Investigation on colour,fastness properties and HPLC‐DAD analysis of silk fibres dyed with Rubia tinctorium L. and Quercus ithaburensis Decaisne

Silk fabric samples were dyed according to the various procedures using madder (Rubia tinctorium L.) and walloon oak (Quercus ithaburensis Decaisne) extracts. The colour coordinates, K/S, as well as wash, light, rub and perspiration fastness values were determined. A reversed‐phase high‐performance liquid chromatography with diode‐array detection was utilised for the identification of the components of dyes present in the dyed fabrics and in the plant extracts.     

Natural dyes in madder (Rubia spp.) and their extraction and analysis in historical textiles

Textiles coloration using extracts from the roots of various madder species (Rubia spp.) has been performed for centuries. To date, 68 anthraquinone colorants have been detected in Rubia spp. used to dye textiles. Many of these dyes are sensitive to hydrolysis and degradation from enzymes, extraction chemicals and processing temperatures, and are often overlooked as colorants in historical textiles. Conclusions in literature of the past 30 years concerning colorants present in planta and, particularly, in madder‐dyed artefacts are being challenged as new analysis methods are developed. The recent advent of ‘soft’ extraction techniques has demonstrated that anthraquinone glycosides and other sensitive molecules, such as carboxylated compounds, need to be preserved; this valuable chemical information embedded in the dye structure may be lost if extraction and analysis is too harsh. Some compounds thought to be present in madder and madder‐dyed artefacts are in fact degradation products resultant from the extraction process, and degradation pathways have been developed to better understand the reactivity and stability of these compounds. Detailed analysis of dyes in textile artefacts can reveal important cultural and heritage information concerning historical textiles relative to the specific dye species, the area of the world where this may have grown, how and where it was dyed, and, perhaps, where it was traded. Understanding the precise molecular structure of these dyes and their chemical reactivity is important to provide knowledge of their interactions with physical substrates, such as textile fibres, which could be used to develop superior techniques for analysis of artefacts.     

Investigation of alkaline hydrolysis of phthalimide‐based azo dye and its application to after‐treatment optimisation for high‐fastness dyeing of polyesters

4‐Amino‐N‐methylphthalimide was prepared from phthalimide for use as a diazo component and was coupled with N,N‐Diethylaniline to produce a phthalimide‐derived monoazo disperse dye. The pseudo first‐order kinetics were confirmed by analyzing the dye hydrolysis under alkaline conditions using high performance liquid chromatography, and the optimal dyeing pH and alkali‐clearing conditions were proposed. The synthesised phthalimidyl disperse dyes exhibited excellent colour fastness with a mild alkaline after‐treatment instead of reduction clearing which results in a high biological oxygen demand and pH in conventional disperse dyeing wastewater.     

Development of a pre‐purification process for homoharringtonine

A novel pre‐purification method was developed for producing homoharringtonine from Cephalotaxus koreana, giving high purity and yield. The simple, efficient procedure involved biomass extraction, liquid–liquid extraction, and synthetic adsorbent treatment, followed by low‐pressure chromatography. The use of active clay treatment and silica gel low‐pressure chromatography in the pre‐purification process allowed for the rapid, efficient separation of homoharringtonine from interfering compounds and, compared with alternative processes, increased the yield and purity of crude homoharringtonine for subsequent high‐performance liquid chromatography (HPLC) purification. Homoharringtonine of over 52% purity could be obtained simply with high yield from biomass using this pre‐purification method, while minimizing solvent use and the scale and complexity of HPLC operations for homoharringtonine purification. Copyright © 2005 Society of Chemical Industry     

Production and Quantitative Analysis of Trehalose Lipid Biosurfactants Using High‐Performance Liquid Chromatography

Trehalose lipids (THL) are glycolipid biosurfactants having a wide range of biomedical and environmental applications. Low yield, high purification cost, and the absence of a valid analytical method hinders their application. Hence, in the present study a simple, rapid, and reliable isocratic high‐performance liquid chromatography (LC) method was developed for the identification and quantification of trehalose lipid biosurfactants from Rhodococcus erythropolis. THL having a minimum surface tension of 24 mN m^?1 and a critical micellar concentration of 25 mg L^?1 were produced using hexadecane as a substrate. A standard was developed from the crude THL mixture using thin‐layer chromatography and column chromatography and its structure was confirmed using infrared spectroscopy, mass spectroscopy, and ¹H NMR. A high performance liquid chromatography (HPLC) method for quantitation was developed using a C18 column with water/acetonitrile (80:20) as the mobile phase at a 1 mL min^?1 flow rate and UV detection at 208 nm. This method was validated according to International Conference on Harmonization guidelines for linearity, precision, accuracy, robustness, LOD, and LOQ. This method was found to be linear over the range 10‐50 μg m L^?1 (r² =0.99801), precise, accurate, and robust. This method can detect minimum 3.2 μg mL^?1 and quantify minimum 9.2 μg mL^?1 of THL. Standards were developed from R. erythropolis, broth and purified standard trehalose 6,6′‐dimycolate from Mycobacterium bovis, having the same retention time of 2.0 min. The yield was calculated from the calibration curve and was found to be 25 g L^?1.     

Efficient purification and morphology characterization of paclitaxel from cell cultures of Taxus chinensis

Paclitaxel was purified from cell cultures of Taxus chinensis by a combination of extraction, low‐pressure chromatography, precipitation and HPLC. A crude extract (purity 6.9%) was obtained by methanol extraction of plant cell cultures, followed by liquid–liquid extraction using dichloromethane. The extract was purified to greater than 32% with a 97% step yield by low‐pressure chromatography. After acetone/pentane precipitation, the resulting purity and step yield were 75.8% and 97.4%, respectively. High performance liquid chromatography steps, which were composed of an HPLC step with column‐packed ODS and an HPLC step with column‐packed silica, were applied to give over 99.5% purity with high yield. Amorphous paclitaxel with a fine particle size, which has a solubility advantage compared with the stable crystalline form, was obtained by dissolving in dichloromethane, followed by spray‐drying. Copyright © 2004 Society of Chemical Industry     

Effects of Temperature and Heating Time on the Formation of Four Toxic α,β‐Unsaturated‐4‐Hydroxyaldehydes in Vegetable Oils

The formation of four α,β‐unsaturated hydroxyaldehydes, 4‐hydroxy‐2‐trans‐hexenal (HHE), 4‐hydroxy‐2‐trans‐octenal (HOE), 4‐hydroxy‐2‐trans‐nonenal (HNE), and 4‐hydroxy‐2‐trans‐decenal (HDE), was detected in commercial corn, soybean, peanut, and canola oils heated for 1, 3, and 5 hours at 145, 165, and 185 °C. These four toxic aldehydes were investigated using high‐performance liquid chromatography (HPLC). These oils were selected based upon different degrees of unsaturations, especially their linoleic and linolenic acid concentrations. To select the appropriate conditions of temperatures and heating times, preliminary experiments were conducted using the thiobarbituric acid assay, which detects the formation of secondary‐oxidation products such as aldehydes and related carbonyl compounds. After various heat treatments, the formation of HHE, HOE, HNE, and HDE was detected as 2,4‐dinitrophenyl hydrazine derivatives using HPLC. In general, HHE, HOE, HNE, and HDE formation increased in all four oils with higher temperatures, longer heating times, and higher concentrations of linoleic and linolenic acids in the oils. The formation of HNE in the oils was mostly much higher than the other three 4‐hydroxyaldehyde isomers under the same conditions.     

Platelet‐activating factor detection,metabolism, and inhibitors in the ethanologenic bacterium Zymomonas mobilis

Platelet‐activating factor (PAF) is a signaling phospholipid with a significant physiological role in multicellular and unicellular organisms, including fermentative organisms such as yeast. Zymomonas mobilis is an ethanologenic α‐proteobacterium currently studied for bioethanol production. In order to examine the presence of PAF and/or PAF inhibitors in Z. mobilis, a new one‐step high performance liquid chromatography (HPLC) separation procedure of total lipids was performed, using a C8 reversed‐phase semi‐preparative column. According to this method and to bioassays based on washed rabbit platelet aggregation, two lipid molecules with PAF‐like activity and same retention times as those of standard PAF were detected; electron‐spray ionization MS and MS/MS analysis revealed that they share similar structure with 16:0 and 18:0 PAF. Furthermore, other lipids extracted from Z. mobilis were found to exhibit a potent anti‐PAF activity. Enzyme activities indicative of key PAF biosynthetic enzymes, such as dithiothreitol‐insensitive cholinephosphotransferase (PAF‐CPT) and lyso‐PAF acetyltransferase were detected in Z. mobilis homogenates. As for PAF degradation, activity similar to that of PAF acetylhydrolase was also discovered. Overall, the presence of PAF, PAF‐specific inhibitors, and enzyme activities relating to PAF metabolism, suggests that PAF may play an intrinsic role in this biotechnological organism. Practical applications: Z. mobilis is a platform microorganism for bioethanol production and a potential source of high‐value chemicals of interest to the food and healthcare industries. Further investigation of PAF's role is bound to affect applications involving this and other biotechnological organisms. The finding that Z. mobilis lipids exhibit potent anti‐PAF activity opens up prospects for their identification, overproduction and pharmaceutical use. The presented HPLC method for lipid fractionation accomplishes a one‐step separation of lipids from dense samples, which may be successfully employed to other lipid‐rich sources such as blood.     

Arabinosylated phenolics obtained from SO2‐steam‐pretreated sugarcane bagasse

A pentose‐rich hydrolysate fraction obtained by extraction of steam‐pretreated sugarcane bagasse was analysed with regard to dissolved phenolics. The liquid obtained after steam pretreatment (2% SO₂ (w/w) at 190 °C for 5 min) was divided into two parts: one containing dissolved compounds originating from hemicellulose (with xylose as the dominating compound), and the other containing predominantly dissolved compounds originating from lignin. Using nuclear magnetic resonance, the main dissolved compounds originating from lignin were identified as the glycosylated aromatics, 5‐O‐(trans‐feruloyl)‐L‐Arabinofuranose and 5‐O‐(trans‐coumaroyl)‐L‐Arabinofuranose, together with p‐coumaric acid and small amounts of more common free phenolics such as p‐hydroxybenzaldehyde, p‐hydroxybenzoic acid and vanillin. The phenolic compounds were analysed and quantified using reversed‐phase high‐performance liquid chromatography. The findings show that SO₂ steam explosion opened up new degradation pathways during lignin degradation. Copyright © 2012 Society of Chemical Industry     

Drosophila Fed ARA and EPA Yields Eicosanoids, 15S-Hydroxy-5Z,8Z, 11Z, 13E-Eicosatetraenoic Acid,and 15S-Hydroxy-5Z,8Z,11Z,13E,17Z-Eicosapentaenoic Acid

Drosophila melanogaster has been a widely used as a model system for its powerful genetic tools. However, it remains to be illustrated if Drosophila can be used to examine the biochemical and physiological metabolism of eicosanoids. Thus, the analysis on the metabolism of C20 polyunsaturated fatty acids (PUFA) in Drosophila was implemented with high performance liquid chromatography tandem mass spectrometry (UPLC–MS/MS). Fatty acid (FA) analysis of the whole body, head, and thorax‐abdomen in Drosophila showed C20 PUFA could only be found in Drosophila fed diets supplemented with eicosapentaenoic acid (EPA) and arachidonic acid (ARA), but not in Drosophila fed base diets. The C20 PUFA were found in abundance in the head. Drosophila fed ARA‐ and EPA‐supplemented diets yielded 15S‐hydroxy‐5Z,8Z,11Z,13E‐eicosatetraenoic acid [15(S)‐HETE] and 15S‐hydroxy‐5Z,8Z,11Z,13E,17Z‐eicosapentaenoic acid [15(S)‐HEPE], respectively, while other sampled eicosanoids could not be detected. Similar results were obtained by incubating fly tissue supplemented with ARA or EPA. Furthermore, a genome sequence scan indicated that no gene encoding the key enzymes synthesizing eicosanoids were found in Drosophila. These findings demonstrate that Drosophila may possess a special lipid metabolic system, which is different from mammals.     

Ultra‐Performance Liquid Chromatography‐Mass Spectrometry Analysis of Free and Esterified Oxygenated Derivatives from Docosahexaenoic Acid in Rat Brain

Docosahexaenoic acid (DHA), a prominent long‐chain fatty acid of the omega‐3 family, is present at high amount in brain tissues, especially in membrane phospholipids. This polyunsaturated fatty acid is the precursor of various oxygenated lipid mediators involved in diverse physiological and pathophysiological processes. Characterization of DHA‐oxygenated metabolites is therefore crucial for better understanding the biological roles of DHA. In this study, we identified and measured, by ultrahigh‐performance liquid chromatography coupled with tandem mass spectrometry, a number of oxygenated products derived from DHA in exsanguinated and nonexsanguinated brains. These metabolites were found both in free form and esterified in phospholipids. Interestingly, both (R)‐ and (S)‐monohydroxylated fatty acid stereoisomers were observed free and esterified in phospholipids. Monohydroxylated metabolites were the main derivatives; however, measurable amounts of dihydroxylated products such as protectin DX were detected. Moreover, exsanguination allowed discriminating brain oxygenated metabolites from those generated in blood. These results obtained in healthy rats allowed an overview on the brain oxygenated metabolism of DHA, which deserves further research in pathophysiological conditions, especially in neurodegenerative diseases.     

Magnetic molecularly imprinted polymer nanoparticles coupled with high performance liquid chromatography for solid‐phase extraction of carvedilol in serum samples

Herein, we report a magnetic molecularly imprinted polymers (m‐MIPs) using Fe₃O₄ as a magnetic component, carvedilol as a template molecule for the solid‐phase extraction (MISPE) as the sample clean‐up technique combined with high‐performance liquid chromatography (HPLC) and for the controlled release of carvedilol at different pH values of 1.0 (simulated gastric fluid), 6.8 (simulated intestinal fluid), and 7.4 (simulated biological fluid). The adsorption kinetics was modeled with the pseudo‐first‐order and pseudo‐second‐order kinetics, and the adsorption isotherms were fitted with Langmuir and Freundlich models. The performance of the m‐MIPs for the controlled release of carvedilol was assessed and results indicated that the magnetic MIPs also have potential applications in controlled drug release. Furthermore, the m‐MIPs were applied to the extraction of carvedilol from human blood plasma samples. Carvedilol can be quantified by this method in the 2–350 μg L^?1 concentration range. The limit of detection and limit of quantification in plasma samples are 0.13 and 0.45 μg L^?1. The results from HPLC showed good precision (3.5% for 50.0 μg L^?1) and recoveries (between 85 and 93) using m‐MIP from human plasma samples. © 2014 Wiley Periodicals, Inc. J. Appl. Polym. Sci. 2014 , 131, 41209.     

A Modified Method for the Determination of N‐Nitrosodiethanolamine in Coconut Diethanolamide Using HPLC with Dual‐Wavelength UV–Vis Detector

A simple and novel method based on high‐performance liquid chromatography with dual‐wavelength ultraviolet detection at 234 and 254 nm has been developed for the determination of underivatized N‐nitrosodiethanolamine in coconut diethanolamide. The correlation coefficient obtained shows that the method is correct.     

Cloud Point-Dispersive Liquid–Liquid Microextraction for Extraction of Organic Acids from Biological Samples

A new method combining cloud point extraction (CPE) with dispersive liquid–liquid microextraction (DLLME) named “cloud point‐dispersive liquid–liquid microextraction (CP‐DLLME)” was presented in this work for the first time for the determination of organic acids as model compounds in biological samples using high performance liquid chromatography and UV detection (HPLC–UV). Water (disperser solvent) containing tert‐octylphenol ethoxylate (7.5EO) as extraction solvent, was rapidly injected into a warmed sample solution and cloudy state formed immediately. After that, phase separation was performed by centrifugation. The surfactant‐rich phase was diluted with acetonitrile and injected into a HPLC–UV apparatus. The influence of several important parameters on the extraction efficiencies was evaluated. Under optimized experimental conditions, the calibration graphs were linear in the range of 0.06–1,500 µg L^?1 for target analytes. Coefficient of determination (r²) ranged from 0.9985 to 0.9994. The limits of detection were in the range of 0.05–17.1 µg L^?1. The new method was successfully applied with satisfactory results for analysis of target analytes in spiked samples. The relative mean recoveries of the spiked samples ranged from 91.8 to 107.1 % with relative standard deviations in the range of 2.1 to 4.3 %.     

Separation of Mupirocin by Normal Phase Liquid Chromatography (NPLC)

Mupirocin is an antibiotic from Pseudomonas fluorescens used topically against Staphylococci infections. There are many patented strategies which are proposed for separation of the antibiotic from the fermentation broth comprising of liquid-liquid extraction and hydrophobic chromatography. The paper demonstrates the use of native silica, as used in flash chromatography, as adsorbent for normal phase liquid chromatography of mupirocin. Mobile phase for elution was acidified n-hexane: ethyl acetate (10/90 v/v). The method achieved a yield of 66% relative to the mupirocin source and a concentration factor of 13. Anti-microbial assays, high performance liquid chromatography and Fourier transform infrared spectroscopy has been used to confirm the identity of the antibiotic after chromatographic separation. An alternative route to isolation of mupirocin using the polar sorbent has been suggested.     

Propylene oligomers: extraction methods and characterization by FTIR,HPLC, and SEC

Propylene oligomers were isolated from polymer matrix by dissolution precipitation and Soxhlet methods and characterized by Fourier transform infrared spectrometry, ultraviolet, high‐performance liquid chromatography, and gel permeation chromatography. Both extracts showed that these hydrocarbon chemicals have a maximal absorption at 210 nm and are eluted from a C8 column with a strong mobile phase (tetrahydrofuran). However, their average molecular weights are different depending upon the quality of extraction: the fraction obtained by the dissolution‐precipitation method is homogeneous in molecular weight, whereas the one obtained by Soxhlet extraction has a higher polydispersity index (M_n /M_w ). The specific migration test of propylene oligomers in a food simulant (isooctane) shows total diffusion within 60 min. © 1999 John Wiley & Sons, Inc. J Appl Polym Sci 71: 371–375, 1999     

Optimizing Microwave‐Assisted Extraction Conditions to Obtain Phenolic‐Rich Extract from Chromolaena odorata Leaves

Phenolic compounds are secondary metabolites that are mainly responsible for different pharmacological activities of plant extracts. In this study, microwave‐assisted extraction (MAE) variables were optimized for the extraction of phenolic compounds from Chromolaena odorata leaves by using a Box‐Behnken design of response surface methodology. The concentration of polyphenols and functional characteristics of the extracts were identified by using liquid chromatography quadrupolar time‐of‐flight mass spectrometry and FTIR analyses, respectively. The obtained results indicated the MAE conditions for the optimal recoveries of the total phenolic content and total flavonoid content from C. odorata leaves. The results reveal that the C. odorata leaf is enriched with phenolic compounds.     

Lipidomic Study of Precursors of Endocannabinoids in Freshwater Bryozoan Pectinatella magnifica

Freshwater bryozoan Pectinatella magnifica was collected from a sand pit (South Bohemia). The total lipids after extraction from lyophilized bryozoans were analyzed using high‐performance liquid chromatography/high‐resolution negative tandem electrospray mass spectrometry. A total of 19 lipid classes were identified, including N‐acyl‐substituted phospholipids, that is, N‐acylphosphatidylethanolamine and N‐acylphosphatidylserine in their plasmenyl forms. Based on gas chromatography/mass spectrometry of 3‐pyridylcarbonyl (picolinyl) esters, a very unusual fatty acid was identified, namely 24:7n‐3 (all‐cis‐3,6,9,12,15,18,21‐tetracosaheptaenoic acid). The presence of polyunsaturated fatty acids in individual classes is very specific: arachidonic and eicosapentaenoic acids being predominantly bound as amides in N‐acyl phospholipids, that is, diacyl‐N‐acylphosphatidylethanolamines (NAPtdEtn), plasmenyl‐N‐acylphosphatidyl ethanolamines (PlsNAPtdEtn), diacyl‐N‐acylphosphatidylserines (NAPtdSer), and plasmenyl‐N‐acylphosphatidylserines (PlsNAPtdSer). While 24:6n‐3 was identified in the sn‐2 position of several phospholipids, 24:7n‐3 was identified in only two plasmalogens, that is, PlsNAPtdEtn and PlsNAPtdSer. Thanks to the tandem mass spectrometry, we managed to identify the position of all acyl groups in both diacyl‐ and also in alkenyl‐acyl‐(plasmenyl) molecular species of N‐acylphospholipids. The identification of the molecular species of N‐acyl‐substituted phosphatidylethanolamine and phosphatidylserine, including their plasmalogen forms, in the freshwater bryozoan P. magnifica has enabled the identification of endogenous cannabinoid precursors.     

Mahkota Dewa Subcritical Water Extraction Process: Experimental and Molecular Dynamics Simulation Study

Subcritical water extraction and molecular dynamics simulation were performed to investigate mangiferin and antioxidant extraction from Mahkota Dewa fruits at different operating temperatures. The mangiferin yield and antioxidant activity were analyzed using high‐performance liquid chromatography and 2‐diphenyl‐1‐picrylhydrazyl assay method, respectively. The diffusivity and intermolecular interactions were determined by mean squared displacement (MSD) and radial distribution function (RDF) analysis, respectively. The temperature exerts a momentous effect on mangiferin yield and antioxidant activity of the extract. The MSD result showed an increment in diffusivity coefficient of mangiferin with temperature. The RDF analysis revealed hydrogen bonding formations between mangiferin and water through O_H2O^??H_MR4(OH1) interaction that plays a role in the extraction process.     

New amoxicillin–poly(lactic acid)‐based conjugates: synthesis and in vitro release of amoxicillin

Long‐term antibiotic treatments are required to cure many diseases. Coupling a bioactive compound to a biocompatible polymer offers, in general, many advantages such as better stabilization of drug and controlled release. The work reported deals with the synthesis of new conjugates based on amoxicillin and oligomers of biocompatible and biodegradable poly(lactic acid), as well as release studies of amoxicillin. These new conjugates were obtained via a Curtius rearrangement or acyl chloride activation, leading to substituted urea or amide bonds between amoxicillin and polymer, respectively. Structures of the conjugates were assessed using Fourier transform infrared and ¹H NMR spectroscopy, double‐detection size exclusion chromatography and electrospray ionization mass spectrometry. In vitro release profiles of amoxicillin in phosphate buffered saline were determined using high‐performance liquid chromatography, and the release rates of amoxicillin from the two conjugates were compared. Copyright © 2010 Society of Chemical Industry