Your search keyword '"Sulfation"' showing total 13,968 results

1. Unraveling the role of oxygen vacancies in enhancing the SO2-resistance of α-MnO2 towards elemental mercury removal

Author

Yu, Qian, Lai, Fei, Sheng, Shiwei, Wang, Yujia, Yuan, Bo, and Fu, Dong

Published

2025

2. Manufacturing sulfated cellulose nanofibers using a unique combined DES-based pretreatment-functionalization protocol for metal ion decontamination through porous adsorbents

Author

Montenegro, Remedios, Rincón, Esther, Rodríguez, Alejandro, and González, Zoilo

Published

2025

3. Oxy-fuel combustion of softwood in a pilot-scale down-fired pulverized combustor – Fate of potassium

Author

Thorin, Emil, Sepman, Alexey, Carlborg, Markus, Wiinikka, Henrik, and Schmidt, Florian M.

Published

2025

4. Modulating Ti coordination environment in Ti-containing materials by sulfation for synergizing with Au sites to facilitate propylene epoxidation

Author

Shi, Shudong, Du, Wei, Zhang, Zhihua, Duan, Xuezhi, and Zhou, Xinggui

Published

2024

5. The impact of apatite on sulfuric acid baking of a monazite concentrate and the benefit of goethite addition on rare earth leaching

Author

Demol, John, Ho, Elizabeth, Soldenhoff, Karin, and Senanayake, Gamini

Published

2024

6. Sulfation of wheat straw soda lignin: Role of solvents and catalysts

Author

Malyar, Yu. N., Kazachenko, A.S., Vasilyeva, N. Yu., Fetisova, O. Yu., Borovkova, V.S., Miroshnikova, A.V., Levdansky, A.V., and Skripnikov, A.M.

Published

2022

7. Sulfation Roasting of Copper Sulfide Concentrates: Re-Imagining and Improving an Old Process

Author

McNulty, Terry, Parameswaran, Krishna, and Metallurgy and Materials Society of CIM, editor

Published

2025

8. Corrosion induced by industrial coal-fired flue gas: deterioration mechanism of an existing concrete structure.

Author

Liu, Xiguang, Zhufu, Gaolin, Wang, Dongjing, Lv, Yao, Hao, Yingchen, Wang, Yan, and Niu, Ditao

Abstract

This article investigated the corrosion deterioration behavior of concrete structures exposed to industrial coal-fired flue gas for 12 years. The concrete's macro-mechanical properties, pore structure characteristics, and micro-properties were tested by in-situ and laboratory tests along the height and depth. The test results indicated that different corrosion mechanisms were occurred inside the concrete along the corrosion depth direction. In the shallow concrete zone (0–8 mm), sulfation is predominant, with gypsum (Gyp) as the primary product. O 4 2 − In the coexistence concrete zone (8 ∼ 14 mm), both sulfation and carbonation are present, with the pH increasing from 8.0 to 11.0. Beyond 14 mm, S O 4 2 − and Gyp are no longer detected. In the deep concrete zone (14–18 mm), carbonation is the dominant process, with CaCO3 as the main product. Considering the impact of the effective diffusion coefficient and SO2 concentration gradient distribution, a prediction model for the neutralization depth of concrete in industrial coal-fired flue gas has been proposed. [ABSTRACT FROM AUTHOR]

Published

2025

9. Recovery of Scandium from Bauxite Residue Using Sulfation Roasting-Assisted Water Leaching Process.

Author

Falah, Fiqri Nurul, Kurniawan, Kurniawan, Ichlas, Zela Tanlega, and Mubarok, Mohammad Zaki

Subjects

*AMMONIUM sulfate, *SULFATION, *ROASTING (Metallurgy), *MELTING points, *X-ray spectroscopy

Abstract

This study presents a method for recovering scandium from Indonesian bauxite residue (red mud) through a sulfation roasting-assisted water leaching process. Ammonium sulfate, (NH4)2SO4, was chosen as the sulfate source for its lower melting point, less corrosivity, decreased toxicity, and the potential for ammonia recovery. A modified mixing system was introduced to improve the distribution of (NH4)2SO4 on red mud particles by combining them in water. A series of experiments were conducted to optimize the sulfation roasting process by examining the effects of the (NH4)2SO4/red mud ratio, temperature, and roasting time. Subsequently, water leaching was optimized while considering the effect of leaching time and liquid-to-solid (L/S) ratio. The leaching of scandium from the roasted red mud showed rapid kinetics, even when using only water. Under the roasting conditions of 1/1 (g/g) (NH4)2SO4/red mud ratio, 700°C, 60 min roasting time, and the leaching conditions of 65°C, 60 min, and 10 mL/g (L/S), over 90% of scandium was recovered, along with 64.4% Al leaching and below 8% Fe leaching. These results were further corroborated through comprehensive analyses such as x-ray diffraction (XRD) and scanning electron microscopy-energy dispersive X-ray spectroscopy (SEM-EDS). This study offers insights into an alternative, more environmentally friendly method for Sc recovery from red mud, promoting the sustainable use of hazardous waste like red mud. [ABSTRACT FROM AUTHOR]

Published

2025

10. Maintaining the Cartilage Phenotype of Late-Passage Chondrocytes Using Salidroside, TGF-β, and Sulfated Alginate for Cartilage Tissue Engineering Applications.

Author

Diab, Rita G., Deeb, George, Roda, Rena, Karam, Mia, Faraj, Marwa, Harajli, Mohamad, Damiati, Laila A., and Mhanna, Rami

Subjects

*TISSUE engineering, *CELL morphology, *CARTILAGE diseases, *AUTOTRANSPLANTATION, *SULFATION, *CARTILAGE regeneration

Abstract

The limited self-repair capacity of cartilage due to its avascular and aneural nature leads to minimal regenerative ability. Autologous chondrocyte transplantation (ACT) is a popular treatment for cartilage defects but faces challenges due to chondrocyte dedifferentiation in later passages, which results in undesirable fibroblastic phenotypes. A promising treatment for cartilage injuries and diseases involves tissue engineering using cells (e.g., chondrocytes), scaffolds (e.g., Alginate Sulfate (AlgSulf)), and biochemical signals (e.g., Salidroside and TGF-β). This study focuses on investigating the effects of AlgSulf scaffolds with varying degrees of sulfation, Salidroside, and TGF-β on the proliferation, viability, and phenotype maintenance of chondrocytes. The findings demonstrate that AlgSulf films with a degree of sulfation (DS) = 2, treated with a combination of Salidroside and TGF-β, significantly enhanced chondrocyte proliferation (p < 0.001 and p < 0.0001 in P2 and P4, respectively), preserved round cell morphology, and maintained cartilage-specific gene expression (Col2, Aggrecans, and SOX9) while downregulating fibroblastic markers (Col1, MMP13, IL-1β, and IL-6). Our findings suggest the potential of this combination for enhancing cartilage regeneration in tissue engineering applications. [ABSTRACT FROM AUTHOR]

Published

2024

11. 海藻酸钠寡糖硫酸化衍生物的制备及其 抗氧化活性.

Author

王康康, 王柏翔, 孙昊鉴, 李岩峰, 吴海歌, and 姚子昂

Subjects

RESPONSE surfaces (Statistics), SULFATION, ANTIOXIDANT testing, FREE radicals, OLIGOSACCHARIDES

Abstract

Copyright of Food Research & Development is the property of Food Research & Development Editorial Department and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

12. An Integrated Strategy to Identify Tyrosine Sulfation from the Therapeutic Proteins.

Author

Jang, Eunju, Ma, Fengfei, Tomazela, Daniela, Fayadat-Dilman, Laurence, and Al-Sayah, Mohammad Ahmed

Abstract

Posttranslational modifications (PTMs) are potential critical quality attributes in biotherapeutic development, as they can affect drug efficacy and safety. Tyrosine sulfation plays a critical role in protein–protein interactions and has been found on many surface receptors as well as antibody complementarity-determining regions (CDR). However, the presence and function of tyrosine sulfation in therapeutic proteins have not been broadly investigated due to difficulties in detecting the modification. Here, we establish an integrated strategy to identify tyrosine sulfation in biotherapeutic proteins. In silico prediction was used to estimate possible modification sites, followed by the elucidation with intact LCMS and native SCX–MS. The combination of these three steps takes less than 1 h, which provides quick and confident preliminary detection of potential CQAs. Taking NB1 as an example, three +80 Da mass shifts were observed from intact mass analysis and three acidic peaks were monitored by SCX, allowing confirmation of modification as either phosphorylation or sulfation. Peptide mapping, Fe3+-IMAC enrichment, and dephosphorylation were further conducted to provide improved signal intensity and differentiation of modification such as sulfation or phosphorylation. With this integrated strategy, we were able to identify for the first time both tyrosine sulfation and serine phosphorylation in one therapeutic protein. [ABSTRACT FROM AUTHOR]

Published

2024

13. Raman spectroscopy assisted by other analytical techniques to identify the most deteriorated carbonate‐stones to be consolidated in two monuments of Vitoria‐Gasteiz (Spain).

Author

Costantini, Ilaria, Aramendia, Julene, Etxebarria, Idoia, de la Fuente, Iñaki Vazquez, Castro, Kepa, Sanchez‐Pinto, Iban, Pérez, Lucía, Yécora, Beatriz, Sanz, Macarena, Prieto‐Taboada, Nagore, de la Fuente, Ander, Martinez‐Arkarazo, Irantzu, Azkarate, Agustin, Yedra, Ángel, Oroz, Tamara, Arana, Gorka, and Madariaga, Juan Manuel

Subjects

*STONE, *POTASSIUM nitrate, *CALCIUM oxalate, *CONSTRUCTION materials, *AMMONIUM nitrate, *GOETHITE

Abstract

This work describes the diagnostic study on the building materials, mostly carbonated, belonging to Santa Maria Cathedral and the Medieval Wall of Vitoria‐Gasteiz (Spain) with the aim to design the best conservation procedure. Both the studies of the lithology and the secondary compounds originated by environmental impacts on the Cathedral and on the Medieval Wall were carried out using laboratory instruments (μ‐Raman and micro‐energy‐dispersive X‐ray spectroscopy, X‐ray diffraction and ion chromatography) on selected samples provided by the restorers. The systematic presence of black crusts in the stones of the Cathedral was related to the growth of microcrystalline structures of secondary compounds and biological patinas and the deposition of atmospheric particles from traffic and house heating systems. In fact, the main components identified were carbon, and iron compounds such as hematite, goethite, magnetite and lepidocrocite. In addition, the detection of lead compounds (lead‐rich hydroxyapatite) suggested in the same way the impact of the urban environment on the degradation and blackening of stone materials. The presence of sulfates, mainly gypsum, and, to a lesser extent, epsomite, anhydrite and bloedite could be caused by the sulfation of carbonated compounds as a result of an acid attack of atmospheric pollutants. The results on the secondary products of the Medieval Wall showed a greater presence of degradation by microorganisms compared to the Cathedral. This is probably related to the large garden surrounding the fortification, where the grass is in direct contact to the lower part of the structure. Markers of biological activity, such as carotenoid pigments and calcium oxalate weddellite, together with other soluble oxalates were identified. The presence of ammonium nitrate, characterised by means ion chromatography, causes a chemical degradation of carbonate stone materials over time, due to the acidic nature of the ammonium ion. In both cases considered in this study, the presence of nitrate compounds, nitratine and potassium nitrate, was attributed to both natural factors (ammonium nitrate is coming from the decomposition of plant and animal excretions), and anthropogenic contamination. [ABSTRACT FROM AUTHOR]

Published

2024

14. Thyroid Carcinoma Glycoproteins Express Altered N -Glycans with 3-O-Sulfated Galactose Residues.

Author

Broekhuis, Jordan M., Lu, Dongli, Aryal, Rajindra P., Matsumoto, Yasuyuki, Pepi, Lauren E., Chaves, Natalia, Gomez-Mayorga, Jorge L., James, Benjamin C., and Cummings, Richard D.

Subjects

*THYROID cancer, *GLYCOPROTEINS, *WESTERN immunoblotting, *MASS spectrometry, *SULFATION

Abstract

Aberrant protein glycosylation is a hallmark alteration of cancer and is highly associated with cancer progression. Papillary thyroid cancer (PTC) is the most common type of thyroid cancer, but the N-glycosylation of its glycoproteins has not been well characterized. In this work, we analyzed multiple freshly prepared PTC specimens along with paired normal tissue obtained from thyroidectomies. Glycomic analyses focused on Asn-linked (N)-glycans and employed mass spectrometry (MS), along with Western blot approaches of total solubilized materials that were examined for binding by specific lectins and a monoclonal antibody (mAb) O6, specific for 3-O-sulfated galactose residues. We observed major differences in PTC versus paired normal specimens, as PTC specimens exhibited higher levels of N-glycan branching and bisection with N-acetylglucosamine residues, consistent with RNAseq data. We also found that 3-O-sulfated galactose was present in N-glycans of multiple glycoproteins from both PTC and control specimens, as recognized by the O6 mAb and as confirmed by MS analyses. These results provide new insights into the N-glycans present in glycoproteins of thyroid cancer and context for further studies of these altered glycans as biomarkers and targets for therapeutics. [ABSTRACT FROM AUTHOR]

Published

2024

15. Population Pharmacokinetics of Intravenous Paracetamol and Its Metabolites in Extreme Preterm Neonates in the Context of Patent Ductus Arteriosus Treatment: Pharmacokinetics of Paracetamol and Its Metabolites in Preterm Neonates of 23–26 Weeks: F. Padavia et al

Author

Padavia, Faheemah, Treluyer, Jean-Marc, Cambonie, Gilles, Flamant, Cyril, Rideau, Aline, Tauzin, Manon, Patkai, Juliana, Gascoin, Géraldine, Lumia, Mirka, Aikio, Outi, Foissac, Frantz, Urien, Saïk, Benaboud, Sihem, Lui, Gabrielle, Froelicher Bournaud, Léo, Zheng, Yi, Kemper, Ruth, Tortigue, Marine, Baruteau, Alban-Elouen, and Kallio, Jaana

Subjects

*PATENT ductus arteriosus, *BIRTH weight, *ALANINE aminotransferase, *GESTATIONAL age, *SULFATION, *ASPARTATE aminotransferase

Abstract

Aims: Our aim was to describe the pharmacokinetics of paracetamol and its metabolites in extreme preterm neonates in the context of patent ductus arteriosus treatment. Factors associated with inter-individual variability and metabolic pathways were studied. The association between drug exposure and clinical outcomes were investigated. Methods: Preterm neonates of 23–26 weeks' gestational age received paracetamol within 12 h after birth. Plasma concentrations of paracetamol and its metabolites were measured throughout 5 days of treatment. Clinical success was defined as ductus closure on two consecutive days or at day 7. Aspartate aminotransferase and alanine aminotransferase levels were used as surrogates for liver damage. Results: Data from 30 preterm neonates were available for pharmacokinetic analysis. Paracetamol pharmacokinetics were described using a two-compartment model with significant positive effects of weight on clearance and of birth length on peripheral compartment volume. Paracetamol was mainly metabolised into sulphate (89%) then glucuronide (6%), and the oxidative metabolic pathway was reduced (4%). The glucuronidation pathway increased with gestational age, whereas the sulfation pathway decreased. No difference was observed in drug exposure between successful and unsuccessful patients. No increase in aspartate aminotransferase and alanine aminotransferase levels were observed during treatment, and no association was found with either paracetamol or oxidative metabolite exposures. Conclusion: The relative proportions of the metabolic pathways were characterised with gestational age. In the range of observed drug exposures, no association was found with clinical response or liver biomarkers. These findings may suggest that paracetamol concentrations were within the range that already guarantee a maximum effect on ductus closure. [ABSTRACT FROM AUTHOR]

Published

2024

16. Commercially available carrageenans show broad variation in their structure, composition, and functionality.

Author

Hale, Julia, Gerhäuser, Julian, Gaukel, Volker, and Wefers, Daniel

Subjects

*FOOD additives, *RED algae, *DISACCHARIDES, *POLYSACCHARIDES, *SULFATION, *CARRAGEENANS

Abstract

Carrageenans are polysaccharides from red algae which are widely used as food additives and in other applications. Their structure is often described by different disaccharide repeating units, although it was already demonstrated that reality is more complex. In many studies, commercial carrageenans were used to establish structure function relationships, but a structural and compositional analysis was rarely conducted. Therefore, the aim of our study was to systematically and comprehensively characterize a broad collection of commercial carrageenans with different specifications from different manufacturers. For a more detailed characterization, an analytical approach based on partial enzymatic hydrolysis in combination with HPLC–MS and HPSEC-RI was developed and applied. Furthermore, rheology was used to gain detailed insights into the functionality of selected samples. Our results demonstrate that significant structural variation can be observed for commercial carrageenans. The samples contained different cations and the carrageenan type specified by the manufacturer did not always represent the structure of the corresponding polysaccharides. This was especially true for λ-carrageenans: Of the six commercial samples analyzed, none contained structural elements from the λ-type. Instead, the corresponding carrageenans contained κ-, ι- and ν-units. The application of the developed enzymatic-chromatographic approach showed that different hybrid carrageenans are present. In addition, the rheological analysis of the commercial carrageenan samples showed clear differences in the gelling properties upon calcium addition which could influence their behavior in different applications. Our results demonstrate that before an investigation of structure–function relationships, commercial carrageenan samples should be analyzed for their structure and composition. We also showed that the enzymatic-chromatographic approach described in this study is well suited for this purpose. [ABSTRACT FROM AUTHOR]

Published

2024

17. Enzymatically cross-linkable sulfated bacterial polyglucuronic acid as an affinity-based carrier of FGF-2 for therapeutic angiogenesis.

Author

Goto, Ryota, Sakai, Shinji, Delattre, Cédric, Petit, Emmanuel, El Boutachfaiti, Redouan, and Nakahata, Masaki

Subjects

*HORSERADISH peroxidase, *HEMATOPOIESIS, *AQUEOUS solutions, *NEOVASCULARIZATION, *SULFATION

Abstract

The fibroblast growth factor-2 (FGF-2) is a critical protein for biological processes such as angiogenesis and tissue regeneration. Recently, hydrogels based on semi-synthetic sulfated polysaccharides have been developed for the controlled delivery of FGF-2. These affinity-based FGF-2 carriers utilizing hydrogels based on sulfated polysaccharides enable sustained delivery of FGF-2, yet choice of materials is limited. Here, we demonstrate a novel synthetic sulfated polysaccharide-based hydrogel based on bacterial polyglucuronic acid (PGU). We synthesized phenol-grafted sulfated PGU (PGUS-Ph), an enzymatically cross-linkable PGU derivative that exhibited an enhanced affinity for FGF-2. The aqueous solution of PGUS-Ph, when combined with FGF-2, could be injected into affected sites and form a hydrogel in a minimally invasive manner. The FGF-2 released from the PGUS-Ph hydrogel induced blood vessel formation, as proven by a chick embryo-based angiogenesis assay. Our results indicate that the PGUS-Ph has the potential as an enzymatically cross-linkable and minimally invasively injectable affinity-based FGF-2 delivery system. [ABSTRACT FROM AUTHOR]

Published

2024

18. Lead-acid battery desulfation using a high-frequency pulse desulfator in standalone PV systems.

Author

El Filali, Anas, Laadissi, El Mehdi, Khalfi, Jaouad, and Zazi, Malika

Subjects

PHOTOVOLTAIC power systems, SULFATION, LEAD-acid batteries, ELECTRONIC pulse techniques, ELECTRICAL engineering

Abstract

The work presented in this article contributes to the study of a standalone photovoltaic (PV) system with battery storage by creating an electronic board that allows for the recovery of the battery's capacity using pulse technology that uses high-energy pulses from the PV panel to break down and remove the sulfation buildup, which is a contributing factor in the failure of most lead-acid batteries. Different methods or treatments can be used to lessen the impact of sulfation or even get rid of it and achieve battery rejuvenation. Battery sulfation is a process in which sulfate crystals form on the plates of a lead-acid battery, impeding its ability to retain a charge, and decreasing the battery's overall effectiveness. This process can happen due to various reasons, such as charging for a shorter time than required, charging for a longer period of time than required, or even not charging it for quite some time. Sulfation affects a battery's lifespan and comes with adverse effects on its performance, though it can be prevented. [ABSTRACT FROM AUTHOR]

Published

2024

19. Comprehensive Recovery of Decommissioned High-Nickel Lithium Battery by Sulphation Roasting--Curing.

Author

HUANG Yanting, SHI Pengfei, QU Xin, CHANG Di, ZHANG Xinyue, and HU Fang

Subjects

ROASTING (Metallurgy), LEACHING, LITHIUM cells, CURING, COBALT hydroxides, COPPER, SULFATION

Abstract

In order to comprehensively recover the valuable components from decommitted high-nickel ternary lithium batteries, lithium was selectively extracted by sulphation roasting and water leaching, and the water leaching residue was then processed by aging leaching, impurity removal and precipitation to prepare nickel-cobalt-manganese hydroxide. The results show that the optimum conditions of sulfation roasting are n(H2SO4) : n(Li) = 1.4 : 1, roasting temperature of 600 °C, roasting time of 1 h, and the water leaching rate of Li, Mn can reach 94.36%, 11.03%, respectively, Ni and Co hardly leaching. Under the conditions of acid-ore ratio of 1.74, curing temperature of 120 °C, curing time of 120 min and liquid volume to solid mass ratio of 7.5 mL/1 g, the aqueous leaching slag is cured and acid leaching. The leaching rates of Li, Ni, Co, Mn, Cu, Fe and Al are 97.86%, 89.16%, 95.09%, 100%, 63.6%, 99.71% and 56.76%, respectively. Under the optimum conditions of PH = 3.38, precipitation temperature of 60 °C and precipitation time of 60 min, the precipitation rates of Fe, Al and Cu n the solution can reach 100%, 98.07% and 82.51%, respectively. Nickel cobalt manganese hydroxide can be formed by co-precipitation after pH adjustment. Under the optimal conditions of pH = 9.44, co-precipitation temperature of 55 °C and co-precipitation time of 120 min, the precipitation rates of N1,CO and Mn can reach 99.6%,100% and 98.72%, respectively. [ABSTRACT FROM AUTHOR]

Published

2024

20. Effects of Sulfated Modification on the Structural Characterization and Antioxidant Activities of Coconut (Cocos nucifera L.)Haustorium Polysaccharide

Author

Jintao KAN, Zhenglin PI, Kaili YANG, Jinhao ZHAO, Xiaoyan LIU, and Yufeng ZHANG

Subjects

coconut haustorium polysaccharide, sulfation, substitution degree, antioxidant activity, structure property, Food processing and manufacture, TP368-456

Abstract

To investigate the effect of sulfated modification on the structure and function of coconut haustorium polysaccharide (CHP), three kinds of sulfated coconut haustorium polysaccharides (SCHP-2, SCHP-3, and SCHP-4) were prepared using sulfation reagents containing different ratios of chlorosulfonic acid and pyridine (v/v, mL/mL: 1/2, 1/3, and 1/4) after extracting CHP from the raw materials of coconut haustorium, and their basic chemical compositions, structural characteristics and antioxidant activity in vitro were compared and analyzed. Results showed that all three sulfation reagents were able to modify CHP (characteristic peaks of S=O and C-O-S were observed near 1100~1250 cm−1 and 820 cm−1 in infrared spectra, respectively), and the degree of substitution (DS) was the highest (0.75) at the ratio of chlorosulfonic acid and pyridine for 1/2. The total sugar, uronic acid content, and molecular weight of the three SCHP decreased, and the molar content of monosaccharides also changed when comparing with that of CHP. The thermal stability had slightly weakened as well (the degradation temperature of polysaccharides decreased from 211.17 ℃ and 282.01 ℃ of CHP to 194.86~207.70 ℃ and 233.35~262.46 ℃ of SCHP, respectively). The results of antioxidant experiments in vitro showed that the scavenging activity of SCHP on DPPH and hydroxyl radicals was lower than that of CHP, and the larger the DS was, the more obvious the decrease in activity was. In terms of the ABTS+ radicals scavenging ability and ferrous ions chelating activity, increasing DS could enhance the activity of SCHP. At 8 mg/mL, the ABTS+ radicals scavenging rate (54.82%) and ferrous ions chelating rate (15.59%) of SCHP-2 were significantly (P

Published

2024

21. Effects of catechins, resveratrol, silymarin components and some of their conjugates on xanthine oxidase‐catalyzed xanthine and 6‐mercaptopurine oxidation.

Author

Bencsik, Tímea, Balázs, Orsolya, Vida, Róbert G, Zsidó, Balázs Z, Hetényi, Csaba, Valentová, Kateřina, and Poór, Miklós

Subjects

*XANTHINE oxidase, *CHEMICAL industry, *SULFATION, *CATECHIN, *SILYMARIN, *RESVERATROL

Abstract

BACKGROUND RESULTS CONCLUSION Over the past two decades, the global incidence of gout has markedly increased, affecting people worldwide. Considering the side effects of xanthine oxidase (XO) inhibitor drugs (e.g. allopurinol and febuxostat) used in the treatment of hyperuricemia and gout, the potential application of phytochemicals has been widely studied. In addition, XO also takes part in the elimination of certain drugs, including 6‐mercaptopurine. In the current explorative study, we aimed to examine the potential effects of tea catechins, resveratrol, silymarin flavonolignans and some of their conjugated metabolites on XO‐catalyzed xanthine and 6‐mercaptopurine oxidation, applying in vitro assays and modeling studies.Catechins, resveratrol and resveratrol conjugates exerted no or only weak inhibitory effects on XO. Silybin A, silybin B and isosilybin A were weak, silychristin was a moderate, while 2,3‐dehydrosilychristin was a potent inhibitor of the enzyme. Sulfate metabolites of silybin A, silybin B and isosilybin A were considerably stronger inhibitors compared to the parent flavonolignans, and the sulfation of 2,3‐dehydrosilychristin slightly increased its inhibitory potency. Silychristin was the sole flavonolignan tested, where sulfate conjugation decreased its inhibitory effect.2,3‐Dehydrosilychristin seems to be a promising candidate for examining its in vivo antihyperuricemic effects, because both the parent compound and its sulfate conjugate are highly potent inhibitors of XO. © 2024 The Author(s). Journal of the Science of Food and Agriculture published by John Wiley & Sons Ltd on behalf of Society of Chemical Industry. [ABSTRACT FROM AUTHOR]

Published

2024

22. Biocatalytic sulfation of aromatic and aliphatic alcohols catalyzed by arylsulfate sulfotransferases.

Author

Oroz-Guinea, Isabel, Rath, Marko, Tischler, Isabelle, Ditrich, Klaus, Schachtschabel, Doreen, Breuer, Michael, and Kroutil, Wolfgang

Subjects

*BIOCHEMICAL substrates, *SULFATION, *SULFOTRANSFERASES, *AMINO group, *AROMATIC compounds

Abstract

Many relevant metabolites, as well as chemical commodities, contain at least one sulfate ester group. Consequently, biocatalytic strategies to attach sulfate to a molecule under mild conditions are of high interest. In order to expand the enzymatic toolbox available, five new arylsulfate sulfotransferases (ASSTs) were identified in this study. Overexpression in Escherichia coli and enzyme purification resulted in soluble proteins which catalyzed the sulfate transfer to an acceptor substrate using p-nitrophenyl sulfate (pNPS) as sulfate donor. Optimal reaction conditions were established with respect to temperature and pH, as well as their tolerance to organic co-solvents and melting temperature. Additionally, the kinetic parameters (Vmax, KM, and kcat) were determined. The substrate scope for the acceptor showed that a structurally diverse spectrum of alcohols is accepted. The substrates included phenolic alcohols with one, two, and three hydroxy groups, linear and cyclic aliphatic alcohols, and amines. The phenolic substrates were accepted reaching activities of up to 154 U/mg purified enzyme. Additionally, also the aliphatic alcohols (both linear and cyclic) were accepted at reduced activity, showing that these enzymes are not limited to phenolic alcohols. Moreover, catalytic activity was detected when using aniline as an acceptor substrate implying their ability to sulfate also amino groups. Finally, the consecutive sulfation of di- and trihydroxy compounds was observed, resulting in the detection of the corresponding disulfated molecules. Key points: • Five novel arylsulfate sulfotransferases were identified and characterized. • Accepted substrates included aromatic and aliphatic alcohols, as well as aniline. • Disulfation of di- and trihydroxy aromatic compounds was studied and confirmed. [ABSTRACT FROM AUTHOR]

Published

2024

23. Sulfated galactofucan from Sargassum fusiforme protects against postmenopausal osteoporosis by regulating bone remodeling.

Author

Yizhong, Bao, Chen, Fen, Jin, Weihua, Dai, Jihua, Mao, Genxiang, and Song, Boshan

Subjects

*OSTEOPOROSIS in women, *BONE diseases, *OLDER women, *BONE remodeling, *SULFATION

Abstract

Osteoporosis is a degenerative bone disease highly prevalent in older women, causing high morbidity and mortality rates. Fourteen kinds of fucoidan were isolated from Sargassum fusiforme through acid (named as SFS), alkaline (SFJ) and water (SFW). SFW was passed through an anion exchange column to obtain SFW-0, SFW-0.5 and SFW-2. SFW-0.5 and SFW-2 were degraded to obtain different sulfate group contents SFW-x-M/S/O (x for 0.5 or 2). We further confirmed SFW-0.5-O was the most effective fraction of SFW. SFW-0.5-O may have alternating backbones of (Gal)n and (Fuc)n, and the main sulfation may be at C2/C3 of the Fuc/Gal residues. SFW-0.5-O inhibition of OC differentiation was associated with IRF-8 signaling; meanwhile, SFW-0.5-O promoted osteoblast differentiation and bone mineral nodule formation. SFW-0.5-O also effectively ameliorated osteoporosis symptom caused by estrogen deprivation in vivo. We uncovered that the fucoidan active fraction SFW-0.5-O demonstrated effective bone protection, may be exploited for osteoporosis therapy. Fucoidan active ingredient SFW-0.5-O can effectively inhibit osteoclastogenesis, promote osteoblast differentiation, and improve osteoporosis symptoms caused by estrogen deprivation. [ABSTRACT FROM AUTHOR]

Published

2024

24. Systematic Characteristics of Fucoidan: Intriguing Features for New Pharmacological Interventions.

Author

Jeong, Seungjin, Lee, Seokmin, Lee, Geumbin, Hyun, Jimin, and Ryu, Bomi

Subjects

*BROWN algae, *BIODIVERSITY, *SULFATION, *MOLECULAR weights, *DRUG therapy

Abstract

Fucoidan, a sulfated polysaccharide found primarily in brown algae, is known for exhibiting various biological activities, many of which have been attributed to its sulfate content. However, recent advancements in techniques for analyzing polysaccharide structures have highlighted that not only the sulfate groups but also the composition, molecular weight, and structures of the polysaccharides and their monomers play a crucial role in modulating biological effects. This review comprehensively provides the monosaccharide composition, degree of sulfation, molecular weight distribution, and linkage of glycosidic bonds of fucoidan, focusing on the diversity of its biological activities based on various characteristics. The implications of these findings for future applications and potential therapeutic uses of fucoidan are also discussed. [ABSTRACT FROM AUTHOR]

Published

2024

25. Boosting chondrocyte bioactivity with ultra-sulfated glycopeptide supramolecular polymers.

Author

Sollenberger, Christopher H., Qiu, Ruomeng, Sai, Hiroaki, Carrow, James K., Fyrner, Timmy, Gao, Zijun, Palmer, Liam C., and Stupp, Samuel I.

Subjects

SUPRAMOLECULAR polymers, MOLECULAR structure, ARTICULAR cartilage, SULFATION, AUTOTRANSPLANTATION, CARTILAGE regeneration, CHONDROITIN sulfates

Abstract

Although autologous chondrocyte transplantation can be effective in articular cartilage repair, negative side effects limit the utility of the treatment, such as long recovery times, poor engraftment or chondrogenic dedifferentiation, and cell leakage. Peptide-based supramolecular polymers have emerged as promising bioactive systems to promote tissue regeneration through cell signaling and dynamic behavior. We report here on the development of a series of glycopeptide amphiphile supramolecular nanofibers with chondrogenic bioactivity. These supramolecular polymers were found to have the ability to boost TGFβ-1 signaling by displaying galactosamine moieties with differing degrees of sulfation on their surfaces. We were also able to encapsulate chondrocytes with these nanostructures as single cells without affecting viability and proliferation. Among the monomers tested, assemblies of trisulfated glycopeptides led to elevated expression of chondrogenic markers relative to those with lower degrees of sulfation that mimic chondroitin sulfate repeating units. We hypothesize the enhanced bioactivity is rooted in specific interactions of the supramolecular assemblies with TGFβ-1 and its consequence on cell signaling, which may involve elevated levels of supramolecular motion as a result of high charge in trisulfated glycopeptide amphiphiles. Our findings suggest that supramolecular polymers formed by the ultra-sulfated glycopeptide amphiphiles could provide better outcomes in chondrocyte transplantation therapies for cartilage regeneration. This study prepares glycopeptide amphiphiles conjugated at their termini with chondroitin sulfate mimetic residues with varying degrees of sulfation that self-assemble into supramolecular nanofibers in aqueous solution. These supramolecular polymers encapsulate chondrocytes as single cells through intimate contact with cell surface structures, forming artificial matrix that can localize the growth factor TGFβ-1 in the intercellular environment. A high degree of sulfation on the glycopeptide amphiphile is found to be critical in elevating chondrogenic cellular responses that supersede the efficacy of natural chondroitin sulfate. This work demonstrates that supramolecular assembly of a unique molecular structure designed to mimic chondroitin sulfate successfully boosts chondrocyte bioactivity by single cell encapsulation, suggesting a new avenue implementing chondrocyte transplantation with supramolecular nanomaterials for cartilage regeneration. [Display omitted] [ABSTRACT FROM AUTHOR]

Published

2024

26. 硒的提取与提纯研究现状.

Author

刘元辉, 杨斌, 徐宝强, 蒋文龙, 查国正, and 罗欢

Subjects

PRODUCT recovery, RAW materials, SULFATION, ROASTING (Metallurgy), SOOT

Abstract

Copyright of Nonferrous Metals (Extractive Metallurgy) is the property of Beijing Research Institute of Mining & Metallurgy Technology Group and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

27. Benzylic C−H Radical Sulfation by Persulfates.

Author

Xia, Zhen, Ye, Zhongyao, Deng, Ting, Tan, Ze, Song, Chunlang, and Li, Jiakun

Abstract

Sulfation is a highly valuable pathological and physiological process, yet it is often underappreciated considering the rather difficult accessibility of organosulfates. O‐sulfonation (O−SO3), a conventional and still common way to make organosulfates, restricts its applicability to hydroxyl compounds and therein lies a major challenge of library construction. Here, we describe a benzylic C−H radical sulfation with persulfates via C−O bond formation. This strategy leverages modular control over the reactivity of persulfates and the stability of sulfate radicals by coutercations. K+/NH4+ stabilized sulfate radicals act as the oxidant to generate carbon‐centered radicals from substrates, and activation of persulfates by n‐NBu4+ provides O−O resource pool to facilitate C−OSO3− bond formation via a bimolecular homolytic substitution (SH2) process. [ABSTRACT FROM AUTHOR]

Published

2024

28. Characterization of metabolic features and potential anti‐osteoporosis mechanism of pinoresinol diglucoside using metabolite profiling and network pharmacology.

Author

Tu, Xin‐Pu, Wu, Si‐Xian, Li, Meng‐Yin, Chen, Zi‐Hao, Liu, Cheng‐Jun, Ruan, Yan‐Jie, Zeng, Jian‐Bin, Shi, Wei, Liu, Jian‐Hang, and Zhang, Feng‐Xiang

Subjects

*ORAL drug administration, *CHINESE medicine, *LIQUID chromatography, *CELLULAR signal transduction, *SULFATION

Abstract

Rationale: Eucommia cortex is the core herb in traditional Chinese medicine preparations for the treatment of osteoporosis. Pinoresinol diglucoside (PDG), the quality control marker and the key pharmacodynamic component in Eucommia cortex, has attracted global attention because of its definite effects on osteoporosis. However, the in vivo metabolic characteristics of PDG and its anti‐osteoporotic mechanism are still unclear, restricting its development and application. Methods: Ultra‐high‐performance liquid chromatography coupled with quadrupole time‐of‐flight mass spectrometry was used to analyze the metabolic characteristics of PDG in rats, and its anti‐osteoporosis targets and mechanism were predicted using network pharmacology. Results: A total of 51 metabolites were identified or tentatively characterized in rats after oral administration of PDG (10 mg/kg/day), including 9 in plasma, 28 in urine, 13 in feces, 10 in liver, 4 in heart, 3 in spleen, 11 in kidneys, and 5 in lungs. Furan‐ring opening, dimethoxylation, glucuronidation, and sulfation were the main metabolic characteristics of PDG in vivo. The potential mechanism of PDG against osteoporosis was predicted using network pharmacology. PDG and its metabolites could regulate BCL2, MARK3, ALB, and IL6, involving PI3K‐Akt signaling pathway, estrogen signaling pathway, and so on. Conclusions: This study was the first to demonstrate the metabolic characteristics of PDG in vivo and its potential anti‐osteoporosis mechanism, providing the data for further pharmacological validation of PDG in the treatment of osteoporosis. [ABSTRACT FROM AUTHOR]

Published

2024

29. 硫酸化修饰对椰子吸器多糖结构和 抗氧化活性的影响.

Author

阚金涛, 皮正林, 杨锴莉, 赵津好, 刘笑焱, and 张玉锋

Subjects

IRON ions, HYDROXYL group, POLYSACCHARIDES, URONIC acids, SULFATION

Abstract

Copyright of Science & Technology of Food Industry is the property of Science & Technology of Food Industry Editorial Office and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

30. Glycosaminoglycan Concentration and Sulfation Patterns of Biohybrid Polymer Matrices Direct Microvascular Network Formation and Stability.

Author

Limasale, Yanuar Dwi Putra, Fusenig, Maximilian, Samulowitz, Marten, Atallah, Passant, Sievers, Jana, Dennison, Nicholas, Freudenberg, Uwe, Friedrichs, Jens, and Werner, Carsten

Subjects

*STROMAL cells, *EXTRACELLULAR matrix, *UMBILICAL veins, *SULFATION, *GROWTH factors

Abstract

Complexation with sulfated glycosaminoglycans (GAGs) regulates the signaling of pro‐angiogenic growth factors in vivo. To use this principle in modulating microvascular network formation and stability in vitro, a library of biohybrid hydrogels containing heparin, a highly sulfated GAG, or its selectively desulfated derivatives, is prepared. The hydrogels are applied to systematically investigate the effects of GAG concentration and sulfation patterns on embedded cultures of human umbilical vein endothelial cells (HUVECs) and cocultures of HUVECs with mesenchymal stromal cells (MSCs). Formation and morphology of microvascular networks, stromal cell expansion, and extracellular matrix (ECM) protein deposition are found to be significantly influenced by the hydrogel's GAG concentrations and sulfation patterns, presumably through differences in the resulting availability and bioactivity of GAG‐binding growth factors. In particular, cocultures in hydrogels with either low heparin concentration (500 µm) or higher concentrations of heparin desulfated at the 6O or N position resulted in the formation of dense, stable microvascular networks. The respective conditions also displayed enhanced stromal cell proliferation and ECM protein deposition, leading to increased matrix stiffness. Therefore, precisely tuning the affinity of biohybrid materials for pro‐angiogenic factors effectively enhances the vascularization of engineered tissue constructs in vitro. [ABSTRACT FROM AUTHOR]

Published

2024

31. Site-specific sulfations regulate the physicochemical properties of papillomavirus-heparan sulfate interactions for entry.

Author

Bano, Fouzia, Soria-Martinez, Laura, van Bodegraven, Dominik, Throsteinsson, Konrad, Brown, Anna M., Fels, Ines, Snyder, Nicole L., Bally, Marta, and Schelhaas, Mario

Subjects

*HUMAN papillomavirus, *SULFATION, *HEPARAN sulfate, *OROPHARYNGEAL cancer, *CAPSIDS, *VIRAL tropism

Abstract

Certain human papillomaviruses (HPVs) are etiological agents for several anogenital and oropharyngeal cancers. During initial infection, HPV16, the most prevalent cancer-causing type, specifically interacts with heparan sulfates (HSs), not only enabling initial cell attachment but also triggering a crucial conformational change in viral capsids termed structural activation. It is unknown, whether these HPV16-HS interactions depend on HS sulfation patterns. Thus, we probed potential roles of HS sulfations using cell-based functional and physicochemical assays, including single-molecule force spectroscopy. Our results demonstrate that N-sulfation of HS is crucial for virus binding and structural activation by providing high-affinity sites, and that additional 6O-sulfation is required to mechanically stabilize the interaction, whereas 2O-sulfation and 3O-sulfation are mostly dispensable. Together, our findings identify the contribution of HS sulfation patterns to HPV16 binding and structural activation and reveal how distinct sulfation groups of HS synergize to facilitate HPV16 entry, which, in turn, likely influences the tropism of HPVs. [ABSTRACT FROM AUTHOR]

Published

2024

32. A Comparison Study on the Recovery of REEs from Red Mud by Sulfation Roasting–Water Leaching and Citric Acid Leaching.

Author

Shalchian, Hossein, Hajizadeh Navakh, Mohsen, Birloaga, Ionela, Babakhani, Abolfazl, and Vegliò, Francesco

Subjects

*RARE earth metals, *CITRIC acid, *SOLVENT extraction, *ACID solutions, *SULFATION

Abstract

In this study, the recovery of rare earth elements (REEs) from red mud (bauxite residue) was explored through a combination of citric acid leaching and sulfation roasting–water leaching processes, introducing an innovative approach to the field. The research uniquely investigates the influence of citric acid on the leaching behavior of REEs and impurities in both untreated red mud and red mud subjected to sulfation roasting, providing a direct comparison of these methodologies. A novel aspect of this study is the evaluation of solvent extraction efficiency using DEHPA, highlighting the selective recovery of REEs over impurities from both citric acid and water-leaching solutions. Furthermore, a comprehensive phase analysis using X-ray diffraction (XRD) was conducted to track the transformations of minerals during the sulfation roasting process, an original contribution to the literature. The findings revealed that over 85% of REEs and major elements such as Fe, Al, Ca, and Ti dissolved in water after sulfation at 105 °C, while iron and titanium dissolution significantly decreased following roasting at 725 °C. Importantly, terbium, neodymium, and gadolinium extraction efficiencies were notably affected by roasting temperature. Citric acid leaching results demonstrated that the direct leaching of red mud leads to higher leaching efficiency than leaching it after the roasting process. Solvent extraction demonstrated lower terbium and neodymium recovery from citric acid solutions compared to water leaching solution. Finally, stripping experiments illustrated that 6M H2SO4 solution is capable of stripping more than 80% of rare earth elements, except terbium. [ABSTRACT FROM AUTHOR]

Published

2024

33. Chemokine Receptor N-Terminus Charge Dictates Reliance on Post-Translational Modifications for Effective Ligand Capture and Following Boosting by Defense Peptides.

Author

Xu, Ting, Schou, Anne Sophie, Lackman, Jarkko J., Barrio-Calvo, Marina, Verhallen, Lisa, Goth, Christoffer Knak, Jensen, Benjamin Anderschou Holbech, Veldkamp, Christopher T., Volkman, Brian F., Peterson, Francis C., and Hjortø, Gertrud Malene

Subjects

*LIGAND binding (Biochemistry), *POST-translational modification, *ELECTROSTATIC interaction, *SULFATION, *PEPTIDES, *CHEMOKINE receptors

Abstract

The chemokine receptors CCR1 and CCR5 display overlapping expression patterns and ligand dependency. Here we find that ligand activation of CCR5, not CCR1, is dependent on N-terminal receptor O-glycosylation. Release from O-glycosylation dependency is obtained by increasing CCR5 N-terminus acidity to the level of CCR1. Ligand activation of CCR5, not CCR1, drastically improves in the absence of glycosaminoglycans (GAGs). Ligand activity at both CCR1 and CCR5 is boosted by positively charged/basic peptides shown to interact with acidic chemokine receptor N-termini. We propose that receptors with an inherent low N-terminus acidity rely on post-translational modifications (PTMs) to efficiently compete with acidic entities in the local environment for ligand capture. Although crucial for initial ligand binding, strong electrostatic interactions between the ligand and the receptor N-terminus may counteract following insertion of the ligand into the receptor binding pocket and activation, a process that seems to be aided in the presence of basic peptides. Basic peptides bind to the naked CCR1 N-terminus, not the CCR5 N-terminus, explaining the loss of boosting of ligand-induced signaling via CCR5 in cells incapable of glycosylation. [ABSTRACT FROM AUTHOR]

Published

2024

34. Rapid Characterization of the Potential Active of Sinomenine in Rats by Ultra‐High‐Performance Liquid Chromatography‐Quadrupole‐Exactive Orbitrap Mass Spectrometry and Molecular Docking.

Author

Li, Haixia, Li, KaiLin, Cheng, Wenhui, Liu, Mingjuan, Wen, Linwen, Zhang, Zexu, Zhang, Wendan, Su, Jin, and Cai, Wei

Subjects

*MOLECULAR docking, *MASS spectrometry, *RHEUMATOID arthritis, *LIQUID chromatography, *SULFATION, *QUADRUPOLE ion trap mass spectrometry

Abstract

Sinomenium acutum (Thunb.) Rehd. et Wils is widely used in the treatment of rheumatoid arthritis, with its alkaloid compound sinomenine (SIN) being renowned for its significant anti‐inflammatory properties. However, despite its widespread application, the in vivo anti‐inflammatory mechanisms and metabolic pathways of SIN remain incompletely understood. This study established a rapid and reliable method based on an ultra‐high‐performance liquid chromatography method coupled with Quadrupole‐Exactive Orbitrap mass spectrometry and molecular docking to identify and characterize SIN and 69 metabolites in rat plasma, urine, and feces, revealing primary metabolic pathways of hydroxylation, demethylation, sulfation, and glucuronidation. Molecular docking results revealed that phase I reactions, including dedimethylation, demethylation, dehydrogenation, and dihydroxylation, along with their composite reactions, were pivotal in influencing SIN's in vivo anti‐inflammatory activity. M28, M36, and M59 are potentially the most anti‐inflammatory active metabolites of SIN in vivo. This comprehensive analysis unveils SIN's metabolic pathways, offering insights into its biological processes and suggesting a novel approach for exploring active drug constituents. These findings pave the way for further understanding SIN's anti‐inflammatory mechanisms, contributing significantly to the development of new therapeutic strategies. [ABSTRACT FROM AUTHOR]

Published

2024

35. 基于SO3膜式工艺制备硫酸化蒐麻油及其性能研究.

Author

毛燕芬, 曹圣悌, 高春新, 冀创新, 霍月青, and 刘晓臣

Abstract

Based on the concept of environmentally friendly production, five kinds of sulfeted castor oil with different organically combined sulfuric anhydride were successfully prepared by sulfur trioxide membrane sulfonation process instead of the traditional concentrated sulfuric acid process, which solved the problem of waste acid and waste inorganic salts in the traditional preparation process・ The successful preparation of sulfated castor oil was demonstrated by means of infrared spectroscopy and chemical analysis. The properties of five sulfated castor oils with different organically combined sulfuric anhydride, namely surface tension, dynamic surface tension, emulsifying power, particle size and leather fatliquoring applica・ tion, were studied and compared with commercially available products・ The results showed that compared with the commercially available products, the sulfated castor oil prepared by SO3 process had better surface activity, with a minimum y沁 of 43 ・ 0 mN/m, a cmc of 9 ・ 3 mg/L, good emulsifying power, a particle size of less than 200 nm, and excellent fatliqouring performance. [ABSTRACT FROM AUTHOR]

Published

2024

36. Investigation of Mazidagi phosphate ore in wet flue gas desulphurization.

Author

Mazlumoglu, Hayrunnisa and Gulaboglu, M. Sahin

Subjects

*FLUE gas desulfurization, *CHEMICAL structure, *GAS flow, *INDUSTRIAL goods, *SULFATION, *MASS transfer coefficients

Abstract

The employment of Mazidagi phosphate ore for wet flue gas desulphurization was investigated. The ore was exposed to sulfation processes in a three-phase double-stirred reactor to determine the effects of certain parameters on SO2 absorption. The absorption rate significantly increased with inlet SO2 concentration, gas flow rate, stirring speeds, and solid concentration but not with temperature. The absorption rate increases as the mass transfer coefficients and interface area value increase with stirring speeds. These parameters have also a prominent impact on the absorption rate depending on the dissolution rate of CaCO3. Based on these, the most effective parameters on SO2 absorption are liquid-phase stirring speed and suspension concentration, and the process is diffusion-controlled in the liquid phase. In addition, optimum conditions were determined, and then the ore was exposed to sulfation processes via a semi-batch operation mode. A comparison between raw and sulfated ore was examined for the changes in physical structure and chemical composition. Although the ratios of fluorapatite and carbonate-fluorapatite remained nearly constant, the ratio of calcite decreased significantly. It was determined from these investigations that the calcite in the phosphate ore has been converted into the CaSO3∙½H2O compound. Consequently, both the calcite in the phosphate ore was utilized effectively for wet flue gas desulphurization, and a phosphate-rich industrial product was obtained. [ABSTRACT FROM AUTHOR]

Published

2024

37. Extracellular Matrix Sulfation in the Tumor Microenvironment Stimulates Cancer Stemness and Invasiveness.

Author

Kuşoğlu, Alican, Örnek, Deniz, Dansık, Aslı, Uzun, Ceren, Nur Özkan, Sena, Sarıca, Sevgi, Yangın, Kardelen, Özdinç, Şevval, Sorhun, Duygu Turan, Solcan, Nuriye, Doğanalp, Efe Can, Arlov, Øystein, Cunningham, Katherine, Karaoğlu, Ismail C., Kizilel, Seda, Solaroğlu, Ihsan, Bulutay, Pınar, Fırat, Pınar, Erus, Suat, and Tanju, Serhan

Subjects

*FOCAL adhesion kinase, *PROTEIN-tyrosine kinases, *EXTRACELLULAR matrix, *SULFATION, *LUNG tumors

Abstract

Tumor extracellular matrices (ECM) exhibit aberrant changes in composition and mechanics compared to normal tissues. Proteoglycans (PG) are vital regulators of cellular signaling in the ECM with the ability to modulate receptor tyrosine kinase (RTK) activation via their sulfated glycosaminoglycan (sGAG) side chains. However, their role on tumor cell behavior is controversial. Here, it is demonstrated that PGs are heavily expressed in lung adenocarcinoma (LUAD) patients in correlation with invasive phenotype and poor prognosis. A bioengineered human lung tumor model that recapitulates the increase of sGAGs in tumors in an organotypic matrix with independent control of stiffness, viscoelasticity, ligand density, and porosity, is developed. This model reveals that increased sulfation stimulates extensive proliferation, epithelial‐mesenchymal transition (EMT), and stemness in cancer cells. The focal adhesion kinase (FAK)‐phosphatidylinositol 3‐kinase (PI3K) signaling axis is identified as a mediator of sulfation‐induced molecular changes in cells upon activation of a distinct set of RTKs within tumor‐mimetic hydrogels. The study shows that the transcriptomic landscape of tumor cells in response to increased sulfation resembles native PG‐rich patient tumors by employing integrative omics and network modeling approaches. [ABSTRACT FROM AUTHOR]

Published

2024

38. Metabolic and Pharmacokinetic Profiling Studies of N, N-Dimethylaniline-Heliamine in Rats by UHPLC-Q-Orbitrap MS/MS.

Author

Xi, Ruqi, Abdulla, Rahima, Sherzod, Jurakulov, Ivanovna, Vinogradova Valentina, Habasi, Maidina, and Liu, Yongqiang

Subjects

*BLOOD volume, *CAUSES of death, *SULFATION, *METABOLITES, *GLUCURONIDATION

Abstract

Cardiovascular disease is the first cause of death worldwide and kills more people each year than any other cause of death. N, N-dimethylaniline-heliamine (DH), a synthetic tetrahydroisoquinoline alkaloid, has shown notable antiarrhythmic activity. However, the metabolic processes and pharmacokinetic characteristics of DH in rats have not been studied. This study aims to identify its metabolites, as well as develop and validate a rapid and efficient bioanalytical method for quantifying DH in rat plasma over a wide range of concentrations. Its metabolites were characterized in silico, in vitro, and in vivo. A series of 16 metabolites were identified, of which 12 were phase I metabolites and 4 were phase II metabolites. A low probability of DH binding to DNA, protein, and glutathione is predicted by the in silico model. The main metabolic processes of DH were demethylation, dehydrogenation, glucuronidation, and sulfation. Concentration–time profiles were generated by analyzing the plasma, and the outcomes were analyzed via non-compartmental analysis to identify the pharmacokinetic parameters. Among the detected parameters were the volume of distribution, estimated at 126,728.09 ± 56,867.09 mL/kg, clearance at 30,148.65 ± 15,354.27 mL/h/kg, and absolute oral bioavailability at 16.11%. The plasma distribution volume of DH was substantially higher than the overall plasma volume of rats, which suggests that DH has a specific tissue distribution in rats. This study suggests that DH is appropriately bioavailable and excreted via a variety of routes and has low toxicity. [ABSTRACT FROM AUTHOR]

Published

2024

39. Enhanced Photocatalytic Degradation of Herbicide 2,4-Dichlorophenoxyacetic Acid Using Sulfated CeO 2.

Author

Rodríguez, Carlos, Castañeda, Claudia, Sosa, Edwin, Martínez, José J., Mancipe, Sonia, Rojas, Hugo, Tzompantzi, Francisco, and Gómez, Ricardo

Subjects

*PRECIPITATION (Chemistry), *SULFATION, *CERIUM oxides, *PHOTODEGRADATION, *INFRARED spectroscopy

Abstract

The present study presents the results obtained from evaluating the photocatalytic behavior of a series of sulfated CeO2 materials in the photocatalytic degradation of the herbicide 2,4-dichlorophenoxyacetic acid. The CeO2 photocatalytic support was prepared using the precipitation synthesis method. Subsequently, the support was wetly impregnated with different contents of sulfate ions (0.5, 1.0, and 2.0 wt.%). The materials were characterized using X-ray diffraction, nitrogen physisorption, infrared spectroscopy, diffuse reflectance UV–Vis spectrophotometry, and thermal analysis. The characterization results showed that the sulfation of the material promoted an increase in the surface area and a decrease in the average size of the crystallites. Likewise, it was possible to demonstrate the surface sulfation of the support through bidentate coordination of the sulfate groups to the semiconductor metal. Concerning photoactivity, the convenience of the surface modification of CeO2 was confirmed because the sulfate groups acted as capturers of the electrons generated during the photocatalytic process, reducing the frequency of recombination of the charge carriers and allowing the availability of the gaps to favor the degradation reaction of the contaminant. Finally, it was evident that a percentage of 1.0 wt.% of the sulfate anion is the optimal content to improve the photocatalytic properties of CeO2. [ABSTRACT FROM AUTHOR]

Published

2024

40. Phase Transition and Vanadium Leaching Mechanism during Roasting of Vanadium‐Bearing Rock Coals.

Author

Gao, Zhaowei, Bai, Wenjuan, Bai, Mengfan, Liu, Yuan, Zhou, Huarong, Xing, Shuxin, Gu, Li, and Wang, Huatai

Subjects

*PHASE transitions, *ROASTING (Metallurgy), *X-ray diffraction, *SULFATION, *VANADIUM, *PYRITES, *LEACHING

Abstract

The phase transformation and vanadium leaching mechanism of stone coal during two blank calcined stages are systematically studied. Composition, structure, and morphology of the materials are analyzed by ICP‐AES, BPMA, XRD, FTIR, and SEM. The results show that the main components of stone coal are SiO2, C, aluminosilicate and FeS2, V2O5 is 0.70%. Two‐stage roasting is a process of deformation, melting, and reconstruction of stone coal, the oxidation of pyrite, decomposition of aluminosilicate, sulfation of calcite, combustion of carbon and the formation of calcium vanadate occur in the first stage, the oxidation of low‐price vanadium occurs in the second stage. At −0.074 mm ≥90%, liquid solid ratio 1.5:1, 10% sulfuric acid reaction at room temperature for 3 h, the vanadium leaching rate in each material is in the order of roasting slag>decarbonized slag>stone coal. [ABSTRACT FROM AUTHOR]

Published

2024

41. Electrochemical behavior of carbon doped lead (Pb) in sulfuric solution.

Author

Anggoro, V. S., Darma, S., and Soegijono, B.

Subjects

*DOPING agents (Chemistry), *LEAD, *SURFACE resistance, *SURFACE morphology, *SULFATION

Abstract

Sulfation is a phenomenon that occurs when a part of PbSO4 becomes solid crystals. If the battery is used continuously or not, the number of PbSO4 crystals increases and can disturb or even damage the battery. Therefore, in order for sulfation can be reduced, in this study, the lead material in the negative active-mass material of the battery is doped with graphite carbon. The doping variations of graphite carbon were 0 wt.%, 0.5 wt.%, 1 wt.%, and 1.5 wt.%. The graphite carbon was chosen because of its low cost and can also reduce the number of PbSO4 (lead sulfate) crystals. The methodology used to observe the crystal structure is by using X-ray diffraction. To get the corrosion rate caused by the corrosion current, we use the LSV method. An optical microscope is used to observe the surface morphology. This study investigated corrosion resistance and surface morphology after oxidation test between lead without doped graphite carbon and lead doped with graphite carbon. The results of this study indicate that when compared to the lead without doped graphite carbon to lead doped with graphite carbon, sulfation in lead doped with graphite carbon can be reduced by seeing its corrosion resistance and surface morphology. [ABSTRACT FROM AUTHOR]

Published

2024

42. Corrigendum: A sulfuryl group transfer strategy to selectively prepare sulfated steroids and isotopically labelled derivatives

Author

Jaber A. Alshehri, Daniel M. Gill, and Alan M. Jones

Subjects

sulfation, selectivity, isotopic labelling, sulfuryl transfer, TBSAB, Biology (General), QH301-705.5

Published

2024

43. Gut microbiota metabolite indole-3-acetic acid maintains intestinal epithelial homeostasis through mucin sulfation

Author

Mengfan Li, Yiyun Ding, Jingge Wei, Yue Dong, Jingyi Wang, Xin Dai, Jing Yan, Feifei Chu, Kexin Zhang, Fanyi Meng, Jiahui Ma, Weilong Zhong, Bangmao Wang, Yunhuan Gao, Rongcun Yang, Xinjuan Liu, Xiaomin Su, and Hailong Cao

Subjects

Inflammatory bowel disease, indole-3-acetic acid, aryl hydrocarbon receptor, mucin, sulfation, Diseases of the digestive system. Gastroenterology, RC799-869

Abstract

The global incidence and prevalence of inflammatory bowel disease (IBD) are gradually increasing. A high-fat diet (HFD) is known to disrupt intestinal homeostasis and aggravate IBD, yet the underlying mechanisms remain largely undefined. Here, a positive correlation between dietary fat intake and disease severity in both IBD patients and murine colitis models is observed. A HFD induces a significant decrease in indole-3-acetic acid (IAA) and leads to intestinal barrier damage. Furthermore, IAA supplementation enhances intestinal mucin sulfation and effectively alleviates colitis. Mechanistically, IAA upregulates key molecules involved in mucin sulfation, including 3’-phosphoadenosine 5’-phosphosulfate synthase 2 (Papss2) and solute carrier family 35 member B3 (Slc35b3), the synthesis enzyme and the transferase of 3’-phosphoadenosine-5’-phosphosulfate (PAPS), via the aryl hydrocarbon receptor (AHR). More importantly, AHR can directly bind to the transcription start site of Papss2. Oral administration of Lactobacillus reuteri, which can produce IAA, contributes to protecting against colitis and promoting mucin sulfation, while the modified L. reuteri strain lacking the iaaM gene (LactobacillusΔiaaM) and the ability to produce IAA fail to exhibit such effects. Overall, IAA enhances intestinal mucin sulfation through the AHR-Papss2-Slc35b3 pathway, contributing to the protection of intestinal homfeostasis.

Published

2024

44. Solid‐Phase‐Supported Chemoenzymatic Synthesis and Analysis of Chondroitin Sulfate Proteoglycan Glycopeptides.

Author

Lin, Po‐han, Xu, Yongmei, Bali, Semiha Kevser, Kim, Jandi, Gimeno, Ana, Roberts, Elijah T., James, Deepak, Almeida, Nuno M. S., Loganathan, Narasimhan, Fan, Fei, Wilson, Angela K., Jonathan Amster, I., Moremen, Kelley W., Liu, Jian, Jiménez‐Barbero, Jesús, and Huang, Xuefei

Subjects

*CHONDROITIN sulfate proteoglycan, *PEPTIDES, *GLYCOPEPTIDES, *CHEMICAL synthesis, *SULFATION, *GLYCOSAMINOGLYCANS

Abstract

Proteoglycans (PGs), consisting of glycosaminoglycans (GAGs) linked with the core protein through a tetrasaccharide linkage region, play roles in many important biological events. The chemical synthesis of PG glycopeptides is extremely challenging. In this work, the enzymes required for synthesis of chondroitin sulfate (CS) PG (CSPG) have been expressed and the suitable sequence of enzymatic reactions has been established. To expedite CSPG synthesis, the peptide acceptor was immobilized on solid phase and the glycan units were directly installed enzymatically onto the peptide. Subsequent enzymatic chain elongation and sulfation led to the successful synthesis of CSPG glycopeptides. The CS dodecasaccharide glycopeptide was the longest homogeneous CS glycopeptide synthesized to date. The enzymatic synthesis was much more efficient than the chemical synthesis of the corresponding CS glycopeptides, which could reduce the total number of synthetic steps by 80 %. The structures of the CS glycopeptides were confirmed by mass spectrometry analysis and NMR studies. In addition, the interactions between the CS glycopeptides and cathepsin G were studied. The sulfation of glycan chain was found to be important for binding with cathepsin G. This efficient chemoenzymatic strategy opens new avenues to investigate the structures and functions of PGs. [ABSTRACT FROM AUTHOR]

Published

2024

45. Steroidomics in Men with Schizophrenia.

Author

Hill, Martin, Velíková, Marta, Hovorková, Tereza, Bulant, Josef, Janšáková, Katarína, and Valeš, Karel

Subjects

*CORTISONE, *SULFATION, *PREGNENOLONE, *SCHIZOPHRENIA, *HYDROCORTISONE

Abstract

Schizophrenia is associated with numerous abnormalities, including imbalances in all hormonal axes, among which steroids play a major role. Steroidomic studies therefore represent a promising tool for early diagnosis and appropriate treatment of schizophrenia. A total of 51 adult male schizophrenics aged 27 (22, 34) years (shown as median with quartiles) and 16 healthy controls (HCs) aged 28 (25, 32) years were enrolled into this study. Our results showed the effective differentiation of men with schizophrenia from controls based on steroidomic profiles. We also found an altered metabolic pathway from pregnenolone and its sulfate (PREG/S) to cortisol in schizophrenics with several metabolic bottlenecks such as lower PREG levels due to increased PREG sulfation and/or suppressed PREGS desulfation and attenuated conversion of 17-hydroxy-PREG to 17-hydroxy-progesterone, as well as the results suggestive of suppressed CYP11B1 activity. In contrast, steroid molar ratios suggested two counterregulatory steps involving increased conversion of PREG/S to 17-hydroxy-PREG/S and decreased conversion of cortisol to cortisone, which may maintain unchanged basal cortisol levels but may not ensure a sufficient cortisol response to stress. Our data also indicated a trend to higher 7α-, 7β-, and 16α-hydroxylation that may counteract the autoimmune complications and proinflammatory processes accompanying schizophrenia. Finally, a possible suppression of HSD17B3 activity was suggested, resulting in decreased circulating testosterone levels with increased androstenedione levels. [ABSTRACT FROM AUTHOR]

Published

2024

46. Chondroitin sulfate glycan sulfation patterns influence histochemical labeling of perineuronal nets: a comparative study of interregional distribution in human and mouse brain.

Author

Belliveau, Claudia, Théberge, Stéphanie, Netto, Stefanie, Rahimian, Reza, Fakhfouri, Gohar, Hosdey, Clémentine, Davoli, Maria Antonietta, Hendrickson, Aarun, Hao, Kathryn, Giros, Bruno, Turecki, Gustavo, Alonge, Kimberly M, and Mechawar, Naguib

Subjects

*CHONDROITIN sulfate proteoglycan, *CHONDROITIN sulfates, *PERINEURONAL nets, *SULFATION, *LIQUID chromatography-mass spectrometry

Abstract

Perineuronal nets (PNNs) are a condensed subtype of extracellular matrix that form a net-like coverings around certain neurons in the brain. PNNs are primarily composed of chondroitin sulfate (CS) proteoglycans from the lectican family that consist of CS-glycosaminoglycan side chains attached to a core protein. CS disaccharides can exist in various isoforms with different sulfation patterns. Literature suggests that CS disaccharide sulfation patterns can influence the function of PNNs as well as their labeling. This study was conducted to characterize such interregional CS disaccharide sulfation pattern differences in adult human (n  = 81) and mouse (n  = 19) brains. Liquid chromatography tandem mass spectrometry was used to quantify five different CS disaccharide sulfation patterns, which were then compared to immunolabeling of PNNs using Wisteria Floribunda Lectin (WFL) to identify CS-glycosaminoglycans and anti-aggrecan to identify CS proteoglycans. In healthy brains, significant regional and species-specific differences in CS disaccharide sulfation and single versus double-labeling pattern were identified. A secondary analysis to investigate how early-life stress impacts these PNN features discovered that although early-life stress increases WFL+ PNN density, the CS-glycosaminoglycan sulfation code and single versus double PNN-labeling distributions remained unaffected in both species. These results underscore PNN complexity in traditional research, emphasizing the need to consider their heterogeneity in future experiments. [ABSTRACT FROM AUTHOR]

Published

2024

47. Decoding the Role of O-GlcNAcylation in Hepatocellular Carcinoma.

Author

Zhou, Xinyu, Hang, Sirui, Wang, Qingqing, Xu, Liu, and Wang, Peter

Subjects

*PROTEIN stability, *HEPATOCELLULAR carcinoma, *SULFATION, *TREATMENT effectiveness, *UBIQUITINATION

Abstract

Post-translational modifications (PTMs) influence protein functionality by modulating protein stability, localization, and interactions with other molecules, thereby controlling various cellular processes. Common PTMs include phosphorylation, acetylation, ubiquitination, glycosylation, SUMOylation, methylation, sulfation, and nitrosylation. Among these modifications, O-GlcNAcylation has been shown to play a critical role in cancer development and progression, especially in hepatocellular carcinoma (HCC). This review outlines the role of O-GlcNAcylation in the development and progression of HCC. Moreover, we delve into the underlying mechanisms of O-GlcNAcylation in HCC and highlight compounds that target O-GlcNAc transferase (OGT) and O-GlcNAcase (OGA) to improve treatment outcomes. Understanding the role of O-GlcNAcylation in HCC will offer insights into potential therapeutic strategies targeting OGT and OGA, which could improve treatment for patients with HCC. [ABSTRACT FROM AUTHOR]

Published

2024

48. Recovery of valuable metals from SmCo magnets through sulfation, selective oxidation, and water leaching.

Author

Papakci, Merve, Emil-Kaya, Elif, Stopic, Srecko, Gurmen, Sebahattin, and Friedrich, Bernd

Subjects

*RARE earth metals, *COPPER, *CURIE temperature, *METAL recycling, *SULFATION, *LEACHING

Abstract

Samarium-cobalt (SmCo) magnets, comprised of rare earth elements (REE), and cobalt (Co) are widely employed in diverse sectors such as aerospace, medical, defense, automotive, and more due to their unique properties such as outstanding high-temperature resistance, superior corrosion resistance, a higher Curie temperature, and high energy density. REE and Co are on the critical metals list for many years, along with increased production costs and challenges. With the increasing amount of waste SmCo, the recycling of these magnets has gained importance. This study investigates the recycling of SmCo magnet scraps through sulfation, selective oxidation, and water leaching. The effect of experimental parameters, such as powder/acid concentration, selective oxidation temperature, selective oxidation time, solid/liquid ratio and leaching time for water leaching are studied in detail. The optimal parameters are determined: 800°C selective oxidation temperature, 1-h selective oxidation time, 1/3 g/ml magnet: acid ratio, 2-h water leaching time and 1/20 water leaching s/l ratio. Under the optimum conditions the extraction efficiency of Sm reached approximately 65%, The solubility of Fe, Co, and Cu metals in the solution is negligible. [ABSTRACT FROM AUTHOR]

Published

2024

49. Sulfation of Various Polysaccharide Structures: Different Methods and Perspectives.

Author

Berezhnaya, Yaroslava D., Kazachenko, Aleksandr S., Kazachenko, Anna S., Malyar, Yuriy N., and Borovkova, Valentina S.

Subjects

*TARGETED drug delivery, *SULFUR trioxide, *SULFATION, *DRUG solubility, *POLYMERS, *POLYSACCHARIDES

Abstract

Sulfated polysaccharides have a variety of important biologically active properties, such as anticoagulant, hypolipidemic, antiviral activity, the ability to be a means of targeted drug delivery and to improve the water solubility of certain drugs. Initial and sulfated polysaccharides' biological activity depends on the method of their preparation, composition and structure. Currently, there is an extensive body of literature data on methods for the sulfation of various natural polysaccharides. However, modern reviews on this topic mainly focus on the biological activity and application of sulfated polymers, rather than on synthesis methods. The latest comprehensive review on methods for the synthesis of sulfated polysaccharides was performed by Caputo in 2019. To further study this area, you need to know the latest trends in this topic. Based on this, we decided to create a new, up-to-date review covering most of the existing methods for the synthesis of sulfated polysaccharides. This work examined methods for the synthesis of biologically active polysaccharide sulfates and their effect on polymer characteristics, as well as the advantages and disadvantages of each method. Traditional methods for sulfating polysaccharides were reviewed such as using a complex of sulfur trioxide with pyridine, and new methods based on the use of toxic free and corrosive free reagents. Some data on the biological activity of the obtained polysaccharides are considered. [ABSTRACT FROM AUTHOR]

Published

2024

50. Extraction, Purification, Sulfated Modification, and Biological Activities of Dandelion Root Polysaccharides.

Author

Wu, Xiao, Li, Na, Dong, Zeng, Yin, Qin, Zhou, Tong, Zhu, Lixiang, Yan, Hanxi, Chen, Ziping, and Zhai, Kefeng

Subjects

LACTOBACILLUS acidophilus, LACTOBACILLUS plantarum, HELICAL structure, AMMONIUM sulfate, MOLECULAR weights, MONOSACCHARIDES

Abstract

In this study, polysaccharides were extracted at a rate of 87.5% ± 1.5% from native dandelion roots, and the dandelion root polysaccharides (DRPs) were then chemically modified to obtain sulfated polysaccharides (SDRPs) with a degree of substitution of 1.49 ± 0.07. The effects of modification conditions, physicochemical characterizations, structural characteristics, antioxidant properties, hypoglycemic activity, and proliferative effects on probiotics of DRP derivatives were further investigated. Results showed that the optimum conditions for sulfation of DRPs included esterification reagents (concentrated sulfuric acid: n-butanol) ratio of 3:1, a reaction temperature of 0 °C, a reaction time of 1.5 h, and the involvement of 0.154 g of ammonium sulfate. The DRPs and SDRPs were composed of six monosaccharides, including mannose, glucosamine, rhamnose, glucose, galactose, and arabinose. Based on infrared spectra, the peaks of the characteristic absorption bands of S=O and C-O-S appeared at 1263 cm−1 and 836 cm−1. Compared with DRPs, SDRPs had a significantly lower relative molecular mass and a three-stranded helical structure. NMR analysis showed that sulfated modification mainly occurred on the hydroxyl group at C6. SDRPs underwent a chemical shift to higher field strength, with their characteristic signal peaking in the region of 1.00–1.62 ppm. Scanning electron microscopy (SEM) analysis indicated that the surface morphology of SDRPs was significantly changed. The structure of SDRPs was finer and more fragmented than DRPs. Compared with DRPs, SDRPs showed better free radical scavenging ability, higher Fe2+chelating ability, and stronger inhibition of α-glucosidase and α-amylase. In addition, SDRPs had an excellent promotional effect on the growth of Lactobacillus plantarum 10665 and Lactobacillus acidophilus. Therefore, this study could provide a theoretical basis for the development and utilization of DRPs. [ABSTRACT FROM AUTHOR]

Published

2024