Unexpected isomeric equilibrium in pyridoxamine Schiff bases

Pyridoxamine is a vitamin B₆ derivative involved in biological reactions such as transamination, and can also act as inhibitor in protein glycation. In both cases, it has been reported that Schiff base formation between pyridoxamine and carbonyl compounds is the main step. Nevertheless, few studies on the Schiff base formation have been reported to date. In this work, we conduct a comparative study of the reaction of pyridoxamine and 4-picolylamin (a pyridoxamine analog) with various carbonyl compounds including propanal, formaldehyde and pyruvic acid. Based on the results, 4-picolylamin forms a Schiff base as end-product of its reactions with propanal and pyruvic acid, but a carbinolamine with formaldehyde. On the other hand, pyridoxamine forms a Schiff base with the three reagents, but the end-product is in equilibrium with its hemiaminal form, which results from the attack of the phenolate ion of the pyridine ring on the imine carbon. This isomeric equilibrium should be considered in studying reactions involving amine derivatives of vitamin B₆.     

Protective effects of ellagic and chlorogenic acids against oxidative stress in PC12 cells

Following exposure of differentiated neuronal PC12 cells to either t-BHP, hydrogen peroxide (H₂O₂) or FeSO₄ various kinds of reactive oxygen species (ROS) are generated leading to oxidative injury. The protective effects of two plant polyphenols, ellagic (EC) and chlorogenic acid (CGA), as well as of two metabolites, caffeic acid (CA) and ferulic acid (FA), were investigated in preincubation and coincubation experiments with respect to the following parameters: prevention of cell death, GSH depletion, lipid peroxidation and ROS formation.

The polyphenols more efficiently suppressed cytotoxicity and loss of GSH caused by peroxides than by iron, particularly in preincubation. Lipid peroxidation which increased much stronger in response to FeSO₄ was counteracted completely by the polyphenols. In case of iron, however, only coincubation was effective. EA and CGA and the metabolites CA and FA showed excellent elimination of ROS induced by all stressors. These findings suggest that two dietary antioxidants, EA and CGA, may have protective properties against oxidative stress induced in CNS.     

Activities of the enzymes of formaldehyde catabolism in recombinant strains of <Emphasis Type="Italic">Hansenula polymorpha</Emphasis>

Activities of the enzymes of formaldehyde (FA) catabolism in recombinant strains of the methylotrophic yeast Hansenula polymorpha overproducing NAD⁺- and glutathione-dependent formaldehyde dehydrogenase (FADH) were studied under different cultivation conditions and at elevated FA content. Southern dot-blot analysis confirmed the presence of six to eight copies of the target FLD1 gene in stable recombinant clones of H. polymorpha. Under certain cultivation conditions, the transformants resistant to elevated FA concentrations were shown to produce FADH and other bioanalytically important enzymes: formate dehydrogenase, alcohol dehydrogenase, alcohol oxidase, and formaldehyde reductase. The optimal cultivation conditions for recombinants were determined, resulting in maximum synthesis of FADH: methanol as a carbon source, methylamine as a nitrogen source, FA as an inducer, temperature of 37°C, and cells in the early exponential phase of growth.     

Synthesis,Characterization, and DNA‐Binding and ‐Cleavage Properties of Dinuclear CuII?Salophen/Salen Complexes

Dinuclear Cu^II complexes, [Cu₂(salophen)₂] ( 1 ) and [Cu₂(salen)₂] ( 2 ), with Schiff bases derived from salicylaldehyde and o‐phenylenediamine (ophen) or ethylenediamine (en) were synthesized and characterized. They exhibit square‐planar geometry with CuN₂O₂ coordination, where the dianionic Schiff base acts as a tetradentate N₂O₂ donor ligand. Calf thymus (CT)‐DNA Binding studies revealed that the complexes possess good binding propensities (K_b=3.13×10⁵ for 1 and K_b=2.99×10⁵ M ⁻¹ for 2 ). They show good DNA‐cleavage abilities under oxidative and hydrolytic conditions. Complex 1 binds and cleaves DNA more efficiently as compared to 2 due to the presence of an extended aromatic phenyl ring which might be involved in an additional stacking interaction with DNA bases. From the kinetic experiments, hydrolytic DNA‐cleavage rate constants were determined as 1.54 for 1 and 0.72 h⁻¹ for 2 . The nuclease activities of 1 and 2 are significant, giving rise to (2.03–2.88)×10⁷‐fold rate enhancement compared to non‐catalyzed DNA cleavage.     

Identification of the tautomeric form of formycin A in its complex with<Emphasis Type="Italic"> Escherichia coli</Emphasis> purine nucleoside phosphorylase based on the effect of enzyme–ligand binding on fluorescence and phosphorescence

Fluorescence and phosphorescence emission spectroscopy were employed to study the interaction of Escherichia coli purine nucleoside phosphorylase (PNP) with its specific inhibitor, formycin A (FA), a close structural analogue of adenosine (natural substrate), in the absence and presence of phosphate (P_i, substrate). Formation of enzyme–FA complexes led to marked quenching of enzyme tyrosine intrinsic fluorescence and phosphorescence, with concomitant increases in fluorescence and phosphorescence of FA. Fluorescence resonance energy transfer from the protein Tyr160 residue to the FA base moiety was identified as a major mechanism of protein fluorescence quenching, increased by addition of P_i. The effects of enzyme–FA interactions on the nucleoside excitation and emission spectra for fluorescence and phosphorescence revealed shifts in the tautomeric equilibrium of the bound FA, i.e. from the N(1)–H tautomer (predominant in solution) to the N(2)–H form, enhanced by the presence of P_i. The latter was confirmed by enzyme–ligand dissociation constant (K _d) values of 5.9±0.4 and 2.1±0.3 M in the absence and presence of P_i, respectively. Addition of glycerol (80%, v/v) led to a lower enzyme affinity (K _d70 M), without changes in binding stoichiometry. Enzyme–FA complex formation led to a higher increase of the fluorescence than the phosphorescence band of the ligand, consistent with the fact that the N(2)–H tautomer is characterized by a weaker phosphorescence than the N(1)–H tautomeric form. These results show, for the first time, the application of phosphorescence spectroscopy to the identification of the tautomeric form of the inhibitor bound by the enzyme.Abbreviations Ado adenosine - FA formycin A [3-(-d-ribofuranosyl)-7-aminopyrazolo[4,3-d]pyrimidine] - FB formycin B - FRET fluorescence resonance energy transfer - Guo guanosine - Hepes N-(2-hydroxyethyl)piperazine-N-(2-ethanesulfonic acid) - Ino inosine - m¹FA N(1)-methylformycin A - m²FA N(2)-methylformycin A - m⁴FA N(4)-methylformycin A - m⁶FA N(6)-methylformycin A - m⁷Guo N(7)-methylguanosine - P_i orthophosphate - PNP purine nucleoside phosphorylase - Xao xanthosine     

Redox chemistry of tungsten and iron–sulfur prosthetic groups in Pyrococcus furiosus formaldehyde ferredoxin oxidoreductase

Formaldehyde oxidoreductase (FOR) is one of the tungstopterin iron–sulfur enzymes of the five-membered family of aldehyde oxidoreductases in the hyperthermophilic archaeon Pyrococcus furiosus. In dye-mediated equilibrium redox titrations, the tungsten in active P. furiosus FOR is a two-electron acceptor, W(VI/IV). The intermediate, paramagnetic W(V) state can be trapped only by reduction with substrate, with consecutive one-electron intraprotein electron transfer to the single [4Fe–4S]^(2+;+) cluster and partial comproportionation of the tungsten over W(IV, V, VI); this is a stable state in the absence of an external electron acceptor. Electron paramagnetic resonance (EPR) spectroscopy reveals a single “low-potential” W(V) spectrum with g _xyz values 1.847, 1.898, and 1.972, and a [4Fe–4S]⁺ cubane in a spin mixture of S = 1/2 (10%) and S = 3/2 (90%) of intermediate rhombicity (E/D = 0.21, g _real = 1.91). The development of this intermediate in vitro is slow even at elevated temperature and with a nominal 50:1 excess of substrate over enzyme presumably owing to the very unfavorable hydration equilibrium of the formaldehyde/methylene glycol couple with K _D ≈ 10³. Rapid intermediate formation of enzyme at concentrations suitable for EPR spectroscopy (200 μM) is only obtained with extremely high nominal substrate concentration (1 M formaldehyde) and is followed by a slower phase of denaturation. The premise that the free formaldehyde, and not the methylene glycol, is the enzyme’s substrate implies that K _M for formaldehyde is 3 orders of magnitude less that the previously reported value.     

Morphological and ecophysiological variation of the hybrid oak Quercus subpyrenaica (Q. faginea × Q. pubescens)

Natural hybridization is common among oaks. We studied the variability of morphological and ecophysiological variables in the hybrid Quercus subpyrenaica and its assumed parental species Q. faginea and Q. pubescens, which co-occur in NE Spain. To assess the fitness of these taxa we studied several ecophysiological variables (hydraulic conductivity, K_h; hydraulic specific conductivity, K_s; leaf specific conductivity, LSC; water potential corresponding to a 50% loss of conductivity, PLC₅₀; efficiency of light absorption, E_a). We performed a correspondence analysis (CA) to ordinate seedlings, grown under homogeneous environmental conditions, according to their plant and leaf morphology. The CA axis 1 synthesized intra-taxon variability, while the CA axis 2 summarized inter-taxa variability. Q. subpyrenaica showed a wide spectrum of forms, but they were overall closer to those of Q. faginea. We defined three phenotypes within the hybrid based on morphology, which were: (i) the robur group (Qs-r; auriculate leaf base, rounded lobe apex); (ii) Q. pubescens (Qs-p; rounded leaf base, acute lobe apex); and (iii) Q. faginea (Qs-f; acute leaf base, acute-spiny lobe apex). The mean values of K_s and PLC₅₀ arranged the hybrid groups in the same order as the ordination based on leaf morphology. The Qs-r group showed the highest values of K_s and PLC₅₀, while the Qs-f group showed the lowest. Both morphologically and ecophysiologically, the hybrids showed a wide range of values, which spanned and even exceeded the variation of parental taxa.     

2‐Hydroxynaphthalene‐1‐carbaldehyde‐ and 2‐(Aminomethyl)pyridine‐Based Schiff Base CuII Complexes for DNA Binding and Cleavage

Three mononuclear Cu^II complexes, [CuCl(naph‐pa)] ( 1 ), [Cu(bipy)(naph‐pa)]Cl ( 2 ), and [Cu(naph‐pa)(phen)]Cl ( 3 ) ((naph‐pa)=Schiff base derived from the condensation of 2‐hydroxynaphthalene‐1‐carbaldehyde and 2‐picolylamine (=2‐(aminomethyl)pyridine), bipy=2,2′‐bypiridine, and phen=1,10‐phenanthroline) were synthesized and characterized. Complex 1 exhibits square‐planar geometry, and 2 and 3 exhibit square pyramidal geometry, where Schiff base and bipy/phen act as NNO and as NN donor ligands, respectively. CT (Calf thymus)‐DNA‐binding studies revealed that the complexes bind through intercalative mode and show good binding propensity (intrinsic binding constant K_b: 0.98×10⁵, 2.22×10⁵, and 2.67×10⁵ M ^?1 for 1 – 3 , resp.). The oxidative and hydrolytic DNA‐cleavage activity of these complexes has been studied by gel electrophoresis: all the complexes displayed chemical nuclease activity in the presence and absence of H₂O₂. From the kinetic experiments, hydrolytic DNA cleavage rate constants were determined as 2.48, 3.32, and 4.10 h^?1 for 1 – 3 , respectively. It amounts to (0.68–1.14)×10⁸‐fold rate enhancement compared to non‐catalyzed DNA cleavage, which is impressive. The complexes display binding and cleavage propensity to DNA in the order of 3 > 2 > 1 .     

Beijing ambient particle exposure accelerates atherosclerosis in ApoE knockout mice by upregulating visfatin expression

Ambient particulate matter (PM) exposure has been associated with atherosclerosis. However, research on the effect of real-world exposure to ambient PM in regulating visfatin expression in an animal model is very limited. The objective is to investigate whether Beijing ambient PM exposure could accelerate atherosclerosis in ApoE knockout (ApoE^−/−) mice by upregulating visfatin expression. Forty male ApoE^−/− mice were exposed to untreated ambient air (PM group, n = 20) or filtered air (FA group, n = 20), 24 h/day, 7 days/week, for 2 months. During the exposure, the mass concentrations of PM_2.5 and PM₁₀ in the two groups were continuously monitored. Moreover, a receptor source apportionment model was applied to apportion sources of PM_2.5. At the end of the exposure, visfatin in plasma and aorta, biomarkers of inflammation, oxidative stress and lipid metabolism in blood samples, and bronchoalveolar lavage fluid (BALF) were determined, and the plaque area of the atherosclerosis lesions was quantified. PM-exposed mice were significantly higher than FA-exposed mice in terms of plasma visfatin, OxLDL, MDA, serum TC, LDL, TNF-α as well as IL-6, TNF-α, OxLDL, and MDA in BALF, while SOD and GSH-Px activities in plasma and BALF were reduced in PM-exposed mice. Pathological analysis of the aorta demonstrated that the plaque area and visfatin protein in the PM group increased significantly compared to the FA group. Our findings indicate that ambient PM exposure could accelerate atherosclerosis, which is related to visfatin upregulation, as well as the activation of inflammation and oxidative stress.     

Analysis of the Reaction between Formaldehyde and Amide

The reaction between formaldehyde and acetamide which affords a model compound for an amino acid having an amide group was analyzed to investigate the role of formaldehyde as a cross-linking reagent. One of the products was isolated by Sephadex G-10 column chromatography and was identified as N-hydroxymethyl acetamide (FA) by NMR spectrometry and mass spectrometry. Another product, which could not be isolated, was estimated to be N, N-dihydroxymethyl acetamide (F₂A) by kinetic analysis and mass spectrometry. The formation of N, N′-methylene diacetamide was not observed. The mechanism of the reaction between formaldehyde and acetamide was estimated by the kinetic analyses of NMR data, and the rate constants were calculated from the data by the optimization method with a digital computer. On the other hand, formaldehyde cross-linked product was obtained in the reaction of formaldehyde with acetamide and alanine, Its decomposing reaction was analyzed with an NMR spectrometer to study the stability of the formaldehyde cross-linked product. The degradation was dominantly initiated with the release of acetamide.

Consequently, it was estimated that the C–N bond between formaldehyde and amide is so labile that amide-bound formaldehyde does not react further with amides or amines, and that the amide-formaldehyde-amine condensation product is unstable and easily decomposes by releasing the amide.     

Repair pathways independent of the Fanconi anemia nuclear core complex play a predominant role in mitigating formaldehyde-induced DNA damage

The role of the Fanconi anemia (FA) repair pathway for DNA damage induced by formaldehyde was examined in the work described here. The following cell types were used: mouse embryonic fibroblast cell lines FANCA^−/−, FANCC^−/−, FANCA^−/−C^−/−, FANCD2^−/− and their parental cells, the Chinese hamster cell lines FANCD1 mutant (mt), FANCGmt, their revertant cells, and the corresponding wild-type (wt) cells. Cell survival rates were determined with colony formation assays after formaldehyde treatment. DNA double strand breaks (DSBs) were detected with an immunocytochemical γH2AX-staining assay. Although the sensitivity of FANCA^−/−, FANCC^−/− and FANCA^−/−C^−/− cells to formaldehyde was comparable to that of proficient cells, FANCD1mt, FANCGmt and FANCD2^−/− cells were more sensitive to formaldehyde than the corresponding proficient cells. It was found that homologous recombination (HR) repair was induced by formaldehyde. In addition, γH2AX foci in FANCD1mt cells persisted for longer times than in FANCD1wt cells. These findings suggest that formaldehyde-induced DSBs are repaired by HR through the FA repair pathway which is independent of the FA nuclear core complex.     

ARduino-pH Tracker and screening platform for characterization of recombinant carbonic anhydrase in Escherichia coli

Carbonic anhydrase (CA, EC 4.2.1.1) is an ancient enzyme with zinc ion as its active site, which catalyzes the chemical reaction of carbon dioxide (CO₂) to react with water and form bicarbonate ions. Due to its high catalytic efficiency on CO₂ assimilation, CA is expected to use for carbon sequestration in industry. However, the protein expression level, thermostability and high-throughput screening of an active CA are still with difficulty. In this study, the CA from Sulfurihydrogenibium yellowstonense (denoted as SyCA) was selected for overexpressed in Escherichia coli by different pET vectors. The enzymatic properties including thermo-stability, pH tolerance, effect of metal ion, and kinetic parameters were characterized through a novel ARduino-pH Tracker (ART) for monitoring online effectively. The SyCA is thermophilic and acidophilic as it maintains 100% activity at 50°C, while the residual activity is 34.8% after heating at 80°C for 150 min and the optimal pH is 3–5. The kinetic analysis by ART system showed that the k _cat/K _m of free enzyme was 4.4-folds that that of whole cell. On the other hand, the screening platforms as Wilbur–Anderson unit, phenol red indicator and size of colony forming unit have been established to explore CA with higher activity. The high-throughput screening platform is support in direct evolution of CA and further used in the industry.     

血清HE4、FS、SMRP及CA125在卵巢癌患者中的表达及临床意义

目的:探讨血清人附睾蛋白4(HE4)、卵泡抑素(FS)、可溶性间皮素相关蛋白(SMRP)、糖类抗原125(CA125)在卵巢癌患者中的表达水平及临床意义。方法:选取2014年6月-2017年9月我院收治的卵巢癌患者60例作为卵巢癌组,另选取同期收治的卵巢良性肿瘤患者32例作为良性组,选取同期健康体检妇女40例作为对照组,检测三组受试者血清HE4、FS、SMRP、CA125水平,对比三组HE4、FS、SMRP、CA125阳性表达率,并分析血清HE4、FS、SMRP、CA125对卵巢癌的诊断价值。结果:三组受试者的HE4、FS、SMRP、CA125水平整体对比有统计学意义(P0.05),其中卵巢癌组与良性组HE4、FS、SMRP、CA125水平高于对照组,且卵巢癌组高于良性组,差异有统计学意义(P0.05)。三组受试者的HE4、FS、SMRP、CA125阳性表达率整体对比有统计学意义(P0.05),卵巢癌组与良性组HE4、FS、SMRP、CA125阳性表达率高于对照组,且卵巢癌组高于良性组,差异有统计学意义(P0.05)。联合检测的灵敏度高于FS、SMRP单项检测,差异有统计学意义(P0.05),联合检测的特异度高于HE4、FS、SMRP、CA125单项检测,但差异无统计学意义(P0.05)。结论:卵巢癌患者血清HE4、FS、SMRP、CA125水平及阳性表达率均较高,四项指标联合检测可提高诊断卵巢癌的灵敏度及特异度。     

Expression and Changes of Hyperoxidized Peroxiredoxins in Non-Pyramidal and Polymorphic Cells in the Gerbil Hippocampus During Normal Aging

Oxidative stress is one of predisposing factors to age-related neurodegeneration in the brain. In particular, thiol-containing groups are susceptible to oxidative stress, which induces the formation of the disulfide bond and/or hyperoxidized form of thiol-containing proteins. We observed the protein thiol levels in the hippocampal homogenates and also investigated changes in hyperoxidized form of peroxiredoxin (Prx–SO₃) immunoreactivity and proteins levels in the gerbil hippocampal subregions during normal aging. Levels of total thiol, non-protein thiol, and protein thiol were decreased in the hippocampal homogenates with age. At post-natal month 1 (PM 1), pyramidal and non-pyramidal cells in the hippocampal CA1 region (CA1) showed Prx–SO₃ immunoreactivity. Prx–SO₃ immunoreactivity in the cells was decreased by PM 12, thereafter, Prx–SO₃ immunoreactivity in the cells increased again with age. In the CA2/3, Prx–SO₃ immunoreactivity in pyramidal cells was not significantly changed; however, the immunoreactivity in pyramidal cells was very low at PM 12. Prx–SO₃ immunoreactivity in the dentate gyrus (DG) was distinctly changed during aging. At PM 1, Prx–SO₃ immunoreactivity in granule and polymorphic cells was weak and strong, respectively. The immunoreactivity in the neurons was decreased with age, not shown in any neurons at PM 12. Thereafter, Prx–SO₃ immunoreactivity increased again with age. In addition, Prx–SO₃ protein level in the hippocampus was lowest at PM 12. These results suggest that thiol-containing proteins are changed during aging and Prx–SO₃ immunoreactivity was different according to cells in the hippocampal subregion during aging.     

Optimization of peptidyl allyl sulfones as clan CA cysteine protease inhibitors

This research investigates the synthesis and inhibitory potency of a series of novel dipeptidyl allyl sulfones as clan CA cysteine protease inhibitors. The structure of the inhibitors consists of a R₁-Phe-R₂-AS-Ph scaffold (AS?=?allyl sulfone). R₁ was varied with benzyloxycarbonyl, morpholinocarbonyl, or N-methylpiperazinocarbonyl substituents. R₂ was varied with either Phe of Hfe residues. Synthesis involved preparation of vinyl sulfone analogues followed by isomerization to allyl sulfones using n-butyl lithium and t-butyl hydroperoxide. Sterics, temperature and base strength were all factors that affected the formation and stereochemistry of the allyl sulfone moiety. The inhibitors were assayed with three clan CA cysteine proteases (cruzain, cathepsin B and calpain I) as well as one serine protease (trypsin). The most potent inhibitor, (E)-Mu-Phe-Hfe-AS-Ph, displayed at least 10-fold selectivity for cruzain over clan CA cysteine proteases cathepsin B and calpain I with a k_obs/[I] of 6080?±?1390?M^?1s^?1.     

The influence of fermentation conditions and recycling on the phospholipid and fatty acid composition of the brewer’s yeast plasma membranes

Phospholipid (PL) and fatty acid (FA) compositions of the plasma membrane (PM), as well as the FA composition of the PM phosphatidylcholine (PtdCho) and phosphatidylethanolamine (PtdEtn) in the pure culture (zero generation) and the first three recycled generations of the bottom-fermenting brewer’s yeast, have been determined. The PL composition differed markedly among the generations; in the zero generation, phosphatidylinositol (PtdIns) was the main PL, accounting for 27% of total PLs, followed by phosphatidic acid and PtdCho. In all recycled generations, the main PL was PtdCho with a marked increase in the first generation compared with the zero (32% and 20%, respectively), followed by PtdIns in the first and second generations. In the FA composition of the PM, 22 FAs were identified, ranging from C₁₀ to C₂₆. The compositions of the PM FAs, as well as those of PtdCho and PtdEtn, were characterised by a high preponderance of C₁₆ acids. Saturated FAs prevailed in the zero generation, whilst unsaturated prevailed in the first and second generation. Although the profiles of FAs in PtdCho and PtdEtn were similar, some marked differences were observed, pointing out to their specific functions in the regulation of membrane properties.     

Inhibitory effects of benzimidazole containing new phenolic Mannich bases on human carbonic anhydrase isoforms hCA I and II

New phenolic mono and bis Mannich bases incorporating benzimidazole, such as 2-(aminomethyl)-4-(1H-benzimidazol-2-yl)phenol and 2,6-bis(aminomethyl)-4-(1H-benzimidazol-2-yl)phenol were synthesized starting from 4-(1H-benzimidazol-2-yl)phenol. Amines used for the synthesis included dimethylamine, pyrrolidine, piperidine, N-methylpiperazine and morpholine. The CA inhibitory properties of these compounds were tested on the human carbonic anhydrase (CA, EC 4.2.1.1) isoforms hCA I and hCA II. These new compounds, as many phenols show moderate CA inhibitory properties.     

Identification and characterization of a locus putatively involved in colanic acid biosynthesis in Vibrio alginolyticus ZJ-51

Colanic acid (CA) is a group I extracellular polysaccharide (EPS) that contributes to resistance against adverse environments in many members of the Enterobacteriaceae. In the present study, a genetic locus EPS_C putatively involved in CA biosynthesis was identified in Vibrio alginolyticus ZJ-51, which undergoes colony morphology variation between translucent/smooth (ZJ-T) and opaque/rugose (ZJ-O). EPS_C in ZJ-T carries 21 ORFs and resembles the CA cluster of Escherichia coli K-12. The deletion of EPS_C led to decreased EPS and biofilm formation in both genetic backgrounds but no alternation of lipopolysaccharide. The loss of this locus also changed the colony morphology of ZJ-O on the 2216E plate and reduced the motility of ZJ-T. Compared with ZJ-T, ZJ-O lacks a 10-kb fragment (eps^T) in EPS_C containing homologs of wecA, wzx and wzy that are essential for O-antigen synthesis. However, the deletion or overexpression of eps^T resulted in no change of colony morphology, biofilm formation or EPS production. This study reported at the first time a genetic locus EPS_C that may be involved in colanic acid synthesis in V. alginolyticus ZJ-51, and found that it was related to EPS biosynthesis, biofilm formation, colony morphology and motility, which may shed light on the environmental adaptation of the vibrios.     

The Relationship between Structure and Activity of Taurolin

Taurolin [Bis(1,1-dioxo-perhydro-1,2,4 thiadiazinyl-4)methane] is an antimicrobial compound formed by the condensation of two molecules of taurine with three of formaldehyde. It has been suggested that it releases formaldehyde in contact with bacteria. Evidence from TLC, HPLC and NMR spectroscopy indicates that taurolin is mostly hydrolysed in aqueous solution to release one molecule of formaldehyde and two monomeric molecules (1,1-dioxo-perhydro-1,2,4-thiadiazine and its carbinolamine derivative). A stable equilibrium is established. Antibacterial activity is not entirely due to adsorption of free formaldehyde but also to reaction with a masked (or latent) formaldehyde, as the activity of taurolin is greater than formaldehyde. The monomer is only slightly active by comparison.     

Haltbarkeit von Silagen und die sie beeinflussenden Faktoren

Content of p‐coumaric (PCA) and ferulic (FA) acid was determined by the HPLC method in fourteen forbs with a potential utilization as forages (range of nutrient content per kg DM: 100 to 244gCP, 339 to 528 g NDF and 180–369 g ADF. PCA and FA were determined after methanol extraction in four fractions: free phenolic acids extracted into ether, ester‐bound phenolic acids after alkaline hydrolysis, glycoside‐bound phenolic acids after acid hydrolysis, and cell wall‐bound phenolic acids after alkaline hydrolysis of the solid residue after the extraction with methanol.

Cell wall‐bound phenols were quantitatively the most important fraction (50% of total PCA and 47% of total FA, respectively). The differences among plant species in total PCA plus FA content were significant (F‐value 775, P < 0.01). The range of total phenol content was 31.3 to 416.3 mg/100g DM, the overall mean was 84 mg/100g DM.

Content of phenolic acids was correlated neither with ADF, NDF or ADL content (R ² = 1–3%, P > 0.05) nor with CP degradability (R ² = 3% and R ² = 1% for PCA and FA, respectively, P > 0.05).

95.4% and 30.9% of total PCA, and 98.3% and 72.5% of total FA disappeared in the rumen from the sample of Glechoma hederacea (species with the highest phenol content) and from the sample of Galium aparine (species with low phenol content), respectively, within the four hour incubation interval.

It is presumed that in comparison with grasses, PCA and FA concentration in tested forbs represents a much lower risk in potential ruminant nutrition.