2′-(E)-O-p-coumaroylgalactaric acid and 2′-(E)-O-feruloylgalactaric acid in citrus

2′-(E)-O-p-Coumaroyl- and 2′-(E)-O-feruloylgalactaric acids, hitherto unknown in nature, have been isolated and identified from orange peel.     

肽核酸(peptide nucleic acid,PNA)阵列

肽核酸(PNA)以N—(2—氨基乙基)甘氨酸替代DNA分子中的磷酸戊糖骨架。它能特异性地识别与DNA、RNA所形成的杂交体。PNA—DNA、PNA—RNA的热稳定性要比相应的DNA—DNA、DNA—RNA高,而且PNA识别单碱基的能力强于DNA和RNA,使之在微阵列,尤其是SNP检测领域有着广泛的应用前景。本文简述了PNA阵列从探针设计、阵列合成、杂交和检测的全过程。     

Stereoconservative and stereoselective syntheses of rare and non-naturalα-amino acids from (S)-aspartic acid and (S)-malic acid

Summary A new strategy for stereoconservative and stereoselective syntheses of several types of amino acids starting from-functional carboxylic acids employing hexafluoroacetone as protecting and activating reagent is described. Outstanding features of this new method are the mild reaction conditions and the high yields for introduction and cleavage of the protective group allowing sensitive functional groups in the side chain to survive. Furthermore, the new concept results in saving of synthetic steps.     

Efficient synthesis of α(2–8)-linkedN-acetyl andN-glycolylneuraminic acid disaccharides from colominic acid

Controlled acid hydrolysis of poly-(2,8)-linked homopolymers ofN-acetylneuraminic acid (colominic acid) and its homologous poly-N-glycolylneuraminic acid afforded high yields of the corresponding disaccharides useful in block synthesis of disialylated gangliosides. The poly-N-glycolylanalog was derived from de-N-acetylated colominic acid by two different reaction sequences. The first one involved reaction with acetoxyacetyl chloride followed by de-O-acetylation. The second and most interesting one requiredN-acryloylation and reductive ozonolysis.     

Effect of propionic acid on poly (β-hydroxybutyric-co-β-hydroxyvaleric) acid production byAlcaligenes eutrophus

Summary The effect of propionic acid on poly(-hydroxybutyric-co--hydroxyvaleric)acid P(HB-co-HV) copolymer production byAlcaligenes eutrophus ATCC 17699 supplied with fructose and propionic acid under nitrogen limited conditions was studied. The growth ofA. eutrophus was almost completely inhibited when the concentraion, of propionic acid exceeds 1.5 g/L. Specific production rate of HV unit was highest when propionic acid concentration was 0.5 g/L. In batch culture, pH change occurs in proportion to the consumption of propionic acid. Optimal concentration of propionic acid was maintained during the production phase by using a pH-stat feeding method and a total polymer content higher than 70% and the relative HV content upto 50% could be achieved.     

Effect of tranexamic acid and δ-aminovaleric acid on lipoprotein(a) metabolism in transgenic mice

The assembly of lipoprotein(a) (Lp(a)) is a two-step process which involves the interaction of kringle-4 (K-IV) domains in apolipoprotein(a) (apo(a)) with Lys groups in apoB-100. Lys analogues such as tranexamic acid (TXA) or δ-aminovaleric acid (δ-AVA) proved to prevent the Lp(a) assembly in vitro. In order to study the in vivo effect of Lys analogues, transgenic apo(a) or Lp(a) mice were treated with TXA or δ-AVA and plasma levels of free and low density lipoprotein bound apo(a) were measured. In parallel experiments, McA-RH 7777 cells, stably transfected with apo(a), were also treated with these substances and apo(a) secretion was followed. Treatment of transgenic mice with Lys analogues caused a doubling of plasma Lp(a) levels, while the ratio of free:apoB-100 bound apo(a) remained unchanged. In transgenic apo(a) mice a 1.5-fold increase in plasma apo(a) levels was noticed. TXA significantly increased Lp(a) half-life from 6 h to 8 h. Incubation of McA-RH 7777 cells with Lys analogues resulted in an up to 1.4-fold increase in apo(a) in the medium. The amount of intracellular low molecular weight apo(a) precursor remained unchanged. We hypothesize that Lys analogues increase plasma Lp(a) levels by increasing the dissociation of cell bound apo(a) in combination with reducing Lp(a) catabolism.     

The reaction of chicken liver fatty acid synthetase with 5,5′-dithiobis(2-nitrobenzoic acid)

Chicken liver fatty acid synthetase is rapidly inhibited by 5,5′-dithiobis(2-nitrobenzoi acid). The inhibition results from the reaction of 5,5′-dithiobis(2-nitrobenzoic acid) with the cysteine-SH residue of the β-ketoacyl synthetase site. The adjacent pantetheine-SH of the other subunit displaces 2-nitro-5-thiobenzoic acid from the mixed disulfide resulting in the formation of a disulfide bond between the two residues and thereby cross-linking the two subunits. Scatchard analysis of the 5,5′-dithiobis(2-nitrobenzoic acid) inhibition indicated that there are two β-ketoacyl synthetase sites in the homodimer. The mixed disulfide formed between the pantetheine-SH and the cysteine-SH was reduced by 2-mercaptoethanol resulting in restoration of enzyme activity.     

Optimization of γ-linolenic acid (GLA) production inSpirulina platensis

The cyanobacteriumSpirulina platensis is one of the most promising sources of the polyunsaturated fatty acid -linolenic acid (GLA). The GLA content ofSpirulina can be enhanced by cultivation under light-dark cycles in the laboratory or outdoors. Thus, in strain BP, the GLA content increased from 1.2 to 1.6% when cultivated under light-dark cycles. Moreover, in the derived mutant Z19, the GLA content reached 2.4% when cultivated outdoors. To the best of our knowledge, this is the highest GLA content ever reported for any alga.Author for correspondence     

Biosynthesis of poly(γ-glutamic acid) from l-glutamic acid,citric acid,and ammonium sulfate in Bacillus subtilis IFO3335

Poly(-glutamic acid) (PGA) production in Bacillus subtilis IFO3335 was studied. When l-glutamic acid, citric acid, and ammonium sulfate were used as carbon and nitrogen sources, a large amount of PGA without a by-product such as a polysaccharide was produced. The time courses of cell growth, PGA, glutamic acid, and citric acid concentrations during cultivation were investigated. It was found that glutamic acid added to the medium was apparently not assimilated. It can be presumed that the glutamic acid unit in PGA is mainly produced from citric acid and ammonium sulfate. The PGA productivity was investigated at various concentrations of ammonium sulfate in the media, which caused the depression of cell growth, high productivity of PGA, and the production of PGA with a high relative molecular mass. The yield of PGA determined by gel permeation chromatography (GPC) reached approximately 20 g/l. This yield was the highest value for PGA production by B. subtilis IFO3335, suggesting that B. subtilis IFO3335 was a bacterium that could produce PGA effectively. Time courses relative to the molecular mass of PGA at various concentrations of ammonium sulfate were investigated. It was suggested that B. subtilis IFO3335 excreted a PGA degradation enzyme with the progress of cultivation and that PGA was degraded by this enzyme. Correspondence to: M. Kunioka     

Dehydroascorbic acid uptake and intracellular ascorbic acid accumulation in cultured Müller glial cells (TR-MUL)

Vitamin C is mainly transported across the inner blood–retinal barrier (inner BRB) as dehydroascorbic acid (DHA) via a facilitative glucose transporter (GLUT) 1, and accumulates as ascorbic acid (AA) in the retina. Müller cells, huge glial cells, exhibit passive structural and metabolic functions for retinal neurons and the inner BRB. We characterized DHA transport and its corresponding transporter in a rat Müller cell line (TR-MUL5 cells). [¹⁴C]DHA uptake by TR-MUL5 cells took place in a time-dependent and Na⁺-independent manner. [¹⁴C]DHA uptake was inhibited by substrates and inhibitors of GLUTs, suggesting that Müller cells take up DHA via GLUTs. HPLC analysis revealed that most of the DHA taken up by TR-MUL5 cells was converted to AA and accumulated as AA in TR-MUL5 cells. [¹⁴C]DHA uptake by TR-MUL5 cells took place in a concentration-dependent manner with a Michaelis–Menten constant of 198 μM and was inhibited by cytochalasin B in a concentration-dependent manner with a 50% inhibition concentration of 0.283 μM. Although GLUT1, 3, and 4 mRNA are expressed in TR-MUL5 cells, quantitative real-time PCR revealed that GLUT1 mRNA expression was 5.85- and 116-fold greater than that of GLUT3 and 4, respectively. Western blot analysis supports the expression of GLUT1 protein with 45 kDa in TR-MUL5 cells. In conclusion, DHA is taken up by facilitative glucose transporters, most likely GLUT1, and converted to AA in TR-MUL5 cells.     

The regulatory effect of citric acid on the co-production of poly(ε-lysine) and poly(l-diaminopropionic acid) in Streptomyces albulus PD-1

Streptomyces albulus PD-1 can co-produce antimicrobial homo-polymers poly(ε-lysine) (ε-PL) and poly(l-diaminopropionic acid) (PDAP). In this study, a novel feeding strategy of citric acid coupled with glucose-(NH₄)₂SO₄ feeding was employed to S. albulus PD-1. When the pH of the culture broth dropped to 4.0, the feeding solution was added continuously to maintain the concentrations of glucose and citric acid at 10 and 4 g L^?1, respectively. As a result, the final concentration of ε-PL increased from 21.7 to 29.7 g L^?1 and the final concentration of PDAP decreased from 4.8 to 3.2 g L^?1. Assays on intracellular nucleotide levels and key enzyme activities were performed to elucidate the underlying regulation mechanism. The addition of citric acid increased NADH/NAD⁺ ratio and decreased intracellular ATP level; meanwhile, the activities of pyruvate kinase, citrate synthase and isocitrate dehydrogenase decreased while aspartate aminotransferase activity increased. Therefore, we deduced that citric acid feeding resulted in metabolic flux redistribution at the node of phosphoenolpyruvate; the metabolic pathway from phosphoenolpyruvate directed into tricarboxylic acid cycle was weakened and thus PDAP production was inhibited. On the other hand, the metabolic pathway from phosphoenolpyruvate directed into oxaloacetate and l-aspartate was enhanced, thereby improving ε-PL production. This fermentation strategy may be potentially useful in ε-PL production because it can effectively inhibit the formation of by-products, such as PDAP.     

Investigation of polymer and nanoparticle properties with nicotinic acid and p-aminobenzoic acid grafted on poly(ε-caprolactone)-poly(ethylene glycol)-poly(ε-caprolactone) via click chemistry

In this study, the grafting of nicotinic acid and p-aminobenzoic acid (PABA) onto poly(ε-caprolactone)-poly(ethylene glycol)-poly(ε-caprolactone) was performed by Huisgen's 1,3-dipolar cycloaddition, also known as click chemistry. Concentrations used for grafting were 0.10, 0.20, and 0.30 molar ratios with respect to caproyl units. The grafted copolymers were successfully obtained at all ratios as confirmed by NMR, GPC, and FT-IR. According to the DSC results, the polymorphisms of these grafted copolymers were mostly changed from semicrystalline to amorphous depending on the type and the amount of grafting compounds. TGA thermograms showed different thermal stabilities of the grafted copolymers compared to the original copolymers. Cytotoxicity results from HUVEC models suggested that the toxicity of grafted nanoparticles increased with the molar ratios of grafting units. Due to differences in molecular structure between nicotinic acid and PABA, physicochemical properties (particle size and surface charge) of grafted copolymer nanoparticles were substantially different. With increasing molar ratio of the grafting units, the particle size of blank nanoparticles tended to increase, resulting from an increase in the hydrophobic fragments of the grafted copolymer. Ibuprofen was chosen as a model drug to evaluate the interaction between grafted copolymers and loaded drug. After ibuprofen loading, the particle size of the loaded nanoparticles of both grafted copolymers increased compared to that of the blank nanoparticles. Significant differences in loading capacity between nicotinic acid and PABA grafted copolymer nanoparticles were clearly shown. This is most likely a result of different compatibility between each grafting compound and ibuprofen, including hydrogen bond interaction, π-π stacking interaction, and steric hindrance.     

Interactions ofγ-aminobutyric acid (GABA), pentobarbital,and homopantothenic acid (HOPA) on internally perfused frog sensory neurons

Augmentatory actions among Cl- currents (ICl) induced by gamma-aminobutyric acid (GABA), pentobarbital (PB), and homopantothenic acid (HOPA) were investigated in isolated frog sensory neurons after suppression of Na+, K+, and Ca2+ currents using a suction pipette technique which combines internal perfusion with voltage clamp. GABA-sensitive neurons responded to both PB and HOPA, and the responses behaved as a simple Cl- electrode and reversed at the Cl- equilibrium potential (ECl). The dose-response curve for GABA-induced Cl- conductance was sigmoidal with the GABA concentration producing a half-maximum response (4.2 X 10(-5) M). Both GABA and HOPA dose-response curves shifted to the left in the presence of PB, though the facilitatory action of PB on GABA- and HOPA-induced ICl was more effective in the former. There was a significant facilitatory interaction between GABA- and HOPA-induced ICl. It is concluded that HOPA affects the GABA-GABA or PB-PB receptor interactions.     

Glutamic acid decarboxylase of embryonic avian retina cells in culture: Regulation byγ-aminobutyric acid (GABA)

1. Retina-cell aggregate cultures expressed glutamate decarboxylase activity (L-glutamate 1-carboxylase; EC 4.1.1.15) as a function of culture differentiation. 2. Glutamic acid decarboxylase (GAD) activity was low in the initial phases of culture and increased eight-fold until culture day 7, remaining high up to day 13 (last stage studied). 3. The addition of GABA to the culture medium 24 h after cell seeding almost totally prevented the expression of GAD activity. 4. In association with decreased enzyme activity, aggregates exposed to GABA did not display immunoreactivity for GAD, suggesting that GAD molecules were either lost from GABAergic neurons or significantly altered with GABA treatment. 5. Control, untreated aggregates showed intense GAD immunoreactivity in neurons. Positive cell bodies were characterized by a thin rim of labeled cytoplasm with thickest labeling at the emergence of the main neurite. 6. Heavily labeled patches were also observed throughout the aggregates, possibly reflecting regions enriched in neurites. 7. The GABA-mediated reduction of GAD immunoreactivity was a reversible phenomenon and could be prevented by picrotoxin.     

Treatment of diabetic polyneuropathy with the antioxidant thioctic acid (α-lipoic acid): A two year multicenter randomized double-blind placebo-controlled trial (ALADIN II)

Short-term trials with the antioxidant thioctic acid (TA) appear to improve neuropathic symptoms in diabetic patients, but the long-term response remains to be established. Therefore, Type 1 and Type 2 diabetic patients with symptomatic polyneuropathy were randomly assigned to three treatment regimens: (1) 2 × 600 mg of TA (TA 1200), (2) 600 mg of TA plus placebo (PLA) (TA 600) or (3) placebo and placebo (PLA). A trometamol salt solution of TA of 1200 or 600 mg or PLA was intravenously administered once daily for five consecutive days before enrolling the patients in the oral treatment phase. The study was prospective, PLA-controlled, randomized, double-blind and conducted for two years. Severity of diabetic neuropathy was assessed by the Neuropathy Disability Score (NDS) and electrophysiological attributes of the sural (sensory nerve conduction velocity (SNCV), sensory nerve action potential (SNAP)) and the tibial (motor nerve conduction velocity (MNCV), motor nerve distal latency (MNDL)) nerve. Statistical analysis was performed after independent reviewers excluded all patients with highly variable data allowing a final analysis of 65 patients (TA 1200: n = 18, TA 600: n = 27; PLA: n = 20). At baseline no significant differences were noted between the groups regarding the demographic variables and peripheral nerve function parameters for these 65 patients. Statistically significant changes after 24 months between TA and PLA were observed (mean ± SD) for sural SNCV: +3.8 ± 4.2 m/s in TA 1200, +3.0 ± 3.0 m/s in TA 600, -0.1 ± 4.8 m/s in PLA (p < 0.05 for TA 1200 and TA 600 vs. PLA); sural SNAP: +0.6 ± 2.5 μV in TA 1200, +0.3 ± 1.4 μV in TA 600, -0.7 ± 1.5 μV in PLA (p = 0.076 for TA 1200 vs. PLA and p < 0.05 for TA 600 vs. PLA), and in tibial MNCV: +1.2 ± 3.8 m/s in TA 1200, -0.3 ± 5.2 m/s in TA 600, -1.5 ± 2.9 m/s in PLA (p < 0.05 for TA 1200 vs. PLA). No significant differences between the groups after 24 months were noted regarding the tibial MNDL and the NDS. We conclude that in a subgroup of patients after exclusion of patients with excessive test variability throughout the trial, TA appeared to have a beneficial effect on several attributes of nerve conduction.     

Production of poly(β-l-malic acid) (PMA) from agricultural biomass substrates by Aureobasidium pullulans

For the first time the production of poly(β-l -malic acid) (PMA) has been achieved using agricultural biomass substrates by the yeast-like fungus Aureobasidium pullulans. Strains NRRL Y-2311-1, NRRL 50382, NRRL 50383, and NRRL 50384, representing diverse isolation sources and phylogenetic clades, produced PMA from alkaline H₂O₂-pretreated corn fiber and wheat straw as sole carbon sources. Pretreated wheat straw was better than pretreated corn fiber, and strain NRRL 50383 gave the highest overall yields of PMA. The addition of CaCO₃ plus supplementary hydrolytic enzymes enhanced PMA production. Four basal media were compared for PMA production, and the best was found to be a N-limited pullulan production medium (PM). In this medium, PMA production took place during growth limitation. Under optimal conditions, strain NRRL 50383 produced more than 20 g PMA/l from 5 % (w/v) pretreated wheat straw in PM with 3 % (w/v) CaCO₃ and supplementary enzymes.     

Poly(l-diaminopropionic acid), a novel non-proteinic amino acid oligomer co-produced with poly(ε-l-lysine) by Streptomyces albulus PD-1

Poly(ε-l-lysine) (ε-PL) producer strain Streptomyces albulus PD-1 secreted a novel polymeric substance into its culture broth along with ε-PL. The polymeric substance was purified to homogeneity and identified. Matrix-assisted laser desorption ionization-time of flight mass spectrometry and nuclear magnetic resonance spectroscopy as well as other analytical techniques revealed that the substance was poly(l-diaminopropionic acid) (PDAP). PDAP is an l-α,β-diaminopropionic acid oligomer linking between amino and carboxylic acid functional groups. The molecular weight of PDAP ranged from 500 to 1500 Da, and no co-polymers composed of l-diaminopropionic acid and l-lysine were present in the culture broth. Compared with ε-PL, PDAP exhibited stronger inhibitory activities against yeasts but weaker activities against bacteria. ε-PL and PDAP co-production was also investigated. Both ε-PL and PDAP were synthesized during the stationary phase of growth, and the final ε-PL and PDAP concentration reached 21.7 and 4.8 g L^-1, respectively, in fed-batch fermentation. Citric acid feeding resulted in a maximum ε-PL concentration of 26.1 g L^-1 and a decrease in the final concentration of PDAP to 3.8 g L^-1. No studies on ε-PL and PDAP co-production in Streptomyces albulus have been reported previously, and inhibition of by-products such as PDAP is potentially useful in ε-PL production.