一株高效解磷肠膜明串珠菌的分离鉴定及解磷能力研究

【背景】植物根际土壤含有多种溶磷微生物,但是具有溶磷能力的肠膜明串珠菌未见报道。【目的】从脐橙根际土壤分离高效解磷菌,研究其解磷应用。【方法】通过初筛和复筛从23株菌中筛选解磷能力较强的菌株,同时采用钼蓝比色法测定磷含量。通过测定发酵液中小分子有机酸含量、磷酸酯酶酶活及pH值的变化,探究菌株的解磷机理。【结果】经过筛选得到9株具有一定解磷能力的菌株。通过菌种16S rRNA基因序列分析和生理生化实验确定其中一株菌为肠膜明串珠菌,命名为肠膜明串珠菌G7。培养基初始pH6.0、碳源为葡萄糖、氮源为硫酸铵时G7的解磷能力较佳。G7发酵过程中产生大量有机酸,而其酸性磷酸酯酶活性高于碱性磷酸酯酶。【结论】碳源、氮源以及初始pH值都能影响G7的解磷能力,其解磷能力主要缘于在发酵过程中产生了大量小分子有机酸,关于G7的解磷机理还需要更深入的研究。     

磷肥用量对芸豆氨基酸含量及组分的影响

本研究在不同磷肥施用量处理下,对NR、品芸1号、品芸2号3个小白芸豆品种子粒的氨基酸含量及组分测定、分析,探索磷肥对芸豆氨基酸及组分的调控效应。结果表明,不同磷肥用量处理均可提高芸豆氨基酸含量,对芸豆中人体必需氨基酸组分的影响因不同品种而异。品芸2号和NR总氨基酸及其各组分含量在50kg/hm^2纯磷肥用量条件下最高;品芸1号氨基酸积累在25kg/hm^2纯磷肥用量条件下最有效。     

Pertussis toxin catalyzes the ADP-ribosylation of two distinct peptides, 40 and 41 kDa, in rat fat cell membranes

The energy profiles for single occupancy by Cs+, K+ and Na+ in the gramicidin A channel assumed to be in a head-to-head beta 6.3 3.3 helical dimeric structure, were computed: (A) allowing complete conformational freedom to the ethanolamine end, (B) constraining it to stay in its intrinsically preferred conformation. Whatever the constraint, both the entrance barrier and the central barrier appear in the order Cs+ less than K+ less than Na+. Introducing the flexibility of the tail modifies appreciably the profiles and the location of the extrema along it.     

Phytic acid and raffinose series oligosaccharides metabolism in developing chickpea seeds

Phytic acid and raffinose series oligosaccharides (RFOs) have anti-nutritional properties where phytic acid chelates minerals and reduces their bioavailability to humans and other animals, and RFOs cause flatulence. Both phytic acid and RFOs cannot be digested by monogastric animals and are released as pollutant-wastes. Efforts are being made to reduce the contents of these factors without affecting the viability of seeds. This will require a thorough understanding of their metabolism in different crops. Biosynthetic pathways of both metabolites though are interlinked but not well described. This study was made on metabolism of these two contents in developing chickpea (Cicer arietinum L cv GL 769) seeds. In this study, deposition of RFOs was found to occur before deposition of phytic acid. A decline in inorganic phosphorus and increase in phospholipid phosphorus and phytic acid was observed in seeds during development. Acid phosphatase was the major phosphatase in seed as well as podwall and its activity was highest at early stage of development, thereafter it decreased. Partitioning of ¹⁴ C label from ¹⁴ C-glucose and ¹⁴ C-sucrose into RFOs and phytic acid was studied in seeds in presence of inositol, galactose and iositol and galactose, which favored the view that galactinol synthase is not the key enzyme in RFOs synthesis.     

Effects of glucose,chloromercuribenzene-p-sulphonic acid and 4-acetamido-4′-isothiocyanostilbene-2,2′- disulphonic acid on phosphate efflux from pancreatic islets

Collagenase-isolated pancreatic islets of non-inbred ob/ob mice, containing more than 90% β-cells, were labelled with radioactive orthophosphate (³²P or ³³P) and then subjected to non-recirculating perifusion. The basal D-glucose concentration in the perifusion medium was 2.8 mM. When the concentration was suddenly raised to 5.6, 8.3 or 16.7 mM, D-glucose promptly elicited a transient and dose-dependent release of radiophosphate. In the presence ot 2.8 mM D-glucose, 0.1 mM of the poorly permeating sulphydryl blocker, chloromercuribenzene-p-sulphonic acid, also evoked a phosphate flush resembling the one induced by d-glucose. The basal radiophosphate release was partially inhibited by 1 mM 4-acetamido-4′-isothiocyanostilbene-2,-2′-disulphonic acid. However, the phosphate flush induced by 16.7 mM d-glucose was not noticeably inhibited by 4-acetamido-4′-isothiocyanostilbene-2,-2′-disulphonic acid. It is concluded that the phosphate flush emanates from β-cells and that membrane sulphydryl groups may participate in its regulation. Although at least the basal phosphate release may in part represent transmembrane transport through 4-acetamido-4′-isothiocyanostilbene-2,2′-disulphonic acid-sensitive anion channels, other mechanisms are also likely to participate in the glucose-induced phosphate flush.     

Microbial mineralization of organic phosphate in soil

Summary Phosphate-dissolving microorganisms were isolated from non-rhizosphere and rhizosphere of plants. These isolates included bacteria, fungi and actinomycetes. In broth cultures, Gram-negative short rod,Bacillus andStreptomyces species were found to be more active in solubilizing phosphate thanAspergillus, Penicillium, Proteus, Serratia, Pseudomonas andMicrococcus spp. The sterile soils mixed with isolated pure culture showed slower mineralization of organic phosphate than that of non-sterile soil samples at all incubation periods. Maximum amount of phosphate mineralization by isolated microorganisms were obtained at the 60th and the 75th day of incubation in sterile and non-sterile soils respectively. The mixed cultures were most effective in mineralizing organic phosphate and individuallyBacillus sp. could be ranked next to mixed cultures. Species ofPseudomonas andMicrococcus were almost the same as that of the control under both sterile and non-sterile conditions.     

Supported bilayer lipid membranes modified with a phosphate ionophore

This article reports the electrical responses of a phosphate ionophore, the cyclic polyamine 3-decyl-1,5,8-triazacyclodecane-2,4-dione (N₃-cyclic amine) incorporated into metal supported bilayer lipid membranes (s-BLM). Teflon coated silver wire was used as a support. In a potentiometric mode, the ionophore had a response that was linearly related to the logarithm of HPO₄²⁻ concentration and was also dependant on pH. Selectivity coefficients for other anions compared to HPO₄²⁻ ions, determined by the separate solution method, fell within the range 1.73 × 10⁻⁴ to 6.38 × 10⁻².     

Interactions between Na+-dependent uptake of d-glucose,phosphate and l-alanine in rat renal brush border membrane vesicles

d-Glucose decreases phosphate reabsorption in rat proximal tubule. It is also postulated that some amino acids interact with phosphate reabsorption. To investigate the mechanism of these interactions, phosphate, d-glucose and l-alanine transport kinetics were measured in brush border membrane vesicles isolated from superficial rat kidney cortex by the calcium precipitation technique. At pH 7.4, Na⁺-dependent phosphate transport was inhibited in the presence of either d-glucose (39 mM) or l-alanine (2.4 mM). In this model, with d-glucose or with l-alanine the $\text{V}$ value of the phosphate uptake was decreased, whereas the apparent $\text{K}{}_{\mathrm{<mtext>m</mtext>}}$ for the phosphate uptake was not affected. However, some inhibition of phosphate transport was observed in the presence of l-glucose, d-alanine or d-glucose after phlorizin preincubation. A 30% Na⁺-dependent l-alanine (0.1 mM) transport inhibition was observed in the presence of 5 mM phosphate. d-Glucose (1 mM) was also inhibited by 20% when 5 mM phosphate was added to incubation medium. According to several authors, in our model, d-glucose decreased the l-alanine transport and vice versa. Moreover, when the membrane potential was abolished, a clear inhibition of d-glucose by l-alanine persisted. These multiple interactions could be explained by the accelerated dissipation of the Na⁺ gradient insofar as the rate of the Na⁺ uptake was increased with d-glucose, l-alanine or phosphate and since the absence of variations in membrane potential did not suppress these inhibitions.     

两株解磷真菌的解磷能力及其解磷机理的初步研究

从不同处理的水稻土壤中分离筛选出两株高效解磷真菌HP2、P5,研究了不同碳源条件对溶磷效果的影响,以及解磷菌株在不同的碳源培养条件下,溶磷量与培养介质pH值之间的相关性。结果表明,HP2菌株解磷能力在不同的测定时间内均高于P5菌株;不同碳源培养基的溶磷量顺序为蔗糖〉葡萄糖〉纤维素,且彼此差异显著：测定时间内,菌株的溶磷量与介质pH值之间存在极显著相关性（P〈0．01）。     

Characterization of recurrent somatic embryogenesis of alfalfa on auxin-free medium

Callus cultures from 300 genotypes of alfalfa (Medicago sativa L.) were initiated from leaf, petiole, and internode explants placed on Blaydes medium containing 10.74 M -naphthaleneacetic acid, 11.42 M indole-3-acetic acid, and 9.29 M kinetin. Five genotypes produced somatic embryos. Upon transfer of these embryos to growth regulator-free Murashige and Skoog medium with B₅ vitamins, new somatic embryos repeatedly formed directly on older somatic embryos without an intervening callus phase in a cycle lasting about 30 days. These cultures have been maintained for two years, during which time their embryogenic capacity has remained stable. New embryogenic cultures could be started repeatedly from these genotypes. The elimination of sugars from the medium could stop recurrent embryogenesis. Glucose, maltose, and fructose stimulated recurrent embryogenesis more effectively than sucrose. Sucrose was superior to lactose, while sorbitol and mannitol did not stimulate recurrent somatic embryogenesis. The absence of nicotinic acid in the medium, as long as sucrose was present, was lethal to embryos of three of the five tested genotypes. The ability of this system to propagate embryos exponentially offers potential for development of new gene transfer systems and application to artificial seed technology.Abbreviations NAA -naphthaleneacetic acid - RSE recurrent somatic embryogenesis     

氨基糖苷类抗生素JI-20A发酵过程的磷酸盐控制

磷酸盐初始浓度6.1mmol/L~9.6mmol/L有助于菌体的生长,但抑制氨基糖苷类抗生素JI-20A的合成。在产物合成期磷酸盐浓度控制在1.1mmol/L以下可提高碱性磷酸酯酶活力,降低丙酮酸浓度,促进氨基糖苷类抗生素JI-20A合成。     

Exopolysaccharide: a novel important factor in the microbial dissolution of tricalcium phosphate

Four strains (Enterobacter sp. EnHy-401, Arthrobacter sp.ArHy-505, Azotobacter sp.AzHy-510 and Enterobacter sp.EnHy-402) which have the ability to solubilize tricalcium phosphate (TCP) were used to study the mechanism of P-solubilization. It was found that three phosphate solubilizing bacteria (EnHy-401, ArHy-505 and AzHy-510) producing exopolysaccharide (EPS) have a stronger ability for P-solubilization than isolate EnHy-402 without EPS production, of those, the strain EnHy-401 with the highest EPS production and efficient organic acids on P-solubilization had a stronger capacity for P-solubilization than the others. Further studies demonstrated that addition of EPS into medium could increase the amount of phosphorus solubilized by organic acid, but failed to release phosphorus from TCP alone. The synergistic effects of EPS and organic acid on TCP solubilization varied with the origin and the concentration of EPS in medium. EPS produced by EnHy-401 was most effective in promoting phosphorus release at an optimal concentration in medium. The increase of P-solubilization brought by EPS attributed to the participation of EPS led to the change in homeostasis of P-solubilization, pushing it towards P dissolved by holding free phosphorus in the medium, consequently resulting in greater phosphorus released from insoluble phosphate. We therefore suggest that EPS with ability of phosphorus-holding may be a novel important factor in the microbial dissolution of TCP except for organic acid.     

Metabolic influence of lead on polyhydroxyalkanoates (PHA) production and phosphate uptake in activated sludge fed with glucose or acetic acid as carbon source

Sludge in a sequential batch reactor (SBR) system was used to investigate the effect of lead toxicity on metabolisms of polyphosphate accumulating organisms (PAOs) and glycogen accumulating organisms (GAOs) communities fed with acetic acid or glucose as their sole carbon source, respectively. Results showed that the effect of lead on substrate utilization of both PAOs and GAOs was insignificant. However, lead substantially inhibited both of phosphate release and uptake of PAOs. In high concentration of acetic acid trials, an abnormal aerobic phosphate release was observed instead of phosphate uptake and the release rate increased with increasing lead concentration. Results also showed that PAOs could normally synthesize polyhydroxybutyrate (PHB) in the anaerobic phase even though lead concentration was 40 mg L⁻¹. However, they could not aerobically utilize PHB normally in the presence of lead. On the other hand, GAOs could not normally metabolize polyhydroxyvalerate (PHV) in both the anaerobic and aerobic phases.     

Effect of salt on survival and P-solubilization potential of phosphate solubilizing microorganisms from salt affected soils

A total of 23 phosphate solubilizing bacteria (PSB) and 35 phosphate solubilizing fungi (PSF) were isolated from 19 samples of salt affected soils. The ability of 12 selected PSB and PSF to grow and solubilize tricalcium phosphate in the presence of different concentrations of NaCl was examined. Among 12 PSB, Aerococcus sp. strain PSBCRG₁-1 recorded the highest (12.15) log viable cell count at 0.4 M NaCl concentration after 7 days after incubation (DAI) and the lowest log cell count (1.39) was recorded by Pseudomonas aeruginosa strain PSBI₃-1 at 2.0 M NaCl concentration after 24 h of incubation. Highest mycelial dry weight irrespective of NaCl concentrations was recorded by the Aspergillus terreus strain PSFCRG₂-1 (0.567 g). The percent P_i release, in general, was found to increase with increase in NaCl concentration up to 0.8 M for bacterial solubilization and declined thereafter. At 15 DAI, strain Aerococcus sp. strain PSBCRG₁-1 irrespective of NaCl concentrations showed the maximum P-solubilization (12.12%) which was significantly superior over all other isolates. The amount of P_i released in general among PSF was found to decrease with increase in NaCl concentration at all the incubation periods. Aspergillus sp. strain PSFNRH-2 (20.81%) recorded the maximum P_i release irrespective of the NaCl concentrations and was significantly superior over all other PSF at 7 DAI.     

IST1 insertional inactivation of the resB gene: implications for phenotypic switching in Thiobacillus ferrooxidans

Thiobacillus ferroxidans ATCC 19859 undergoes rapid phenotypic switching between a wild-type state characterized by the ability to oxidize ferrous iron (FeII) and reduced sulfur compounds and a mutant state where it has lost the capacity to oxidize FeII but retains the ability to oxidize sulfur. The mutant has also gained the capacity to swarm. It is proposed that loss of FeII oxidation is due to the reversible transposition of the insertion sequence IST1 into resB encoding a putative cytochrome c-type biogenesis protein. Downstream from resB and co-transcribed with it is resC, encoding another putative cytochrome biogenesis protein. IST1 insertional inactivation of resB could result in the loss of activity of its target c-type cytochrome(s). This putative target cytochrome(s) is proposed to be essential for FeII oxidation but not for sulfur oxidation. Curiously, resB and resC pertain to the proposed system II cytochrome biogenesis pathway whereas gamma Proteobacteria, of which T. ferrooxidans is a member, normally use system I. This could represent an example of lateral gene transfer.     

Specificity of substrate recognition by type II dehydroquinases as revealed by binding of polyanions

The interactions between the polyanionic ligands phosphate and sulphate and the type II dehydroquinases from Streptomyces coelicolor and Mycobacterium tuberculosis have been characterised using a combination of structural and kinetic methods. From both approaches, it is clear that interactions are more complex in the case of the latter enzyme. The data provide new insights into the differences between the two enzymes in terms of substrate recognition and catalytic efficiency and may also explain the relative potencies of rationally designed inhibitors. An improved route to the synthesis of the substrate 3-dehydroquinic acid (dehydroquinate) is described.     

磷酸缓冲液对植物脂质过氧化的影响及其与亚硫酸伤害的关系

以亚硫酸模式处理不同类型植物 ,从脂质过氧化方面探讨了磷酸缓冲液的防护作用 .结果表明 ,植物经磷酸缓冲液处理后 ,对亚硫酸伤害具有明显的防护作用 .磷酸缓冲液可稳定细胞膜结构 ,降低MDA含量 ,增强叶绿素———蛋白质的结合度 ,且与低浓度亚硫酸对SOD活性呈协同效应 .磷酸缓冲液的防护作用因植物种类而异 .同一污染环境下 ,MDA含量高 ,叶绿素结合度低者效应显著 .在测试植物中 ,银杏 >连翘 >小麦苗 .     

Comparative genetic analysis of,Arabidopsis purple acid phosphatases AtPAP10, AtPAP12, and AtPAP26 provides new insights into their roles in plant adaptation to phosphate deprivation

Induction and secretion of acid phosphatases （APases） is thought to be an adaptive mechanism that helps plants survive and grow under phosphate （Pi） deprivation, in Arabidopsis, there are 29 purple acid phosphatase （AtPAP） genes. To systematically investigate the roles of different AtPAPs, we first identified knockout or knock-down T-DNA lines for all 29 AtPAP genes. Using these atpap mutants combined with in-gel and quantitative APase enzyme assays, we demonstrated that AtPAP12 and AtPAP26 are two major intracellular and secreted APases in Arabidopsis while AtPAPlo is mainly a secreted APase. On Pi-deficient （P-） medium or P- medium supplemented with the organophosphates ADP and fructose-6-phosphate （Fru-6-P）, growth of atpaplo was significantly reduced whereas growth of atpap12 was only moderately reduced, and growth of atpap26 was nearly equal to that of the wild type （WT）. Overexpression of the AtPAP12 or AtPAP26 gene, however, caused plants to grow better on P- or P- medium supplemented with ADP or Fru-6-P. Interest-ingly, Pi levels are essentially the same for the WT and overexpressing lines, although these two types of plants have significantly different growth phenotypes. These results suggest that the APases may have other roles besides enhancing internal Pi recycling or releasing Pi from external organophosphates for plant uptake.