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301.
一类生化反应模型的定性分析 总被引:1,自引:0,他引:1
本文讨论了Babloyantz-Hiernaux生化反应模型及其特殊情况下的Glerer-Meinhardt数学模型,得到了前者的平衡位置的局部稳定位和后者的极限环的存在性即振荡反应的存在性以及其平衡位置的大范围稳定性. 相似文献
302.
Reductive soil disinfestation (RSD) alters gross N transformation rates and reduces NO and N2O emissions in degraded vegetable soils 总被引:1,自引:0,他引:1
Background and aims
Continuous vegetable cultivation in greenhouses can easily induce soil degradation, which considerably affects the development of sustainable vegetable production. Recently, the reductive soil disinfestation (RSD) is widely used as an alternative to chemical soil disinfestations to improve degraded greenhouse vegetable soils. Considering the importance of nitrogen (N) for plant growth and environment effect, the internal N transformation processes and rates should be well investigated in degraded vegetable soils treated by RSD, but few works have been undertaken.Methods
Three RSD-treated and three untreated degraded vegetable soils were chosen and a 15?N tracing incubation experiment differentially labeled with 15NH4NO3 or NH4 15NO3 was conducted at 25 °C under 50 % water holding capacity (WHC) for 96 h. Soil gross N transformation rates were calculated using a 15?N tracing model combined with Markov Chain Monte Carlo Metropolis algorithm (Müller et al. 2007), while the emissions of N2O and NO were also measured.Results
RSD could significantly enhance the soil microbial NH4 + immobilization rate, the heterotrophic and autotrophic nitrification rates, and the NO3 ? turnover time. The ratio of heterotrophic nitrification to total inorganic N supply rate (mineralization + heterotrophic nitrification) increased greatly from 5.4 % in untreated vegetable soil to 56.1 % in treated vegetable soil. In addition, low release potential of NO and N2O was observed in RSD-treated vegetable soil, due to the decrease in the NO and N2O product ratios from heterotrophic and autotrophic nitrifications. These significant differences in gross N transformation rates, the supply processes and capacity of inorganic N, and the NO and N2O emissions between untreated and treated vegetable soils could be explained by the elimination of accumulated NO3 ?, increased pH, and decreased electrical conductivity (EC) caused by RSD. Noticeably, the NO3 ? consumption rates were still significantly lower than the NO3 ? production rates in RSD-treated vegetable soil.Conclusions
Except for improving soil chemical properties, RSD could significantly alter the supply processes of inorganic N and reduce the release potential of N2O and NO in RSD-treated degraded vegetable soil. In order to retard the re-occurrence of NO3 ? accumulation, acidification and salinization and to promote the long-term productivity of greenhouse vegetable fields, the rational use of N fertilizer should be paid great attention to farmers in vegetable cultivation. 相似文献303.
洛川苹果园土壤水分变化特征 总被引:7,自引:0,他引:7
全面掌握洛川果园的土壤水分环境特征,不仅可为苹果的园址选择、砧穗组合和改进土壤水分管理措施提供理论依据,而且对我国苹果产区果园提质增效具有借鉴价值.采用定点土壤水分连续监测法,对洛川苹果园的总体土壤水分环境以及不同生长年限、不同立地类型和乔、矮化果园的土壤水分分异特征进行分析.结果表明: 苹果树根际区 (0~200 cm)土壤水分普遍亏欠,且0~60 cm土层的水分亏欠小于60~200 cm土层;生长季0~60 cm土层贮水量与降水量的变化一致,土壤相对含水量大多<60%,季节性旱象严重;果园剖面土壤含水量变异系数随土壤深度加深而递减;随果园生长年限的增大,土壤剖面贮水量下降;在栽培密度一致的条件下,矮化果园5 m土层土壤含水量均高于乔化果园,而栽培密度大的矮化果园的土壤贮水量低于栽培密度小的乔化果园;塬地成龄果园的土壤水分含量最高,川地次之,台地相对较低.密度对果园土壤水分含量有很大影响,在栽培密度一致的条件下,采用矮化栽培能减少土壤水分消耗,显著提高果园土壤含水量;挖株降低栽培密度是维持苹果园土壤水分平衡、实现可持续发展的有效途径. 相似文献
304.
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306.
Rui‐Jie Dang Yan‐Mei Yang Lei Zhang Dian‐Chao Cui Bangxing Hong Ping Li Qiuxia Lin Yan Wang Qi‐Yu Wang Fengjun Xiao Ning Mao Changyong Wang Xiao‐Xia Jiang Ning Wen 《Journal of cellular and molecular medicine》2016,20(8):1550-1560
Mesenchymal stem cells (MSCs) possess an immunoregulatory capacity and are a therapeutic target for many inflammation‐related diseases. However, the detailed mechanisms of MSC‐mediated immunosuppression remain unclear. In this study, we provide new information to partly explain the molecular mechanisms of immunoregulation by MSCs. Specifically, we found that A20 expression was induced in MSCs by inflammatory cytokines. Knockdown of A20 in MSCs resulted in increased proliferation and reduced adipogenesis, and partly reversed the suppressive effect of MSCs on T cell proliferation in vitro and inhibited tumour growth in vivo. Mechanistic studies indicated that knockdown of A20 in MSCs inhibited activation of the p38 mitogen‐activated protein kinase (MAPK) pathway, which potently promoted the production of tumour necrosis factor (TNF)‐α and inhibited the production of interleukin (IL)‐10. Collectively, these data reveal a crucial role of A20 in regulating the immunomodulatory activities of MSCs by controlling the expression of TNF‐α and IL‐10 in an inflammatory environment. These findings provide novel insights into the pathogenesis of various inflammatory‐associated diseases, and are a new reference for the future development of treatments for such afflictions. 相似文献
307.
The gene of a novel endo-β-1,4-glucanase (named Cel5M) was isolated from the psychrophilic deep-sea bacteria Pseudomonas sp. MM15. The deduced protein sequence lacked the typical cellulase domain structures of the carbohydrate-binding module and the linker region. Cel5M showed relatively higher activity toward carboxymethyl cellulose, but much lower activity toward p-nitrophenyl-β-D-galactopyranoside and no activity toward avicel. Cel5M was identified as a cold-active cellulase with an optimal temperature of 30 °C and it was active within a narrow pH range with an optimum at pH 4.5. Phylogenetic analysis showed that Cel5M represented a new subfamily of the glycosyl hydrolase family 5, representing an opportunity for research into and applications of novel cold-active cellulases. 相似文献
308.
The influence of water on the nanomechanical behavior of the plant biopolyester cutin as studied by AFM and solid-state NMR
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Atomic force microscopy and solid-state nuclear magnetic resonance have been used to investigate the effect of water absorption on the nanoscale elastic properties of the biopolyester, cutin, isolated from tomato fruit cuticle. Changes in the humidity and temperature at which fruits are grown or stored can affect the plant surface (cuticle) and modify its susceptibility to pathogenic attack by altering the cuticle's rheological properties. In this work, atomic force microscopy measurements of the surface mechanical properties of isolated plant cutin have been made as a first step to probing the impact of water uptake from the environment on surface flexibility. A dramatic decrease in surface elastic modulus (from approximately 32 to approximately 6 MPa) accompanies increases in water content as small as 2 wt %. Complementary solid-state nuclear magnetic resonance measurements reveal enhanced local mobility of the acyl chain segments with increasing water content, even at molecular sites remote from the covalent cross-links that are likely to play a crucial role in cutin's elastic properties. 相似文献
309.
SPOP Promotes Nanog Destruction to Suppress Stem Cell Traits and Prostate Cancer Progression 总被引:1,自引:0,他引:1
310.