Polyamines(PAs)and ethylene are involved in the modulation of plant growth and development.However,their roles in fruit-set,especially in exogenous gibberellin(GA_(3))-induced grape parthenocarpic berries,and the rela...Polyamines(PAs)and ethylene are involved in the modulation of plant growth and development.However,their roles in fruit-set,especially in exogenous gibberellin(GA_(3))-induced grape parthenocarpic berries,and the related competitive action mode are poorly understood.For this,we,here performed their content determination,bioinformatics and expression pattern analysis of genes to identify the key ones in the competitive network of polyamines metabolic and ethylene biosynthesis(PMEB)pathways.The content of putrescine(Put)significantly increased;while 1-aminocyclopropanecarboxylic acid(ACC)sharply decreased during the fruit-set process of GA_(3)-induced grape parthenocarpic seedless berries.Totally,twenty-five genes in PMEB pathways,including 20 polyamines metabolic(PM)genes and 5 ethylene biosynthesis(EB)ones were identified in grape,of which 8 PM and 2 EB genes possessed the motifs responsive to phytohormone GA.The expression levels of most PMEB genes kept changing during grape fruit-set generating a competitive action mode of GA_(3)-mediated two metabolic fluxes toward PAs and ethylene synthesis.Exogenous GA_(3)might enhance grape fruit-set of parthenocarpic berries via up-regulation of VvSAMS4,VvSAMDC1/2,VvODC1,VvSPDS1,and VvPAO1 to promote PAs accumulation,whereby repressing the ethylene synthesis by down-regulation of VvACS1 and VvACO_(2).Our findings provide novel insights into GA_(3)-mediated competitive inhibition of ethylene by PAs to promote the fruit-set of parthenocarpic berries in grape,which has important implications for molecular breeding of seedless grape with high fruit-setting rate.展开更多
Polyamines(putrescine,spermidine,and spermine)are aliphatic compounds ubiquitous in prokaryotes and eukaryotes.Positively charged polyamines bind to negatively charged macromolecules,such as nucleic acids and acidic p...Polyamines(putrescine,spermidine,and spermine)are aliphatic compounds ubiquitous in prokaryotes and eukaryotes.Positively charged polyamines bind to negatively charged macromolecules,such as nucleic acids and acidic phospholipids,and are involved in physiological activities including cell proliferation,differentiation,apoptosis and gene regulation.Intracellular polyamine levels are regulated by biosynthesis,catabolism and transport.Polyamines in the body originate from two primary sources:dietary intake and intestinal microbial metabolism.These polyamines are then transported into the bloodstream,through which they are distributed to various tissues and organs to exert their biological functions.Polyamines synthesized by intestinal microorganisms serve dual critical roles.First,they are essential for maintaining polyamine concentrations within the digestive tract.Second,through transcriptional and post-transcriptional mechanisms,these microbial-derived polyamines modulate the expression of genes governing key processes in intestinal epithelial cells-including proliferation,migration,apoptosis,and cell-cell interactions.Collectively,these regulatory effects help maintain intestinal epithelial homeostasis and ensure the integrity of the gut barrier.In addition,polyamines interact with the gut microbiota to maintain intestinal homeostasis by promoting microbial growth,biofilm formation,swarming,and endocytosis vesicle production,etc.Supplementation with polyamines has been demonstrated to be important in regulating host intestinal microbial composition,enhancing nutrient absorption,and improving metabolism and immunity.In this review,we will focus on recent advances in the study of polyamine metabolism and transport in intestinal microbes and intestinal epithelial cells.We then summarize the scientific understanding of their roles in intestinal homeostasis,exploring the advances in cellular and molecular mechanisms of polyamines and their potential clinical applications,and providing a rationale for polyamine metabolism as an important target for the treatment of intestinal-based diseases.展开更多
The acetylpolyamine oxidase(APAO),spermine oxidase(SMO),and spermidine/spermine N1-acetyltransferase(SSAT)are pivotal enzymes in polyamine metabolism,exerting direct influence on polyamine homeostasis regulation.Dysfu...The acetylpolyamine oxidase(APAO),spermine oxidase(SMO),and spermidine/spermine N1-acetyltransferase(SSAT)are pivotal enzymes in polyamine metabolism,exerting direct influence on polyamine homeostasis regulation.Dysfunctions in these enzymes are intricately linked to inflammatory diseases and cancers.Establishing their three-dimensional structures is essential for exploring enzymatic catalytic mechanisms and designing inhibitors at the atomic level.This article primarily assesses the precision of AlphaFold2 and molecular dynamics simulations in determining the three-dimensional structures of these enzymes,utilizing protein conformation rationality assessment,residue correlation matrix,and other techniques.This provides robust models for subsequent polyamine catabolic metabolism calculations and offers valuable insights for modeling proteins that have yet to acquire crystal structures.展开更多
Macrocyclic polyamines are excellent chelating agents with the advantage of forming highly stable complexes.They offer the flexibility to adjust the coordination environment through functionalization.making them valua...Macrocyclic polyamines are excellent chelating agents with the advantage of forming highly stable complexes.They offer the flexibility to adjust the coordination environment through functionalization.making them valuable in numerous applications owing to their unique chemical and biological characteristics.This review summarizes the use of macrocyclic polyamines as carriers and molecular platforms of targeted drugs for medical applications.The significance and innovative design of these original approaches are dissected from the unique perspective of diverse mechanisms,such as iron depletion,metallo-β-lactamases inhibitors,intracellular ATP depletion,non-viral gene vector,DNA/RNA syntheses inhibitors and theranostics agent.Of interest are the metal complex of macrocyclic polyamines,which is usually a double-edged sword as dealing with endogenous macromolecular targets,especially DNA.These excellent cases will help to understand the typical mechanism in drug design based on macrocyclic polyamines,and achieve actual applications in medicine.展开更多
The seeds of barley Hordeum vulgare L. cv. Jian 4) were soaked with 0.1 mmol/L putrescine (Put) and 0.5 mmol/L spermidine (Spd), and then the seedlings were treated with 200 mmol/L NaCl. The growth rate (GR), dry matt...The seeds of barley Hordeum vulgare L. cv. Jian 4) were soaked with 0.1 mmol/L putrescine (Put) and 0.5 mmol/L spermidine (Spd), and then the seedlings were treated with 200 mmol/L NaCl. The growth rate (GR), dry matter accumulation, distribution of ions, the amount of polyamines (PAs) bound to tonoplast proteins as well as lipid composition and the activity of tonoplast vesicles isolated from roots were investigated. The results showed that soaking with Put or Spd could retard salt injury, promote GR and dry matter accumulation, and increase K+/Na+ in the roots. Compared with NaCl_treated plants, phospholipid content in root tonoplast rose by soaking with Put and Spd, while the level of galactose in lipids was decreased. Moreover, the ratio in noncovalently conjugated PA contents of (Spd+PAx (an unknown PA)) to (Put+Dap (diaminopropane)), and the total contents of covalently and noncovalently conjugated PAs were all increased. Statistical analysis indicated that the ratio of (Spd+PAx) to (Put+Dap) was significantly and positively correlated with the activities of membrane associated enzymes H+_ATPase and H+_PPase.展开更多
Salt stress is one of the worldwide abiotic stresses resulting in growth re- duction, chlorosis, wilting, and plant death. These exhibitions might result from men- tal toxicity and osmotic stress induced by salt. The ...Salt stress is one of the worldwide abiotic stresses resulting in growth re- duction, chlorosis, wilting, and plant death. These exhibitions might result from men- tal toxicity and osmotic stress induced by salt. The two aspects of stress would af- fect vital metabolic pathways, reactive oxygen species scavenging system, lipid per- oxidation and photosynthetic apparatus. Thus, exploring ways to improve crop pro- ductivity or alleviate harmful effects under salt is one of the major areas of concern. Polyamines are aliphatic nitrogen organic cations which are implicated in a wide range of plant physiological processes such as morphogenesis, flower differentiation and initiation, they also play a role in biotic or abiotic stress responses. At the physiological level, polyamines modify the activities of many enzymes included in salt stress response and can bond to photosynthetic apparatus, thus changing the photosynthetic efficiency. At molecular level, polyamines can modify expressions of the polyamine-related genes directly or indirectly. Significant researches had been done to understand the effects of polyamines on plant salt resistance, but several questions still need to be answered. The present review is focused specifically on the effects of polyamines on physiological and molecular changes in plants under salt stress.展开更多
The effects of osmotic stress on the ATPase activity, the contents of —SH group and conjugated polyamines in mitochondrial membrane from wheat seedling [Triticum aestivum L. cv. Yumai No.18(drought-tolerant) and cv. ...The effects of osmotic stress on the ATPase activity, the contents of —SH group and conjugated polyamines in mitochondrial membrane from wheat seedling [Triticum aestivum L. cv. Yumai No.18(drought-tolerant) and cv. Yumai No.9(drought-sensitive)] roots were investigated. The results showed that ATPase activity and —SH group content decreased with polyethylene glycol(PEG) 6000(-0.55 MPa) treatment for 7 d, in concert with the decrease of the ratio of noncovalently conjugated spermidine(NCC-Spd)/noncovalently conjugated putrescine(NCC-Put) and increase of the covalently conjugated putrescine(CC-Put). Osmotic stress injury to Yangmai No.9 seedlings was alleviated greatly with 1 mmol/L exogenous spermidine(Spd), in concert with marked increases of the ratio of NCC-Spd/NCC-Put, —SH group contents and ATPase activity in mitochondrial membrane. Under osmotic stress, the concomitant treatment of Yumai No.18 seedlings with methylglyoxyl bis(guanylhydrazone) (MGBG), an inhibitor of S-adenosyl methionine decarboxylase(SAMDC), and phenanthrolin (o-Phen), an inhibitor of transglutaminase(TGase), caused a significant decrease of the ratio of NCC-Spd / NCC-Put, CC-Put contents, respectively, in concert with the marked decreases of ATPase activity, —SH group content and its tolerance to osmotic stress. All the results above suggested that osmotic stress tolerance of wheat seedlings was associated with the ATPase activity, the contents of —SH group, NCC-Spd and CC-Put in mitochondrial membrane.展开更多
The free putrescine (Put) content, the hydrogen peroxide (H202) content and the polyamine oxidase (PAO) activity in roots of Malus hupehensis Rehd. var. pinyiensis Jiang (PYTC) were significantly increased, an...The free putrescine (Put) content, the hydrogen peroxide (H202) content and the polyamine oxidase (PAO) activity in roots of Malus hupehensis Rehd. var. pinyiensis Jiang (PYTC) were significantly increased, and reached its peak at 1, 2 and 6 h, respectively, under cadmium treatment. The free spermine (Spin) and spermidine (Spd) contents were dramatically decreased, and reached the minimum value at 4-6 h, then remained relatively stable. The change in total free polyammes (PAs) content was consistent with that of free Put. The number of root dead cells was gradually increased after treatment for 24 h, and the typical characteristics of programmed cell death (PCD) were displayed at 48 h. Throughout the Cd treatment process, changes in PAs metabolism appeared to be prior to cell death increase, and the H2O2 content was always maintained at a high level. These results indicated that polyamines could initiate cell death by generating H2O2 in roots of Malus hupehensis Rehd. under CdSO4 stress.展开更多
Polyamines(PAs) are important endogenous plant growth regulators responding to environmental stress and mediating many physiological processes including grain filling in cereals.This study investigated whether PAs med...Polyamines(PAs) are important endogenous plant growth regulators responding to environmental stress and mediating many physiological processes including grain filling in cereals.This study investigated whether PAs mediate the effect of post-anthesis soil drying on starch granule size distribution,starch content,and weight of superior and inferior kernels of wheat(Triticum aestivum L.).Two wheat cultivars were grown in pots.Three treatments,well-watered(WW),moderate soil drying(MD) and severe soil drying(SD),were imposed from 9 days post-anthesis until maturity.PA levels in kernels and small,medium and large granules were measured.The results showed that superior kernels had much higher free spermidine(Spd) and free spermine(Spm) concentrations,larger volumes of medium starch granules,and smaller-sized large granules than did inferior kernels under all the treatments.Compared to WW,MD significantly increased the concentrations of free Spd and free Spm,activities of soluble starch synthase and granule-bound starch synthase,volume of medium granules,and starch content and kernel weight of inferior kernels,and decreased the size of large granules.SD produced the opposite effect.Application of Spd or Spm to spikes produced effects similar to those of MD,and application of an inhibitor of Spd and Spm synthesis produced effects similar to those of SD.These results suggest that PAs mediate the effect of post-anthesis soil drying on starch biosynthesis in wheat kernels by regulating key enzymes in starch synthesis and that elevated PA levels under MD increase the volume of medium granules and kernel weight of inferior kernels.展开更多
Two maize genotypes (Nefertiti and Bashaier) were picked up from nine maize genotypes during the early vegetative growth (25 days) to be cultivated in open field upon the crop yield under the different drought stress ...Two maize genotypes (Nefertiti and Bashaier) were picked up from nine maize genotypes during the early vegetative growth (25 days) to be cultivated in open field upon the crop yield under the different drought stress levels (90,70,50,30) or under the interaction effect of drought stress and phytohormones or polyamines. According to the data of growth criteria, the maize genotype Nefertiti was found to be the most drought sensitive genotype, while the genotype Bashaier was found to be the most drought resistant genotype. Additionally while the photosynthetic pigments remained more or less unchanged in genotype Bashaier, their biosynthesis destroyed earlier in the drought sensitive genotype (Nefertiti). Also while the genotype Bashaier absorbed and accumulated a sufficient amount of mono and divalent cations (K+, Ca++ and Mg++), the genotype Nefertiti did not. Accordingly while the genotype Bashaier gave a crop yield up to 50% field capacity, the genotype Nefertiti gave a crop yield only up to 70% field capacity and failed to give a crop yield beyond this level. The interaction effect of drought stress and phytohormones and polyamines improved the all above characteristics. Interestingly each of these activators considerably improved the production of crop yield only in genotype Bashaier specially polyamines they produced more than 60% field capacity and at the level of 30% field capacity (the level which did not give crop yield in this genotype). However, phytohormones in generally did not make an important effect on the crop yield in genotype Nefertiti although they improved the dry matter production during the vegetative stages. Such situation seemed to be complicated and borne many questions to be studied in the future.展开更多
Young pea plants grown as a water culture were sprayed with hydrogen peroxide and 24 h later were treated with the herbicide paraquat. The effects of paraquat and H2O2 treatment were investigated on the endogenous con...Young pea plants grown as a water culture were sprayed with hydrogen peroxide and 24 h later were treated with the herbicide paraquat. The effects of paraquat and H2O2 treatment were investigated on the endogenous concentrations of free proline, and free and conjugated putrescine, spermidine and spermine. Application of PQ increased the free proline and Put, and decreased conjugated and bound polyamines. The results clearly demonstrate the oxidative damages provoked by PQ application. Single treatment with H2O2 provoked considerable decrease in the free fraction of the three PAs studied 2 h after light exposition, but caused an increase in their respective conjugated fractions. Data suggest that PA changes after H2O2 treatment are due to conversion from free to conjugated form. Three hours later free PAs in H2O2 treated-plants reached control levels;however the conjugated remained higher than the control. No alterations were detected in proline concentration after H2O2 treatment. Pretreatment with Н2О2 activated some component of the plant protection mechanisms by causing an alteration in free/conjugated PAs ratio in plants subsequently subjected to PQ treatment. Data concerning PA and proline concentrations in plants treated with both compounds supposed that H2O2 shows a protective role against PQ and improves the plant tolerance to the oxidative stress generated by paraquat.展开更多
Most aspects of microspore culture protocol have the capacity to cause stress to microspores, hence, less stressful treatments might be required to avoid deleterious effects. In stressed plants, polyamines and trehalo...Most aspects of microspore culture protocol have the capacity to cause stress to microspores, hence, less stressful treatments might be required to avoid deleterious effects. In stressed plants, polyamines and trehalose can act as compatible solutes or osmoprotectants by stabilizing proteins and biological membranes. To improve green plant regeneration in wheat microspore culture, this study assessed the effects of polyamines (putrecine, spermidine, spermine) and trehalose on androgenic response namely embryogenesis, green plant regeneration and ploidy of green plants regenerated in three spring wheat genotypes. Microspores of the genotypes produced significant numbers of embryos and green plants among polyamine treatments but trehalose had no effect (P ≤ 0.05). Polyamine treatments for 30 min generally produced more green plants per 100 microspores than the 60 min treatments in all three genotypes. At least three out of twelve polyamine treatments in each genotype improved the production of double haploid plants and seed setting in regenerants. Wheat genotype, concentration and duration of polyamine treatment had significant impact on embryogenesis and regeneration of green plants in this study. The study also showed that polyamines could be used to accelerate cultivar development in wheat breeding.展开更多
Because of the yield increase of 3.5-15%compared to conventional wheat,hybrid wheat is considered to be one of the main ways to greatly improve the wheat yield in the future.In this study,we performed a principal comp...Because of the yield increase of 3.5-15%compared to conventional wheat,hybrid wheat is considered to be one of the main ways to greatly improve the wheat yield in the future.In this study,we performed a principal component analysis(PCA)on two-line hybrids wheat and their parents using the grain weight(GW),the length of spike(LS),the kernel number of spike(KSN),and spike number(SPN)as variables.The results showed that the variables could be classifed into three main factors,the weight factor(factor 1),the quantity factor 1(factor 2)and the quantity factor 2(factor 3),which accounted for 37.1,22.6 and 18.5%,respectively of the total variance in different agronomic variables,suggesting that the GW is an important indicator for evaluating hybrid combinations,and the grain weight of restorer line(RGW)could be used as a reference for parents selection.The hybrid combination with a higher score in factor 1 direction and larger mid-parent heterosis(MPH)of the GW and its parents were used to carry out the analysis of grain fling,1-aminocylopropane-1-carboxylicacid(ACC)and polyamine synthesis related genes.The results suggested that the GW of superior grain was significantly higher than that of inferior grains in BS1453xJS1(H)and its parents.Both grain types showed a weight of H between BS 1453(M)and JS1(R),and a larger MPH,which may be caused by their differences in the active fling stage and the grain fling rate.The ADP-glucose pyrophosphorylase(AGPase),granule bound starch synthase I(GBSS/),starch synthaseⅡ(SSS),and starch branching enzyme-Ⅰ(SBE-1)expression levels of H were intermediated between M and R,which might be closely related to MPH formation of the GW.Compared with R and H,the GW of M at maturity was the lowest.The expression levels of spermidine synthase 2(Spd2),ornithine decarboxylase(ODC)and S adenosylmethionine decarboxylase(SAMDC)had significantly positive correlations with the grain flig rate(1=0.77,0.51,0.59"),suggesting their major roles in the grain flling and heterosis formation.These provide a theoretical basis for improving the GW of photo-thermo-sensitive male sterile lines(PTSMSL)by changing the endogenous polyamine synthesis in commercial applications.展开更多
Polyamines play preeminent roles in a variety of cellular functions in the central nervous system and other organs.A large body of evidence suggests that the polyamine pathway is prominently involved in the etiology a...Polyamines play preeminent roles in a variety of cellular functions in the central nervous system and other organs.A large body of evidence suggests that the polyamine pathway is prominently involved in the etiology and pathology of schizophrenia.Alterations in the expression and activity of polyamine metabolizing enzymes,as well as changes in the levels of the individual polyamines,their precursors and derivatives,have been measured in schizophrenia and animal models of the disease.Additionally,neuroleptic treatment has been shown to influence polyamine concentrations in brain and blood of individuals with schizophrenia.Thus,the polyamine system may appear to be a promising target for neuropharmacological treatment of schizophrenia.However,for a number of practical reasons there is currently only limited hope for a polyamine-based schizophrenia therapy.展开更多
Three polyamines(PAs)(spermidine(Spd),spermine(Spm),and putrescine(Put))were used as growth regulators to the marine macroalgae Gracilariopsis lemaneiformis and to female gametophyte and reproductive tissues(cystocarp...Three polyamines(PAs)(spermidine(Spd),spermine(Spm),and putrescine(Put))were used as growth regulators to the marine macroalgae Gracilariopsis lemaneiformis and to female gametophyte and reproductive tissues(cystocarps were constructed),which led to early maturation of cystocarps and spore release.Laboratory cultivation revealed that exogenous PA application accelerated the development of cystocarps,and the mean sporeling growth rate was 20%–50%/d during the initial week of cultivation.The spore count(SC),survival rate(SR),and germination rate(GR)of G.lemaneiformis showed different responses to PA(10-6 mol/L and 10-3 mol/L)treatments under different temperatures(18,26,and 34℃),light intensities(30,60,and 90μmol photons/(m^(2)·s)),salinities(25,30,and 35),and nutrient levels(25꞉2.5,50꞉5.0,and 75꞉7.5μmol/L NH4Cl꞉K2HPO4),and the optimal conditions were 26℃,light intensity of 60μmol/(m^(2)·s),salinity of 35,and nutrient level of 50꞉5.0μmol/L NH4Cl꞉K2HPO4.Under the optimum conditions,the SC per cystocarp increased by 82.38%,and the spore SR and GR increased by 33.07%and 46.44%,respectively.Each experiment lasted for 7 days,with the highest SC on Day 4 and plateauing on Day 7.The results indicate that PAs could promote the early maturation,spore release,survival,and germination of G.lemaneiformis under laboratory conditions.展开更多
With a higher polyamine rice (indica variety Jinlingxiang) as experimental material, the changes in contents and components of polyamines (PAs) in rice grains after harvesting were investigated under the treatment...With a higher polyamine rice (indica variety Jinlingxiang) as experimental material, the changes in contents and components of polyamines (PAs) in rice grains after harvesting were investigated under the treatments by spraying the panicles and flag leaves of rice with PAs synthesis inhibitors, D-Arg (0.5, 1.0, 1.5 and 2.0 mmol/L), methylglyoxal bis-guanylhydrazone (MGBG) (0.1, 0.5, 1.0 and 1.5 mmol/L) and cyclohexylamine (CHA) (1.0, 5.0, 10.0, 15.0 and 20.0 mmol/L), at the heading, flowering and grain filling stages. The inhibition of D-Arg on the contents of free and bound PAs and its total amounts in rice grains was significant, especially treated at the flowering and grain filling stages. Treatments with MGBG and CHA affected mainly the components of PAs, and their effects on the total amounts of PAs were not significant except MGBG at the flowering stage and CHA at both heading and flowering stages.展开更多
Three novel branched polyamines N,N,N’,N’-tetrakis-[3((pyridine-2-methyl)-amine) propyl]-1,4- butanediamine (1), N,N,N’,N’-tetrakis-[N-((2-methylpyridine)ethyl)propanamide]ethylenediamine (2) and N,N,N’,N’-tetra...Three novel branched polyamines N,N,N’,N’-tetrakis-[3((pyridine-2-methyl)-amine) propyl]-1,4- butanediamine (1), N,N,N’,N’-tetrakis-[N-((2-methylpyridine)ethyl)propanamide]ethylenediamine (2) and N,N,N’,N’-tetrakis-[3((2-hidroxibenziliden)-amine)propyl]-1,4-butanediamine (3), were synthesized starting from 2-pyridinecarboxaldeyde with DAB-Am-4 for 1, PAMAM G0 for 2 and from salicylaldehyde with DAB-Am-4 for 3. The pathway reactions have been proposed by 1H-NMR, IR and Atomic Absorption Spectroscopy. The optimal reaction time was set by IR spectroscopy following aldehyde? peak modification. 1 and 2 were obtained as both hydrochlorides and as free amines and 3 only as free imine. These polyamines were characterized by UV-Vis, IR, 1H-NMR and 13C-NMR and Mass Spectrometry.展开更多
The effect of chronic ozone exposure to ischemia reperfusion (I/R) injury in isolated perfused rat hearts was previously demonstrated. The present study tested our hypothesis that chronic ozone exposure led to attenua...The effect of chronic ozone exposure to ischemia reperfusion (I/R) injury in isolated perfused rat hearts was previously demonstrated. The present study tested our hypothesis that chronic ozone exposure led to attenuation of polyamines in the heart, which may limit sensitivity to I/R. Sprague Dawley rats were continuously exposed for 8 hrs/day for 28 days to filtered air or 0.8 ppm ozone. Isolated hearts were previously subjected to 0.5 hour of global ischemia followed by 1 hour of reperfusion after which global polyamine content was examined between the two groups. Spermidine production was significantly increased in the experimental group compared to control group (of I/R hearts). These results suggest that ozone-induced sensitivity to chronic I/R injury activates myocardial polyamine stress response characterized by increased enzymatic activities and accumulation of spermidine. Collectively, these results suggest that I/R possibly disturbs polyamine metabolism, and increased oxidative stress and concomitant reduced myocardial cell viability.展开更多
Many studies have reported that polyamines have an effect on a number of growth and developmental process in plants, such as cell division, embryogenesis, senescense, and flowering. However, there are few reports on t...Many studies have reported that polyamines have an effect on a number of growth and developmental process in plants, such as cell division, embryogenesis, senescense, and flowering. However, there are few reports on the physiological significance in of polyamines grain filling of rice. We studied the level of polyamines in the developing grains and their relations with grain filling and grain weight, using 8 rice varieties including hybrid combinations. It was showed that the content of Put (puterscine), Spd (spermidine), and Spm (spermine), especially Spd and Spm, was展开更多
The effects of boron deficiency on the membrane permeability, the lipid peroxidation of membrane, the activities of the protective enzymes and the accumulation of polyamines in the roots of rape ( Brassica napus L. ...The effects of boron deficiency on the membrane permeability, the lipid peroxidation of membrane, the activities of the protective enzymes and the accumulation of polyamines in the roots of rape ( Brassica napus L. cv Zhongyou 821) plants were examined using solution culture experiment. Compared to the 20 mmol B m -3 treatment, boron deficient treatment (2 mmol B m -3 ) decreased root dry weight and increased the rate of solute leakage and malondialdehyde (MDA) concentration in the roots of rape. Similar patterns of change were observed in the level of lipid peroxidation (MDA concentration) and the rate of solute leakage under boron deficiency. Results suggested that a significant alteration of membrane composition had occurred under B deficiency. The concentration of putrescine and the ratio of putrescine to spermidine + spermine in the roots of rape increased significantly, and the activities of superoxide dismutase and catalase decreased in the roots of rape during B deficiency. But peroxidase activity in root of B deficient plant was higher than that of control plant.展开更多
基金supported by grants from Jiangsu province seed industry revitalization of the leading project(JBGS[2021]086)the National Natural Science Funds(31972373,32272647,32202433)+1 种基金the Provincial Natural Science Foundation of Jiangsu(BK20200541)the Priority Academic Program Development of Jiangsu Higher Education Institutions,China(PAPD),and Postgraduate Research&Practice Innovation Program of Jiangsu Province,China(KYCX22_0754,SJCX23-0209).
文摘Polyamines(PAs)and ethylene are involved in the modulation of plant growth and development.However,their roles in fruit-set,especially in exogenous gibberellin(GA_(3))-induced grape parthenocarpic berries,and the related competitive action mode are poorly understood.For this,we,here performed their content determination,bioinformatics and expression pattern analysis of genes to identify the key ones in the competitive network of polyamines metabolic and ethylene biosynthesis(PMEB)pathways.The content of putrescine(Put)significantly increased;while 1-aminocyclopropanecarboxylic acid(ACC)sharply decreased during the fruit-set process of GA_(3)-induced grape parthenocarpic seedless berries.Totally,twenty-five genes in PMEB pathways,including 20 polyamines metabolic(PM)genes and 5 ethylene biosynthesis(EB)ones were identified in grape,of which 8 PM and 2 EB genes possessed the motifs responsive to phytohormone GA.The expression levels of most PMEB genes kept changing during grape fruit-set generating a competitive action mode of GA_(3)-mediated two metabolic fluxes toward PAs and ethylene synthesis.Exogenous GA_(3)might enhance grape fruit-set of parthenocarpic berries via up-regulation of VvSAMS4,VvSAMDC1/2,VvODC1,VvSPDS1,and VvPAO1 to promote PAs accumulation,whereby repressing the ethylene synthesis by down-regulation of VvACS1 and VvACO_(2).Our findings provide novel insights into GA_(3)-mediated competitive inhibition of ethylene by PAs to promote the fruit-set of parthenocarpic berries in grape,which has important implications for molecular breeding of seedless grape with high fruit-setting rate.
基金supported by projects from the Xinjiang Production and Construction Corps Major Science and Technology"Revealing the List and Taking Command"Project(2023AB078)the Ministry of Science and Technology High-end Foreign Expert Project(G2023014066L)the Xinjiang Production and Construction Corps Agricultural Science and Technology Innovation Engineering Special Project(NCG202232).
文摘Polyamines(putrescine,spermidine,and spermine)are aliphatic compounds ubiquitous in prokaryotes and eukaryotes.Positively charged polyamines bind to negatively charged macromolecules,such as nucleic acids and acidic phospholipids,and are involved in physiological activities including cell proliferation,differentiation,apoptosis and gene regulation.Intracellular polyamine levels are regulated by biosynthesis,catabolism and transport.Polyamines in the body originate from two primary sources:dietary intake and intestinal microbial metabolism.These polyamines are then transported into the bloodstream,through which they are distributed to various tissues and organs to exert their biological functions.Polyamines synthesized by intestinal microorganisms serve dual critical roles.First,they are essential for maintaining polyamine concentrations within the digestive tract.Second,through transcriptional and post-transcriptional mechanisms,these microbial-derived polyamines modulate the expression of genes governing key processes in intestinal epithelial cells-including proliferation,migration,apoptosis,and cell-cell interactions.Collectively,these regulatory effects help maintain intestinal epithelial homeostasis and ensure the integrity of the gut barrier.In addition,polyamines interact with the gut microbiota to maintain intestinal homeostasis by promoting microbial growth,biofilm formation,swarming,and endocytosis vesicle production,etc.Supplementation with polyamines has been demonstrated to be important in regulating host intestinal microbial composition,enhancing nutrient absorption,and improving metabolism and immunity.In this review,we will focus on recent advances in the study of polyamine metabolism and transport in intestinal microbes and intestinal epithelial cells.We then summarize the scientific understanding of their roles in intestinal homeostasis,exploring the advances in cellular and molecular mechanisms of polyamines and their potential clinical applications,and providing a rationale for polyamine metabolism as an important target for the treatment of intestinal-based diseases.
基金National Natural Science Foundation of China(22073023)Natural Science Foundation of Henan Province(242300421134)+1 种基金the Young Backbone Teacher in Colleges and Universities of Henan Province(2021GGJS020)Foundation of State Key Laboratory of Antiviral Drugs。
文摘The acetylpolyamine oxidase(APAO),spermine oxidase(SMO),and spermidine/spermine N1-acetyltransferase(SSAT)are pivotal enzymes in polyamine metabolism,exerting direct influence on polyamine homeostasis regulation.Dysfunctions in these enzymes are intricately linked to inflammatory diseases and cancers.Establishing their three-dimensional structures is essential for exploring enzymatic catalytic mechanisms and designing inhibitors at the atomic level.This article primarily assesses the precision of AlphaFold2 and molecular dynamics simulations in determining the three-dimensional structures of these enzymes,utilizing protein conformation rationality assessment,residue correlation matrix,and other techniques.This provides robust models for subsequent polyamine catabolic metabolism calculations and offers valuable insights for modeling proteins that have yet to acquire crystal structures.
基金National Natural Science Foundation of China(Nos.22177011,21977012,and 21672021)the Joint Project of BRCBC(Biomedical Translational Engineering Research Center of BUCT-CJFH)(No.XK2020-06).
文摘Macrocyclic polyamines are excellent chelating agents with the advantage of forming highly stable complexes.They offer the flexibility to adjust the coordination environment through functionalization.making them valuable in numerous applications owing to their unique chemical and biological characteristics.This review summarizes the use of macrocyclic polyamines as carriers and molecular platforms of targeted drugs for medical applications.The significance and innovative design of these original approaches are dissected from the unique perspective of diverse mechanisms,such as iron depletion,metallo-β-lactamases inhibitors,intracellular ATP depletion,non-viral gene vector,DNA/RNA syntheses inhibitors and theranostics agent.Of interest are the metal complex of macrocyclic polyamines,which is usually a double-edged sword as dealing with endogenous macromolecular targets,especially DNA.These excellent cases will help to understand the typical mechanism in drug design based on macrocyclic polyamines,and achieve actual applications in medicine.
文摘The seeds of barley Hordeum vulgare L. cv. Jian 4) were soaked with 0.1 mmol/L putrescine (Put) and 0.5 mmol/L spermidine (Spd), and then the seedlings were treated with 200 mmol/L NaCl. The growth rate (GR), dry matter accumulation, distribution of ions, the amount of polyamines (PAs) bound to tonoplast proteins as well as lipid composition and the activity of tonoplast vesicles isolated from roots were investigated. The results showed that soaking with Put or Spd could retard salt injury, promote GR and dry matter accumulation, and increase K+/Na+ in the roots. Compared with NaCl_treated plants, phospholipid content in root tonoplast rose by soaking with Put and Spd, while the level of galactose in lipids was decreased. Moreover, the ratio in noncovalently conjugated PA contents of (Spd+PAx (an unknown PA)) to (Put+Dap (diaminopropane)), and the total contents of covalently and noncovalently conjugated PAs were all increased. Statistical analysis indicated that the ratio of (Spd+PAx) to (Put+Dap) was significantly and positively correlated with the activities of membrane associated enzymes H+_ATPase and H+_PPase.
基金Supported by the National Natural Science Foundation of China(31101117)National Key Technology Research and Development Program of China during the 12th Five-year Plan Period(2011BAD16B05,2012BAD04B13,2013BAD07B13)Rice Breeding Project in Sichuan Province of China(2011NZ0098-15)~~
文摘Salt stress is one of the worldwide abiotic stresses resulting in growth re- duction, chlorosis, wilting, and plant death. These exhibitions might result from men- tal toxicity and osmotic stress induced by salt. The two aspects of stress would af- fect vital metabolic pathways, reactive oxygen species scavenging system, lipid per- oxidation and photosynthetic apparatus. Thus, exploring ways to improve crop pro- ductivity or alleviate harmful effects under salt is one of the major areas of concern. Polyamines are aliphatic nitrogen organic cations which are implicated in a wide range of plant physiological processes such as morphogenesis, flower differentiation and initiation, they also play a role in biotic or abiotic stress responses. At the physiological level, polyamines modify the activities of many enzymes included in salt stress response and can bond to photosynthetic apparatus, thus changing the photosynthetic efficiency. At molecular level, polyamines can modify expressions of the polyamine-related genes directly or indirectly. Significant researches had been done to understand the effects of polyamines on plant salt resistance, but several questions still need to be answered. The present review is focused specifically on the effects of polyamines on physiological and molecular changes in plants under salt stress.
文摘The effects of osmotic stress on the ATPase activity, the contents of —SH group and conjugated polyamines in mitochondrial membrane from wheat seedling [Triticum aestivum L. cv. Yumai No.18(drought-tolerant) and cv. Yumai No.9(drought-sensitive)] roots were investigated. The results showed that ATPase activity and —SH group content decreased with polyethylene glycol(PEG) 6000(-0.55 MPa) treatment for 7 d, in concert with the decrease of the ratio of noncovalently conjugated spermidine(NCC-Spd)/noncovalently conjugated putrescine(NCC-Put) and increase of the covalently conjugated putrescine(CC-Put). Osmotic stress injury to Yangmai No.9 seedlings was alleviated greatly with 1 mmol/L exogenous spermidine(Spd), in concert with marked increases of the ratio of NCC-Spd/NCC-Put, —SH group contents and ATPase activity in mitochondrial membrane. Under osmotic stress, the concomitant treatment of Yumai No.18 seedlings with methylglyoxyl bis(guanylhydrazone) (MGBG), an inhibitor of S-adenosyl methionine decarboxylase(SAMDC), and phenanthrolin (o-Phen), an inhibitor of transglutaminase(TGase), caused a significant decrease of the ratio of NCC-Spd / NCC-Put, CC-Put contents, respectively, in concert with the marked decreases of ATPase activity, —SH group content and its tolerance to osmotic stress. All the results above suggested that osmotic stress tolerance of wheat seedlings was associated with the ATPase activity, the contents of —SH group, NCC-Spd and CC-Put in mitochondrial membrane.
基金the National Natural Science Foundation of China (30671452 and 31171923)
文摘The free putrescine (Put) content, the hydrogen peroxide (H202) content and the polyamine oxidase (PAO) activity in roots of Malus hupehensis Rehd. var. pinyiensis Jiang (PYTC) were significantly increased, and reached its peak at 1, 2 and 6 h, respectively, under cadmium treatment. The free spermine (Spin) and spermidine (Spd) contents were dramatically decreased, and reached the minimum value at 4-6 h, then remained relatively stable. The change in total free polyammes (PAs) content was consistent with that of free Put. The number of root dead cells was gradually increased after treatment for 24 h, and the typical characteristics of programmed cell death (PCD) were displayed at 48 h. Throughout the Cd treatment process, changes in PAs metabolism appeared to be prior to cell death increase, and the H2O2 content was always maintained at a high level. These results indicated that polyamines could initiate cell death by generating H2O2 in roots of Malus hupehensis Rehd. under CdSO4 stress.
基金supported by grants from the National Basic Research Program of China(No.2012CB114306)the National Natural Science Foundation of China(Nos.31461143015,31271641,and 31471438)+3 种基金the National Key Technology R&D Program of China(Nos.2012BAD04B08 and 2014AA10A605)the Priority Academic Program Development of Jiangsu Higher Education Institutions(PAPD)the Top Talent Supporting Program of Yangzhou University(No.2015-01)Jiangsu Creation Program for Post-graduation Students(No.KYZZ15_0364)
文摘Polyamines(PAs) are important endogenous plant growth regulators responding to environmental stress and mediating many physiological processes including grain filling in cereals.This study investigated whether PAs mediate the effect of post-anthesis soil drying on starch granule size distribution,starch content,and weight of superior and inferior kernels of wheat(Triticum aestivum L.).Two wheat cultivars were grown in pots.Three treatments,well-watered(WW),moderate soil drying(MD) and severe soil drying(SD),were imposed from 9 days post-anthesis until maturity.PA levels in kernels and small,medium and large granules were measured.The results showed that superior kernels had much higher free spermidine(Spd) and free spermine(Spm) concentrations,larger volumes of medium starch granules,and smaller-sized large granules than did inferior kernels under all the treatments.Compared to WW,MD significantly increased the concentrations of free Spd and free Spm,activities of soluble starch synthase and granule-bound starch synthase,volume of medium granules,and starch content and kernel weight of inferior kernels,and decreased the size of large granules.SD produced the opposite effect.Application of Spd or Spm to spikes produced effects similar to those of MD,and application of an inhibitor of Spd and Spm synthesis produced effects similar to those of SD.These results suggest that PAs mediate the effect of post-anthesis soil drying on starch biosynthesis in wheat kernels by regulating key enzymes in starch synthesis and that elevated PA levels under MD increase the volume of medium granules and kernel weight of inferior kernels.
文摘Two maize genotypes (Nefertiti and Bashaier) were picked up from nine maize genotypes during the early vegetative growth (25 days) to be cultivated in open field upon the crop yield under the different drought stress levels (90,70,50,30) or under the interaction effect of drought stress and phytohormones or polyamines. According to the data of growth criteria, the maize genotype Nefertiti was found to be the most drought sensitive genotype, while the genotype Bashaier was found to be the most drought resistant genotype. Additionally while the photosynthetic pigments remained more or less unchanged in genotype Bashaier, their biosynthesis destroyed earlier in the drought sensitive genotype (Nefertiti). Also while the genotype Bashaier absorbed and accumulated a sufficient amount of mono and divalent cations (K+, Ca++ and Mg++), the genotype Nefertiti did not. Accordingly while the genotype Bashaier gave a crop yield up to 50% field capacity, the genotype Nefertiti gave a crop yield only up to 70% field capacity and failed to give a crop yield beyond this level. The interaction effect of drought stress and phytohormones and polyamines improved the all above characteristics. Interestingly each of these activators considerably improved the production of crop yield only in genotype Bashaier specially polyamines they produced more than 60% field capacity and at the level of 30% field capacity (the level which did not give crop yield in this genotype). However, phytohormones in generally did not make an important effect on the crop yield in genotype Nefertiti although they improved the dry matter production during the vegetative stages. Such situation seemed to be complicated and borne many questions to be studied in the future.
文摘Young pea plants grown as a water culture were sprayed with hydrogen peroxide and 24 h later were treated with the herbicide paraquat. The effects of paraquat and H2O2 treatment were investigated on the endogenous concentrations of free proline, and free and conjugated putrescine, spermidine and spermine. Application of PQ increased the free proline and Put, and decreased conjugated and bound polyamines. The results clearly demonstrate the oxidative damages provoked by PQ application. Single treatment with H2O2 provoked considerable decrease in the free fraction of the three PAs studied 2 h after light exposition, but caused an increase in their respective conjugated fractions. Data suggest that PA changes after H2O2 treatment are due to conversion from free to conjugated form. Three hours later free PAs in H2O2 treated-plants reached control levels;however the conjugated remained higher than the control. No alterations were detected in proline concentration after H2O2 treatment. Pretreatment with Н2О2 activated some component of the plant protection mechanisms by causing an alteration in free/conjugated PAs ratio in plants subsequently subjected to PQ treatment. Data concerning PA and proline concentrations in plants treated with both compounds supposed that H2O2 shows a protective role against PQ and improves the plant tolerance to the oxidative stress generated by paraquat.
文摘Most aspects of microspore culture protocol have the capacity to cause stress to microspores, hence, less stressful treatments might be required to avoid deleterious effects. In stressed plants, polyamines and trehalose can act as compatible solutes or osmoprotectants by stabilizing proteins and biological membranes. To improve green plant regeneration in wheat microspore culture, this study assessed the effects of polyamines (putrecine, spermidine, spermine) and trehalose on androgenic response namely embryogenesis, green plant regeneration and ploidy of green plants regenerated in three spring wheat genotypes. Microspores of the genotypes produced significant numbers of embryos and green plants among polyamine treatments but trehalose had no effect (P ≤ 0.05). Polyamine treatments for 30 min generally produced more green plants per 100 microspores than the 60 min treatments in all three genotypes. At least three out of twelve polyamine treatments in each genotype improved the production of double haploid plants and seed setting in regenerants. Wheat genotype, concentration and duration of polyamine treatment had significant impact on embryogenesis and regeneration of green plants in this study. The study also showed that polyamines could be used to accelerate cultivar development in wheat breeding.
基金Supported by the Beijing Natural Science Foundation,China(6194035)the Youth Fund Project from Beijing Academy of Agricultural and Forestry Sciences,China(QNJJ201629)the Beijing Excellent Talents Training Funding,China(2017000020060G130).
文摘Because of the yield increase of 3.5-15%compared to conventional wheat,hybrid wheat is considered to be one of the main ways to greatly improve the wheat yield in the future.In this study,we performed a principal component analysis(PCA)on two-line hybrids wheat and their parents using the grain weight(GW),the length of spike(LS),the kernel number of spike(KSN),and spike number(SPN)as variables.The results showed that the variables could be classifed into three main factors,the weight factor(factor 1),the quantity factor 1(factor 2)and the quantity factor 2(factor 3),which accounted for 37.1,22.6 and 18.5%,respectively of the total variance in different agronomic variables,suggesting that the GW is an important indicator for evaluating hybrid combinations,and the grain weight of restorer line(RGW)could be used as a reference for parents selection.The hybrid combination with a higher score in factor 1 direction and larger mid-parent heterosis(MPH)of the GW and its parents were used to carry out the analysis of grain fling,1-aminocylopropane-1-carboxylicacid(ACC)and polyamine synthesis related genes.The results suggested that the GW of superior grain was significantly higher than that of inferior grains in BS1453xJS1(H)and its parents.Both grain types showed a weight of H between BS 1453(M)and JS1(R),and a larger MPH,which may be caused by their differences in the active fling stage and the grain fling rate.The ADP-glucose pyrophosphorylase(AGPase),granule bound starch synthase I(GBSS/),starch synthaseⅡ(SSS),and starch branching enzyme-Ⅰ(SBE-1)expression levels of H were intermediated between M and R,which might be closely related to MPH formation of the GW.Compared with R and H,the GW of M at maturity was the lowest.The expression levels of spermidine synthase 2(Spd2),ornithine decarboxylase(ODC)and S adenosylmethionine decarboxylase(SAMDC)had significantly positive correlations with the grain flig rate(1=0.77,0.51,0.59"),suggesting their major roles in the grain flling and heterosis formation.These provide a theoretical basis for improving the GW of photo-thermo-sensitive male sterile lines(PTSMSL)by changing the endogenous polyamine synthesis in commercial applications.
文摘Polyamines play preeminent roles in a variety of cellular functions in the central nervous system and other organs.A large body of evidence suggests that the polyamine pathway is prominently involved in the etiology and pathology of schizophrenia.Alterations in the expression and activity of polyamine metabolizing enzymes,as well as changes in the levels of the individual polyamines,their precursors and derivatives,have been measured in schizophrenia and animal models of the disease.Additionally,neuroleptic treatment has been shown to influence polyamine concentrations in brain and blood of individuals with schizophrenia.Thus,the polyamine system may appear to be a promising target for neuropharmacological treatment of schizophrenia.However,for a number of practical reasons there is currently only limited hope for a polyamine-based schizophrenia therapy.
基金Supported by the National Key R&D Program of China(No.2018YFD0901502)the Ningbo Key R&D Science and Technology Program(Nos.2019B10009,2021Z114)the Natural Science Foundation of Zhejiang Province(Nos.LY19C190003,LQ20C190002)。
文摘Three polyamines(PAs)(spermidine(Spd),spermine(Spm),and putrescine(Put))were used as growth regulators to the marine macroalgae Gracilariopsis lemaneiformis and to female gametophyte and reproductive tissues(cystocarps were constructed),which led to early maturation of cystocarps and spore release.Laboratory cultivation revealed that exogenous PA application accelerated the development of cystocarps,and the mean sporeling growth rate was 20%–50%/d during the initial week of cultivation.The spore count(SC),survival rate(SR),and germination rate(GR)of G.lemaneiformis showed different responses to PA(10-6 mol/L and 10-3 mol/L)treatments under different temperatures(18,26,and 34℃),light intensities(30,60,and 90μmol photons/(m^(2)·s)),salinities(25,30,and 35),and nutrient levels(25꞉2.5,50꞉5.0,and 75꞉7.5μmol/L NH4Cl꞉K2HPO4),and the optimal conditions were 26℃,light intensity of 60μmol/(m^(2)·s),salinity of 35,and nutrient level of 50꞉5.0μmol/L NH4Cl꞉K2HPO4.Under the optimum conditions,the SC per cystocarp increased by 82.38%,and the spore SR and GR increased by 33.07%and 46.44%,respectively.Each experiment lasted for 7 days,with the highest SC on Day 4 and plateauing on Day 7.The results indicate that PAs could promote the early maturation,spore release,survival,and germination of G.lemaneiformis under laboratory conditions.
文摘With a higher polyamine rice (indica variety Jinlingxiang) as experimental material, the changes in contents and components of polyamines (PAs) in rice grains after harvesting were investigated under the treatments by spraying the panicles and flag leaves of rice with PAs synthesis inhibitors, D-Arg (0.5, 1.0, 1.5 and 2.0 mmol/L), methylglyoxal bis-guanylhydrazone (MGBG) (0.1, 0.5, 1.0 and 1.5 mmol/L) and cyclohexylamine (CHA) (1.0, 5.0, 10.0, 15.0 and 20.0 mmol/L), at the heading, flowering and grain filling stages. The inhibition of D-Arg on the contents of free and bound PAs and its total amounts in rice grains was significant, especially treated at the flowering and grain filling stages. Treatments with MGBG and CHA affected mainly the components of PAs, and their effects on the total amounts of PAs were not significant except MGBG at the flowering stage and CHA at both heading and flowering stages.
文摘Three novel branched polyamines N,N,N’,N’-tetrakis-[3((pyridine-2-methyl)-amine) propyl]-1,4- butanediamine (1), N,N,N’,N’-tetrakis-[N-((2-methylpyridine)ethyl)propanamide]ethylenediamine (2) and N,N,N’,N’-tetrakis-[3((2-hidroxibenziliden)-amine)propyl]-1,4-butanediamine (3), were synthesized starting from 2-pyridinecarboxaldeyde with DAB-Am-4 for 1, PAMAM G0 for 2 and from salicylaldehyde with DAB-Am-4 for 3. The pathway reactions have been proposed by 1H-NMR, IR and Atomic Absorption Spectroscopy. The optimal reaction time was set by IR spectroscopy following aldehyde? peak modification. 1 and 2 were obtained as both hydrochlorides and as free amines and 3 only as free imine. These polyamines were characterized by UV-Vis, IR, 1H-NMR and 13C-NMR and Mass Spectrometry.
文摘The effect of chronic ozone exposure to ischemia reperfusion (I/R) injury in isolated perfused rat hearts was previously demonstrated. The present study tested our hypothesis that chronic ozone exposure led to attenuation of polyamines in the heart, which may limit sensitivity to I/R. Sprague Dawley rats were continuously exposed for 8 hrs/day for 28 days to filtered air or 0.8 ppm ozone. Isolated hearts were previously subjected to 0.5 hour of global ischemia followed by 1 hour of reperfusion after which global polyamine content was examined between the two groups. Spermidine production was significantly increased in the experimental group compared to control group (of I/R hearts). These results suggest that ozone-induced sensitivity to chronic I/R injury activates myocardial polyamine stress response characterized by increased enzymatic activities and accumulation of spermidine. Collectively, these results suggest that I/R possibly disturbs polyamine metabolism, and increased oxidative stress and concomitant reduced myocardial cell viability.
文摘Many studies have reported that polyamines have an effect on a number of growth and developmental process in plants, such as cell division, embryogenesis, senescense, and flowering. However, there are few reports on the physiological significance in of polyamines grain filling of rice. We studied the level of polyamines in the developing grains and their relations with grain filling and grain weight, using 8 rice varieties including hybrid combinations. It was showed that the content of Put (puterscine), Spd (spermidine), and Spm (spermine), especially Spd and Spm, was
文摘The effects of boron deficiency on the membrane permeability, the lipid peroxidation of membrane, the activities of the protective enzymes and the accumulation of polyamines in the roots of rape ( Brassica napus L. cv Zhongyou 821) plants were examined using solution culture experiment. Compared to the 20 mmol B m -3 treatment, boron deficient treatment (2 mmol B m -3 ) decreased root dry weight and increased the rate of solute leakage and malondialdehyde (MDA) concentration in the roots of rape. Similar patterns of change were observed in the level of lipid peroxidation (MDA concentration) and the rate of solute leakage under boron deficiency. Results suggested that a significant alteration of membrane composition had occurred under B deficiency. The concentration of putrescine and the ratio of putrescine to spermidine + spermine in the roots of rape increased significantly, and the activities of superoxide dismutase and catalase decreased in the roots of rape during B deficiency. But peroxidase activity in root of B deficient plant was higher than that of control plant.
