Density-dependent patterns of thiamine and pigment production in the diatom Nitzschia microcephala

In the present study we investigate how intraspecific (density-dependent) competition for nutrients by the diatom Nitzschia microcephala affects the level of oxidative stress in the algal cells as well as their production of pigments and thiamine. N. microcephala was grown in three different densities until the stationary growth phase was reached. Throughout the experiment, growth rate was negatively related to cell density. Superoxide dismutase activity, protein thiol, and diatoxanthin concentrations indicated increasing oxidative stress with increasing cell density, which was most probably caused by nutrient depletion of the medium. Pigment contents per cell (except for diatoxanthin) decreased with increasing cell density. N. microcephala was able to synthesize thiamine and its thiamine content per cell increased in concert with cell density. In comparison, the dinoflagellate Amphidinium carterae was unable to synthesize thiamine. These results suggest that cells of N. microcephala subjected to higher competition and lower growth rates have a lower carotenoid content and a higher thiamine content. If such responses would occur in nature as well, eutrophication (higher cell densities) may alter the quality of microalgae as food items for higher trophic levels not only by species shifts in the phytoplankton, but also by changes in the cellular nutritional value within species.     

The turnover of thiamine and its phosphate esters in rat organs

Thiamine-deficient rats were injected with [³⁵S]thiamine and the turnover of the injected radioactive thiamine and its phosphate esters was measured in brain, heart, and liver after returning the rats to a normal diet. The radioactivity per gram wet tissue, as well as the specific activity, fell to half its initial value in less than 40 hr, showing that thiamine compounds were turning over rapidly in the body under normal conditions. Furthermore, there was no difference in the rate of turnover of the individual phosphate esters of thiamine. The amount of the various phosphate esters as a percentage of the total thiamine remained the same throughout the experiment.     

A novel biosensor based on activation effect of thiamine on the activity of pyruvate oxidase

A biosensor based on pyruvate oxidase (POX) enzyme was developed for the investigation of the effect of thiamine (vitamin B(1)) molecule on the activity of the enzyme. The biosensor was prepared with a chemical covalent immobilization method on the dissolved oxygen (DO) probe by using gelatin and cross-linking agent, glutaraldehyde. POX catalyzes the degradation of pyruvate to acetylphosphate, CO(2) and H(2)O(2) in the presence of phosphate and oxygen. Thiamine is an activator for POX enzyme and determination method of the biosensor was based on this effect of thiamine on the activity of the enzyme. The biosensor responses showed increases in the presence of thiamine. Increases in the biosensor responses were related to thiamine concentration. Thiamine determination is based on the assay of the differences on the biosensor responses on the oxygenmeter in the absence and the presence of thiamine. The biosensor response depend linearly on thiamine concentration between 0.025 and 0.5 microM with 2 min response time. In the optimization studies of the biosensor the most suitable enzyme amount was found as 2.5 U cm(-2) and also phosphate buffer (pH 7.0; 50 mM) and 35 degrees C were obtained as the optimum working conditions. In the characterization studies of the biosensor some parameters such as activator and interference effects of some substances on the biosensor response and reproducibility were carried out.     

Determination of the composition of the oligosaccharide phosphate fraction of Pichia (Hansenula) holstii NRRL Y-2448 phosphomannan by capillary electrophoresis and HPLC

The promising new anticancer agent, PI-88, is prepared by the sulfonation of the oligosaccharide phosphate fraction of the extracellular phosphomannan produced by the yeast Pichia (Hansenula) holstii NRRL Y-2448. The composition of the oligosaccharide phosphate fraction was determined by capillary electrophoresis (CE) with indirect UV detection using 6 mM potassium sorbate at pH 10.3 as the background electrolyte. Further confirmation of the composition was obtained by HPLC analysis of a sample dephosphorylated by treatment with alkaline phosphatase. The structure of the hexasaccharide component has been determined by isolation and NMR spectroscopic analysis of its dephosphorylated derivative. Additionally, the structure of a second, previously undetected tetrasaccharide component (a hexosamine) has been determined by isolation and NMR spectroscopic analysis of the acetate of its dephosphorylated derivative. It is demonstrated that CE is an ideal method for the quality control of the oligosaccharide phosphate fraction for use in the production of PI-88.     

Thiamine inhibits formation of dityrosine,a specific marker of oxidative injury,in reactions catalyzed by oxoferryl forms of hemoglobin

Effects of thiamine and its derivatives on inhibition of dityrosine formation were studied in reactions catalyzed by oxoferryl forms of hemoglobin. At high thiamine concentrations, a complete inhibition of dityrosine formation was observed due to interaction of tyrosyl radicals with thiamine tricyclic and thiol forms. In neutral and alkaline media, tyrosyl radicals oxidized thiamine to thiochrome, oxodihydrothiochrome, and thiamine disulfide. In the absence of tyrosine, oxoferryl forms of hemoglobin manifested peroxidase activity towards thiamine and its phosphate esters by inducing their oxidation to disulfide compounds, thiochrome, oxodihydrothiochrome, and their phosphate esters, respectively, in neutral media. Thiamine and its phosphate esters were oxidized by both oxoferryl forms of hemoglobin, viz., +*Hb(IV=O) (compound I with an additional radical on the globin) and Hb(IV=O) (compound II). Putative mechanisms of thiamine conversions under oxidative stress and the protective role of hydrophobic thiamine metabolites are discussed.     

Immunohistochemical demonstration of a new thiamine diphosphate-binding protein in the rat digestive tract

Summary We purified a new thiamine diphosphate-binding protein (ThDP-BP), produced an antiserum against it, and examined its immunohistochemical distribution in the rat gastrointestinal tract using the avidinbiotin complex method. Positive staining for ThDP-BP was found in the epithelial glands of the stomach, small intestine and large intestine, and in the nuclei of hepatocytes. Measurement of the content of thiamine and its phosphate esters in extracts from the gastric and intestinal mucosa also indicated the presence of ThDP-BP in the stomach and intestinal mucosa. ThDP-BP may be useful for investigating the absorption and metabolism of the thiamine in metabolic disorders.     

Immunohistochemical demonstration of a new thiamine diphosphate-binding protein in the rat digestive tract.

We purified a new thiamine diphosphate-binding protein (ThDP-BP), produced an antiserum against it, and examined its immunohistochemical distribution in the rat gastrointestinal tract using the avidin-biotin complex method. Positive staining for ThDP-BP was found in the epithelial glands of the stomach, small intestine and large intestine, and in the nuclei of hepatocytes. Measurement of the content of thiamine and its phosphate esters in extracts from the gastric and intestinal mucosa also indicated the presence of ThDP-BP in the stomach and intestinal mucosa. ThDP-BP may be useful for investigating the absorption and metabolism of the thiamine in metabolic disorders.     

起始生物量比对3种海洋微藻种间竞争的影响

为深入了解饵料微藻与赤潮微藻间的种间竞争关系,通过微藻共培养的方法,研究了起始生物量比(1:4、1:1和4:1)对3种海洋微藻(塔玛亚历山大藻、蛋白核小球藻和湛江等鞭金藻)两两之间种间竞争的影响,并对其作用机制进行了探讨。结果表明:①3种海洋微藻表现出种间竞争的相互抑制效应;②在与塔玛亚历山大藻(简称A)的种间竞争中,蛋白核小球藻(简称C)和湛江等鞭金藻(简称I)均在竞争中占优势,蛋白核小球藻随自身起始生物量比的提高,其竞争优势越加明显,湛江等鞭金藻在A:I=1:1时竞争优势最为明显;在蛋白核小球藻和湛江等鞭金藻的种间竞争中,当C:I=1:4时,湛江等鞭金藻在竞争中占优势,C:I=1:1时,初期湛江等鞭金藻占竞争优势,随蛋白核小球藻的迅速生长,后期蛋白核小球藻占竞争优势,C:I=4:1时,蛋白核小球藻占绝对竞争优势;③由种间竞争抑制参数比较得出:3种微藻的种间竞争强弱依次为蛋白核小球藻>湛江等鞭金藻>塔玛亚历山大藻。蛋白核小球藻和湛江等鞭金藻在起始比例C:I=1:1时,可共培养利用,在海产经济动物育苗中可对其进行适时采收投喂;两种饵料藻对塔玛亚历山大藻具有明显的抑制作用,可为开发利用饵料藻进行赤潮生物防控提供一定的科学依据。     

Postnatal Development of Thiamine Metabolism in Rat Brain

The activities of thiamine diphosphatase (TDPase), thiamine triphosphatase (TTPase), and thiamine pyrophosphokinase and the contents of thiamine and its phosphate esters were determined in rat brain cortex, cerebellum, and liver from birth to adulthood. Microsomal TTPase activity in the cerebral cortex and cerebellum increased from birth to 3 weeks, whereas that in the liver did not change during postnatal development. Microsomal TDPase activity in the cerebral cortex showed a transient increase at 1-2 weeks, but that in the cerebellum did not change during development. In contrast to the activity of the brain enzyme, that of liver microsomal TDPase increased stepwise after birth. Thiamine pyrophosphokinase activity in the cerebellum increased from birth to 3 weeks and then decreased, whereas that in the cerebral cortex and liver showed less change during development. TDP and thiamine monophosphate (TMP) levels increased after birth and plateaued at 3 weeks whereas TTP and thiamine levels showed little change during development in the cerebral cortex and cerebellum. The contents of thiamine and its phosphate esters in the liver showed more complicated changes during development. It is concluded that thiamine metabolism in the brain changes during postnatal development in a different way from that in the liver and that the development of thiamine metabolism differs among brain regions.     

Detection of metallo-β-lactamase genes in clinical specimens by a commercial multiplex PCR system

hyplex®-MBL ID Multiplex PCR-ELISA, a novel method for identifying metallo-β-lactamase genes directly in clinical specimens, was evaluated using a consecutive collection of 326 samples from three hospitals in Greece characterized by high prevalence of VIM producers. The method exhibited high sensitivity (98.0%) and specificity (98.6%) and was proven reliable in detecting bla_VIM genes in blood, urine, pus, and sputum samples that, as confirmed by conventional methods, contained various VIM-producing species. Future multicenter studies should be considered for the thorough evaluation of this method and its potential diagnostic utility.     

Whole cell immobilized amperometric biosensor based on Saccharomyces cerevisiae for selective determination of vitamin B1 (thiamine)

A new amperometric whole cell biosensor based on Saccharomyces cerevisiae immobilized in gelatin was developed for selective determination of vitamin B1 (thiamine). The biosensor was constructed by using gelatin and crosslinking agent glutaraldehyde to immobilize S. cerevisiae cells on the Teflon membrane of dissolved oxygen (DO) probe used as the basic electrode system combined with a digital oxygen meter. The cells were induced by vitamin B1 in the culture medium, and the cells used it as a carbon source in the absence of glucose. So, when the vitamin B1 solution is injected into the whole cell biosensor system, an increase in respiration activity of the cells results from the metabolic activity and causes a decrease in the DO concentration of interval surface of DO probe related to vitamin B1 concentration. The response time of the biosensor is 3 min, and the optimal working conditions of the biosensor were carried out as pH 7.0, 50mM Tris-HCl, and 30 degrees C. A linear relationship was obtained between the DO concentration decrease and vitamin B1 concentration between 5.0 x 10(-3) and 10(-1) microM. In the application studies of the biosensor, sensitive determination of vitamin B1 in the vitamin tablets was investigated.     

The role of thiamine in nervous tissue

The possibility that thiamine (vitamin B₁) has a role in nervous tissue that is independent of its well-documented coenzyme function is discussed. After reviewing the localization and metabolism of the vitamin and its phosphate esters, the effects of either thiamine deprivation or antimetabolites of thiamine on conduction and transmission, and the relationship between thiamine triphosphate and the genetic, neurological disease, subacute necrotizing encephalomyelopathy (Leigh's disease), it is suggested that despite the lack of hard evidence, it is likely that the vitamin possesses this alternate function.     

Regional alterations of thiamine phosphate esters and of thiamine diphosphate-dependent enzymes in relation to function in experimental Wernicke's encephalopathy

Thiamine phosphate esters (thiamine monophosphate-TMP; thiamine diphosphate-TDP and thiamine triphosphate-TTP) were measured as their thiochrome derivatives by High Performance Liquid Chromatography in the brains of pyrithiamine-treated rats at various stages during the development of thiamine deficiency encephalopathy. Severe encephalopathy was accompanied by significant reductions of all three thiamine phosphate esters in brain. Neurological symptoms of thiamine deficiency appeared when brain levels of TMP and TDP fell below 15% of normal values. Activities of the TDP-dependent enzyme -ketoglutarate dehydrogenase were more severely reduced in thalamus compared to cerebral cortex, a less vulnerable brain structure. On the other hand, reductions of TTP, the non-cofactor form of thiamine, occurred to a greater extent in cerebral cortex than thalamus. Early reductions of TDP-dependent enzymes and the ensuing metabolic pertubations such as lactic acidosis impaired brain energy metabolism, and NMDA-receptor mediated excitotoxicity offer rational explanations for the selective vulnerability of brain structures such as thalamus to the deleterious effects of thiamine deficiency.     

D-myo-inositol 1-phosphate as a surrogate of D-myo-inositol 1,4,5-tris phosphate to monitor G protein-coupled receptor activation

Phospholipase C beta (PLC-beta)-coupled G protein-coupled receptor (GPCR) activities traditionally are assessed by measuring Ca2+ triggered by D-myo-inositol 1,4,5-trisphosphate (IP3), a PLC-beta hydrolysis product, or by measuring the production of inositol phosphate using cumbersome radioactive assays. A specific detection of IP3 production was also established using IP3 binding proteins. The short lifetime of IP3 makes this detection very challenging in measuring GPCR responses. Indeed, this IP3 rapidly enters the metabolic inositol phosphate cascade. It has been known for decades that lithium chloride (LiCl) leads to D-myo-inositol 1-phosphate accumulation on GPCR activation by inhibiting inositol monophosphatase, the final enzyme of the IP3 metabolic cascade. We show here that IP1 can be used as a surrogate of IP3 to monitor GPCR activation. We developed a novel homogeneous time-resolved fluorescence (HTRF) assay that correlates perfectly with existing methods and is easily amenable to high-throughput screening. The IP-One assay was validated on various GPCR models. It has the advantage over the traditional Ca2+ assay of allowing the measurement of inverse agonist activity as well as the analysis of PLC-beta activity in any nontransfected primary cultures. Finally, the high assay specificity for D-myo-inositol 1 monophosphate (IP1(1)) opens new possibilities in developing selective assays to study the functional roles of the various isoforms of inositol phosphates.     

A simple and rapid harvesting method for microalgae by in situ magnetic separation

A simple and rapid harvesting method by in situ magnetic separation with naked Fe₃O₄ nanoparticles has been developed for the microalgal recovery of Botryococcus braunii and Chlorella ellipsoidea. After adding the magnetic particles to the microalgal culture broth, the microalgal cells were adsorbed and then separated by an external magnetic field. The maximal recovery efficiency reached more than 98% for both microalgae at a stirring speed of 120 r/min within 1 min, and the maximal adsorption capacity of these Fe₃O₄ nanoparticles reached 55.9 mg-dry biomass/mg-particles for B. braunii and 5.83 mg-dry biomass/mg-particles for C. ellipsoidea. Appropriate pH value and high nanoparticle dose were favorable to the microalgae recovery, and the adsorption mechanism between the naked Fe₃O₄ nanoparticles and the microalgal cells was mainly due to the electrostatic attraction. The developed in situ magnetic separation technology provides a great potential for saving time and energy associated with improving microalgal harvesting.     

Kinetic and substrate binding analysis of phosphorylase b via electrospray ionization mass spectrometry: a model for chemical proteomics of sugar phosphorylases

As a general strategy for determining the chemical function of the class of enzymes that cleaves glycosidic linkages with phosphate, the first mass spectrometry and direct detection assay for sugar phosphorylases has been developed and used to study the inhibition and minimal binding requirements of rabbit muscle phosphorylase b. In contrast to the currently employed assays for these enzymes that measure the nonphysiologically relevant reverse reaction of glycosidic bond synthesis and thereby require prior knowledge of not just one but two sugar components, this new method has the potential to greatly reduce the complexity in discovering the substrate specificity of a new enzyme. Certain phosphorylases can catalyze the degradation of glycogen into alpha-D-glucose-1-phosphate and are targets for the development of antidiabetic therapeutics. By electrospray ionization mass spectrometry analysis, the kinetic parameters K(m), V(max), and K(i) (for alpha/beta-D-glucose) have been determined for the rabbit muscle phosphorylase b. This enzyme accepts maltoheptaose, maltohexaose, and maltopentaose as substrates in the direction of glycogen degradation, but the tetrasaccharide maltotetraose cannot serve as a substrate for this phosphorylysis reaction.     

基于纳米酶的比色生物传感器在生物医学检测中的应用

比色生物传感技术由于具有灵敏度高、方法简单并且容易操作等优点，已广泛应用于生物环境中污染物检测、生物体内重要标志物的检测以及癌症筛查等多个领域。基于纳米酶的比色生物传感器主要是借助纳米酶自身所具有的催化能力，模拟类过氧化物酶活性，将显色剂氧化生成有色溶液，从而实现可视化检测，并通过对有色溶液吸光度的检测得到相关物质的含量。与无纳米酶的比色生物传感器相比，基于纳米酶的比色生物传感器具有选择性更高、检测更快以及灵敏度更高等优点。纳米酶在具有天然酶活性的同时还具有成本低、稳定性好的、易于合成等优点，其相关研究越来越广泛。目前，基于纳米酶的比色生物传感器已成为辅助相关医学检测的重要方法，同时也广泛应用于便携和实时性相关检测当中，为医学检测提供了重要的支持和保障。为了提高比色生物传感器的灵敏度以及应用范围，研究人员也在致力于增加可检测物质的种类以及纳米酶种类的多样化等。本文主要介绍基于纳米酶的比色生物传感器的检测原理、几类典型的纳米酶，以及基于纳米酶的比色生物传感器在生物医学检测领域中的应用情况和研究进展。     

Inorganic phosphate uptake in unicellular eukaryotes

Background

Inorganic phosphate (P_i) is an essential nutrient for all organisms. The route of P_i utilization begins with P_i transport across the plasma membrane.

Scope of review

Here, we analyzed the gene sequences and compared the biochemical profiles, including kinetic and modulator parameters, of P_i transporters in unicellular eukaryotes. The objective of this review is to evaluate the recent findings regarding P_i uptake mechanisms in microorganisms, such as the fungi Neurospora crassa and Saccharomyces cerevisiae and the parasite protozoans Trypanosoma cruzi, Trypanosoma rangeli, Leishmania infantum and Plasmodium falciparum.

Major conclusion

P_i uptake is the key step of P_i homeostasis and in the subsequent signaling event in eukaryotic microorganisms.

General significance

Biochemical and structural studies are important for clarifying mechanisms of P_i homeostasis, as well as P_i sensor and downstream pathways, and raise possibilities for future studies in this field.     

Thiamine phosphate metabolism and possible coenzyme-independent functions of thiamine in brain.

The effect of depolarization of rat brain cortex slices on the relative distribution of thiamine among its various phosphate esters and on the efflux of thiamine was studied as a probe of possible coenzyme-independent neurophysiological functions of thiamine. Electrical pulses for 30 min increased lactate production but did not affect the levels of thiamine esters. Depolarization with 41 mM-potassium decreased thiamine diphosphate by only 3 percent (P= 0.05). Thiamine triphosphate levels (TTP) were unaffected by depolarization but doubled during incubation for 1 h in which time efflux of 40 percent of the total thiamine from the slices as unesterified thiamine occurred. Depolarization by potassium released a small but highly variable portion of the thiamine content of superfused cortex slices above the basal rate of efflux. The basal efflux was partially sodium dependent. Thiamine efflux was unaffected by acetylcholine, ouabain, or tetrodotoxin, compounds previously reported to increase thiamine efflux. The incorporation of ³²P₁ into the endogenous thiamine phosphates of cortex slices was studied. Incorporation into thiamine diphosphate reached only 20 percent of the specific activity of its precursor, ATP, after 2h of incubation while the incorporation into TTP approached equilibrium with ATP in 15-30 min indicating that the TTP pool was the most rapidly turning over of the thiamine phosphates. The data suggest that only a small portion of the TDP pool undergoes rapid turnover and serves as a precursor for TTP. The rapid turnover of TTP phosphoryl groups is consistent with specific functions for this compound related to its potential for phosphorylation reactions. An analog of TTP with the β, γ oxygen bridge replaced by a methylene group decreased TDP levels and increased thiamine when incubated with cortex slices, but did not effect thiamine monophosphate or triphosphate levels indicating inhibition of thiamine pyrophosphokinase.     

Evaluation of different yeast cell wall mutants and microalgae strains as feed for gnotobiotically grown brine shrimp Artemia franciscana

The nutritional value of isogenic yeast strains and two microalgal species for gnotobiotically grown Artemia was examined. Yeast cell wall mutants were always better feed for Artemia than their respective wild type. Yeast cells harbouring null mutants for enzymes involved early in the biochemical pathway for cell wall mannoproteins synthesis performed best as feed for Artemia. Yeast cells defective in chitin or β-glucan production were scored in second order. The mnn6 isogenic yeast mutant, harbouring a null mutation for mannoprotein phosphorylation, performed poorly as feed for Artemia, although with good growth. These results suggest that any mutation affecting the yeast cell wall scaffolding by reducing the amount of covalent links between the major components of yeast cell wall, namely mannoproteins, β-glucans and chitin, is sufficient to improve the digestibility for Artemia. The results with microalgae indicated that within one species, strains can have different nutritional value under gnotobiotic conditions. The growth phase was another parameter influencing feed quality, although here it was not possible to reveal the exact cause. It is anticipated that the standard Artemia gnotobiotic growth test is an excellent tool to study the mode of action of bacteria, with a probiotic as well as with a pathogenic character.