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
Drought stress and abscisic acid(ABA)have been known to play a critical role in modulating sugar accumulation in fruit,and yet,the underlying molecular mechanisms remain elusive.In this study,we have demonstrated that...Drought stress and abscisic acid(ABA)have been known to play a critical role in modulating sugar accumulation in fruit,and yet,the underlying molecular mechanisms remain elusive.In this study,we have demonstrated that drought-mimicking film mulching increased sucrose levels in Satsuma mandarin(Citrus unshiu)fruit,coinciding with upregulation of CuSPS4,which encodes the sucrose phosphate synthase(SPS),in the transcriptome profiling.CuSPS4 was further shown to be drought-and ABA-inducible and functionally essential for sucrose synthesis.Mechanistically,two transcription factors,CuWRKY41 and CuWRKY23,directly bound to and activated the CuSPS4 promoter via the W-box element,with CuWRKY41 additionally regulating CuWRKY23 expression.Consistently,both Cu WRKY41 and Cu WRKY23 positively regulated sucrose synthesis by upregulating Cu SPS4.Meanwhile,the ubstrateinteracting subunit(Cu Sn RK1β1)and catalytic subunit(Cu Sn RK1α)of SUCROSE NON-FERMENTING RELATED KINASE 1(Sn RK1)interacted with Cu WRKY41,triggering Cu Sn RK1α-mediated phosphorylation and subsequent degradation of Cu WRKY41,thereby suppressing its activation.However,ABA promoted cytoplasmic translocation of Cu Sn RK1αand Cu Sn RK1β1 and reduced nuclear interaction with Cu WRKY41,leading to its phosphorylation alleviation and protein stabilization,concurrent with enhanced transcription activation of Cu WRKY23 and Cu SPS4.Taken together,these findings reveal a sophisticated regulatory mechanism whereby drought promotes sucrose accumulation by suppressing Cu Sn RK1α-mediated phosphorylation and degradation of Cu WRKY41,enabling its transcriptional activation of Cu SPS4 directly or via Cu WRKY23.Our study provides significant insights into the molecular basis of drought-induced sucrose accumulation and presents valuable regulatory components that could be targeted for fruit quality improvement.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
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
Rare sugars such as L-fucose,L-rhamnose,and D-altrose possess diverse biological activities and increasing industrial relevance in pharmaceuticals,food,and biomaterials.Microbial exopolysaccharides(EPS)are a renewable...Rare sugars such as L-fucose,L-rhamnose,and D-altrose possess diverse biological activities and increasing industrial relevance in pharmaceuticals,food,and biomaterials.Microbial exopolysaccharides(EPS)are a renewable and structurally diverse source of these sugars;however,their natural abundance in EPS is often limited.Emerging evidence shows that environmental stress-such as osmotic pressure,pH variation,nutrient limitation,and temperature shifts-can significantly alter EPS composition and promote the incorporation of rare sugars.This review provides a comprehensive overview of the occurrence and biological significance of these uncommon monosaccharides in bacterial polysaccharides.It highlights the influence of environmental stress on microbial metabolism and EPS structure,with emphasis on stress-induced changes in gene expression,sugar nucleotide biosynthesis,and glycosyltransferase regulation.Biotechnological strategies,including stress-optimized fermentation,co-culture systems,metabolic engineering,and synthetic biology,are also discussed as tools to enhance the biosynthesis and incorporation of structurally distinct sugar residues into the polysaccharide matrix.By integrating insights from microbial physiology,metabolic control,and process engineering,this review underscores the potential of environmental stress as a sustainable and versatile approach for producing rare sugar-enriched EPS.Future research opportunities and current knowledge gaps are also addressed,with a focus on systems-level understanding and translational applications.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
A general situation of the sugar beet industry and business in the European Union(EU) has been presented. It included the quotas of sugar production there, its prices and changes on the market. The latest sugar produc...A general situation of the sugar beet industry and business in the European Union(EU) has been presented. It included the quotas of sugar production there, its prices and changes on the market. The latest sugar production data in the world was also given. The main companies carrying out activities on the Polish sugar and sugar beet seeds were also presented.New circumstances after liberating the sugar market in the EU in October, 2017, were also presented. Nowadays, Poland has been a great potential country for further technological progress in agricultural holdings and growing performance in sugar processing and production industry. As food export from Poland increases, it will be followed by increasing use of sugar. Examples are given to improve sugar beet productivity.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
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
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
Sugars are widely recognized for their ability to stabilize cell membranes during dehydration.However,the precise mechanisms by which sugars interact with lipid bilayers remain unclear.This mini-review synthesizes fou...Sugars are widely recognized for their ability to stabilize cell membranes during dehydration.However,the precise mechanisms by which sugars interact with lipid bilayers remain unclear.This mini-review synthesizes four key hypotheses explaining sugar-mediated protection of dehydrated bilayers:the Water Replacement Hypothesis(WRH),Hydration Force Hypothesis(HFH),Headgroup Bridging Hypothesis(HBH),and Vitrification Hypothesis(VH).We argue that these mechanisms are not mutually exclusive but instead operate synergistically under different cellular contexts.We propose that these hypotheses are not mutually exclusive but likely operate under different cellular contexts.Future studies should prioritize the development of biologically realistic membrane models-incorporating diverse lipids,proteins,and asymmetric leaflets-to elucidate the exact roles and mechanisms of sugars in membrane stabilization.Such advancements will enhance our understanding of anhydrobiosis and inform cryopreservation strategies for mammalian cells.展开更多
The compositions and contents of soluble sugars highly determine the flavor and quality of fleshy fruits.In the present study,we found that the overexpression of transcription factor MdWRKY126 localized on the nucleus...The compositions and contents of soluble sugars highly determine the flavor and quality of fleshy fruits.In the present study,we found that the overexpression of transcription factor MdWRKY126 localized on the nucleus enhanced sucrose concentration while decreased fructose and glucose concentration in transgenic apple calli and ripening tomato fruits.To comprehensively understand the effects of the MdWRKY126 on the content of various soluble sugars in apple and tomato fruits,enzyme activities and related essential genes associated with the sugar metabolism and transportation pathway in MdWRKY126-overrexpressed apple and tomato lines were analyzed.The results indicated that the overexpression of MdWRKY126 upregulated sucrose phosphate synthase(SPS)activity and the gene expression levels of SPS and sucrose transporter SUT,which was conducive to a large accumulation of sucrose in fruit cells.Meanwhile,MdWRKY126 overexpression downregulated the activity of enzymes involved in sucrose decomposition including cell wall invertase(CWINV),sucrose synthase(SUSY)and the corresponding gene expressions,as well as inhibited the expression levels of hexose transporter(HTs)and tonoplast sugar transporter(TSTs)that transport hexose into vacuoles,resulting in a reduced hexose level in apple calli and tomato fruit.These findings enrich our understanding of the metabolism and regulation of soluble sugars in apple fruits.展开更多
In Shandong,the special folk activity of blowing sugar figures during the Spring Festival has a long history.It is said that this skill can be traced back to the Tang Dynasty.At that time,as sugar-making technology im...In Shandong,the special folk activity of blowing sugar figures during the Spring Festival has a long history.It is said that this skill can be traced back to the Tang Dynasty.At that time,as sugar-making technology improved a lot,smart folk craftsmen(工匠)began to use sugar to create various small items.Once heated,sugar turns soft and malleable(可塑的).展开更多
Rice is the world's largest food crop,but it often encounters flowering asynchronization problems during hybrid rice seed production.In addition,the slow closure of female florets leads to seed mildew and affects ...Rice is the world's largest food crop,but it often encounters flowering asynchronization problems during hybrid rice seed production.In addition,the slow closure of female florets leads to seed mildew and affects the quality.The hormone abscisic acid(ABA)plays a crucial role in plant responses to abiotic stresses.Previous studies showed that exogenous ABA promotes floret closure,although the molecular mechanisms and effects of endogenous ABA on floret closure remain unknown.In this study,the effect of endogenous ABA on floret closure and the molecular mechanism by which ABA promotes floret closure through sugar transporters were investigated by changing the expression levels of OsNCED3 and OsPYL1 in rice.The results showed that overexpression(OE)-OsNCED3increased the endogenous ABA level of florets.Florets closed 5.91 min earlier and OsNCED3 gene knockout line delayed the closure of florets by 5.08 min compared with the wild type.In addition,OsPYL1 regulated the endogenous ABA content and changed the sensitivity to ABA such that the floret closure times for OE and CRISPR-Cas9(CR)were 9.84 min earlier and 12.78 min later,respectively,resulting in an increase in the split husk rate to 15.4%.The gene expression levels of some sugar transporters(STs)changed.The OsPYL1 and OsSWEET4proteins could interact on the cell membrane.These results indicate that ABA promotes the closure of rice florets and the enhanced sensitivity to ABA promotes this effect even more.The molecular mechanism is mainly related to downstream sugar transporters that respond to the ABA signaling pathway,especially OsSWEET4.展开更多
Activated charcoals were synthesized from sugar palm bunches(SPB)of the native tree of Arenga longipes in Indonesia.The synthesized activated charcoal(AC)was characterized,and utilized as an absorbent for heavy metals...Activated charcoals were synthesized from sugar palm bunches(SPB)of the native tree of Arenga longipes in Indonesia.The synthesized activated charcoal(AC)was characterized,and utilized as an absorbent for heavy metals(lead/Pb and copper/Cu)through thermal activation.The synthesis of AC was accomplished through furnace activation at temperatures of 500℃,600℃,700℃,and 800℃.Acid chlorides were blended with the SPB-AC samples at 5%impregnation level and subsequently subjected to washing for activation,resulting in the elimination of volatile substances and ash content,which facilitates the development of a porous structure in the activated charcoal.The proximate analysis results indicated a reduction in weight and moisture content with an increase in activation temperature.The C-O,C=C,O-H stretching chains were not visible in the SPB-AC,indicating that the chains were broken after activation.The treatments at 600℃ and 700℃ exhibited superior thermal stability relative to the others.Moreover,there was a notable reduction in the signal strength of low-crystallinity amorphous carbon,indicating that the high-temperature treatment substantially altered the structural characteristics of the crystal.The SPB-AC produced at 700℃ exhibited a primarily microporous architecture,characterized by a maximal surface area,reduced total pore volume,and small particle size.In conclusion,elevating the activation temperature to 700℃ leads to notable improvement in the adsorption of Pb(91.61%)and Cu(95.19%)metals.展开更多
The utilisation of sugar palm bunches-charcoal briquettes(SPB-CB)represents a significant advancement in biomass energy.This study aimed to analyse the properties of charcoal briquettes produced from SPB(Arenga longip...The utilisation of sugar palm bunches-charcoal briquettes(SPB-CB)represents a significant advancement in biomass energy.This study aimed to analyse the properties of charcoal briquettes produced from SPB(Arenga longipes).The experiment involved categorising the dimensions of charcoal powder into three specific particle sizes:20-40 mesh,40-60 mesh,and particles that could pass through a 60-mesh screen.The charcoal powder will be combined with tapioca as a binding agent at three specific concentrations:11%,13%,and 15%.The research findings indicate that the samples underwent 60 mesh passes achieved the maximum briquette density,with an average value of 0.58 g/cm^(3).The highest attainable compressive strength sample value was 27.52 kgf/cm^(2),which was attained by employing 60 mesh size and 15%adhesive concentration.The calorimetric investigation showed that SPB-charcoal had the highest calorific value of 25.88 MJ/kg,while the SPB-CB had a little lower caloric value of 24.64 MJ/kg.The ash content and volatile matter values showed that the briquettes with the lowest ash content had values of 10.49%and 32.65%,respectively.Furthermore,the carbon fixation values varied between 16.65%and 52.36%.Thermogravimetric analysis indicates that charcoal derived from SPB exhibits superior thermal characteristics compared to charcoal briquettes.However,thermal properties of SPB charcoal do not show significant differences when compared to charcoal briquettes that have been processed with a mesh size of 20-40 and include 11%adhesive.According to this research,it may be inferred that charcoal briquettes made from sugar palm bunches meet the requirements specified in SNI 01-6235-2000.展开更多
For the purpose of satisfying high demands for taste,color,flavor,and storage of meat products,water retention agents(WRAs)play an important role.Phosphate has been widely used as an attractive functional material for...For the purpose of satisfying high demands for taste,color,flavor,and storage of meat products,water retention agents(WRAs)play an important role.Phosphate has been widely used as an attractive functional material for water retention in current practical applications.However,excessive phosphate addition and longterm consumption may be harmful impacts on health and the environment.Therefore,it is vital to develop safe and efficient phosphate-free WRAs for further improving water-holding capacity(WHC)efficacy and edible safety,especially in meat products.In particular,sugar water retention agents(SWRAs)are increasingly popular because of their perfect safety,excellent WHC,and superior biological properties.This review discusses the inducements and mechanisms underlying water loss in meat products.In addition,we focused on the research progresses and related mechanisms of SWRAs in the WHC of meat products and its unique biological functions,as well as the extraction technology.Finally,the future application and development of SWRA were prospected.展开更多
The early responsive to dehydration-like(ERDL or ERD)subfamily,subclade within the monosaccharide transporter(MST)superfamily,is crucial in the regulation of growth and seed yield in Arabidopsis.Here,we identified Os ...The early responsive to dehydration-like(ERDL or ERD)subfamily,subclade within the monosaccharide transporter(MST)superfamily,is crucial in the regulation of growth and seed yield in Arabidopsis.Here,we identified Os ERD5 as an At ERDL6 homologue and explored the function of Os ERD5.We found that Os ERD5 overexpression significantly enhanced the tiller number and grain yield of rice.Os ERD5 was widely expressed in aboveground tissues,encoded a tonoplast-localized protein,and exhibited transport activities for fructose,glucose and mannose when expressed in yeast.Expression character assay revealed that Os ERD5 mediated hexose efflux across tonoplasts and participated in maintaining the diurnal rhythm-regulated intracellular hexose homeostasis.Additional physiological and molecular evidence showed that Os ERD5 overexpression promoted vacuolar glucose efflux,enhanced sucrose synthesis and transport,increased sugar content in the shoot base,and promoted rice tillering by activating the synthesis of cytokinin simultaneously repressing strigolactone and gibberellin signaling.This study elucidates the function of Os ERD5 and the mechanism underlying the overexpression of Os ERD5 increasing rice tillering and yield.展开更多
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supported by the National Natural Science Foundation of China(32330095)the Hubei Hongshan Laboratory project(2021hszd009)。
文摘Drought stress and abscisic acid(ABA)have been known to play a critical role in modulating sugar accumulation in fruit,and yet,the underlying molecular mechanisms remain elusive.In this study,we have demonstrated that drought-mimicking film mulching increased sucrose levels in Satsuma mandarin(Citrus unshiu)fruit,coinciding with upregulation of CuSPS4,which encodes the sucrose phosphate synthase(SPS),in the transcriptome profiling.CuSPS4 was further shown to be drought-and ABA-inducible and functionally essential for sucrose synthesis.Mechanistically,two transcription factors,CuWRKY41 and CuWRKY23,directly bound to and activated the CuSPS4 promoter via the W-box element,with CuWRKY41 additionally regulating CuWRKY23 expression.Consistently,both Cu WRKY41 and Cu WRKY23 positively regulated sucrose synthesis by upregulating Cu SPS4.Meanwhile,the ubstrateinteracting subunit(Cu Sn RK1β1)and catalytic subunit(Cu Sn RK1α)of SUCROSE NON-FERMENTING RELATED KINASE 1(Sn RK1)interacted with Cu WRKY41,triggering Cu Sn RK1α-mediated phosphorylation and subsequent degradation of Cu WRKY41,thereby suppressing its activation.However,ABA promoted cytoplasmic translocation of Cu Sn RK1αand Cu Sn RK1β1 and reduced nuclear interaction with Cu WRKY41,leading to its phosphorylation alleviation and protein stabilization,concurrent with enhanced transcription activation of Cu WRKY23 and Cu SPS4.Taken together,these findings reveal a sophisticated regulatory mechanism whereby drought promotes sucrose accumulation by suppressing Cu Sn RK1α-mediated phosphorylation and degradation of Cu WRKY41,enabling its transcriptional activation of Cu SPS4 directly or via Cu WRKY23.Our study provides significant insights into the molecular basis of drought-induced sucrose accumulation and presents valuable regulatory components that could be targeted for fruit quality improvement.
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 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.
文摘Rare sugars such as L-fucose,L-rhamnose,and D-altrose possess diverse biological activities and increasing industrial relevance in pharmaceuticals,food,and biomaterials.Microbial exopolysaccharides(EPS)are a renewable and structurally diverse source of these sugars;however,their natural abundance in EPS is often limited.Emerging evidence shows that environmental stress-such as osmotic pressure,pH variation,nutrient limitation,and temperature shifts-can significantly alter EPS composition and promote the incorporation of rare sugars.This review provides a comprehensive overview of the occurrence and biological significance of these uncommon monosaccharides in bacterial polysaccharides.It highlights the influence of environmental stress on microbial metabolism and EPS structure,with emphasis on stress-induced changes in gene expression,sugar nucleotide biosynthesis,and glycosyltransferase regulation.Biotechnological strategies,including stress-optimized fermentation,co-culture systems,metabolic engineering,and synthetic biology,are also discussed as tools to enhance the biosynthesis and incorporation of structurally distinct sugar residues into the polysaccharide matrix.By integrating insights from microbial physiology,metabolic control,and process engineering,this review underscores the potential of environmental stress as a sustainable and versatile approach for producing rare sugar-enriched EPS.Future research opportunities and current knowledge gaps are also addressed,with a focus on systems-level understanding and translational applications.
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A general situation of the sugar beet industry and business in the European Union(EU) has been presented. It included the quotas of sugar production there, its prices and changes on the market. The latest sugar production data in the world was also given. The main companies carrying out activities on the Polish sugar and sugar beet seeds were also presented.New circumstances after liberating the sugar market in the EU in October, 2017, were also presented. Nowadays, Poland has been a great potential country for further technological progress in agricultural holdings and growing performance in sugar processing and production industry. As food export from Poland increases, it will be followed by increasing use of sugar. Examples are given to improve sugar beet productivity.
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.
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.
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.
基金supported by the National Natural Science Foundation of China,China(Grant No.52376052)the Anhui Provincial Natural Science Foundation,China(Grant No.2308085ME174).
文摘Sugars are widely recognized for their ability to stabilize cell membranes during dehydration.However,the precise mechanisms by which sugars interact with lipid bilayers remain unclear.This mini-review synthesizes four key hypotheses explaining sugar-mediated protection of dehydrated bilayers:the Water Replacement Hypothesis(WRH),Hydration Force Hypothesis(HFH),Headgroup Bridging Hypothesis(HBH),and Vitrification Hypothesis(VH).We argue that these mechanisms are not mutually exclusive but instead operate synergistically under different cellular contexts.We propose that these hypotheses are not mutually exclusive but likely operate under different cellular contexts.Future studies should prioritize the development of biologically realistic membrane models-incorporating diverse lipids,proteins,and asymmetric leaflets-to elucidate the exact roles and mechanisms of sugars in membrane stabilization.Such advancements will enhance our understanding of anhydrobiosis and inform cryopreservation strategies for mammalian cells.
基金supported by the National Natural Science Foundation of China(Grant No.32172521)the Excellent Youth Science Foundation of Heilongjiang Province(Grant No.YQ2023C006)+1 种基金the China Postdoctoral Science Foundation(Grant No.2023MD744175)the Talent Introduction Programof Northeast Agricultural University of China,and the Collaborative Innovation System of the Agricultural Bioeconomy in Heilongjiang Province,China.
文摘The compositions and contents of soluble sugars highly determine the flavor and quality of fleshy fruits.In the present study,we found that the overexpression of transcription factor MdWRKY126 localized on the nucleus enhanced sucrose concentration while decreased fructose and glucose concentration in transgenic apple calli and ripening tomato fruits.To comprehensively understand the effects of the MdWRKY126 on the content of various soluble sugars in apple and tomato fruits,enzyme activities and related essential genes associated with the sugar metabolism and transportation pathway in MdWRKY126-overrexpressed apple and tomato lines were analyzed.The results indicated that the overexpression of MdWRKY126 upregulated sucrose phosphate synthase(SPS)activity and the gene expression levels of SPS and sucrose transporter SUT,which was conducive to a large accumulation of sucrose in fruit cells.Meanwhile,MdWRKY126 overexpression downregulated the activity of enzymes involved in sucrose decomposition including cell wall invertase(CWINV),sucrose synthase(SUSY)and the corresponding gene expressions,as well as inhibited the expression levels of hexose transporter(HTs)and tonoplast sugar transporter(TSTs)that transport hexose into vacuoles,resulting in a reduced hexose level in apple calli and tomato fruit.These findings enrich our understanding of the metabolism and regulation of soluble sugars in apple fruits.
文摘In Shandong,the special folk activity of blowing sugar figures during the Spring Festival has a long history.It is said that this skill can be traced back to the Tang Dynasty.At that time,as sugar-making technology improved a lot,smart folk craftsmen(工匠)began to use sugar to create various small items.Once heated,sugar turns soft and malleable(可塑的).
基金supported by the National Natural Science Foundation of China(32260780 and 31360297)the China Postdoctoral Science Foundation(2021M701513)+1 种基金the Jiangxi 2011 Collaborative Innovation Centre of Postharvest Key Technology and Quality Safety of Fruits and Vegetables,China(JXGS-05)the Gan Po 555 Engineering Excel ence Talents Project in Jiangxi Province,China。
文摘Rice is the world's largest food crop,but it often encounters flowering asynchronization problems during hybrid rice seed production.In addition,the slow closure of female florets leads to seed mildew and affects the quality.The hormone abscisic acid(ABA)plays a crucial role in plant responses to abiotic stresses.Previous studies showed that exogenous ABA promotes floret closure,although the molecular mechanisms and effects of endogenous ABA on floret closure remain unknown.In this study,the effect of endogenous ABA on floret closure and the molecular mechanism by which ABA promotes floret closure through sugar transporters were investigated by changing the expression levels of OsNCED3 and OsPYL1 in rice.The results showed that overexpression(OE)-OsNCED3increased the endogenous ABA level of florets.Florets closed 5.91 min earlier and OsNCED3 gene knockout line delayed the closure of florets by 5.08 min compared with the wild type.In addition,OsPYL1 regulated the endogenous ABA content and changed the sensitivity to ABA such that the floret closure times for OE and CRISPR-Cas9(CR)were 9.84 min earlier and 12.78 min later,respectively,resulting in an increase in the split husk rate to 15.4%.The gene expression levels of some sugar transporters(STs)changed.The OsPYL1 and OsSWEET4proteins could interact on the cell membrane.These results indicate that ABA promotes the closure of rice florets and the enhanced sensitivity to ABA promotes this effect even more.The molecular mechanism is mainly related to downstream sugar transporters that respond to the ABA signaling pathway,especially OsSWEET4.
基金the Government Collaboration Research Scheme of the TALENTA Grant of Universitas Sumatera Utara,No.41/UN5.2.3.1/PPM/KP-TALENTA/R/2023,29 August 2023.
文摘Activated charcoals were synthesized from sugar palm bunches(SPB)of the native tree of Arenga longipes in Indonesia.The synthesized activated charcoal(AC)was characterized,and utilized as an absorbent for heavy metals(lead/Pb and copper/Cu)through thermal activation.The synthesis of AC was accomplished through furnace activation at temperatures of 500℃,600℃,700℃,and 800℃.Acid chlorides were blended with the SPB-AC samples at 5%impregnation level and subsequently subjected to washing for activation,resulting in the elimination of volatile substances and ash content,which facilitates the development of a porous structure in the activated charcoal.The proximate analysis results indicated a reduction in weight and moisture content with an increase in activation temperature.The C-O,C=C,O-H stretching chains were not visible in the SPB-AC,indicating that the chains were broken after activation.The treatments at 600℃ and 700℃ exhibited superior thermal stability relative to the others.Moreover,there was a notable reduction in the signal strength of low-crystallinity amorphous carbon,indicating that the high-temperature treatment substantially altered the structural characteristics of the crystal.The SPB-AC produced at 700℃ exhibited a primarily microporous architecture,characterized by a maximal surface area,reduced total pore volume,and small particle size.In conclusion,elevating the activation temperature to 700℃ leads to notable improvement in the adsorption of Pb(91.61%)and Cu(95.19%)metals.
基金funded by the Regular Fundamental Research Grant of the Directorate of Research,Technology,and Community Service,Ministry of Education,Culture,Research,and Technology,Republic of Indonesia No.093/E5/PG.02.00.PL/2024Research Institution of Universitas Sumatera Utara No.1/UN5.4.10S/PPM/KPDRTPM/2024supported by the project“Development,Exploitation Properties and Application of Eco-Friendly Wood-Based Composites from Alternative Lignocellulosic Raw Materials”,Project No.HN C--1290/19.10.2023,carried out at the University of Forestry,Sofia,Bulgaria.
文摘The utilisation of sugar palm bunches-charcoal briquettes(SPB-CB)represents a significant advancement in biomass energy.This study aimed to analyse the properties of charcoal briquettes produced from SPB(Arenga longipes).The experiment involved categorising the dimensions of charcoal powder into three specific particle sizes:20-40 mesh,40-60 mesh,and particles that could pass through a 60-mesh screen.The charcoal powder will be combined with tapioca as a binding agent at three specific concentrations:11%,13%,and 15%.The research findings indicate that the samples underwent 60 mesh passes achieved the maximum briquette density,with an average value of 0.58 g/cm^(3).The highest attainable compressive strength sample value was 27.52 kgf/cm^(2),which was attained by employing 60 mesh size and 15%adhesive concentration.The calorimetric investigation showed that SPB-charcoal had the highest calorific value of 25.88 MJ/kg,while the SPB-CB had a little lower caloric value of 24.64 MJ/kg.The ash content and volatile matter values showed that the briquettes with the lowest ash content had values of 10.49%and 32.65%,respectively.Furthermore,the carbon fixation values varied between 16.65%and 52.36%.Thermogravimetric analysis indicates that charcoal derived from SPB exhibits superior thermal characteristics compared to charcoal briquettes.However,thermal properties of SPB charcoal do not show significant differences when compared to charcoal briquettes that have been processed with a mesh size of 20-40 and include 11%adhesive.According to this research,it may be inferred that charcoal briquettes made from sugar palm bunches meet the requirements specified in SNI 01-6235-2000.
基金funded by National Natural Science Foundation of China(51901160)。
文摘For the purpose of satisfying high demands for taste,color,flavor,and storage of meat products,water retention agents(WRAs)play an important role.Phosphate has been widely used as an attractive functional material for water retention in current practical applications.However,excessive phosphate addition and longterm consumption may be harmful impacts on health and the environment.Therefore,it is vital to develop safe and efficient phosphate-free WRAs for further improving water-holding capacity(WHC)efficacy and edible safety,especially in meat products.In particular,sugar water retention agents(SWRAs)are increasingly popular because of their perfect safety,excellent WHC,and superior biological properties.This review discusses the inducements and mechanisms underlying water loss in meat products.In addition,we focused on the research progresses and related mechanisms of SWRAs in the WHC of meat products and its unique biological functions,as well as the extraction technology.Finally,the future application and development of SWRA were prospected.
基金supported by the National Natural Science Foundation of China(32401743)the Earmarked Fund for the China Agriculture Research System(CARS-01)+1 种基金the Hunan Natural Science Foundation Project(2021JJ40235)the Science and Technology Innovation Program of Hunan Province(2022RC3053)。
文摘The early responsive to dehydration-like(ERDL or ERD)subfamily,subclade within the monosaccharide transporter(MST)superfamily,is crucial in the regulation of growth and seed yield in Arabidopsis.Here,we identified Os ERD5 as an At ERDL6 homologue and explored the function of Os ERD5.We found that Os ERD5 overexpression significantly enhanced the tiller number and grain yield of rice.Os ERD5 was widely expressed in aboveground tissues,encoded a tonoplast-localized protein,and exhibited transport activities for fructose,glucose and mannose when expressed in yeast.Expression character assay revealed that Os ERD5 mediated hexose efflux across tonoplasts and participated in maintaining the diurnal rhythm-regulated intracellular hexose homeostasis.Additional physiological and molecular evidence showed that Os ERD5 overexpression promoted vacuolar glucose efflux,enhanced sucrose synthesis and transport,increased sugar content in the shoot base,and promoted rice tillering by activating the synthesis of cytokinin simultaneously repressing strigolactone and gibberellin signaling.This study elucidates the function of Os ERD5 and the mechanism underlying the overexpression of Os ERD5 increasing rice tillering and yield.
