Your search keyword '"analytical_chemistry"' showing total 382 results

1. Virtual screening of potential anticancer drugs based on microbial products

Author

Jan Stourac, David Bednar, Jiri Damborsky, Natalie M. Hendrikse, and Gaspar Pinto

Subjects

analytical_chemistry, Background information, 0303 health sciences, Cancer Research, Virtual screening, Computer science, In silico, Antineoplastic Agents, Computational biology, Ligands, 3. Good health, Cancer treatment, 03 medical and health sciences, 0302 clinical medicine, Workflow, Docking (dog), Drug development, 030220 oncology & carcinogenesis, Molecular targets, Humans, Screening tool, 030304 developmental biology

Abstract

The development of microbial products for cancer treatment has been in the spotlight in recent years. In order to accelerate the lengthy and expensive drug development process, in silico screening tools are systematically employed, especially during the initial discovery phase. Moreover, considering the steadily increasing number of molecules approved by authorities for commercial use, there is a demand for faster methods to repurpose such drugs. Here we present a review on virtual screening web tools, such as publicly available databases of molecular targets and libraries of ligands, with the aim to facilitate the discovery of potential anticancer drugs based on microbial products. We provide an entry-level step-by-step description of the workflow for virtual screening of microbial metabolites with known protein targets, as well as two practical examples using freely available web tools. The first case presents a virtual screening study of drugs developed from microbial products using Caver Web, a web tool that performs docking along a tunnel. The second case comprises a comparative analysis between a wild type isocitrate dehydrogenase 1 and a mutant that results in cancer, using the recently developed web tool PredictSNPOnco. In summary, this review provides the basic and essential background information necessary for virtual screening experiments, which may accelerate the discovery of novel anticancer drugs.

Published

2022

2. Adsorptive removal and catalytic performance of metal-organic frameworks containing mixed azolium-bipyridine ligand

Author

Nadia Gholampour, Chizoba I. Ezugwu, Shima Rahmdele, Ali Ghanadzadeh Gilanie, and Francis Verpoort

Subjects

analytical_chemistry

Abstract

Two ligands, 1, 3-bis(4-carboxyphenyl)imidazolium chloride and 4, 4՛-bipyridine, were employed to prepare nickel and zinc azolium based MOFs, 1 and 2 by the mixed ligand solvothermal approach. The positively charged azolium moieties in the imidazolium linker resulted in a charged environment in the as-synthesized frameworks. As a result, 1 and 2 demonstrated preferential adsorption of CO2 over methane molecules in the gas phase adsorption due to the higher quadruple moment of CO2, which interacts more with the positively charged frameworks. Besides, in aqueous media, 1 and 2 exhibited incredible adsorption efficiency for anionic dyes. In the following, MOF 1 was metallated at the carbene site of the azolium linker to generate the novel heterogeneous catalyst 1-Pd, which was successfully applied for Sonogashira and Suzuki-Miyaura coupling reactions without losing its activity after three cycles.

Published

2022

3. Studies on the Effects of Process Conditions on Separation of B1, B2 and B3 Vitamin Mixture Using HILIC and RPLC Chromatography

Author

Marcin Chutkowski, Piotr Ziobrowski, Mateusz Przywara, Justyna Kamińska, and Wojciech Zapała

Subjects

analytical_chemistry, Complementary and alternative medicine, Pharmaceutical Science, Pharmacology (medical), HILIC chromatography, RPLC chromatography, B1 vitamin, B2 vitamin, B3 vitamin

Abstract

In this work, a series of experiments on the retention of B1 (riboflavin), B2 (thiamine) and B3 (nicotinic acid) vitamins in the HILIC and RPLC conditions have been performed involving the effects of organic modifier type and content, pH of the eluent and buffering salt (ammonium acetate) concentration in the mobile phase as well as temperature of the system. For the needs of this study, three columns of different features have been chosen: Acclaim™ Mixed–Mode HILIC–1 (Dionex, Sunnyvale, CA, USA), Eurospher II 100–5 HILIC (Knauer, Berlin, Germany) and the RPLC column Nucleodur® C18 Gravity-SB (Macherey-Nagel, Duren, Germany). The influence of acetonitrile and methanol content in the eluent and process temperature have been tested and, based on that, the most promising systems have been selected regarding the possible separation of the vitamin mixture. Both the pH and buffering salt concentrations in the eluent have been adjusted in order to indicate the most effective system, which turned out to be the one involving the Nucleodur column and the eluent with 90% methanol, at pH 6 and Cbuff = 20 mmol/dm3, which enables separation of the mixture within a time as short as 2.5 min at a 1.0 mL/s flowrate in isocratic conditions.

Published

2022

4. Cyclic voltammogram analysis of the 3,3´- (1,4-phenylene) perchlorates

Author

Ahmad Alkhawaldeh

Subjects

analytical_chemistry

Abstract

As a consequence of a three-stage synthesis from terephthalic aldehyde, a series of 3,3 '- (1,4-phenylene) perchlorates including methyl, hydrogen, acetyl, bromio, methoxy and nitro groups (R = Br, H, Me). The matching formazans were reacted with formalin in dioxane in the presence of perchloric acid to produce tetrazin ium salts. Formazans were synthesized by reacting terephthalic aldehyde phenylhydrazone with ar ene diazonium tosylates in a DMF/pyridine combination. The use of ar ene diazonium tosylates greatly simplified the separation and purification of formazans. The p henylhydrazone was produced in aqueous dioxane using the usual approach from terephthalic aldehyde and phenylhydrazine/hydrochloric acid. Individual f ormazans and tetrazinium perchlorates were isolated and characterized by elemental analysis, IR, NMR, UV spectroscopy. The electrochemical reduction of tetrazinium perchlorates was investigated using cyclic voltammetry (CV). Thus, all salts in the cathode region have two one-electron reduction peaks, which are connected to the sequential production of a radical cation and a biradical. It was discovered that donor substituents (R: OMe, Me) in the aromatic ring at position 1 accelerate tetrazinium cation reduction, whereas acceptor substituents (R: NO2, COMe,) inhibit this process. On this premise, it was proposed that in the presence of donor substituents in the aromatic ring at position 1, the matching bis-verdazyl radicals should be easily generated. As a result, 3,3'- (1,4-phenylene) perchlorates are possible antecedents of symmetric biradical systems based on verdazyl radicals.

Published

2022

5. A Simulation Independent Analysis of Single- and Multi-Component cw ESR Spectra

Author

Aritro Sinha Roy, Boris Dzikovski, Dependu Dolui, Olga Makhlynets, Arnab Dutta, and Madhur Srivastava

Subjects

analytical_chemistry, ESR spectral analysis, hyperfine decoupling, resolution enhancement, wavelet packet transform, simulation-free spectra analysis, Chemistry (miscellaneous), Materials Chemistry, Electronic, Optical and Magnetic Materials

Abstract

Accurate analysis of continuous-wave electron spin resonance (cw ESR) spectra of biological or organic free-radicals and paramagnetic metal complexes is key to understand their structure-function relationships and electrochemical properties. Current method of analysis based on simulations often fail to extract the spectral information accurately. In addition, such analyses are highly sensitive to spectral resolution and artifacts, users’ defined input parameters and spectral complexity. We introduce a simulation-independent spectral analysis approach that enables broader application of ESR. We use a wavelet packet transform-based method for extracting g values and hyperfine (A) constants directly from cw ESR spectra. We show that our method overcomes the challenges associated with simulation-based methods for analyzing poorly / partially resolved and unresolved spectra, which is a common in most cases. The accuracy and consistency of the method are demonstrated on a series of experimental spectra of organic radicals and copper-nitrogen complexes. We showed that for a two-component system, the method identifies their individual spectral features even at a relative concentration of 5% for the minor component.

Published

2023

6. Efficient Extraction and Purification of Isofraxidin from Acanthopanax Senticosus by DES

Author

Sun, Changhai, Hou, Jinghua, Sun, Shiyuan, Zhang, Yu, Zhang, Xinran, and Mu, Liting

Subjects

analytical_chemistry

Abstract

Acanthopanax senticosus(rupr. rt. Maxim.; AS) is a medicinal plant used in the clinical treatment of cerebrovascular diseases and central nervous system disorders, significantly improving blood lipid levels and endothelial cell function in patients with acute cerebral infarction. Isofraxidin, one of the active ingredients of AS, is the core of the medical effects, and its extraction and purification depend on organic solvents. Deep eutectic solvents (DESs) is a new green solvent, synthesized by intermolecular hydrogen bonding between hydrogen bond donors (HBD) and hydrogen bond acceptors (HBA), which has non-toxic, high separation and purification efficiency, and environmentally friendly compared with traditional organic solvents. In this paper, DES was used for the extraction of isofraxidin from AS. The primary findings demonstrate that the DESs had a viscosity higher than that of ethanol, and even adding a tiny amount of water (about 10%) would trigger solvent redistribution, leading to a considerable reduction in solvent viscosity. In comparison to ethanol, the extraction rate of isofraxidin by DESs was 2-3 times higher. Thus, this work developed a new technique for using green extraction of isofraxidin that has some practical implications.

Published

2023

7. Electrochemical Study of Bismuth Heavy Metals Using the Cyclic Voltammetry Method in Anti-Protozoal

Author

Ahmad Alkhawaldeh

Subjects

analytical_chemistry

Abstract

Bismuth oxides are well-known electro-catalysts in fuel cells systems; they are usually used as anodic materials for the oxidation of low molecular weight alcohols. The utilization of BiO2 and MnO2 as catalysts in the pharmaceutical analysis is analytical method for the determination of heavy metal antibacterial agents in Pharmaceutical Dosage form is developed. The method is based on the voltammetric determination of heavy metal using Bidified platinum electrode by Bismuth oxide. The two components are oxidized at the Bidified electrode surface with the development of current that is linearly proportional to their concentrations in the range of 7.04*10-7- 1*10-3 M heavy metal. The oxidation reaction of the two components is pH-dependent, in which the buffer used is Britton-Robinson at pH = 7.00 where maximum peak current and maximum peak separation is obtained. The regression factors obtained from the calibration curves are 0.9812. The method of analysis was validated, where the limit of detection (LOD) and the limit of quantitation (LOQ) were calculated to be 1.44*10-4 M, 4.36*10-4 M and 1.27*10-4 M, 3.84*10-4 M respectively, the percentage recovery of both components was also calculated to 77 % for heavy metal.

Published

2023

8. Technology Patterns in Nanochemistry Based on GII Indicator

Author

Ahmad Alkhawaldeh

Subjects

analytical_chemistry

Abstract

Trends focused on the Global Innovation Index (GII) as a measure for progress of nanochemistry. This paper provides projections of recent developments in the word in nanochemistry based on the Global Innovation Index as a predictor for certain Arab countries. The GII is an annual ranking of countries by its ability and performance in innovation and is calculated on a basic average from five and two pillars in two sub-indexes, the Innovation Input Index and the Innovation Output Index. Each pillar represents a trait of creativity and consists of up to five measures, with a weighted average formula for measuring their ranking. In 2008, the GII rose to 36.3 in 2016 from 0.5. The GII is smaller than the GII in Arabic countries worldwide. During the years 2013-2016, the worldwide GII was increasing while for the same period, for Arabic countries, this decline could be explained by economic and industrial wars in the Arab region.

Published

2023

9. UV-Spectrophotometric Determination of the Active Pharmaceutical Ingredients Meloxicam and Nimesulide in Cleaning Validation Samples With Sodium Carbonate

Author

Pavel Anatolyevich Nikolaychuk

Subjects

analytical_chemistry, meloxicam, nimesulide, UV-spectrophotometric determination, cleaning validation samples, General Medicine

Abstract

The spectrophotometric methods of determination of the active pharmaceutical ingredients meloxicam and nimesulide were reviewed and a simple UV-spectrophotometric method for the determination of these active pharmaceutical ingredients in industrial equipment cleaning validation samples was proposed. The methods were based on extraction of the residual quantities of meloxicam and nimesulide from the manufacturing equipment surface by the concentrated sodium carbonate solution and the subsequent UV-spectrophotometric determination of the basic forms of the drugs at the wavelength of 362 nm for meloxicam and at 397 nm for nimesulide. The calibration graphs were linear in the range from 5 to 25 mg/L of both nimesulide and meloxicam, the molar attenuation coefficients were 6100 m2/mol for nimesulide and 9100 m2/mol for meloxicam, the limit of detection was 0.8 mg/L for nimesulide and 1.9 mg/L for meloxicam and the limit of quantification was 2.5 mg/L for nimesulide and 5.8 mg/L for meloxicam. The methods were selective with respect to the common excipients, showed a good accuracy (the relative uncertainty did not exceed 7%) and precision (the relative standard deviation did not exceed 4%), did not require lengthy sample preparation or sophisticated laboratory equipment and were suitable for the routine analysis of cleaning validation samples.

Published

2023

10. Pyrolysis of Waste Biomass – Technical and Process Achievements, and Future Development – A Review

Author

Bartłomiej Igliński, Wojciech Kujawski, and Urszula Kiełkowska

Subjects

analytical_chemistry

Abstract

Pyrolysis has been applied in the human economy for many years, and it has become a significant alternative to the production of chemical compounds, including biofuels. The article focuses mostly on recent achievements in the technical and processing aspects of pyrolysis. This review provides an overview of the recent advanced pyrolysis technology used in gas, bio-oil, and biochar production. The key parameters to maximize the production of specific chemical compounds were discussed and considered during the construction of the reactors. The emphasis is put on optimizing the process parameters, technical requirements, and renewable energy use in the process and conception to improve the efficiency of product production. The application of pyrolysis gas, oil, and biochar as valuable chemical compounds are related to the intensifying effects of climate change, biofuel production, and waste management in accordance with the principles of sustainable development.

Published

2023

11. Producing Oxygen on the Moon and Mars for the Future Colonies by Using the Available Chemical Resources

Author

Karami, Danial

Subjects

analytical_chemistry

Abstract

In the near future, the next generation of space travel will be revealed and people are going to live on multiple planets. As a result, because having enough oxygen for human survival is mandatory, in this research article, we are going to find out an appropriate method for producing oxygen on another planet by considering the accessible resources and their limitations.

Published

2023

12. Cyclic voltammogram analysis of the environmental aspects of the use of ferrocenyl carbinols

Author

Ahmad Alkhawaldeh

Subjects

analytical_chemistry

Abstract

Ferrocene and its derivatives have ecologically effective antidetane properties. In this regard, ferrocene reacts with cyclic ketones and ferrosenylcarbinols are synthesized. It should be noted that ferrocene enters into electrophilic reactions and the process takes place in an acidic environment. In addition, the yield of the new product was small compared to the reactions of ferrocene with non-cyclic ketones. This is due to the spatial structures of molecules. The elemental analysis of obtained compounds was carried out; the structures were researched by cyclic voltammograms and Chronoamperometric.

Published

2021

13. Evaluation of Terbutaline Adsorption from Aqueous Medium by Mechanically Generated [Cu (INA)2]-MOF Metal-Organic Framework and its Modified Magnetic Composite ([Cu (INA)2]-MOF@Fe3O4)

Author

Armaya’u, Usman, Ariffin, Marinah Mohd, Loh, Saw Hong, Khalik, Wan Mohd Afiq Wan Mohd, and Yusoff, Hanis Mohd

Subjects

analytical_chemistry

Abstract

Mechanochemical production of copper (II) isonicotinate Metal-Organic Framework ([Cu (INA)2]-MOF) and its modified magnetic iron composite ([Cu (INA)2]-MOF@Fe3O4]) allowed for the adsorptive removal of Terbutaline from water. A variety of characterization techniques, including Fourier, transform infrared spectroscopy (FTIR), thermogravimetric analysis (TGA), X-ray diffraction (XRD), and scanning electron microscopy (SEM), were used to elucidate the distinct chemical and morphological features of the two advanced materials. The optimal adsorption conditions were determined by investigating a wide range of adsorption-related variables, including contact time, initial Terbutaline concentration, adsorbent dosages pH, and temperature. The chemistry involved in the adsorption process between the adsorbents and the adsorbate molecules was evaluated using the best-fitting models, such as kinetics, isotherms, and thermodynamics, and the regeneration study was performed to evaluate the adsorbents' reusability. Incredibly maximum adsorption capacities (Qmax) of 1667 and 2500 mg L-1 were attained within 40 minutes under alkaline pH 11 by the [Cu (INA)2]-MOF and the [Cu (INA)2]-MOF@Fe3O4, respectively. The adsorbents have been proven to be good for the adsorption of Terbutaline as a priority pollutant in an aqueous solution, with pseudo-first order and Langmuir as the best-fitting models for the kinetic and isotherm models respectively.

Published

2022

14. Electrochemical (Bio)Sensing Devices for Human Microbiome Related Biomarkers

Author

Esther Sánchez-Tirado, Lourdes Agüí, Araceli González-Cortés, Susana Campuzano, Paloma Yáñez-Sedeño, and José M Pingarrón

Subjects

analytical_chemistry

Abstract

The study of the human microbiome is a multidisciplinary area that affects from the field of technology to that of personalized medicine. The possibility of using microbiota biomarkers for the improvement in the diagnosis and monitoring of diseases (e.g. cancer), health conditions (e.g. obesity) or clinical parameters (e.g. ageing) has aroused great expectations, also in the scope of bio-electroanalytical chemistry. The well-known advantages of electrochemical transduction: high sensitivity, rapid response and possibility of miniaturization, together with the potential of new nanomaterials to improve both the design of electrode platforms and the performance of the resulting electrochemical biosensors make presumably a huge development in the next few years providing a better understanding of human microbiome entities. In this review article, the recent applications of electrochemical (bio)sensors for monitoring microbial metabolites and biomarkers of diseases related to different types of the human microbiome, with a special focus on the gastrointestinal microbiome, are reviewed. Examples of electrochemical devices applied to real samples are critically discussed as well as the challenges and prospects to be faced.

Published

2022

15. Gut Microbial Perturbation and Host Response Induces Redox Pathway Upregulation along the Gut-liver Axis during Giardiasis in C57BL/6J Mouse Model

Author

Avinash V Karpe, Melanie L Hutton, Steven J Mileto, Meagan L James, Chris Evans, Amol B Ghodke, Rohan M Shah, Suzanne S Metcalfe, Jian-Wei Liu, Tom Walsh, Dena Lyras, Enzo A Palombo, and David J Beale

Subjects

analytical_chemistry

Abstract

Apicomplexan infections, such as giardiasis and cryptosporidiosis, negatively impact a considerable proportion of human and commercial livestock populations. Despite this, the molecular mecha-nisms of disease, particularly the effect on the body beyond the gastrointestinal tract, are still poorly understood. To highlight host-parasite-microbiome biochemical interactions, we utilised integrated metabolomics-16S rRNA genomics and metabolomics-proteomics approaches in a C57BL/6J mouse model of giardiasis and compared these to Cryptosporidium and uropathogenic Escherichia coli (UPEC) infections. Comprehensive samples (faeces, blood, liver, and luminal contents from duo-denum, jejunum, ileum, caecum and colon) were collected 10 days post infection and subjected to proteome and metabolome analysis by liquid and gas chromatographic mass-spectrometry, re-spectively. Microbial populations in faeces and luminal washes were examined using 16S rRNA metagenomics. Proteome-metabolome analyses indicated that 12 and 16 key pathways were sig-nificantly altered in the gut and liver, respectively, during giardiasis with respect to other infections. Energy pathways including glycolysis and supporting pathways of glyoxylate and dicarboxylate metabolism, and redox pathway of glutathione metabolism, were upregulated in small intestinal luminal contents and the liver during giardiasis. Metabolomics-16S rRNA genetics integration in-dicated that populations of three bacterial families –Autopobiaceae (Up), Desulfovibrionaceae (Up) and Akkermanasiaceae (Down) – were most significantly affected across the gut during giardiasis, causing upregulated glycolysis and short-chained fatty acid (SCFA) metabolism. In particular, the perturbed Akkermanasiaceae population seemed to cause oxidative stress responses along the gut-liver axis. Overall, the systems biology approach applied in this study highlighted that the effects of host-parasite-microbiome biochemical interactions extended beyond the gut ecosystem to the gut-liver axis. These findings form the first steps in a comprehensive comparison to ascertain the major molecular and biochemical contributors of host-parasite interactions and contribute towards the development of biomarker discovery and precision health solutions for apicomplexan infections.

Published

2022

16. A Novel Fluorescent Sensor Based on Aptamer and Qpcr for Determination of Glyphosate in Tap Water

Author

Yong Shao, Run Tian, Jiaqi Duan, Miao Wang, Jing Cao, Zhen Cao, Guangyue Li, Fen Jin, A. M. Abd El-Aty, and Yongxin She

Subjects

analytical_chemistry, glyphosate, aptamer, qPCR, SYBR Green I, sensor, Electrical and Electronic Engineering, Biochemistry, Instrumentation, Atomic and Molecular Physics, and Optics, Analytical Chemistry

Abstract

Glyphosate (GLYP) is a broad-spectrum, non-selective, organic phosphine post emergence herbicide registered for use on many food and non-food field. Herein, we developed a biosensor (Mbs@dsDNA) based on carboxylated modified magnetic beads incubated with NH2-polyA and then hybridized with polyT-glyphosate aptamer and complementary DNA. Afterward, a quantitative detection method based on qPCR was established. When the glyphosate aptamer on Mbs@dsDNA specifically recognized glyphosate, a complementary DNA is released and then enters the qPCR signal amplification process. The linear range of the method was 0.1-5 μg/mL, and the detection limit was set at 0.1 μg/mL. The recoveries in tap water were ranged from 103.4 ~ 104.9%, and the relative standard deviations (RSDs) were < 1%. The aptamer proposed in this study has a good potential for recognizing glyphosate. The detection method combined with qPCR might have a good application prospect in detecting and supervising other pesticide residues.

Published

2022

17. Fermentation Dynamics of Ethiopian Traditional Beer (Tella) as Influenced by Substitution of Gesho (Rhamnus prinoides) with Moringa stenopetala: An Innovation for Nutrition

Author

Tadesse Fikre Teferra, Ajanw Maru Birhanu, and Tesfu Bekele lema

Subjects

analytical_chemistry, Article Subject, biology, Nutrition. Foods and food supply, TP368-456, Micronutrient, biology.organism_classification, Food processing and manufacture, Yeast, food.food, Lactic acid, law.invention, Moringa, chemistry.chemical_compound, Probiotic, food, chemistry, law, TX341-641, Fermentation, Food science, Rhamnus prinoides, Moringa stenopetala, Mathematics, Food Science

Abstract

This study was designed to improve Ethiopian traditional beer – tella with the substitution of gesho by moringa leaves to enhance micronutrients. Substation of gesho by moringa from 50 – 100% against the biochemical dynamics, nutritional and sensorial profiles of tella was assessed. Incorporation of moringa suppressed the activities of yeast and favored that of lactic acid bacteria, which shifted the property of the product from mild alcoholic nature to low alcoholic and mild acidic nature, revealing the probiotic potential of tella. Moringa leaves at 100% substitution for gesho resulted in to the least yeast count compared to the other formulations. The storage of tella samples over periods of 10 days also strengthened the probiotic nature of tella by drastically reducing the yeast cell counts (from 5 logs to

Published

2021

18. A Procedure for Estimating Fundamental Variability

Author

Uhlig, Steffen, Colson, Bertrand, and Gowik, Petra

Subjects

analytical_chemistry

Abstract

The question whether a given set of test items can be considered “identical” is often addressed in terms of the homogeneity of the test material from which said items were taken. However, for some types of matrices – in particular, for matrices consisting of minute separate particles, only some of which carry the analyte under consideration – even in the case of homogenous test material, an irreducible source of variability between test items may remain: the fundamental variability. In this paper, the concept of fundamental variability is explained, and procedures for reducing and characterizing it are described.

Published

2022

19. Analytical Methods for Oxalate Quantification: The Ubiquitous Organic Anion

Author

Bryan Misiewicz and Adam L. VanWert

Subjects

analytical_chemistry

Abstract

Oxalate is a divalent organic anion that has implications across many biological and commercial processes. It is derived from plant sources, such as spinach, rhubarb, tea, cacao, nuts, and beans, and therefore is commonly found in raw or processed food products. Oxalate can also be made endogenously by humans and other mammals as a byproduct of hepatic enzymatic reactions. It is theorized that oxalate is useful for plants to store calcium and protect against herbivory. Clinically, oxalate is best known to be a major component of kidney stones, which commonly contain calcium oxalate crystals. Oxalate can induce an inflammatory response that decreases the immune system’s ability to remove renal crystals. When formulated with platinum as oxaliplatin (an anticancer drug), oxalate has been proposed to cause neurotoxicity and nerve pain. There are many sectors of industry that are hampered by oxalate, and some that depend on it. For example, calcium oxalate is troublesome in the pulp industry and the alumina industry as it deposits on machinery. On the other hand, oxalate is a common active component of rust removal and cleaning products. Due to its ubiquity, there is interest in developing efficient methods to quantify oxalate. Over the past four decades several diverse methods have been reported. These approaches include electrode-based detection, liquid chromatography or gas chromatography coupled with mass spectrometry, enzymatic degradation of oxalate with oxalate oxidase and detection of hydrogen peroxide as a product, and indicator displacement-based methods employing fluorescent or UV light-absorbing compounds. It has become clear that no single method will work best for every purpose. This review describes the strengths and limitations of each method, and may serve as a reference for investigators to decide which approach is most suitable for their work.

Published

2022

20. Improvements in Gold Nanorod Biocompatibility with Sodium Dodecyl Sulfate Stabilization

Author

Jason H. Hafner, Danilo Demarchi, Mathieu L. Simeral, Aobo Zhang, Rossana Terracciano, and Carly S. Filgueira

Subjects

analytical_chemistry, theranostics, Biocompatibility, HeLa, chemistry.chemical_compound, Pulmonary surfactant, Bromide, Medical technology, cancer, Surface charge, Sodium dodecyl sulfate, R855-855.5, SDS, microCT, Aqueous solution, biology, in vitro, CTAB, biology.organism_classification, gold nanorods, cytotoxicity, ICP-OES, chemistry, Chemical engineering, Nanorod

Abstract

Due to their well-defined plasmonic properties, gold nanorods (GNRs) can be fabricated with optimal light absorption in the near-infrared region of the electromagnetic spectrum, which make them suitable for cancer-related theranostic applications. However, their controversial safety profile, as a result of surfactant stabilization during synthesis, limits their clinical translation. We report a facile method to improve GNR biocompatibility through the presence of sodium dodecyl sulfate (SDS). GNRs (120 × 40 nm) were synthesized through a seed-mediated approach, using cetyltrimethylammonium bromide (CTAB) as a cationic surfactant to direct the growth of nanorods and stabilize the particles. Post-synthesis, SDS was used as an exchange ligand to modify the net surface charge of the particles from positive to negative while maintaining rod stability in an aqueous environment. GNR cytotoxic effects, as well as the mechanisms of their cellular uptake, were examined in two different cancer cell lines, Lewis lung carcinoma (LLC) and HeLa cells. We not only found a significant dose-dependent effect of GNR treatment on cell viability but also a time-dependent effect of GNR surfactant charge on cytotoxicity over the two cell lines. Our results promote a better understanding of how we can mediate the undesired consequences of GNR synthesis byproducts when exposed to a living organism, which so far has limited GNR use in cancer theranostics.

Published

2021

21. Detection and Verification of a Key Intermediate in an Enantioselective Peptide Catalyzed Acylation Reaction

Author

Matthias Brauser, Tim Heymann, and Christina Marie Thiele

Subjects

analytical_chemistry, Spectrometry, Mass, Electrospray Ionization, Cyclohexanes, Acylation, Alcohols, Cycloparaffins, Stereoisomerism, Methylhistidines, Peptides, Catalysis

Abstract

For more than twenty years chemists use peptidic organocatalysts to transfer acyl groups onto alcohols. The goal was and still is the increase of selectivity towards the substrate of choice. One carefully designed example is a highly enantioselective tetrapeptide organocatalyst for the kinetic resolution of trans-cycloalkane-1,2-diols. Until now, the intermediate responsible for the acyl transfer of this tetrapeptide has never been directly observed. It was proposed computationally that a π-methylhistidine moiety is acylated as an intermediate step in the catalytic cycle. In this study we set out to investigate whether we can detect and characterize this key intermediate using NMR-spectroscopy and mass spectrometry. Different mass spectrometric experiments using a nano-ElectroSpray Ionization (ESI) source and tandem MS-techniques allowed the identification of tetrapeptide acylium ions using different acylation reagents. The complexes of trans-cyclohexane-1,2-diols with the tetrapeptide were also detected. Additionally, we were able to detect acylated tetrapeptides in solution using NMR-spectroscopy and monitor the acetylation reaction of a trans-cyclohexane-1,2-diol. These findings are important steps towards the understanding of this organocatalyst and its high enantioselectivity.

Published

2022

22. Thin-Layer Chromatography (TLC) in Screening of Botanicals – its Versatile Potential and Selected Applications

Author

Teresa Kowalska and Mieczysław Sajewicz

Subjects

analytical_chemistry

Abstract

The aim of this paper is to present a comprehensive overview of the main aims and scopes in screening of botanicals, a task which thin-layer chromatography (TLC) is on an everyday basis confronted with and engaged in. Stunning omnipresence of this modest analytical technique (both in its standard format (TLC) and the high-performance one (HPTLC), either hyphenated or not) for many analysts might at a first glance appear chaotic and random, with an auxiliary rather than leading role in research, and not capable of issuing meaningful final statements. Based on these reflections, our purpose is not to present a general review paper on TLC in screening of botanicals, but a blueprint rather (illustrated with a selection of practical examples), which highlights a sovereign and important role of TLC in accomplishing the following analytical tasks: (i) solving puzzles related to chemotaxonomy of plants, (ii) screening a wide spectrum of biological properties of plants, (iii) providing quality control of herbal medicines and alimentary and cosmetic products of biological origin, and (iv) tracing psychoactive plants under forensic surveillance.

Published

2022

23. Defanging Chloroform – Mitigation of Deuterated Chloroform Decomposition to Stabilise Susceptible NMR Samples

Author

Jan Teipel, Vera Gottstein, Eva Hölzle, Katja Kaltenbach, Dirk W. Lachenmeier, and Thomas Kuballa

Subjects

analytical_chemistry

Abstract

Highly reactive decomposition products of (deuterated) chloroform can deteriorate samples dissolved in this commonly used NMR solvent. For sensitive samples (such as peptides, unsaturated fatty acids, vitamins), this can lead to abnormal NMR spectra (e.g. signal shifts depending on pH, attenuation of signals over time due to chemical changes of analytes, new signals from reaction products). Such irreproducibly influenced spectra are especially problematic for non-targeted analysis methods. To prevent these artefacts, chlorine, phosgene and hydrochloric acid need to be eliminated from deuterated chloroform prior to its use. Since the common stabilization methods have proven insufficient for sensitive NMR samples, another purging method has been tested: Mitigation is easily and reliably achieved by washing the deuterated chloroform with concentrated Na2CO3-solution and subsequent desiccation with oven-dried Na2CO3.

Published

2022

24. Development, Validation for Determination of Verteporfin by HPLC-DAD and Application to Real samples

Author

Ahmet Ozgun DOGRAMACIOGLU and Cemile ÖZCAN

Subjects

analytical_chemistry

Abstract

The aim of this study, for determination of verteporfin in real samples (simulated body fluid, and simulated tears, 0.9% isotonic sodium chloride solution, Lactated Ringer IV solution for infusion, 5% dextrose IV solution for infusion, lemon juice and drinking water) was the method validation and to examined by HPLC-DAD-UV. Metod validation parameters such as specificity, linearity, precision, accuracy, robustness, limit of detection (LOD) and limit of quantitation (LOQ) for verteporfin were validated and developed according to the International Conference on Harmonization (ICH) Q2 R1 guidelines. The LOD and LOQ for verteporfin were found 0.06 µg/L and 0.2 µg/L, respectively. The recovery values of the optimization and validation for verteporfin were found in the range of 97.5-100.7%. The relative standard deviations (RSD) for vertepofin were

Published

2022

25. Phage vs. Phage: Direct Selections of Sandwich Binding Pairs

Author

Emily C. Sanders, Alicia M. Santos, Eugene K. Nguyen, Aidan A. Gelston, Sudipta Majumdar, and Gregory A. Weiss

Subjects

analytical_chemistry, Infectious Diseases, Virology, phage display, sandwich binding, biomarker diagnostics, enzyme-linked immunosorbent assay (ELISA)

Abstract

The sandwich format immunoassay is generally more sensitive and specific than more common assay formats, including direct, indirect, or competitive. A sandwich assay, however, requires two receptors to bind non-competitively to the target analyte. Typically, pairs of antibodies (Abs) or antibody fragments (Fabs) that are capable of forming a sandwiching with the target are identified through a slow, guess-and-check method with panels of candidate binding partners. Additionally, sandwich assays that are reliant on commercial antibodies can suffer from changes to reagent quality outside the researchers’ control. This report presents a reimagined and simplified phage display selection protocol that directly identifies sandwich binding peptides and Fabs. The approach yielded two sandwich pairs, one peptide–peptide and one Fab–peptide sandwich for the cancer and Parkinson’s disease biomarker DJ-1. Requiring just a few weeks to identify, the sandwich pairs delivered apparent affinity that is comparable to other commercial peptide and antibody sandwiches. The results reported here could expand the availability of sandwich binding partners for a wide range of clinical biomarker assays.

Published

2023

26. Simultaneous Determination of Paracetamol, Ibuprofen, and Caffeine in Tablets by Molecular Absorption Spectroscopy Combined with Classical Least Square Method

Author

Tran, Binh Thuc, Tran, Tuyen Ngoc, Tran, Ai My Thi, Nguyen, Giang Chau Dang, and Nguyen, Quynh Trang Thi

Subjects

analytical_chemistry, Organic Chemistry, Pharmaceutical Science, Reproducibility of Results, Ibuprofen, Analytical Chemistry, Chemistry (miscellaneous), Spectrophotometry, Caffeine, Drug Discovery, paracetamol, ibuprofen, caffeine, classical least-square, simultaneous, spectroscopy, Molecular Medicine, Physical and Theoretical Chemistry, Least-Squares Analysis, Acetaminophen, Tablets

Abstract

In this paper, the classical least-squares (CLS) method with molecular absorption spectrophotometric measurement was used to determine simultaneously paracetamol (PAR), ibuprofen (IBU), and caffeine (CAF) in tablets. The absorbance spectra of the standard solutions and samples were measured over a wavelength from 220 to 300 nm with a 0.5 nm step. The concentration of PAR, IBU, and CAF in the sample solutions was calculated by using Visual Basic for Applications (VBA) and a program called CLS-Excel written in Microsoft Excel 2016. The method and the CLS-Excel program were tested on mixed standard laboratory samples with different PAR, IBU, and CAF concentration ratios, and they showed only small errors and a satisfying repeatability. An analytical procedure for tablets containing PAR, IBU, and CAF was developed. The reliability of the procedure was proved via the recovery and repeatability of the analysis results with an actual tablet sample and by comparing the mean contents of active substances in the tablets obtained from the analytical procedure with the HPLC method. The procedure is simple with a reduced cost compared with the HPLC standard method.

Published

2022

27. Rapid On-Site Detection of Illicit Drugs in Smuggled Samples with a Portable Electrochemical Device

Author

Marc Parrilla, Amorn Slosse, Robin Van Echelpoel, Noelia Felipe Montiel, Amelia R. Langley, Filip Van Durme, and Karolien De Wael

Subjects

analytical_chemistry, Chemistry, electrochemical sensors, square-wave voltammetry, screen-printed electrodes, electrochemical profiling, illicit drugs, forensic analysis, Raman spectrometer, FTIR spectrometer, on-site detection, Physics, Physical and Theoretical Chemistry, Analytical Chemistry

Abstract

Illicit drug consumption is posing critical concerns in our society causing health issues, crime-related activities, and the disruption of border trade. The smuggling of illicit drugs urges the development of new tools for rapid on-site identification in cargos. Current methods used by law enforcement officers rely on presumptive color tests and portable spectroscopic techniques. However, these methods sometimes exhibit inaccurate results due to commonly used cutting agents, the colorful nature of the sample or because the drugs are smuggled (hidden or mixed) in common goods. Interestingly, electrochemical sensors can deal with these specific problems. Herein, an electrochemical device is presented that uses affordable screen-printed electrodes for the electrochemical profiling of illicit drugs by square-wave voltammetry (SWV). The identification of the illicit compound is based on the oxidation potential of the analyte. Hence, a library of electrochemical profiles is built upon the analysis of illicit drugs and common cutting agents. This library allows the design of a tailor-made script that enables the identification of each drug through a user-friendly interface (laptop or mobile phone). Importantly, the electrochemical test is compared by analyzing 48 confiscated samples with other portable devices based on Raman and FTIR spectroscopy as well as a laboratory standard method (i.e. gas chromatography – mass spectrometry). Overall, the electrochemical results obtained through the analysis of different samples from confiscated cargos at an end-user site, present a promising alternative to current methods, offering low-cost and rapid testing in the field.

Published

2022

28. Coated Blade Spray-Mass Spectrometry as a New Approach for the Rapid Characterization of Brain Tumors

Author

Joanna Bogusiewicz, Magdalena Gaca-Tabaszewska, Dominik Olszówka, Karol Jaroch, Jacek Furtak, Marek Harat, Janusz Pawliszyn, and Barbara Bojko

Subjects

analytical_chemistry, Brain Neoplasms, Tandem Mass Spectrometry, Chemistry (miscellaneous), Organic Chemistry, Drug Discovery, Humans, Reproducibility of Results, Molecular Medicine, Pharmaceutical Science, Physical and Theoretical Chemistry, Solid Phase Microextraction, Analytical Chemistry

Abstract

Brain tumors are neoplasms with one of the highest mortality rates. Therefore, the availability of methods that allow for the quick and effective diagnosis of brain tumors and selection of appropriate treatments is of critical importance for patient outcomes. In this study, coated blade spray-mass spectrometry (CBS-MS), which combines the features of microextraction and fast ionization methods, was applied for the analysis of brain tumors. In this approach, a sword-shaped probe is coated with a sorptive material to enable the extraction of analytes from biological samples. The analytes are then desorbed using only a few microliters of solvent, followed by the insertion of the CBS device into the interface on the mass spectrometer source. The results of this proof-of-concept experiment confirmed that CBS coupled to high-resolution mass spectrometry (HRMS) enables the rapid differentiation of two histologically different lesions: meningiomas and gliomas. Moreover, quantitative CBS-HRMS/MS analysis of carnitine, the endogenous compound, previously identified as a discriminating metabolite, showed good reproducibility with the variation below 10% when using a standard addition calibration strategy and deuterated internal standards for correction. The resultant data show that the proposed CBS-MS technique can be useful for on-site qualitative and quantitative assessments of brain tumor metabolite profiles.

Published

2022

29. Monitoring Farmed Fish Welfare by Measurement of Cortisol as Stress Marker in Fish Feces by Liquid Chromatography Coupled with Tandem Mass Spectrometry

Author

Vanessa Andrea Meling, Kjetil Berge, David Lausten Knudsen, Per Ola Rønning, and Cato Brede

Subjects

analytical_chemistry

Abstract

The aquaculture industry has become a sustainable provider of food to humans. Remaining challenges include disease issues, as well as ethical concerns for discomfort and stress among farmed fish. There is a need for reliable biomarkers to monitor welfare in fish, and the stress hormone cortisol has been suggested as a good candidate. This study presents a novel method for measurement of cortisol in fish feces based on enzymatic hydrolysis, liquid-liquid extraction, derivatization, and finally instrumental analysis by liquid chromatography coupled with tandem mass spectrometry. Hydrolysis and extraction conditions were optimized. Cortisol appeared to be mostly conjugated to sulfate and less conjugated to glucuronic acid in the studied samples of feces from farmed Atlantic salmon. The method was suitable for quantification of cortisol after enzymatic deconjugation by either combined glucuronidase and sulfatase activity, or by glucuronidase activity alone. The limit of detection was 0.15 ng/g and the limit of quantification was 0.34 ng/g, and the method was linear (R2>0.997) up to 380 ng/g, for measurement of cortisol in wet feces. Method repeatability and intermediate precision were acceptable, both with a CV of 11%. Stress level was high in fish released into seawater, and significantly reduced after eight days.

Published

2022

30. Portable FRET-Based Biosensor Device for On-Site Lead Detections

Author

Wei-Qun Lai, Yu-Fen Chang, Fang-Ning Chou, and De-Ming Yang

Subjects

analytical_chemistry

Abstract

Most methods for measuring environmental lead (Pb) content are time consuming, expensive, hazardous, and restricted to specific analytical systems. To provide a facile, safe tool to detect Pb, we created pMet-lead, a portable fluorescence resonance energy transfer (FRET)-based Pb biosensor. pMet-lead comprises a 3D-printed frame housing a 405-nm laser diode — an excitation source for fluorescence emission images (YFP and CFP) — accompanied by optical filters, a customized sample holder with a Met-lead 1.44 M1 (the most recent version)-embedded biochip, and an optical lens aligned for smartphone compatibility. Measuring the emission ratios (Y/C) of the FRET component enables Pb detection with a dynamic range of nearly 2 (1.96), pMet-lead/Pb dissociation constant (Kd) 45.62 nM, and limit of detection 40 nM (0.832 μg/dL, 8.32 ppb). To mitigate earlier problems with lack of selectivity for Pb vs. zinc, we preincubated samples with tricine, a low-affinity zinc chelator. We validated pMet-lead measurements of characterized laboratory samples and unknown samples from six regions in Taiwan by inductively coupled plasma mass spectrometry (ICP-MS). Notably, two unknowns had Y/C ratios significantly higher than that of the control (3.48 ± 0.08 and 3.74 ± 0.12 vs. 2.79 ± 0.02), along with Pb concentrations (10.6 ppb and 15.24 ppb) above the WHO-permitted level of 10 ppb in tap water, while the rest four unknowns showing no detectable Pb upon ICP-MS. These results demonstrate that pMet-lead provides a rapid, sensitive means for on-site Pb detection in water from the environment and in living/drinking supply systems to prevent potential Pb poisoning.

Published

2022

31. Multifunctional Eco-Friendly Synthesis of ZnO Nanoparticles in Biomedical Applications

Author

Amal Mohamed Al-Mohaimeed, Wedad Altuhami Al-Onazi, and Maha Farouk El-Tohamy

Subjects

analytical_chemistry, Staphylococcus aureus, antioxidant, oat extract, zinc oxide nanoparticles, green synthesis, antibacterial, pharmaceutical analysis, Pharmaceutical Science, Organic chemistry, Article, Analytical Chemistry, QD241-441, Chemistry (miscellaneous), Drug Discovery, Molecular Medicine, Physical and Theoretical Chemistry

Abstract

This work describes an environmental-friendly preparation of ZnO nanoparticles using aqueous oat extract. The advanced electrochemical and optical features of green synthesized ZnONPs displayed excellent antibacterial activity and exhibited an important role in pharmaceutical determinations. The formation of nanoscale ZnO was confirmed using various spectroscopic and microscopic investigations. The formed nanoparticles were found to be around 100 nm. The as-prepared ZnONPs were monitored for their antibacterial potential against different bacterial strains. The inhibition zones for ZnONPs were found as Escherichia coli (16 mm), Pseudomonas aeruginosa (17 mm), Staphylococcus aureus (12 mm) and Bacillus subtilis (11 mm) using a 30-µg mL−1 sample concentration. In addition, ZnONPs exhibited significant antioxidant effects, from 58 to 67%, with an average IC50 value of 0.88 ± 0.03 scavenging activity and from 53 to 71% (IC50 value of 0.73 ± 0.05) versus the scavenging free radicals DPPH and ABTS, respectively. The photocatalytic potential of ZnONPs for Rhodamine B dye degradation under UV irradiation was calculated. The photodegradation process was carried out as a function of time-dependent and complete degradation (nearly 98%), with color removal after 120 min. Conclusively, the synthesized ZnONPs using oat biomass might provide a great promise in the future for biomedical applications.

Published

2022

32. Cognate DNA Recognition by Engrailed Homeodomain Involves a Conformational Change Controlled via an Electrostatic-Spring-Loaded Latch

Author

Nicola D’Amelio, Benjamin Tanielian, Mourad Sadqi, Pilar López-Navajas, Victor Muñoz, European Research Council, and National Science Foundation (US)

Subjects

analytical_chemistry, Models, Molecular, Protein Conformation, Static Electricity, Homeodomains, Crystallography, X-Ray, Catalysis, Nuclear magnetic resonance, Inorganic Chemistry, Control of gene expression, Protein Domains, Physical and Theoretical Chemistry, Molecular Biology, Spectroscopy, DNA recognition, Protein–DNA interactions, Protein Stability, Circular Dichroism, Organic Chemistry, DNA binding domains, General Medicine, DNA, Conformational change, Computer Science Applications, protein–DNA interactions, transcription factors, conformational change, nuclear magnetic resonance, circular dichroism, control of gene expression, homeodomains, Protein Binding, Transcription Factors

Abstract

Transcription factors must scan genomic DNA, recognize the cognate sequence of their control element(s), and bind tightly to them. The DNA recognition process is primarily carried out by their DNA binding domains (DBD), which interact with the cognate site with high affinity and more weakly with any other DNA sequence. DBDs are generally thought to bind to their cognate DNA without changing conformation (lock-and-key). Here, we used nuclear magnetic resonance and circular dichroism to investigate the interplay between DNA recognition and DBD conformation in the engrailed homeodomain (enHD), as a model case for the homeodomain family of eukaryotic DBDs. We found that the conformational ensemble of enHD is rather flexible and becomes gradually more disordered as ionic strength decreases following a Debye–Hückel’s dependence. Our analysis indicates that enHD’s response to ionic strength is mediated by a built-in electrostatic spring-loaded latch that operates as a conformational transducer. We also found that, at moderate ionic strengths, enHD changes conformation upon binding to cognate DNA. This change is of larger amplitude and somewhat orthogonal to the response to ionic strength. As a consequence, very high ionic strengths (e.g., 700 mM) block the electrostatic-spring-loaded latch and binding to cognate DNA becomes lock-and-key. However, the interplay between enHD conformation and cognate DNA binding is robust across a range of ionic strengths (i.e., 45 to 300 mM) that covers the physiologically-relevant conditions. Therefore, our results demonstrate the presence of a mechanism for the conformational control of cognate DNA recognition on a eukaryotic DBD. This mechanism can function as a signal transducer that locks the DBD in place upon encountering the cognate site during active DNA scanning. The electrostatic-spring-loaded latch of enHD can also enable the fine control of DNA recognition in response to transient changes in local ionic strength induced by variate physiological processes., This research was funded by European Research Council, grant number ERC-2012-AdG-323059-MOLRHEOSTAT, and the USA National Science Foundation, grant numbers NSF-CREST-1547848, NSF-CREST-2023016 and NSF-MCB-2112710.

Published

2022

33. Towards a Mathematical Framework for Method Validation and Performance Characteristics of Non-targeted Methods for Food Authenticity

Author

Kapil Nichani, Steffen Uhlig, Manfred Stoyke, Sabine Kemmlein, Franz Ulberth, Ilka Haase, Maik Döring, Stephan G Walch, and Petra Gowik

Subjects

analytical_chemistry

Abstract

Through its suggestive name, non-targeted methods (NTMs) do not aim at a predefined "needle in the haystack". Instead, they exploit all the constituents of the haystack. This new form of analytical methods is increasingly finding applications in food and feed testing. However, the concepts, terms, and considerations related to this burgeoning field of analytical testing needs to be propagated for the benefit of ones associated in academic research, commercial development, and official control. This paper addresses the frequently asked questions around notations and terminologies surrounding NTMs. The widespread development and adoption of these methods also necessitates the need to develop approaches to NTM validation, i.e., evaluating the performance characteristics of a method to determine if it is fit-for-purpose. This work aims to provide a roadmap to approaching NTM validation. In doing so, the paper deliberates on the different considerations that influence the approach to validation and provides suggestions thereof.

Published

2021

34. Rapid, Simple and Inexpensive Fabrication of Paper-based Analytical Devices by Parafilm® Hot Pressing

Author

Surasak Kasetsirikul, Kimberley Clack, Muhammad J. A. Shiddiky, and Nam-Trung Nguyen

Subjects

analytical_chemistry, Mechanical Engineering, 010401 analytical chemistry, 02 engineering and technology, paperfluidics, paper-based analytical devices, 021001 nanoscience & nanotechnology, 01 natural sciences, parafilm, Article, 0104 chemical sciences, Control and Systems Engineering, TJ1-1570, Mechanical engineering and machinery, Electrical and Electronic Engineering, 0210 nano-technology

Abstract

Paper-based analytical devices have been substantially developed in recent decades. Many fabrication techniques for paper-based analytical devices have been demonstrated and reported. Herein, we report a relatively rapid, simple, and inexpensive method for fabricating paper-based analytical devices using parafilm hot pressing. We studied and optimized the effect of the key fabrication parameters, namely pressure, temperature, and pressing time. We discerned the optimal conditions, including a pressure of 3.8 MPa, temperature of 80 °C, and 3 min of pressing time, with the smallest hydrophobic barrier size (821 µm) being governed by laminate mask and parafilm dispersal from pressure and heat. Physical and biochemical properties were evaluated to substantiate the paper functionality for analytical devices. The wicking speed in the fabricated paper strips was slightly lower than that of non-processed paper, resulting from a reduced paper pore size after hot pressing. A colorimetric immunological assay was performed to demonstrate the protein binding capacity of the paper-based device after exposure to pressure and heat from the fabrication. Moreover, mixing in a two-dimensional paper-based device and flowing in a three-dimensional counterpart were thoroughly investigated, demonstrating that the paper devices from this fabrication process are potentially applicable as analytical devices for biomolecule detection. Fast, easy, and inexpensive parafilm hot press fabrication presents an opportunity for researchers to develop paper-based analytical devices in resource-limited environments.

Published

2021

35. Few-Layered MoS2 Nanoparticles Covering Anatase TiO2 Nanosheets: Comparison between Ex Situ and In Situ Synthesis Approaches

Author

Domenica Scarano, Gianmario Martra, Rosangela Santalucia, Francesco Pellegrino, Federico Cesano, and Tiziano Vacca

Subjects

In situ, analytical_chemistry, Anatase, HRTEM, Nanostructure, Materials science, XRD, Stacking, Nanoparticle, 02 engineering and technology, 010402 general chemistry, 01 natural sciences, lcsh:Technology, lcsh:Chemistry, symbols.namesake, few layers MoS2/TiO2, General Materials Science, Fourier transform infrared spectroscopy, High-resolution transmission electron microscopy, Instrumentation, Raman, lcsh:QH301-705.5, Fluid Flow and Transfer Processes, UV–vis, lcsh:T, Process Chemistry and Technology, ex situ and in situ approaches, General Engineering, 021001 nanoscience & nanotechnology, lcsh:QC1-999, 0104 chemical sciences, Computer Science Applications, TiO2 nanosheets, Chemical engineering, heterostructures, FTIR, lcsh:Biology (General), lcsh:QD1-999, lcsh:TA1-2040, symbols, 0210 nano-technology, Raman spectroscopy, lcsh:Engineering (General). Civil engineering (General), lcsh:Physics

Abstract

MoS2/TiO2 nanostructures made of MoS2 nanoparticles covering TiO2 nanosheets have been synthesized, either via ex situ or in situ approaches. The morphology and structure of the MoS2/TiO2 hybrid nanostructures have been investigated and imaged by means of X-ray diffraction (XRD) analysis and high-resolution transmission electron microscopy (HRTEM), while the vibrational and optical properties have been investigated by Raman, Fourier-transform infrared (FTIR), and UV&minus, visible (UV&ndash, vis) spectroscopies. Different stacking levels and MoS2 nanosheets distribution on TiO2 nanosheets have been carefully evaluated from HRTEM images. Surface sites on the main exposed faces of both materials have been established by means of in situ FTIR spectra of CO probe molecule adsorption. The results of the ex situ and in situ approaches are compared to underline the role of the synthesis processes affecting the morphology and structure of MoS2 nanosheets, such as curvature, surface defects, and stacking order. It will be shown that as a result of the in situ approach, the reactivity of the TiO2 nanosheets and hence, in turn, the MoS2&ndash, TiO2 nanosheets interaction are modified.

Published

2021

36. On the Potential of a Poly(Vinylidenefluoride-Co-hexafluoropropylene) Polymer Inclusion Membrane Containing Aliquat® 336 and Dibutyl Phthalate for V(V) Extraction from Sulfate Solutions

Author

Salar Bahrami, Mohammad Reza Yaftian, Leila Dolatyari, Spas Kolev, and Hassan Shayani-Jam

Subjects

analytical_chemistry, Dibutyl phthalate, Filtration and Separation, TP1-1185, Aliquat 336, chemistry.chemical_compound, Chemical engineering, Chemical Engineering (miscellaneous), polymer inclusion membrane (PIM), vanadium(V), Sulfate, Aliquat® 336, chemistry.chemical_classification, Chemical technology, Process Chemistry and Technology, Extraction (chemistry), Polymer, Membrane, chemistry, extraction, poly(vinylidenefluoride-co-hexafluoropropylene), TP155-156, Hexafluoropropylene, Inclusion (mineral), Nuclear chemistry

Abstract

A polymer inclusion membrane (PIM) composed of 50 wt% base polymer poly(vinylidenefluoride-co-hexafluoropropylene), 40 wt% extractant Aliquat® 336, and 10 wt% dibutyl phthalate as plasticizer/modifier provided the efficient extraction of vanadium(V) (initial concentration 50 mg L−1) from 0.1 M sulfate solutions (pH 2.5). The average mass and thickness of the PIMs (diameter 3.5 cm) were 0.057 g and 46 μm, respectively. It was suggested that V(V) was extracted as VO2SO4− via an anion exchange mechanism. The maximum PIM capacity was estimated to be ~56 mg of V(V)/g for the PIM. Quantitative back-extraction was achieved with a 50 mL solution of 6 M H2SO4/1 v/v% of H2O2. It was assumed that the back-extraction process involved the oxidation of VO2+ to VO(O2)+ by H2O2. The newly developed PIM, with the optimized composition mentioned above, exhibited an excellent selectivity for V(V) in the presence of metallic species present in digests of spent alumina hydrodesulfurization catalysts. Co-extraction of Mo(VI) with V(V) was eliminated by its selective extraction at pH 1.1. Characterization of the optimized PIM was performed by contact angle measurements, atomic-force microscopy, energy dispersive X-ray spectroscopy, thermogravimetric analysis/derivatives thermogravimetric analysis and stress–strain measurements. Replacement of dibutyl phthalate with 2-nitrophenyloctyl ether improved the stability of the studied PIMs.

Published

2021

37. Two Compounds of 1-((4-Bromothiophen-2-Yl)Methylene)-2-(Perfluorophenyl)Hydrazine, and 1-((4-Bromo-5-Methylthiophen-2-Yl)Methylene)-2-(Perfluorophenyl)Hydrazine and They Crystal, Molecular and Electronic Properties

Author

Július Sivý, Dušan Bortňák, Daniel Végh, and Erik Rakovský

Subjects

analytical_chemistry

Abstract

The crystals, C11H4BrF5N2S, (I), 1-((4-bromothiophen-2-yl)methylene)-2-(perfluorophenyl)hydrazine and C12H6BrF5N2S, (II), 1-((4-bromo-5-methylthiophen-2-yl)methylene)-2-(perfluorophenyl)hydrazine are molecules with two rings and hydrazone part like a centre of the molecule. The compounds have been synthesized and characterized by elemental, spectroscopic (1H-NMR) analysis. The crystal structures of the solid phase were determined by single crystal X-ray diffraction method. They crystallize in the monoclinic space group with Z = 4 and Z = 2 molecules per unit-cell. The compound (I) crystallizes as a racemate in the centrosymmetric space group and the compound (II) crystallizes as a non-racemate in the non-centrosymmetric space group. The “absolute configuration and conformation for bond values” were derived from the anomalous dispersion (ad) for (II). The crystal structures are revealed diverse non-covalent interactions such as intra- and interhydrogen bonding, π-ring···π-ring, C-H···π-ring and they were investigated. The expected stereochemistry of hydrazones atoms C7, N2 and N1 were confirmed for (I) and (II). The hole molecule of the (I), and (II) possesses “a boat conformation” like a 6-membered ring. The results of the single crystal studies are reproduced with the help of Hirshfeld surface study and Gaussian software.

Published

2021

38. Hydrogen Delocalization in an Asymmetric Biomolecule: The Curious Case of alpha-Fenchol

Author

Deborah Crittenden, Johann Richard Springborn, Robert Medel, and Martin Suhm

Subjects

Models, Molecular, analytical_chemistry, Hydrogen, supersonic jet expansion, Pharmaceutical Science, Infrared spectroscopy, Alpha (ethology), chemistry.chemical_element, Alcohol, Photochemistry, Article, Analytical Chemistry, chemistry.chemical_compound, Delocalized electron, tunneling, QD241-441, structural determination, Drug Discovery, delocalization, terpene, alcohol, vibrational spectroscopy, Physical and Theoretical Chemistry, chemistry.chemical_classification, Camphanes, Biomolecule, Organic Chemistry, Fenchol, Norbornanes, Models, Chemical, chemistry, Chemistry (miscellaneous), Molecular Medicine, Algorithms

Abstract

Rotational microwave jet spectroscopy studies of the monoterpenol α-fenchol have so far failed to identify its second most stable torsional conformer, despite computational predictions that it is only very slightly higher in energy than the global minimum. Vibrational FTIR and Raman jet spectroscopy investigations reveal unusually complex OH and OD stretching spectra compared to other alcohols. Via modeling of the torsional states, observed spectral splittings are explained by delocalization of the hydroxy hydrogen atom through quantum tunneling between the two non-equivalent but accidentally near-degenerate conformers separated by a low and narrow barrier. The energy differences between the torsional states are determined to be only 16(1) and 7(1) cm−1hc for the protiated and deuterated alcohol, respectively, which further shrink to 9(1) and 3(1) cm−1hc upon OH or OD stretch excitation. Comparisons are made with the more strongly asymmetric monoterpenols borneol and isopinocampheol as well as with the symmetric, rapidly tunneling propargyl alcohol. In addition, the third—in contrast localized—torsional conformer and the most stable dimer are assigned for α-fenchol, as well as the two most stable dimers for propargyl alcohol.

Published

2021

39. Determination of Avermectins Residues in Soybean, Bean, and Maize Using a QuEChERS-Based Method and Ultra-High-Performance Liquid Chromatography Coupled to Tandem Mass Spectrometry

Author

Fernanda Uczay, Luana Floriano, Renato Zanella, Osmar D. Prestes, Martha B. Adaime, and Nelson M. G. Bandeira

Subjects

analytical_chemistry, QC1-999, macrocyclic lactones, Filtration and Separation, Helicoverpa armigera, Quechers, Tandem mass spectrometry, Analytical Chemistry, chemistry.chemical_compound, medicine, Sample preparation, Doramectin, QD1-999, Avermectin, Chromatography, biology, sample preparation, Chemistry, agricultural crops, food, UHPLC-MS/MS, Physics, Pesticide, biology.organism_classification, Abamectin, medicine.drug

Abstract

Soybean, maize and bean are crops of great economic importance, but in the last years suffered with infestations of the caterpillar Helicoverpa armigera, being the main problem the resistance of this pest to most pesticides. Avermectin emamectin benzoate was recently released to control this pest. Other avermectins, like abamectin, doramectin, eprinomectin and ivermectin are used in large scale because they potent acaricidal, anthelmintic, and insecticidal activities. Thus, a simple and fast method for the determination of avermectins in these crops based on a quick, easy, cheap, effective, rugged and safe (QuEChERS) extraction procedure and ultra-high performance liquid chromatography with tandem mass spectrometry (UHPLC-MS/MS) analysis was developed and validated. For extraction, water followed by acetonitrile:isopropanol and a partition step with salts was stablished. With the clean-up step using activated EMR-Lipid, limits of detection of 1.2 μg kg-1 for abamectin, doramectin, emamectin benzoate and ivermectin, and of 2.4 μg kg-1 for eprinomectin were achieved. Accuracy and precision evaluated at low levels presented satisfactory results. The method was successfully applied in commercial samples and is a good alternative for routine analysis.

Published

2021

40. Hyaluronate-Thiol Passivation Enhances Gold Nanoparticle Peritumoral Distribution When Administered Intratumorally in Lung Cancer

Author

E. Brian Butler, Danilo Demarchi, Rossana Terracciano, Carly S. Filgueira, Yareli Carcamo-Bahena, and Alessandro Grattoni

Subjects

analytical_chemistry, hyaluronate-thiol, Biodistribution, QH301-705.5, peritumoral, Medicine (miscellaneous), General Biochemistry, Genetics and Molecular Biology, Article, chemistry.chemical_compound, In vivo, Hyaluronic acid, Zeta potential, cancer, Biology (General), biodistribution, Chemistry, Lewis lung carcinoma, in vitro, Gold nanoparticles, in vivo, cytotoxicity, ICP-OES, Colloidal gold, gold nanoparticles, Biophysics, Nanomedicine, Trypan blue

Abstract

Biofouling is the unwanted adsorption of cells, proteins, or intracellular and extracellular biomolecules that can spontaneously occur on the surface of metal nanocomplexes. It represents a major issue in bioinorganic chemistry because it leads to the creation of a protein corona, which can destabilize a colloidal solution and result in undesired macrophage-driven clearance, consequently causing failed delivery of a targeted drug cargo. Hyaluronic acid (HA) is a bioactive, natural mucopolysaccharide with excellent antifouling properties, arising from its hydrophilic and polyanionic characteristics in physiological environments which prevent opsonization. In this study, hyaluronate-thiol (HA-SH) (MW 10 kDa) was used to surface-passivate gold nanoparticles (GNPs) synthesized using a citrate reduction method. HA functionalized GNP complexes (HA-GNPs) were characterized using absorption spectroscopy, scanning electron microscopy, zeta potential, and dynamic light scattering. GNP cellular uptake and potential dose-dependent cytotoxic effects due to treatment were evaluated in vitro in HeLa cells using inductively coupled plasma—optical emission spectrometry (ICP-OES) and trypan blue and MTT assays. Further, we quantified the in vivo biodistribution of intratumorally injected HA functionalized GNPs in Lewis Lung carcinoma (LLC) solid tumors grown on the flank of C57BL/6 mice and compared localization and retention with nascent particles. Our results reveal that HA-GNPs show overall greater peritumoral distribution (** p &lt, 0.005, 3 days post-intratumoral injection) than citrate-GNPs with reduced biodistribution in off-target organs. This property represents an advantageous step forward in localized delivery of metal nano-complexes to the infiltrative region of a tumor, which may improve the application of nanomedicine in the diagnosis and treatment of cancer.

Published

2021

41. Mushroom’s Evaluation Based on FT-IR Fingerprint and Chemometrics

Author

Costel Sarbu, Ioana Feher, Florina-Dorina Covaciu, Romulus Puscas, Cornelia Veronica Floare-Avram, Dana Alina Magdas, and Olivian Marincas

Subjects

Chemometrics, analytical_chemistry, Mushroom, Chromatography, Chemistry, Fingerprint (computing), Fourier transform infrared spectroscopy

Abstract

Edible mushrooms have been recognized as highly nutritional food for a long time, due to their specific flavor, texture and also for therapeutic effects. This study proposes a new simple approach, based on FT-IR analysis, followed by statistical methods, in order to differentiate three wild mushrooms species from Romanian spontaneous flora, namely Armillaria mellea, Boletus edulis and Cantharellus cibarius. The preliminary data treatment consisted of data set reduction with principal component analysis (PCA), which provided scores for the next methods. Linear discriminant analysis (LDA) manage to 100% classify the three species and the cross validation step of the method returned 97.4% of correctly classified samples. Only one A. mellea sample overlapped on B. edulis group. When kNN was used in the same manner as LDA, the overall percent of correctly classified samples from the training step was 86.21%, while for holdout set the percent raised at 94.74%. The lowered values obtained for the training set was due to one C. cibarius sample, two B. edulis and five A. mellea, which were placed to other species. Anyway, for holdout sample set, only one sample from B. edulis was misclassified. The fuzzy c-means clustering (FCM) analysis successfully classified investigated mushroom samples according to their species, meaning that in every partition the predominant specie had the biggest DOMs, while samples belonging to other specie had lower DOMs.

Published

2021

42. Quality of Alcohol Based Hand Sanitizers Marketed in the Nairobi Metropolis

Author

Kennedy O. Abuga, Nasser N Nyamweya, and OK King’ondu

Subjects

analytical_chemistry, chemistry.chemical_compound, Hand sanitizer, chemistry, Coronavirus disease 2019 (COVID-19), Environmental health, media_common.quotation_subject, Alcohol, Quality (business), Business, media_common

Abstract

The emergence of the COVID-19 pandemic has propelled the use of alcohol-based hand sanitizers to the fore as a SARS-CoV-2 control measure. To be effective these products must comply with relevant quality parameters such as alcohol concentration, methanol limits and purity. The current study was designed to determine the quality of alcohol-based hand sanitizer products in the Nairobi metropolitan area. For this purpose, 74 commercially marketed samples were collected and subjected to analysis by gas chromatography. Only three samples (4.1%) complied with the regulatory specifications for alcohol content, methanol limits and pH. Five samples (6.8%) complied with the specification for alcohol content but did not meet methanol or pH limits. A total of 44 (59.5%) samples had methanol levels that exceeded threshold limits. Eleven samples (14.9%) were found with methanol substitution (i.e., methanol, instead of ethanol or isopropanol, was the main alcohol component). The results show that users of alcohol-based hand sanitizers are being exposed to substandard and falsified products which in addition to being non-efficacious pose harm due to unacceptable levels of toxic impurities. Regular, routine post-market surveillance is needed to prevent such products from reaching the market.

Published

2021

43. Utilizing a Rapid Multi-Plug Filtration Cleanup Method Determination of 72 Pesticides in Grape Wines by Gas Chromatography Tandem Mass Spectrometry

Author

Liu, shaowen, Bai, Aijuan, Song, Le, Zou, Nan, Han, Yongtao, Zhou, Li, Yu, Chuanshan, and Pan, Canping

Subjects

analytical_chemistry

Abstract

A convenient and fast multiresidue method for the efficient identification and quantification of 72 pesticides belonging to different chemical classes in red and white grape wines have been developed. The analysis was based on gas chromatography tandem quadrupole mass spectrometric determination (GC–MS/MS). An optimization strategy involved the selection of MWCNTs amount and cleanup procedure cycle times for m-PFC was performed to achieve ideal recoveries and reduce sample matrix compounds in the final extracts. The optimized procedure obtained consistent recoveries between 70.2 and 108.8% (70.2% and 108.8% for white wine, 72.3% and 106.0% for red wine) , with relative standard deviations (RSDs) generally lower than 8.3% at three spiking levels of 0.01, 0.05 and 0.2 mg/kg. Linearity was studied in the range between 0.005 and 0.2 mg/kg using pesticide standards prepared both in pure solvent and in the presence of matrix, showing coefficients of determination (R2) higher than 0.985 for all the pesticides. To improve accuracy, matrix matched calibration curves were used for calculating the quantification results. Finally, the method was used successfully in detecting pesticide residues in commercial gape wines.

Published

2021

44. UHPLC-Orbitrap-HRMS Identification of 51 Oleraceins (Cyclo-Dopa Amides) in Portulaca oleracea L. Cluster Analysis and MS2 Filtering by Mass Difference

Author

Vessela Balabanova, Reneta Gevrenova, Paraskev Nedialkov, Dimitrina Zheleva-Dimitrova, Yulian Voynikov, and Ivan Dimitrov

Subjects

analytical_chemistry, Chromatography, biology, law, Chemistry, Cluster (physics), Cyclo-dopa, Portulaca, biology.organism_classification, Orbitrap, law.invention

Abstract

Oleraceins are a class of indoline amide glycosides found in Portulaca oleracea L. (Portulacaceae), or purslane. These compounds are characterized with 5,6-dihydroxyindoline-2-carboxylic acid N-acylated with cinnamic acid derivatives, and many are glucosylated. Herein, hydromethanolic extracts of the aerial parts of purslane were subjected to UHPLC-Orbitrap-HRMS analysis, conducted in negative ionization mode. Diagnostic ion filtering (DIF), followed by diagnostic difference filtering (DDF), were utilized to automatically filter out MS data and select plausible oleracein structures. After an in-depth MS2 analysis, a total of 51 oleracein compounds were tentatively identified. Of them, 26 had structure matching one of already known oleraceins and the other 25 are new, undescribed in the literature structures, belonging to the oleracein class. Moreover, diagnostic fragment ions were selected, based on which clustering algorithms and visualizations were employed. As we demonstrate, clustering methods can provide valuable insights into the mass fragmentation elucidation of natural compounds in complex mixtures.

Published

2021

45. Cocaine Detection by a Laser-Induced Immunofluorometric Biosensor

Author

Michael G. Weller, Marco Ponader, Robert Tannenberg, Georg Tscheuschner, and Martin Paul

Subjects

analytical_chemistry, Analyte, Monolithic HPLC column, Materials science, medicine.drug_class, Clinical Biochemistry, flow injection assay, Biosensing Techniques, security, Monoclonal antibody, Antibody labeling, Article, Antibodies, law.invention, online detection, low-cost, Time frame, Cocaine, law, Lab-On-A-Chip Devices, medicine, Fluorescence microscope, microfluidic systems, Immunoassay, Detection limit, Chromatography, Chemistry, Lasers, monolithic column, General Medicine, Lab-on-a-chip, Laser, Highly sensitive, Substance Abuse Detection, high-speed, monoclonal antibody, laser-induced fluorescence detector (LIF), fluorescence microscope, Hapten, Biosensor, Wipe sampling, TP248.13-248.65, Biotechnology

Abstract

The trafficking of illegal drugs by criminal networks at borders, harbors, or airports is an increasing issue in public health as these routes ensure the main supply of illegal drugs. The prevention of drug smuggling, including the installation of scanners and other analytical devices to detect ultra-small traces of drugs within a reasonable time frame, remains a challenge. The presented immunosensor is based on a monolithic affinity column with a large excess of immobilized hapten, which traps fluorescently labeled antibodies as long as the analyte cocaine is absent. In the presence of the drug, some binding sites of the antibody will be blocked, which leads to an immediate breakthrough of the labeled protein, detectable by highly sensitive laser-induced fluorescence with the help of a Peltier-cooled complementary metal-oxide-semiconductor (CMOS) camera. Liquid handling is performed with high-precision syringe pumps and microfluidic chip-based mixing devices and flow cells. The biosensor achieved limits of detection of 23 pM (7 ppt) of cocaine with a response time of 90 seconds and a total assay time below 3 minutes. With surface wipe sampling, the biosensor was able to detect 300 pg of cocaine. This immunosensor belongs to the most sensitive and fastest detectors for cocaine and offers near-continuous analyte measurement.

Published

2021

46. Qualitative and Quantitative Evaluation of Rosavin, Salidroside, and p-Tyrosol in Artic Root Products via TLC-Screening, HPLC-DAD, and NMR Spectroscopy

Author

Hanna Nikolaichuk, Marek Studziński, Marek Stankevič, and Irena M. Choma

Subjects

analytical_chemistry, Magnetic Resonance Spectroscopy, Glucosides, Chemistry (miscellaneous), Organic Chemistry, Drug Discovery, Molecular Medicine, Pharmaceutical Science, TLC-screening, HPLC-DAD, NMR, arctic root, Chromatography, Thin Layer, Physical and Theoretical Chemistry, Chromatography, High Pressure Liquid, Analytical Chemistry

Abstract

Artic root is a well-known plant adaptogen with multipotential pharmacological properties. Thin-layer chromatography (TLC) – screening followed by diode-array high-performance liquid chromatography and nuclear magnetic resonance spectroscopy proved to be a reliable and convenient method for simultaneous determination of quality of various herbal raw materials and supplements. This combination allowed for comparing and differentiating arctic root samples as well as defining their authenticity. The study provided information on the chemical and biological properties of the seven chosen samples as well as qualitative and quantitative evaluation of the quality markers: rosavin, salidroside, and p-tyrosol. The absence of rosavin, salidroside, and p-tyrosol in three samples was detected using TLC-screening and confirmed by HPLC-DAD and NMR. The paper highlighted the importance of quality control and strict regulation for herbal medicine supplements and preparations.

Published

2022

47. A Dansyl-Modified Sphingosine Kinase Inhibitor DPF-543 Enhanced De Novo Ceramide Generation

Author

Shokhid Gulyamov, Maftuna Shamshiddinova, Seo Hyeon Jung, Dong Jae Baek, Yong-Moon Lee, and Hee Jung Kim

Subjects

Pyrrolidines, Swine, Sphingosine kinase, SPT, Substrate Specificity, chemistry.chemical_compound, SPHK, Sphingosine, Sulfones, Biology (General), Enzyme Inhibitors, Ceramide synthase, ceramide synthases, Spectroscopy, Dansyl Compounds, General Medicine, PF-543, Computer Science Applications, Cell biology, Chemistry, Phosphotransferases (Alcohol Group Acceptor), lipids (amino acids, peptides, and proteins), Acid sphingomyelinase, medicine.drug, analytical_chemistry, Ceramide, QH301-705.5, Cell Survival, Ceramides, Catalysis, Article, Cell Line, Inorganic Chemistry, medicine, Animals, Humans, ceramide, Physical and Theoretical Chemistry, LC-MS/MS, Molecular Biology, QD1-999, Methanol, Organic Chemistry, Serine C-palmitoyltransferase, Sphingolipid, De novo synthesis, carbohydrates (lipids), chemistry, sphingolipid, metabolism

Abstract

Sphingosine-1-phosphate (S1P) synthesized by sphingosine kinase (SPHK) is a signaling molecule, involved in cell proliferation, growth, differentiation, and survival. Indeed, a sharp increase of S1P was linked to the pathological outcome with inflammation, cancer metastasis or angiogenesis etc. In this regard, the SPHK/S1P axis regulation has been a specific issue in anticancer strategy to turn accumulated sphingosine (SPN) into cytotoxic ceramides (Cers). For these purposes, there have been numerous chemicals synthesized for SPHK inhibition. In this study, we investigated the comparative efficiency of dansylated PF-543 (DPF-543) on the Cers synthesis along with PF-543. DPF-543 deserved attention in strong cytotoxicity, due to the cytotoxic Cers accumulation by ceramide synthase (CerSs). DPF-543 exhibited dual actions on Cers synthesis by enhance the serine palmitoyltransferase (SPT) activity, and by inhibiting SPHKs which eventually induced an unusual environment of the high amount of 3-ketosphinganine and sphinganine (SPA). SPA in turn was consumed to synthesize Cers via de novo pathway. Interestingly, PF-543 increased only the SPN level, but not for SPA. In addition, DPF-543 mildly activates acid sphingomyelinase (aSMase) that contributes a partial increase on Cers. Collectively, a dansyl-modified DPF-543 relatively en-hanced Cers accumulation via de novo pathway which was not observed in PF-543. Our results demonstrated that the structural modification on SPHK inhibitors is still an attractive anticancer strategy by regulating sphingolipid metabolism.

Published

2021

48. Carotenoids in Bacteria: Biosynthesis, Extraction, Characterization and Applications

Author

Chad Leidy, Elena Ibáñez, Gerardo Álvarez-Rivera, Alejandro Cifuentes, Chiara Carazzone, and Gerson-Dirceu López

Subjects

analytical_chemistry, chemistry.chemical_classification, biology, Chemistry, organic chemicals, Extraction (chemistry), Ms analysis, food and beverages, macromolecular substances, biology.organism_classification, biological factors, chemistry.chemical_compound, Biochemistry, Biosynthesis, polycyclic compounds, Cell disruption, Carotenoid, Bacteria

Abstract

Natural carotenoids are secondary metabolites that exhibit antioxidant, anti-inflammatory and anti-cancer properties. These types of compounds are in high demand by pharmaceutical, cosmetic, textile and food industries, leading to the search for new natural sources of carotenoids. In recent years, the production of carotenoids from bacteria has become of great interest for industrial applications. In addition to carotenoids with C40-skeletons, some bacteria have the ability to synthesize characteristic carotenoids with C30-skeletons. In this regard, a great variety of methodologies for the extraction and identification of bacterial carotenoids has been reported and this is the first review that condenses much of this information. To understand the diversity of these carotenoids, we present their biosynthetic origin in order to focus on the methodologies employed in their extraction and characterization. Special emphasis has been made on high-performance liquid chromatography-mass spectrometry (HPLC-MS) for the analysis and identification of bacterial carotenoids. We end up this review showing their potential commercial use of bacterial carotenoids. This review is proposed as a guide for the identification of these metabolites, which are frequently reported in new bacteria strains.

Published

2021

49. Halogens in Acetophenones Direct the Hydrogen Bond Docking Preference of Phenol via Stacking Interactions

Author

Manuel Lange, Charlotte Zimmermann, and Martin A. Suhm

Subjects

chemistry.chemical_classification, analytical_chemistry, Ketone, Hydrogen bond, Intermolecular force, Stacking, Organic chemistry, Halogenation, Article, vibrational spectroscopy, 3. Good health, chemistry.chemical_compound, Crystallography, QD241-441, benchmark, chemistry, Halogen, hydrogen bonds, Phenyl group, London dispersion, molecular recognition, gas phase, density functional theory, Acetophenone, ketone complexes

Abstract

Phenol is added to acetophenone (methyl phenyl ketone) and to six of its halogenated derivatives in a supersonic jet expansion to determine the hydrogen bonding preference of the cold and isolated 1:1 complexes by linear infrared spectroscopy. Halogenation is found to have a pronounced effect on the docking site in this intermolecular ketone balance experiment. The spectra unambiguously decide between competing variants of phenyl group stacking due to their differences in hydrogen bond strength. Structures where the phenyl group interaction strongly distorts the hydrogen bond are more difficult to quantify in the experiment. For unsubstituted acetophenone, phenol clearly prefers the methyl side despite a predicted sub-kJ/mol advantage which is nearly independent of zero point vibrational energy, turning this complex into a challenging benchmark system for electronic structure methods which include long range dispersion interactions in some way.

Published

2021

50. Complete Assignment of the 1H and 13C NMR Spectra of Carthamin Potassium Salt Isolated from Carthamus Tinctorius L

Author

Maiko Sasaki and Keiko Takahashi

Subjects

analytical_chemistry, green metallic luster, Proton Magnetic Resonance Spectroscopy, Potassium, Carthamus tinctorius, Molecular Conformation, Pharmaceutical Science, chemistry.chemical_element, Analytical Chemistry, chemistry.chemical_compound, Chalcone, QD241-441, Deprotonation, Column chromatography, Glucosides, Drug Discovery, Carbon-13 Magnetic Resonance Spectroscopy, Physical and Theoretical Chemistry, Spectroscopy, Carthamin, carthamin-3′potassium salt, biology, Communication, Organic Chemistry, Carthamus, Signal Processing, Computer-Assisted, Nuclear magnetic resonance spectroscopy, Carbon-13 NMR, biology.organism_classification, chemistry, Chemistry (miscellaneous), fermented safflower petal tablet, Molecular Medicine, Nuclear chemistry

Abstract

Carthamin potassium salt isolated from Carthamus tinctorius L. was purified by an improved traditional Japanese method, without using column chromatography. The 1H and 13C nuclear magnetic resonance (NMR) signals of the pure product were fully assigned using one- and two-dimensional NMR spectroscopy, while the high purity of the potassium salt and deprotonation at the 3′ position of carthamin were confirmed by atomic adsorption spectroscopy and nano-electrospray ionization mass spectrometry.

Published

2021