbohydrates(NSCs,including soluble sugar and starch)to the combined effects of drought and defoliatio...Drought has the potential to induce extensive defoliation in forest trees.However,the responses of non-structural carbohydrates(NSCs,including soluble sugar and starch)to the combined effects of drought and defoliation remain to be elucidated,particularly in pine trees.In this study,we investigated the interactive effects of drought and defoliation on the contents of NSCs in five organs(new and old needles,twigs,stems,as well as roots)of Chinese pine(Pinus tabuliformis)seedlings.We sampled two batches of the seedlings at 30 and 50 days,respectively.Our results showed that Chinese pine could tolerate mild drought,but severe drought significantly decreased the content of soluble sugars in all organs.Defoliation initially suppressed the photosynthetic rate and significantly reduced the soluble sugar content in all organs.However,after 50 days,this effect was substantially mitigated by the new needle growth.Starch content in twigs,stems,and roots was found to be more vulnerable to defoliation than to drought.A significant interactive effect existed between drought and defoliation on NSCs,with defoliation exacerbating the negative impact of drought on the accumulation of NSCs,especially in new needles and roots.These findings highlight the complex effects of defoliation on NSCs during drought,underscoring critical implications for the management and economic value of Chinese pine forests.展开更多
Estuaries are key areas for organic carbon cycling,where polymeric carbohydrates are abundant and chemically diverse.The recycling of these polymers by microbes depends on a variety of carbohydrate-active enzymes(CAZy...Estuaries are key areas for organic carbon cycling,where polymeric carbohydrates are abundant and chemically diverse.The recycling of these polymers by microbes depends on a variety of carbohydrate-active enzymes(CAZymes).However,it remains unclear whether other gene traits,particularly those related to cell motility toward polymeric carbohydrates,are intertwined with carbohydrate depolymerization and niche specialization in estuarine sediment soils.In this study,estuarine sediments were incubated with four prevalent polymeric carbohydrates(laminarin,fucan,cellulose,and chitin) under anaerobic conditions.Based on metagenomic analysis,we identified potential responses to the degradation and utilization of polymeric carbohydrate substrates from the perspectives of CAZymes and sugar transporters.The analysis of metagenomic gene data also revealed a positive correlation between chemotaxis and the abundance of CAZymes genes.Furthermore,metagenomes-assembled genomes(MAGs) that exhibited higher abundance in polysaccharide-treated samples compared to controls also featured elevated copies of genes involved in polysaccharide utilization loci(PULs),chemotaxis,as well as those associated with flagellar or gliding movement.SprB and CTDs associated with gliding proteins genes are essential for type Ⅸ secretion system-mediated secretion of CAZymes and gliding motility in Bacteroidota.The enhanced potential for mobility,coupled with the ability to degrade polymeric carbohydrates,may enable these bacteria to exploit nutrients beyond carbon sources,thereby potentially broadening their ecological niches.展开更多
The Australian sugarcane industry has long maintained high sugar content in cane and ranks among the world's lowest-cost raw sugar producers.This paper analyzes the key factors behind this competitive performance....The Australian sugarcane industry has long maintained high sugar content in cane and ranks among the world's lowest-cost raw sugar producers.This paper analyzes the key factors behind this competitive performance.It examines industry statistics,cost of production studies,historical records,and international comparisons.The analysis shows that the industryʼs advantage stems not from any single factor,but from a combination of six elements:(a)a climate favorable for high sucrose accumulation;(b)economies of scale in both farming and milling;(c)a high level of mechanization,particularly in harvesting;(d)a cane pricing formula that incentivizes high sugar content;(e)a research and development system that is mandatory-funded,industry-led,and industry-controlled by growers and millers;and(f)prolonged exposure to international competition with minimal trade protection.For other sugar-producing countries aiming to lower costs,this suggests pathways such as facilitating farm consolidation,introducing mechanization within suitably adapted farming systems,reforming cane payment systems to reward sugar content,refocusing R&D investment to better meet industry needs,and optimizing nutrient management to reduce nitrogen fertilizer use.展开更多
The study explores the feasibility of producing ruthenium catalysts supported on char through a one-pot synthesis,an original approach for the preparation of noble metal-based catalysts in this field.This method combi...The study explores the feasibility of producing ruthenium catalysts supported on char through a one-pot synthesis,an original approach for the preparation of noble metal-based catalysts in this field.This method combines high-temperature stages,such as catalytic support carburization and catalyst activation,in a single step.The innovation represents a significant advancement in utilizing cellulose as a model of waste biomass,enhancing its value,and reducing catalyst production costs.The one-pot catalysts were successfully tested in the hydrogenation reaction of sugar mixtures(L-Arabinose and D-Galactose)under mild conditions,achieving full selectivities.The research also introduces for the first time in that reaction a structural sensitivity analysis of the reaction,comparing experimental results with a theoretical model.The findings reveal a direct correlation between catalytic activity and the{0001}exposed face of hcp ruthenium nanoclusters.This discovery opens new avenues for industrial-scale catalyst development,promising substantial reductions in energy and production costs,and emphasizing the economic appeal of the process.展开更多
Non-structural carbohydrates(NSCs)are crucial for tree growth and survival under climatic stress,yet their spatial dynamics across broad climate gradients remain unclear.Pines(Pinus spp.),one of the most widely distri...Non-structural carbohydrates(NSCs)are crucial for tree growth and survival under climatic stress,yet their spatial dynamics across broad climate gradients remain unclear.Pines(Pinus spp.),one of the most widely distributed tree genera worldwide,provide an ideal system for investigating large-scale spatial patterns of NSC within a single genus along extensive climatic gradients.Here,we compiled a global NSC database for pines across 74 sites,and assessed the spatial variation in total NSC,starch(St),and soluble sugars(SS)concentrations in stem sapwood,the primary reserve tissue,along site-specific mean annual temperature(MAT)and precipitation(MAP).Our results show that MAP exerted a stronger influence(R^(2)=20%–47%)on the spatial variation in total NSC and its components than did MAT(R^(2)=6%–16%).Tota concentrations declined nonlinearly with increasing MAP,with the rate of decline slowing beyond approximately 800 mm.While MAT had weaker effects on total NSC concentrations,both MAT and MAP jointly regulated NSC partitioning:Higher MAT and MAP were associated with reduced St concentrations but elevated SS concentrations and SS:St ratios.These findings suggest that pine species in cold and arid environments prioritize storing NSC as St,whereas in relatively warm and humid environments,NSC are preferentially mobilized into SS to support immediate metabolic and growth demands.展开更多
Tea plant(Camellia sinensis(L.)O.Kuntze)is a cold-sensitive leaf-harvesting crop whose growth,yield,and processed tea quality are all inhibited by low temperatures.Therefore,identifying the regulatory genes involved i...Tea plant(Camellia sinensis(L.)O.Kuntze)is a cold-sensitive leaf-harvesting crop whose growth,yield,and processed tea quality are all inhibited by low temperatures.Therefore,identifying the regulatory genes involved in tea plant growth and freezing tolerance is crucial for genetic improvement.WRKY transcription factors regulate various plant processes,including growth and development,stress responses,and metabolite biosynthesis.However,the molecular network through which WRKY coordinates these pathways in tea plants remains unclear.In this study,we revealed that CsWRKY57L,a cold-inducible WRKY IIc subfamily member,positively regulated freezing tolerance by directly promoting flavonoid accumulation in tea plants.Transient suppression of CsWRKY57L weakened the freezing tolerance of tea plants by reducing flavonoid content and suppressing the C-repeat-binding factor(CBF)-cold-responsive(COR)gene pathway.In contrast,heterologous overexpression of CsWRKY57L in Arabidopsis had the opposite effect.Additionally,overexpression of CsWRKY57L inhibited reproductive development and accelerated senescence in Arabidopsis.Interaction analysis revealed that CsWRKY57L directly binds to the promoters of CsSWEET1a,CsSWEET15,and AtSWEET15,which encode sugar transporters essential for plant reproductive development,and inhibits their transcription.Overall,the study revealed a dual role of CsWRKY57L in promoting freezing tolerance via flavonoid biosynthesis and inhibiting reproductive development by regulating SWEETs expression.This study uncovers a novel mechanism whereby CsWRKY57L coordinately regulates both stress responses and growth in tea plants,providing a molecular basis for breeding low-temperature-tolerant varieties with restricted reproductive development.展开更多
In tomato,early fruit development involves rapid cell division and expansion,which are highly dependent on sugar availability(Huang et al.,2025;Yuan et al.,2025).After fruit set,soluble sugars are loaded into pericarp...In tomato,early fruit development involves rapid cell division and expansion,which are highly dependent on sugar availability(Huang et al.,2025;Yuan et al.,2025).After fruit set,soluble sugars are loaded into pericarp cells through the symplasmic(cytosol)or apoplasmic pathway(cell wall and extracellular matrix)(Patrick and Offler,1996).Sucrose,as the major form of carbon translocated to tomato fruit,can be directly unloaded into fruit cells.However,some sucrose can be hydrolyzed by extracellular invertase,producing glucose and fructose for metabolism and biosynthesis in pericarp cells(Ruan,2014).展开更多
Maillard peptides(MPs)were derived from distillers’grain hydrolysates(DGPs)and fructose,and MPs prepared with and without exogenous L-cysteine were respectively defined as DFCs and DFs.The influences of extra-added L...Maillard peptides(MPs)were derived from distillers’grain hydrolysates(DGPs)and fructose,and MPs prepared with and without exogenous L-cysteine were respectively defined as DFCs and DFs.The influences of extra-added L-cysteine was investigated on the browning,taste properties(salty,umami,and kokumi),and characteristic volatile compounds of MPs.Eleven aroma-active compounds were identified as the key volatile compounds of MPs through aroma extract dilution analysis(AEDA)and odor active values(OAVs).Partial least squares regression(PLSR)was used to investigate the relationship between the sensory properties and the concentrations of the volatile compounds in DFCs and DFs.3-Methylbutanal,5-methyl-2-thiophenecarboxaldehyde,dimethyl trisulfide,trimethylpyrazine,and 3-ethyl-2,5-dimethylpyrazine,which significantly contributed to the caramel and roast characteristics of MPs,were inhibited through the addition of L-cysteine and regulation of temperature below 120◦C.The DFCs prepared at 110℃for 120 min exhibited desirable taste properties and suitable aroma to non-thermal processed foods.When 0.3%DFCs were added to the soaking solution of sugared garlic,the hardness and fracturability of sugared garlic were increased by 45.26%and 19.15%,respectively,which meant this MPs could be used to improve the edible texture of sugared garlics.展开更多
Objectives:Cold-acclimated organisms accumulate low molecular weight organic solutes such as sugar alcohols and soluble sugars.This study aimed to compare the efficacy of five sugar alcohols and 14 soluble sugars in s...Objectives:Cold-acclimated organisms accumulate low molecular weight organic solutes such as sugar alcohols and soluble sugars.This study aimed to compare the efficacy of five sugar alcohols and 14 soluble sugars in stabilizing proteins under freezing,freeze-drying,and air-drying stresses.Materials and methods:Glucose-6-Phosphate Dehydrogenase(G6PD)was used as the model protein.G6PD solutions with or without sugar alcohols and or sugars were subjected to freezing,freeze-drying,and air-drying stresses.The recovery of G6PD activity was measured to evaluate the protective efficacy of these compounds.Results:Without stabilizers,freezing G6PD at-20℃ or-80℃ reduced enzyme activity by around 24%,while freeze-drying or air-drying reduced activity by 90%-95%.Among the five sugar alcohols tested,pinitol,quebrachitol and sorbitol stabilized G6PD,whereas mannitol and myo-inositol destabilized it.Among 14 soluble sugars,trehalose and raffinose showed slightly lower enzyme recovery after repeated freeze-thaw cycles at-20℃.Most soluble sugars(except arabinose and xylose)protected G6PD during freeze-drying,with di-,tri-,and oligosaccharides generally outperforming monosaccharides.During air-drying,lactose was ineffective,while arabinose,galactose,and xylose were detrimental.Conclusion:The study highlights the diverse mechanisms of sugar alcohols and sugars in protein stabilization under stress,offering insights for formulating stable protein-and cell-based drugs.展开更多
Sucrose transporters(SUTs)play a crucial role in carbon allocation from the source leaf to the sink end,and the function of SUTs varies among family members.However,the genome-wide identifcation of the SUT superfamily...Sucrose transporters(SUTs)play a crucial role in carbon allocation from the source leaf to the sink end,and the function of SUTs varies among family members.However,the genome-wide identifcation of the SUT superfamily in Camellia oleifera is lacking,and their biological function remains elusive.In this study,four SUT genes-designated Co SUT1-4-were identifed in C.oleifera through a genome-wide analysis and classifed into three subfamilies.We used a combination of cis-acting elements analysis,mRNA quantifcation,histochemical analysis,and heterologous transformation to evaluate the expression profiles and functions of these SUTs.A key finding is that CoSUT4,localized on the plasma membrane,is highly expressed in mature leaves and the early stage of seed development in C.oleifera.In vitro culture of C.oleifera seed revealed the responsiveness of CoSUT4 to various exogenous hormones such as ABA and GA.CoSUT4 was able to restore the growth of the yeast strain SUSY7/ura3(a sucrose transport-defcient mutant)on sucrose-containing media and specifcally contributed to sucrose translocation and tissue growth in CoSUT4-overexpressed apple calli.In situ hybridization identifed chalazal nucellus and transfer cells as the action sites of CoSUT4 at the maternal-flial interface mediating sucrose transportation in oil tea seeds.CoSUT4 overexpression in Arabidopsis thaliana atsuc4 mutant restored the growth and seed yield defciencies of the mutant,leading to an increase in flled seeds and oil content.Additionally,CoSUT4 overexpression enhanced the drought and salt stress tolerance by augmenting sugar content.Overall,these fndings provide valuable insights into the function of SUTs and present promising candidates for the genetic enhancement of seed production in C.oleifera.展开更多
The content of soluble sugars is a vital parameter that indicates the quality of fleshy fruits such as apple(Malus domestica Borkh.).Studying the patterns of accumulation of soluble sugars and regulatory mechanisms as...The content of soluble sugars is a vital parameter that indicates the quality of fleshy fruits such as apple(Malus domestica Borkh.).Studying the patterns of accumulation of soluble sugars and regulatory mechanisms associated with fruit development is crucial for breeding improved fruit varieties.Here,we report that MdCIbHLH1,a low temperature-induced b HLH transcription factor,inhibits the accumulation of soluble sugars by regulating sugar-metabolizing enzyme activities,photosynthetic performance,and the expression of sugar-related genes in developing apple fruits.MdCIbHLH1 inhibits MdFBP and MdPEPCK expression,thus blocking the conversion of acids to sugars in apple fruits.We also discovered that MdCIbHLH1 decreases the photosynthetic rate and carbohydrate accumulation in apple leaves.Our results suggest that soluble sugar accumulation in apple fruits is influenced by multiple factors,including metabolic status,photosynthesis,and carbohydrate allocation.MdCIbHLH1 is critically involved in controlling the accumulation of soluble sugars by coordinating carbohydrate synthesis and allocation,thus influencing sugar transport and its metabolism during the development of apple fruits.展开更多
BACKGROUND At present,China has become the country with the largest number of individuals with diabetes mellitus(DM)in the world,with a total of approximately 140 million patients,the majority of whom have type 2 DM(T...BACKGROUND At present,China has become the country with the largest number of individuals with diabetes mellitus(DM)in the world,with a total of approximately 140 million patients,the majority of whom have type 2 DM(T2DM).Based on conven-tional nursing methods,community home care has important clinical significance in controlling blood sugar and disease progression.AIM To explore the impact of community public health nursing on treatment effect,health cognition,and self-management in patients with T2DM.METHODS One hundred patients with T2DM were selected as the research subjects.The patients were divided into either a conventional nursing group or community nursing(CN)group using the random number table method.The conventional nursing group(50 cases)received routine care,while the CN group(50 cases)received community public health care in addition to routine care as that for the conventional nursing group.The rate of excellent and good blood glucose control,fasting blood glucose before and after care,2-h postprandial blood glucose,health cognition,and self-management ability,and patient satisfaction were compared between the two groups.RESULTS The CN group had a higher rate of excellent blood sugar control than the conventional nursing group(88%vs 70%,P<0.05).Before care,there was no significant difference in fasting blood glucose or 2-h postprandial blood glucose between the two groups of patients(P>0.05).After nursing,fasting blood glucose and 2-h postprandial blood glucose were reduced to varying degrees in both groups,and both blood glucose levels in the CN group were lower than those of the conventional nursing group(P<0.05).Compared with the scores before care,the cognitive level score for diabetes and self-management ability score improved after care in both groups.The cognitive level and self-management ability of patients in the CN group were higher than those of the conventional nursing group(P<0.05).The overall satisfaction of the CN group was better than that of the conventional nursing group(98%vs 86%,P<0.05).CONCLUSION Community public health care based on conventional care of T2DM can achieve better blood sugar control,and improve patients’health cognitive level and self-management ability.展开更多
Sugars are one of the major metabolites and are essential for nucleic acid synthesis and energy production.In addition,sugars can act as signaling molecules.To study sugar signaling at the systemic level,there is an u...Sugars are one of the major metabolites and are essential for nucleic acid synthesis and energy production.In addition,sugars can act as signaling molecules.To study sugar signaling at the systemic level,there is an urgent need to systematically identify sugar-sensing proteins and nucleic acids.I propose the terms“swodkoreceptor”and“swodkocrine signaling,”derived from the Polish word“slodki”meaning“sweet,”to comprise all sugar-sensing proteins and signaling events,respectively,regardless of their cellular location and signaling domains.This proposal is intended to facilitate the inclusion of proteins such as the Escherichia coli Lac I repressor as an allolactose receptor,human glucokinase regulatory protein(GCKR)as a fructose receptor,and other sugar-binding based allosterically regulated enzymes and transcription factors as sugar-sensing receptors.In addition,enzyme-interacting proteins whose interaction state is regulated by sugar binding have also been proposed as sugar receptors.The systemic study of protein-and nucleic-acid-based swodkoreceptors may help to identify organelle-specific swodkoreceptors and to also address receptor duality.The study of intra-and inter-organism swodkocrine signaling and its crosstalk with gasocrine signaling may help to understand the etiology of diseases due to dysregulation in sugar homeostasis and signaling.展开更多
Background: Diabetes is a set of metabolic abnormalities typified by hyperglycemia believed to be associated with aberrant insulin secretion, insulin action, or both. Erectile dysfunction and infertility are globally ...Background: Diabetes is a set of metabolic abnormalities typified by hyperglycemia believed to be associated with aberrant insulin secretion, insulin action, or both. Erectile dysfunction and infertility are globally prevalent complications among male diabetic patients. There is a need to understand the role of a male reproductive hormone in the etiology of infertility in diabetic patients. Objective: This study aims to determine the effect of diabetes mellitus on the Male reproductive hormone (testosterone) on diabetic patients attending the Urology unit of Federal University Teaching Hospital, Abakaliki, Ebonyi State, Nigeria and the effect of industrial sugar consumption in rats model. Materials and Methods: 30 samples (including repeats, n = 3) were collected from known diabetic patients and 30 (including repeats, n = 3) control-non diabetic healthy individuals. Five millilitres (5 ml) of blood was collected from the antecubital vein of each participant and placed into a plain container for serum testosterone measurement using the enzyme-linked immunoassay technique. Blood was also collected from the same subjects in a fluoride oxalate container for plasma enzymatic glucose estimation using a Randox Glucose oxidase kit. For in vivo rat model, the albino rats were grouped into 2 of five (5) rats. The control group (1) was only given normal rat food and water while the test group (2) was treated with 0.4 g of industrial sugar/mL/body weight in addition to rat food and water via oral intubation for 21 days. Blood samples were collected via ocular puncture into plain tubes for testosterone measurement as described above. Results: There is a significant (p Conclusion: In conclusion, data available from this study suggests that increased plasma glucose levels and excessive industrial sugar consumption are associated with decreased testosterone levels in both human and animal models respectively. The mechanism is yet unclear but it could be that DM alters conventional sperm parameters, spermatogenesis, and biosynthesis of testosterone and induces degenerative changes in the testis and epididymis and ejaculatory dysfunction. These mechanisms need to be investigated.展开更多
The yield of direct-seeded rice(DSR)was constrained by inadequate grain filling.Recent studies have indicated that paclobutrazol application plays a significant role in enhancing crop agronomic traits and increasing y...The yield of direct-seeded rice(DSR)was constrained by inadequate grain filling.Recent studies have indicated that paclobutrazol application plays a significant role in enhancing crop agronomic traits and increasing yield.This study aimed to examine the effects of paclobutrazol seed soaking(PSS)on non-structural carbohydrate accumulation and grain enrichment in DSR,potentially providing a theoretical foundation for achieving high-yield DSR cultivation.The experiment utilized two rice varieties,Jiyujing(JYJ)and Jijing305(JJ305),with seeds soaked in paclobutrazol concentrations of 0 mg L^(−1) and 100 mg L^(−1).PSS demonstrated increased chlorophyll content,net photosynthetic rate,and leaf area,as well as an extended photosynthetic function period during the filling stage.It also elevated soluble sugar and starch contents in the flag leaf(during the filling stage)and stem sheath(after heading),decreased starch content in the top panicle while increasing it in the middle and lower panicle during the filling stage,and enhanced spikelet per unit area and seed setting rate,thereby improving DSR yield.In conclusion,PSS enhanced the photosynthetic capacity of DSR during the filling stage,coordinated the filling process of superior and inferior grains,maintained source-sink balance,and facilitated stable and orderly filling,ultimately resulting in improved yield.展开更多
Fresh-cut lettuce is widely used in ready-to-eat salads sold in modified atmosphere packages (MAP).Even in MAP,fresh-cut lettuce has short shelf life that results in loss of nutrients.Lettuce cultivars exhibit genetic...Fresh-cut lettuce is widely used in ready-to-eat salads sold in modified atmosphere packages (MAP).Even in MAP,fresh-cut lettuce has short shelf life that results in loss of nutrients.Lettuce cultivars exhibit genetic variation for shelf life in MAP,but their variation for nutrient retention is not known.Fifty accessions were evaluated for initial content of ascorbic acid (AsA),carotenoids,and sugars and their retention in storage.Accessions with high content and/or good retention of one or more nutrients were identified.The romaine accession ‘Floricos’ had high levels of all the three nutrients.Accessions with relatively high retention of all the three nutrients were ‘Salinas 88’,‘Siskiyou’,‘Solar’,SM09A,‘Romance’,and ‘Green Towers’.Romaine cultivars,‘Balady Barrage’,‘Green Towers’,and ‘Darkland’ had relatively high initial levels of all tested nutrients and good rate of their retention.There was no clear correlation between initial AsA/carotene concentrations and their retention rates,suggesting that besides content,retention of nutrients should also be a breeding target in a lettuce nutritional improvement program.Statistical analyses with the Pearson's correlation coefficient determined a negative relationship between tissue deterioration(AUDePS) and retention of all tested nutrients[r of-0.52 (P<0.0001) for AsA,-0.27 (P<0.01) for total carotene,and-0.59 (P<0.0001) for total sugars],suggesting that an increase in tissue deterioration intensifies nutrient decay.Broad-sense heritability (H^(2)) across the experiments was0.15 for AsA,0.23 for total carotene,and 0.50 for total sugars.Identification of germplasm with high nutrient content,extended shelf life and good nutrient retention provides valuable information for the lettuce industry and associated breeding programs.展开更多
Phosphorylated sugars,recognized as central intermediates in carbohydrate metabolism and critical precursors for enzymatic synthesis of rare sugars,face significant technical barriers in their industrialscale producti...Phosphorylated sugars,recognized as central intermediates in carbohydrate metabolism and critical precursors for enzymatic synthesis of rare sugars,face significant technical barriers in their industrialscale production.The multi-enzymatic preparation systems for these compounds inherently accumulate complex impurities,including protein-based catalysts,residual substrates,and oligosaccharide byproducts,posing persistent challenges in product separation and biocatalyst recycling.To address this limitation,we conducted a systematic investigation of ultrafiltration-based separation strategies during the multi-enzyme-catalyzed synthesis of fructose-1,6-bisphosphate(FDP),with particular emphasis on membrane fouling mechanisms.By screening the ultrafiltration membranes,UE020 showed the best performance in the model system,achieving significant separation targets:99.97% retention of bovine serum albumin,FDP/maltodextrin separation coefficient of 7.41,and FDP recovery of 93.63%.An analysis of the components of resistance revealed that concentration polarization induced by maltodextrin was the main factor constituting the resistance,irreversible resistance due to bovine serum albumin was a secondary effect,and the resistance constituted by FDP was negligible.A mitigation strategy employing powdered activated carbon for dynamic membrane formation significantly improved system performance,reducing irreversible resistance by 59.14% and enhancing flux recovery by 20.85%.In this study,ultrafiltration was strategically employed to achieve efficient separation of FDP and enzyme recovery.Significantly,we deciphered the synergistic fouling mechanisms arising from interactions within the multicomponent system containing phosphorylated sugars,oligosaccharides,and proteins.These findings provide a mechanistic framework for scaling up multi-enzymatic systems dedicated to phosphorylated sugar biosynthesis,effectively bridging the gap between laboratory-scale synthesis and industrial implementation.展开更多
The dispersibility of active components in hydrodesulfurization(HDS)catalysts significantly influences the corresponding catalytic performance.In this study,sugar-based materials(glucose,chitosan,soluble starch,and co...The dispersibility of active components in hydrodesulfurization(HDS)catalysts significantly influences the corresponding catalytic performance.In this study,sugar-based materials(glucose,chitosan,soluble starch,and corn starch)were utilized to prepare CoMo bulk HDS catalysts through a sugar foaming process.The foaming intermediates were analyzed using TG,FTIR,and Raman techniques to investigate the pyrolysis and carbonization process,revealing the presence of graphitic carbon in the 3 DPG,3 DPSS,and 3 DPCS catalysts even after calcination in an air atmosphere.The catalysts were further characterized using SEM,XRD,TEM,low-temperature N_(2) physical adsorption,and XPS.The 3 DPSS catalyst exhibited a thiophene conversion of 94.8%at 360℃ and 1 MPa,which could be ascribed to its unique three-dimensional pore structure,high dispersion of MoS_(2)(0.21),and high fraction of Mo^(4+)(83.14%).This study demonstrates the potential of using the sugar foaming technique to develop highly efficient HDS catalysts and provides new insights into the relationship between the physicochemical properties of the obtained catalysts and their catalytic performance.展开更多
During the era of Middle Ages,throughout Europe,a mulled or spiced wine commonly consumed at the end of a meal as a digestive,sweetened with honey or containing sugar,named“Hyppocras”(or hypocras,hippocras,ypocras,i...During the era of Middle Ages,throughout Europe,a mulled or spiced wine commonly consumed at the end of a meal as a digestive,sweetened with honey or containing sugar,named“Hyppocras”(or hypocras,hippocras,ypocras,ipocras,Latin:Vinum Hippocraticum),was the most famous aperitif,having also a cluster of supposedly drug qualities[1,2].Hyppocras was regularly served as a digestive at the end of the meal,becoming symbolically the ceremonial conclusion of any banquet since 14th century[3].Evidence of the high regard Hyppocras enjoyed among the medieval lore is testified by the fact that a recipe of the wine enriched with rosewater and raisins,survived within the work“On Wines”written by one on the most esteemed physicians of the 13th century.展开更多
Autophagy is a universal cellular process in eukaryotes that plays a critical role in plant growth and stress response.However,the role of autophagy in fruit ripening is largely unknown.Here,we demonstrated that most ...Autophagy is a universal cellular process in eukaryotes that plays a critical role in plant growth and stress response.However,the role of autophagy in fruit ripening is largely unknown.Here,we demonstrated that most autophagy-related genes(ATGs)were up-regulated during tomato(Solanum lycopersicum L.)fruit ripening.By using mutants of different autophagy pathway genes(ATG6,ATG10,ATG18a),we revealed that the deficiency of autophagy delayed the ripening of fruit.Compared with wild-type(WT),the production of ethylene was significantly reduced and the accumulation of lycopene was delayed in atg mutants during fruit ripening.We also observed the contents of glucose and fructose were both significantly decreased in atg mutants compared with WT,while the content of organic acids showed the opposite trend.Additionally,the negative regulator of ethylene production,APETALA2a(AP2a),interacted with ATG8 through a specific ATG8-interacting motif(AIM)and could be degraded through the autophagy pathway.These results demonstrate that autophagy plays a critical role in fruit ripening by regulating ethylene production and the accumulation of pigments,sugars and organic acids in tomato.展开更多
基金funded by the National Natural Science Foundation of China(42201064,32301381)the Joint Fund for Regional Innovation and Development of the National Science Foundation(U22A20570)+1 种基金the Science and Technology Innovation Program of Hunan Province of China(2022RC4027)Natural Science Foundation of Hunan Province of China(2023JJ40440).
文摘Drought has the potential to induce extensive defoliation in forest trees.However,the responses of non-structural carbohydrates(NSCs,including soluble sugar and starch)to the combined effects of drought and defoliation remain to be elucidated,particularly in pine trees.In this study,we investigated the interactive effects of drought and defoliation on the contents of NSCs in five organs(new and old needles,twigs,stems,as well as roots)of Chinese pine(Pinus tabuliformis)seedlings.We sampled two batches of the seedlings at 30 and 50 days,respectively.Our results showed that Chinese pine could tolerate mild drought,but severe drought significantly decreased the content of soluble sugars in all organs.Defoliation initially suppressed the photosynthetic rate and significantly reduced the soluble sugar content in all organs.However,after 50 days,this effect was substantially mitigated by the new needle growth.Starch content in twigs,stems,and roots was found to be more vulnerable to defoliation than to drought.A significant interactive effect existed between drought and defoliation on NSCs,with defoliation exacerbating the negative impact of drought on the accumulation of NSCs,especially in new needles and roots.These findings highlight the complex effects of defoliation on NSCs during drought,underscoring critical implications for the management and economic value of Chinese pine forests.
基金supported by the National Natural Science Foundation of China(Nos.42073078,U1901211 and 41876126)the National Key Research and Development Program of China(Nos.2023YFC3905003,2023-67 and 2017FY100700)+4 种基金the Hainan Province Science and Technology Special Fund(ZDYF2023SHFZ172)the Natural Science Foundation of Guangdong Province(Nos.2020A1515011137,2023A1515012004 and 2024A1515011203)Nansha District High-Level Talent Innovation Team Project in 2021(Mangrove Wetland Blue Carbon Sequestration Technology Innovation Team)the Strategic Priority Research Program of the Chinese Academy of Sciences(No.XDA19060204)the Key Tasks Guarantee Special Fund Project for Green-Beautiful Guangdong Ecological Construction in 2024(Precise Restoration and Ecological Function Evaluation of Mangroves).
文摘Estuaries are key areas for organic carbon cycling,where polymeric carbohydrates are abundant and chemically diverse.The recycling of these polymers by microbes depends on a variety of carbohydrate-active enzymes(CAZymes).However,it remains unclear whether other gene traits,particularly those related to cell motility toward polymeric carbohydrates,are intertwined with carbohydrate depolymerization and niche specialization in estuarine sediment soils.In this study,estuarine sediments were incubated with four prevalent polymeric carbohydrates(laminarin,fucan,cellulose,and chitin) under anaerobic conditions.Based on metagenomic analysis,we identified potential responses to the degradation and utilization of polymeric carbohydrate substrates from the perspectives of CAZymes and sugar transporters.The analysis of metagenomic gene data also revealed a positive correlation between chemotaxis and the abundance of CAZymes genes.Furthermore,metagenomes-assembled genomes(MAGs) that exhibited higher abundance in polysaccharide-treated samples compared to controls also featured elevated copies of genes involved in polysaccharide utilization loci(PULs),chemotaxis,as well as those associated with flagellar or gliding movement.SprB and CTDs associated with gliding proteins genes are essential for type Ⅸ secretion system-mediated secretion of CAZymes and gliding motility in Bacteroidota.The enhanced potential for mobility,coupled with the ability to degrade polymeric carbohydrates,may enable these bacteria to exploit nutrients beyond carbon sources,thereby potentially broadening their ecological niches.
文摘The Australian sugarcane industry has long maintained high sugar content in cane and ranks among the world's lowest-cost raw sugar producers.This paper analyzes the key factors behind this competitive performance.It examines industry statistics,cost of production studies,historical records,and international comparisons.The analysis shows that the industryʼs advantage stems not from any single factor,but from a combination of six elements:(a)a climate favorable for high sucrose accumulation;(b)economies of scale in both farming and milling;(c)a high level of mechanization,particularly in harvesting;(d)a cane pricing formula that incentivizes high sugar content;(e)a research and development system that is mandatory-funded,industry-led,and industry-controlled by growers and millers;and(f)prolonged exposure to international competition with minimal trade protection.For other sugar-producing countries aiming to lower costs,this suggests pathways such as facilitating farm consolidation,introducing mechanization within suitably adapted farming systems,reforming cane payment systems to reward sugar content,refocusing R&D investment to better meet industry needs,and optimizing nutrient management to reduce nitrogen fertilizer use.
基金support for this work was obtained from Spanish Ministerio de Ciencia e Innovación(No.MCIN/AEI(10.13039/501100011033)/FEDER Funds una manera de hacer Europa)Project PID2020-113809RB-C32 and Junta de Andalucía via Consejería de EconómTransformación ica,Industria,Conocimiento y Universidades and its PAIDI 2020 program(No.P18-RT-3405)all co-financed by FEDER funds from the European Union.
文摘The study explores the feasibility of producing ruthenium catalysts supported on char through a one-pot synthesis,an original approach for the preparation of noble metal-based catalysts in this field.This method combines high-temperature stages,such as catalytic support carburization and catalyst activation,in a single step.The innovation represents a significant advancement in utilizing cellulose as a model of waste biomass,enhancing its value,and reducing catalyst production costs.The one-pot catalysts were successfully tested in the hydrogenation reaction of sugar mixtures(L-Arabinose and D-Galactose)under mild conditions,achieving full selectivities.The research also introduces for the first time in that reaction a structural sensitivity analysis of the reaction,comparing experimental results with a theoretical model.The findings reveal a direct correlation between catalytic activity and the{0001}exposed face of hcp ruthenium nanoclusters.This discovery opens new avenues for industrial-scale catalyst development,promising substantial reductions in energy and production costs,and emphasizing the economic appeal of the process.
基金supported by the National Natural Science Foundation of China(Nos.42430503 and 42271048)the Hebei Natural Science Foundation(No.D2025205003)the Science Foundation of Hebei Normal University(No.L2025B31)。
文摘Non-structural carbohydrates(NSCs)are crucial for tree growth and survival under climatic stress,yet their spatial dynamics across broad climate gradients remain unclear.Pines(Pinus spp.),one of the most widely distributed tree genera worldwide,provide an ideal system for investigating large-scale spatial patterns of NSC within a single genus along extensive climatic gradients.Here,we compiled a global NSC database for pines across 74 sites,and assessed the spatial variation in total NSC,starch(St),and soluble sugars(SS)concentrations in stem sapwood,the primary reserve tissue,along site-specific mean annual temperature(MAT)and precipitation(MAP).Our results show that MAP exerted a stronger influence(R^(2)=20%–47%)on the spatial variation in total NSC and its components than did MAT(R^(2)=6%–16%).Tota concentrations declined nonlinearly with increasing MAP,with the rate of decline slowing beyond approximately 800 mm.While MAT had weaker effects on total NSC concentrations,both MAT and MAP jointly regulated NSC partitioning:Higher MAT and MAP were associated with reduced St concentrations but elevated SS concentrations and SS:St ratios.These findings suggest that pine species in cold and arid environments prioritize storing NSC as St,whereas in relatively warm and humid environments,NSC are preferentially mobilized into SS to support immediate metabolic and growth demands.
基金supported by the National Natural Science Foundation of China(Grant Nos.32072630,32372774,and U22A20499)the earmarked fund for CARS(Grant No.CARS-19-01A).
文摘Tea plant(Camellia sinensis(L.)O.Kuntze)is a cold-sensitive leaf-harvesting crop whose growth,yield,and processed tea quality are all inhibited by low temperatures.Therefore,identifying the regulatory genes involved in tea plant growth and freezing tolerance is crucial for genetic improvement.WRKY transcription factors regulate various plant processes,including growth and development,stress responses,and metabolite biosynthesis.However,the molecular network through which WRKY coordinates these pathways in tea plants remains unclear.In this study,we revealed that CsWRKY57L,a cold-inducible WRKY IIc subfamily member,positively regulated freezing tolerance by directly promoting flavonoid accumulation in tea plants.Transient suppression of CsWRKY57L weakened the freezing tolerance of tea plants by reducing flavonoid content and suppressing the C-repeat-binding factor(CBF)-cold-responsive(COR)gene pathway.In contrast,heterologous overexpression of CsWRKY57L in Arabidopsis had the opposite effect.Additionally,overexpression of CsWRKY57L inhibited reproductive development and accelerated senescence in Arabidopsis.Interaction analysis revealed that CsWRKY57L directly binds to the promoters of CsSWEET1a,CsSWEET15,and AtSWEET15,which encode sugar transporters essential for plant reproductive development,and inhibits their transcription.Overall,the study revealed a dual role of CsWRKY57L in promoting freezing tolerance via flavonoid biosynthesis and inhibiting reproductive development by regulating SWEETs expression.This study uncovers a novel mechanism whereby CsWRKY57L coordinately regulates both stress responses and growth in tea plants,providing a molecular basis for breeding low-temperature-tolerant varieties with restricted reproductive development.
基金supported by The National Natural Science Foundation of China(Grant Nos.32120103010,32341045,and 32272729).
文摘In tomato,early fruit development involves rapid cell division and expansion,which are highly dependent on sugar availability(Huang et al.,2025;Yuan et al.,2025).After fruit set,soluble sugars are loaded into pericarp cells through the symplasmic(cytosol)or apoplasmic pathway(cell wall and extracellular matrix)(Patrick and Offler,1996).Sucrose,as the major form of carbon translocated to tomato fruit,can be directly unloaded into fruit cells.However,some sucrose can be hydrolyzed by extracellular invertase,producing glucose and fructose for metabolism and biosynthesis in pericarp cells(Ruan,2014).
基金supported by the Key Science and Technology Program of Anhui Province(202203a06020012)National Natural Science Foundation of China(32172330)“Collaborative innovation center of food safety and quality control in Jiangsu Province”.
文摘Maillard peptides(MPs)were derived from distillers’grain hydrolysates(DGPs)and fructose,and MPs prepared with and without exogenous L-cysteine were respectively defined as DFCs and DFs.The influences of extra-added L-cysteine was investigated on the browning,taste properties(salty,umami,and kokumi),and characteristic volatile compounds of MPs.Eleven aroma-active compounds were identified as the key volatile compounds of MPs through aroma extract dilution analysis(AEDA)and odor active values(OAVs).Partial least squares regression(PLSR)was used to investigate the relationship between the sensory properties and the concentrations of the volatile compounds in DFCs and DFs.3-Methylbutanal,5-methyl-2-thiophenecarboxaldehyde,dimethyl trisulfide,trimethylpyrazine,and 3-ethyl-2,5-dimethylpyrazine,which significantly contributed to the caramel and roast characteristics of MPs,were inhibited through the addition of L-cysteine and regulation of temperature below 120◦C.The DFCs prepared at 110℃for 120 min exhibited desirable taste properties and suitable aroma to non-thermal processed foods.When 0.3%DFCs were added to the soaking solution of sugared garlic,the hardness and fracturability of sugared garlic were increased by 45.26%and 19.15%,respectively,which meant this MPs could be used to improve the edible texture of sugared garlics.
基金supported by a research grant from the National University of Singapore to WQS(RP-3960366)a collaborative research grant from Sichuan Zhongke Organ Co.Ltd(Chengdu,China).
文摘Objectives:Cold-acclimated organisms accumulate low molecular weight organic solutes such as sugar alcohols and soluble sugars.This study aimed to compare the efficacy of five sugar alcohols and 14 soluble sugars in stabilizing proteins under freezing,freeze-drying,and air-drying stresses.Materials and methods:Glucose-6-Phosphate Dehydrogenase(G6PD)was used as the model protein.G6PD solutions with or without sugar alcohols and or sugars were subjected to freezing,freeze-drying,and air-drying stresses.The recovery of G6PD activity was measured to evaluate the protective efficacy of these compounds.Results:Without stabilizers,freezing G6PD at-20℃ or-80℃ reduced enzyme activity by around 24%,while freeze-drying or air-drying reduced activity by 90%-95%.Among the five sugar alcohols tested,pinitol,quebrachitol and sorbitol stabilized G6PD,whereas mannitol and myo-inositol destabilized it.Among 14 soluble sugars,trehalose and raffinose showed slightly lower enzyme recovery after repeated freeze-thaw cycles at-20℃.Most soluble sugars(except arabinose and xylose)protected G6PD during freeze-drying,with di-,tri-,and oligosaccharides generally outperforming monosaccharides.During air-drying,lactose was ineffective,while arabinose,galactose,and xylose were detrimental.Conclusion:The study highlights the diverse mechanisms of sugar alcohols and sugars in protein stabilization under stress,offering insights for formulating stable protein-and cell-based drugs.
基金supported by the National Natural Science Foundation of China(32071798)5·5 Engineering Research&Innovation Team Project of Beijing Forestry University,China(BLRC2023B08)。
文摘Sucrose transporters(SUTs)play a crucial role in carbon allocation from the source leaf to the sink end,and the function of SUTs varies among family members.However,the genome-wide identifcation of the SUT superfamily in Camellia oleifera is lacking,and their biological function remains elusive.In this study,four SUT genes-designated Co SUT1-4-were identifed in C.oleifera through a genome-wide analysis and classifed into three subfamilies.We used a combination of cis-acting elements analysis,mRNA quantifcation,histochemical analysis,and heterologous transformation to evaluate the expression profiles and functions of these SUTs.A key finding is that CoSUT4,localized on the plasma membrane,is highly expressed in mature leaves and the early stage of seed development in C.oleifera.In vitro culture of C.oleifera seed revealed the responsiveness of CoSUT4 to various exogenous hormones such as ABA and GA.CoSUT4 was able to restore the growth of the yeast strain SUSY7/ura3(a sucrose transport-defcient mutant)on sucrose-containing media and specifcally contributed to sucrose translocation and tissue growth in CoSUT4-overexpressed apple calli.In situ hybridization identifed chalazal nucellus and transfer cells as the action sites of CoSUT4 at the maternal-flial interface mediating sucrose transportation in oil tea seeds.CoSUT4 overexpression in Arabidopsis thaliana atsuc4 mutant restored the growth and seed yield defciencies of the mutant,leading to an increase in flled seeds and oil content.Additionally,CoSUT4 overexpression enhanced the drought and salt stress tolerance by augmenting sugar content.Overall,these fndings provide valuable insights into the function of SUTs and present promising candidates for the genetic enhancement of seed production in C.oleifera.
基金supported by grants from the National Natural Science Foundation of China(Grant Nos.32122080,31972375)Shandong Province(Grant No.ZR2020YQ25)。
文摘The content of soluble sugars is a vital parameter that indicates the quality of fleshy fruits such as apple(Malus domestica Borkh.).Studying the patterns of accumulation of soluble sugars and regulatory mechanisms associated with fruit development is crucial for breeding improved fruit varieties.Here,we report that MdCIbHLH1,a low temperature-induced b HLH transcription factor,inhibits the accumulation of soluble sugars by regulating sugar-metabolizing enzyme activities,photosynthetic performance,and the expression of sugar-related genes in developing apple fruits.MdCIbHLH1 inhibits MdFBP and MdPEPCK expression,thus blocking the conversion of acids to sugars in apple fruits.We also discovered that MdCIbHLH1 decreases the photosynthetic rate and carbohydrate accumulation in apple leaves.Our results suggest that soluble sugar accumulation in apple fruits is influenced by multiple factors,including metabolic status,photosynthesis,and carbohydrate allocation.MdCIbHLH1 is critically involved in controlling the accumulation of soluble sugars by coordinating carbohydrate synthesis and allocation,thus influencing sugar transport and its metabolism during the development of apple fruits.
文摘BACKGROUND At present,China has become the country with the largest number of individuals with diabetes mellitus(DM)in the world,with a total of approximately 140 million patients,the majority of whom have type 2 DM(T2DM).Based on conven-tional nursing methods,community home care has important clinical significance in controlling blood sugar and disease progression.AIM To explore the impact of community public health nursing on treatment effect,health cognition,and self-management in patients with T2DM.METHODS One hundred patients with T2DM were selected as the research subjects.The patients were divided into either a conventional nursing group or community nursing(CN)group using the random number table method.The conventional nursing group(50 cases)received routine care,while the CN group(50 cases)received community public health care in addition to routine care as that for the conventional nursing group.The rate of excellent and good blood glucose control,fasting blood glucose before and after care,2-h postprandial blood glucose,health cognition,and self-management ability,and patient satisfaction were compared between the two groups.RESULTS The CN group had a higher rate of excellent blood sugar control than the conventional nursing group(88%vs 70%,P<0.05).Before care,there was no significant difference in fasting blood glucose or 2-h postprandial blood glucose between the two groups of patients(P>0.05).After nursing,fasting blood glucose and 2-h postprandial blood glucose were reduced to varying degrees in both groups,and both blood glucose levels in the CN group were lower than those of the conventional nursing group(P<0.05).Compared with the scores before care,the cognitive level score for diabetes and self-management ability score improved after care in both groups.The cognitive level and self-management ability of patients in the CN group were higher than those of the conventional nursing group(P<0.05).The overall satisfaction of the CN group was better than that of the conventional nursing group(98%vs 86%,P<0.05).CONCLUSION Community public health care based on conventional care of T2DM can achieve better blood sugar control,and improve patients’health cognitive level and self-management ability.
基金supported by the National Science Centre grants,Grant/Award Number:SONATA-BIS 2020/38/E/NZ3/00090 and SONATA 2021/43/D/NZ3/01798。
文摘Sugars are one of the major metabolites and are essential for nucleic acid synthesis and energy production.In addition,sugars can act as signaling molecules.To study sugar signaling at the systemic level,there is an urgent need to systematically identify sugar-sensing proteins and nucleic acids.I propose the terms“swodkoreceptor”and“swodkocrine signaling,”derived from the Polish word“slodki”meaning“sweet,”to comprise all sugar-sensing proteins and signaling events,respectively,regardless of their cellular location and signaling domains.This proposal is intended to facilitate the inclusion of proteins such as the Escherichia coli Lac I repressor as an allolactose receptor,human glucokinase regulatory protein(GCKR)as a fructose receptor,and other sugar-binding based allosterically regulated enzymes and transcription factors as sugar-sensing receptors.In addition,enzyme-interacting proteins whose interaction state is regulated by sugar binding have also been proposed as sugar receptors.The systemic study of protein-and nucleic-acid-based swodkoreceptors may help to identify organelle-specific swodkoreceptors and to also address receptor duality.The study of intra-and inter-organism swodkocrine signaling and its crosstalk with gasocrine signaling may help to understand the etiology of diseases due to dysregulation in sugar homeostasis and signaling.
文摘Background: Diabetes is a set of metabolic abnormalities typified by hyperglycemia believed to be associated with aberrant insulin secretion, insulin action, or both. Erectile dysfunction and infertility are globally prevalent complications among male diabetic patients. There is a need to understand the role of a male reproductive hormone in the etiology of infertility in diabetic patients. Objective: This study aims to determine the effect of diabetes mellitus on the Male reproductive hormone (testosterone) on diabetic patients attending the Urology unit of Federal University Teaching Hospital, Abakaliki, Ebonyi State, Nigeria and the effect of industrial sugar consumption in rats model. Materials and Methods: 30 samples (including repeats, n = 3) were collected from known diabetic patients and 30 (including repeats, n = 3) control-non diabetic healthy individuals. Five millilitres (5 ml) of blood was collected from the antecubital vein of each participant and placed into a plain container for serum testosterone measurement using the enzyme-linked immunoassay technique. Blood was also collected from the same subjects in a fluoride oxalate container for plasma enzymatic glucose estimation using a Randox Glucose oxidase kit. For in vivo rat model, the albino rats were grouped into 2 of five (5) rats. The control group (1) was only given normal rat food and water while the test group (2) was treated with 0.4 g of industrial sugar/mL/body weight in addition to rat food and water via oral intubation for 21 days. Blood samples were collected via ocular puncture into plain tubes for testosterone measurement as described above. Results: There is a significant (p Conclusion: In conclusion, data available from this study suggests that increased plasma glucose levels and excessive industrial sugar consumption are associated with decreased testosterone levels in both human and animal models respectively. The mechanism is yet unclear but it could be that DM alters conventional sperm parameters, spermatogenesis, and biosynthesis of testosterone and induces degenerative changes in the testis and epididymis and ejaculatory dysfunction. These mechanisms need to be investigated.
基金National Key Research and Development Project of China(2022yfd1500501)Jilin Province Science and Technology Department Outstanding Young Talent Fund Project(20230508001RC).
文摘The yield of direct-seeded rice(DSR)was constrained by inadequate grain filling.Recent studies have indicated that paclobutrazol application plays a significant role in enhancing crop agronomic traits and increasing yield.This study aimed to examine the effects of paclobutrazol seed soaking(PSS)on non-structural carbohydrate accumulation and grain enrichment in DSR,potentially providing a theoretical foundation for achieving high-yield DSR cultivation.The experiment utilized two rice varieties,Jiyujing(JYJ)and Jijing305(JJ305),with seeds soaked in paclobutrazol concentrations of 0 mg L^(−1) and 100 mg L^(−1).PSS demonstrated increased chlorophyll content,net photosynthetic rate,and leaf area,as well as an extended photosynthetic function period during the filling stage.It also elevated soluble sugar and starch contents in the flag leaf(during the filling stage)and stem sheath(after heading),decreased starch content in the top panicle while increasing it in the middle and lower panicle during the filling stage,and enhanced spikelet per unit area and seed setting rate,thereby improving DSR yield.In conclusion,PSS enhanced the photosynthetic capacity of DSR during the filling stage,coordinated the filling process of superior and inferior grains,maintained source-sink balance,and facilitated stable and orderly filling,ultimately resulting in improved yield.
基金supported by the Specialty Crop Block Grant Program of the U.S. Department of Agriculture's (USDA), Agricultural Marketing Service (AMS) through the California Department of Food and Agriculture (SCB15015)partly also by funding from the California Leafy Greens Research Board and by Oak Ridge Institute for Science and Education (ORISE) Research Participation Program。
文摘Fresh-cut lettuce is widely used in ready-to-eat salads sold in modified atmosphere packages (MAP).Even in MAP,fresh-cut lettuce has short shelf life that results in loss of nutrients.Lettuce cultivars exhibit genetic variation for shelf life in MAP,but their variation for nutrient retention is not known.Fifty accessions were evaluated for initial content of ascorbic acid (AsA),carotenoids,and sugars and their retention in storage.Accessions with high content and/or good retention of one or more nutrients were identified.The romaine accession ‘Floricos’ had high levels of all the three nutrients.Accessions with relatively high retention of all the three nutrients were ‘Salinas 88’,‘Siskiyou’,‘Solar’,SM09A,‘Romance’,and ‘Green Towers’.Romaine cultivars,‘Balady Barrage’,‘Green Towers’,and ‘Darkland’ had relatively high initial levels of all tested nutrients and good rate of their retention.There was no clear correlation between initial AsA/carotene concentrations and their retention rates,suggesting that besides content,retention of nutrients should also be a breeding target in a lettuce nutritional improvement program.Statistical analyses with the Pearson's correlation coefficient determined a negative relationship between tissue deterioration(AUDePS) and retention of all tested nutrients[r of-0.52 (P<0.0001) for AsA,-0.27 (P<0.01) for total carotene,and-0.59 (P<0.0001) for total sugars],suggesting that an increase in tissue deterioration intensifies nutrient decay.Broad-sense heritability (H^(2)) across the experiments was0.15 for AsA,0.23 for total carotene,and 0.50 for total sugars.Identification of germplasm with high nutrient content,extended shelf life and good nutrient retention provides valuable information for the lettuce industry and associated breeding programs.
基金the funding support provided by the Strategic Priority Research Program of the Chinese Academy of Sciences (XDC0120402)the National Key Research&Development Program of China (2022YFC2105103)。
文摘Phosphorylated sugars,recognized as central intermediates in carbohydrate metabolism and critical precursors for enzymatic synthesis of rare sugars,face significant technical barriers in their industrialscale production.The multi-enzymatic preparation systems for these compounds inherently accumulate complex impurities,including protein-based catalysts,residual substrates,and oligosaccharide byproducts,posing persistent challenges in product separation and biocatalyst recycling.To address this limitation,we conducted a systematic investigation of ultrafiltration-based separation strategies during the multi-enzyme-catalyzed synthesis of fructose-1,6-bisphosphate(FDP),with particular emphasis on membrane fouling mechanisms.By screening the ultrafiltration membranes,UE020 showed the best performance in the model system,achieving significant separation targets:99.97% retention of bovine serum albumin,FDP/maltodextrin separation coefficient of 7.41,and FDP recovery of 93.63%.An analysis of the components of resistance revealed that concentration polarization induced by maltodextrin was the main factor constituting the resistance,irreversible resistance due to bovine serum albumin was a secondary effect,and the resistance constituted by FDP was negligible.A mitigation strategy employing powdered activated carbon for dynamic membrane formation significantly improved system performance,reducing irreversible resistance by 59.14% and enhancing flux recovery by 20.85%.In this study,ultrafiltration was strategically employed to achieve efficient separation of FDP and enzyme recovery.Significantly,we deciphered the synergistic fouling mechanisms arising from interactions within the multicomponent system containing phosphorylated sugars,oligosaccharides,and proteins.These findings provide a mechanistic framework for scaling up multi-enzymatic systems dedicated to phosphorylated sugar biosynthesis,effectively bridging the gap between laboratory-scale synthesis and industrial implementation.
基金supported by the Natural Science Foundation of Shandong Province(ZR2022MB019,ZR2021MB134)the National Natural Science Foundation of China(22008131,51974086)。
文摘The dispersibility of active components in hydrodesulfurization(HDS)catalysts significantly influences the corresponding catalytic performance.In this study,sugar-based materials(glucose,chitosan,soluble starch,and corn starch)were utilized to prepare CoMo bulk HDS catalysts through a sugar foaming process.The foaming intermediates were analyzed using TG,FTIR,and Raman techniques to investigate the pyrolysis and carbonization process,revealing the presence of graphitic carbon in the 3 DPG,3 DPSS,and 3 DPCS catalysts even after calcination in an air atmosphere.The catalysts were further characterized using SEM,XRD,TEM,low-temperature N_(2) physical adsorption,and XPS.The 3 DPSS catalyst exhibited a thiophene conversion of 94.8%at 360℃ and 1 MPa,which could be ascribed to its unique three-dimensional pore structure,high dispersion of MoS_(2)(0.21),and high fraction of Mo^(4+)(83.14%).This study demonstrates the potential of using the sugar foaming technique to develop highly efficient HDS catalysts and provides new insights into the relationship between the physicochemical properties of the obtained catalysts and their catalytic performance.
文摘During the era of Middle Ages,throughout Europe,a mulled or spiced wine commonly consumed at the end of a meal as a digestive,sweetened with honey or containing sugar,named“Hyppocras”(or hypocras,hippocras,ypocras,ipocras,Latin:Vinum Hippocraticum),was the most famous aperitif,having also a cluster of supposedly drug qualities[1,2].Hyppocras was regularly served as a digestive at the end of the meal,becoming symbolically the ceremonial conclusion of any banquet since 14th century[3].Evidence of the high regard Hyppocras enjoyed among the medieval lore is testified by the fact that a recipe of the wine enriched with rosewater and raisins,survived within the work“On Wines”written by one on the most esteemed physicians of the 13th century.
基金supported by the National Natural Science Foundation of China(Grant Nos.32302642,32272790)the Starry Night Science Fund of Zhejiang University Shanghai Institute for Advanced Study(Grant No.SN-ZJU-SIAS-0011)+1 种基金Collaborative Promotion Program of Zhejiang Provincial Agricultural Technology of China(Grant No.2023ZDXT05)the Fundamental Research Funds for the Central Universities(Grant No.226-2022-00122).
文摘Autophagy is a universal cellular process in eukaryotes that plays a critical role in plant growth and stress response.However,the role of autophagy in fruit ripening is largely unknown.Here,we demonstrated that most autophagy-related genes(ATGs)were up-regulated during tomato(Solanum lycopersicum L.)fruit ripening.By using mutants of different autophagy pathway genes(ATG6,ATG10,ATG18a),we revealed that the deficiency of autophagy delayed the ripening of fruit.Compared with wild-type(WT),the production of ethylene was significantly reduced and the accumulation of lycopene was delayed in atg mutants during fruit ripening.We also observed the contents of glucose and fructose were both significantly decreased in atg mutants compared with WT,while the content of organic acids showed the opposite trend.Additionally,the negative regulator of ethylene production,APETALA2a(AP2a),interacted with ATG8 through a specific ATG8-interacting motif(AIM)and could be degraded through the autophagy pathway.These results demonstrate that autophagy plays a critical role in fruit ripening by regulating ethylene production and the accumulation of pigments,sugars and organic acids in tomato.
