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Miran M, Salami M, Yarmand MS, Ferreira-Lazarte A, Ariaeenejad S, Montilla A, Moreno FJ. Arabinoxylo-oligosaccharides production from unexploited agro-industrial sesame (Sesamum indicum L.) hulls waste. Carbohydr Polym 2024; 342:122399. [PMID: 39048235 DOI: 10.1016/j.carbpol.2024.122399] [Citation(s) in RCA: 0] [Impact Index Per Article: 0] [Reference Citation Analysis] [Abstract] [Key Words] [MESH Headings] [Track Full Text] [Journal Information] [Subscribe] [Scholar Register] [Received: 12/09/2023] [Revised: 06/08/2024] [Accepted: 06/10/2024] [Indexed: 07/27/2024]
Abstract
This work demonstrates that sesame (Sesamum indicum L.) hull, an unexploited food industrial waste, can be used as an efficient source for the extraction of hemicellulose and/or pectin polysaccharides to further obtain functional oligosaccharides. Different polysaccharides extraction methods were surveyed including alkaline and several enzymatic treatments. Based on the enzymatic release of xylose, arabinose, glucose, and galacturonic acid from sesame hull by using different enzymes, Celluclast®1.5 L, Pectinex®Ultra SP-L, and a combination of them were selected for the enzymatic extraction of polysaccharides at 50 °C, pH 5 up to 24 h. Once the polysaccharides were extracted, Ultraflo®L was selected to produce arabinoxylo-oligosaccharides (AXOS) at 40 °C up to 24 h. Apart from oligosaccharides production from extracted polysaccharides, alternative approaches for obtaining oligosaccharides were also explored. These were based on the analysis of the supernatants resulting from the polysaccharide extraction, alongside a sequential hydrolysis performed with Celluclast®1.5 L and Ultraflo®L of the starting raw sesame hull. The different fractions obtained were comprehensively characterized by determining low molecular weight carbohydrates and monomeric compositions, average Mw and dispersity, and oligosaccharide structure by MALDI-TOF-MS. The results indicated that sesame hull can be a useful source for polysaccharides extraction (pectin and hemicellulose) and derived oligosaccharides, especially AXOS.
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Affiliation(s)
- Mona Miran
- Department of Food Science, Technology, and Engineering, College of Agriculture and Natural Resources, University of Tehran, Karaj Campus, Karaj, Iran.
| | - Maryam Salami
- Department of Food Science, Technology, and Engineering, College of Agriculture and Natural Resources, University of Tehran, Karaj Campus, Karaj, Iran; Functional Food Research Core, College of Agriculture and Natural Resources, University of Tehran, Karaj, Iran.
| | - Mohammad Saeid Yarmand
- Department of Food Science, Technology, and Engineering, College of Agriculture and Natural Resources, University of Tehran, Karaj Campus, Karaj, Iran.
| | - Alvaro Ferreira-Lazarte
- Instituto de Investigación en Ciencias de la Alimentación (CIAL) (CSIC-UAM) CEI (CSIC+UAM), Campus de la Universidad Autónoma de Madrid, Nicolás Cabrera 9, 28049 Madrid, Spain.
| | - Shohreh Ariaeenejad
- Department of Systems Biology, Agricultural Biotechnology Research Institute of Iran (ABRII), Agricultural Research Education and Extension Organization (AREO), Karaj, Iran
| | - Antonia Montilla
- Instituto de Investigación en Ciencias de la Alimentación (CIAL) (CSIC-UAM) CEI (CSIC+UAM), Campus de la Universidad Autónoma de Madrid, Nicolás Cabrera 9, 28049 Madrid, Spain.
| | - F Javier Moreno
- Instituto de Investigación en Ciencias de la Alimentación (CIAL) (CSIC-UAM) CEI (CSIC+UAM), Campus de la Universidad Autónoma de Madrid, Nicolás Cabrera 9, 28049 Madrid, Spain.
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Hu Y, Wang D, Zhang Y, Chen S, Yang X, Zhu R, Wang C. A novel polysaccharide from blueberry leaves: Extraction, structural characterization, hypolipidemic and hypoglycaemic potentials. Food Chem 2024; 460:140493. [PMID: 39053284 DOI: 10.1016/j.foodchem.2024.140493] [Citation(s) in RCA: 0] [Impact Index Per Article: 0] [Reference Citation Analysis] [Abstract] [Key Words] [Track Full Text] [Journal Information] [Subscribe] [Scholar Register] [Received: 02/01/2024] [Revised: 07/03/2024] [Accepted: 07/15/2024] [Indexed: 07/27/2024]
Abstract
In this study, the structural characterization, physicochemical properties, antioxidant, hypolipidemic, and hypoglycemic potentials of polysaccharide components (BLP-1, BLP-2, and BLP-3) purified from blueberry leaf polysaccharides (BLP) were investigated. Ion chromatography results showed that BLP-1, BLP-2, and BLP-3 contained rhamnose, arabinose, galactose, glucose, and glucuronic acid. In contrast to BLP-1, BLP-2 and BLP-3 included galacturonic acid. The methylation analysis results indicated that the backbones of BLP-1, BLP-2, and BLP-3 were mainly composed of glycosidic linkages of arabinose, galactose, and glucose, which was consistent with the results of the previously determined monosaccharide composition. The in-vitro antioxidant results showed that BLP-1, BLP-2, and BLP-3 possessed antioxidant activity with the highest scavenging of -OH radicals. Furthermore, BLP-1, BLP-2, and BLP-3 showed high bile acid-binding activity and α-amylase inhibitory activity, suggesting that they have the potentials of hypolipidemic and hypoglycemic. This study provides a reference for the utilization of blueberry leaf resources.
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Affiliation(s)
- Yexian Hu
- College of Biology, Food & Environment, Hefei University, Hefei 230601, PR China
| | - Dongsheng Wang
- College of Biology, Food & Environment, Hefei University, Hefei 230601, PR China
| | - Yan Zhang
- College of Biology, Food & Environment, Hefei University, Hefei 230601, PR China
| | - Siyun Chen
- College of Biology, Food & Environment, Hefei University, Hefei 230601, PR China
| | - Xiangmin Yang
- College of Biology, Food & Environment, Hefei University, Hefei 230601, PR China
| | - Rongan Zhu
- College of Biology, Food & Environment, Hefei University, Hefei 230601, PR China
| | - Chuyan Wang
- College of Biology, Food & Environment, Hefei University, Hefei 230601, PR China; Key Laboratory of Berry Processing and Resource Comprehensive Utilization, Hefei University, Hefei 230601, PR China.
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Yue XJ, Xu PW, Zhu Y, Hou SB, Luo XC, Zhao B. Effect of hydrochloric acid and citric acid with ultrasound processing on characteristics of superfine-ground pectic polysaccharides from okra (Abelmoschus esculentus L.) peel. Int J Biol Macromol 2024; 259:129076. [PMID: 38161025 DOI: 10.1016/j.ijbiomac.2023.129076] [Citation(s) in RCA: 0] [Impact Index Per Article: 0] [Reference Citation Analysis] [Abstract] [Key Words] [MESH Headings] [Track Full Text] [Journal Information] [Subscribe] [Scholar Register] [Received: 07/16/2023] [Revised: 12/11/2023] [Accepted: 12/20/2023] [Indexed: 01/03/2024]
Abstract
The structural properties and biological activities of okra pectic polysaccharides (OPs) were impacted by various extraction methods. Based on commonly grinding (40, 100 meshes) and superfine grinding okra powders, two extraction solvents (hydrochloric acid, HA; citric acid, CA) were used firstly. Next, the extraction yield, physical and chemical properties, molecular structure and functional properties of OPs were analyzed by non-ultrasonic treatment and ultrasound-assisted superfine grinding method. The outcomes demonstrated that the extraction yield of OPs rose as the particle size of the powder decreased. HA-OPs had higher molecular weight (Mw), apparent viscosity and emulsification ability than CA-OPs. CA-OPs had higher esterification degree (DE), solubility and total sugar content, and higher amounts of rhamnogalacturonan-I (RG-I) segments. Compared with OPs without ultrasound-assisted extraction, ultrasound-assisted superfine grinding extraction exhibited higher sugar content, antioxidant capacity, emulsification ability, lower Mw, DE and apparent viscosity. Finally, the correlation between structure and function of OPs was further quantified. The antioxidant capacity was positively correlated with RG-I content, and negatively correlated with DE and Mw. The emulsification ability was mainly positively correlated with the GlcA of OPs. This study provides a theoretical basis for the development of OPs foods with clear structure-function relationship, which would be instructive for the application of OPs in food and cosmetics.
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Affiliation(s)
- Xiao-Jie Yue
- State Key Laboratory of Biochemical Engineering, Institute of Process Engineering, Chinese Academy of Sciences, Beijing 100190, PR China; University of Chinese Academy of Sciences, Beijing 100049, PR China
| | - Peng-Wei Xu
- State Key Laboratory of Biochemical Engineering, Institute of Process Engineering, Chinese Academy of Sciences, Beijing 100190, PR China; University of Chinese Academy of Sciences, Beijing 100049, PR China
| | - Yuan Zhu
- State Key Laboratory of Biochemical Engineering, Institute of Process Engineering, Chinese Academy of Sciences, Beijing 100190, PR China; University of Chinese Academy of Sciences, Beijing 100049, PR China
| | - Shou-Bu Hou
- State Key Laboratory of Biochemical Engineering, Institute of Process Engineering, Chinese Academy of Sciences, Beijing 100190, PR China; University of Chinese Academy of Sciences, Beijing 100049, PR China
| | - Xiao-Chuan Luo
- State Key Laboratory of Biochemical Engineering, Institute of Process Engineering, Chinese Academy of Sciences, Beijing 100190, PR China
| | - Bing Zhao
- State Key Laboratory of Biochemical Engineering, Institute of Process Engineering, Chinese Academy of Sciences, Beijing 100190, PR China.
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Pectin in Metabolic Liver Disease. Nutrients 2022; 15:nu15010157. [PMID: 36615814 PMCID: PMC9824118 DOI: 10.3390/nu15010157] [Citation(s) in RCA: 0] [Impact Index Per Article: 0] [Reference Citation Analysis] [Abstract] [Key Words] [Track Full Text] [Figures] [Journal Information] [Subscribe] [Scholar Register] [Received: 11/14/2022] [Revised: 12/02/2022] [Accepted: 12/08/2022] [Indexed: 12/31/2022] Open
Abstract
Alterations in the composition of the gut microbiota (dysbiosis) are observed in nutritional liver diseases, including non-alcoholic fatty liver disease (NAFLD) and alcoholic liver disease (ALD) and have been shown to be associated with the severity of both. Editing the composition of the microbiota by fecal microbiota transfer or by application of probiotics or prebiotics/fiber in rodent models and human proof-of-concept trials of NAFLD and ALD have demonstrated its possible contribution to reducing the progression of liver damage. In this review, we address the role of a soluble fiber, pectin, in reducing the development of liver injury in NAFLD and ALD through its impact on gut bacteria.
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Zhang RY, Liu C, Wang XD, Liu HM, Zhu WX. Effects of different concentrations of NaOH on the structure and in vitro digestion of cellulose from sesame kernel. Lebensm Wiss Technol 2022. [DOI: 10.1016/j.lwt.2022.113956] [Citation(s) in RCA: 0] [Impact Index Per Article: 0] [Reference Citation Analysis] [Track Full Text] [Journal Information] [Subscribe] [Scholar Register] [Indexed: 10/14/2022]
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Wei P, Zhao F, Wang Z, Wang Q, Chai X, Hou G, Meng Q. Sesame ( Sesamum indicum L.): A Comprehensive Review of Nutritional Value, Phytochemical Composition, Health Benefits, Development of Food, and Industrial Applications. Nutrients 2022; 14:nu14194079. [PMID: 36235731 PMCID: PMC9573514 DOI: 10.3390/nu14194079] [Citation(s) in RCA: 30] [Impact Index Per Article: 15.0] [Reference Citation Analysis] [Abstract] [Key Words] [MESH Headings] [Track Full Text] [Download PDF] [Figures] [Journal Information] [Subscribe] [Scholar Register] [Received: 08/29/2022] [Revised: 09/21/2022] [Accepted: 09/26/2022] [Indexed: 11/16/2022] Open
Abstract
Sesame (Sesamum indicum L.), of the Pedaliaceae family, is one of the first oil crops used in humans. It is widely grown and has a mellow flavor and high nutritional value, making it very popular in the diet. Sesame seeds are rich in protein and lipids and have many health benefits. A number of in vitro and in vivo studies and clinical trials have found sesame seeds to be rich in lignan-like active ingredients. They have antioxidant, cholesterol reduction, blood lipid regulation, liver and kidney protection, cardiovascular system protection, anti-inflammatory, anti-tumor, and other effects, which have great benefits to human health. In addition, the aqueous extract of sesame has been shown to be safe for animals. As an important medicinal and edible homologous food, sesame is used in various aspects of daily life such as food, feed, and cosmetics. The health food applications of sesame are increasing. This paper reviews the progress of research on the nutritional value, chemical composition, pharmacological effects, and processing uses of sesame to support the further development of more functionalities of sesame.
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Affiliation(s)
- Panpan Wei
- Key Laboratory of Molecular Pharmacology and Drug Evaluation, Collaborative Innovation Center of Advanced Drug Delivery System and Biotech Drugs in Universities of Shandong, School of Pharmacy, Ministry of Education, Yantai University, Yantai 264005, China
| | - Fenglan Zhao
- Key Laboratory of Molecular Pharmacology and Drug Evaluation, Collaborative Innovation Center of Advanced Drug Delivery System and Biotech Drugs in Universities of Shandong, School of Pharmacy, Ministry of Education, Yantai University, Yantai 264005, China
| | - Zhen Wang
- Key Laboratory of Molecular Pharmacology and Drug Evaluation, Collaborative Innovation Center of Advanced Drug Delivery System and Biotech Drugs in Universities of Shandong, School of Pharmacy, Ministry of Education, Yantai University, Yantai 264005, China
| | - Qibao Wang
- School of Biological Science, Jining Medical University, Rizhao 276800, China
| | - Xiaoyun Chai
- Department of Organic Chemistry, School of Pharmacy, Naval Medical University, Shanghai 200433, China
- Correspondence: (X.C.); (G.H.); (Q.M.)
| | - Guige Hou
- School of Pharmacy, Binzhou Medical University, Yantai 264003, China
- Correspondence: (X.C.); (G.H.); (Q.M.)
| | - Qingguo Meng
- Key Laboratory of Molecular Pharmacology and Drug Evaluation, Collaborative Innovation Center of Advanced Drug Delivery System and Biotech Drugs in Universities of Shandong, School of Pharmacy, Ministry of Education, Yantai University, Yantai 264005, China
- Correspondence: (X.C.); (G.H.); (Q.M.)
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Yin H, Song P, Chen X, Huang Q, Huang H. A self-healing hydrogel based on oxidized microcrystalline cellulose and carboxymethyl chitosan as wound dressing material. Int J Biol Macromol 2022; 221:1606-1617. [PMID: 36096253 DOI: 10.1016/j.ijbiomac.2022.09.060] [Citation(s) in RCA: 12] [Impact Index Per Article: 6.0] [Reference Citation Analysis] [Abstract] [Key Words] [Track Full Text] [Journal Information] [Subscribe] [Scholar Register] [Received: 06/03/2022] [Revised: 09/01/2022] [Accepted: 09/07/2022] [Indexed: 01/19/2023]
Abstract
As the food processing by-products, hericium erinaceus residues (HER) and pineapple peel (PP) are good sources of cellulose and chitosan that can be prepared into hydrogels for structuring a drug delivery system. Hydrogel is one new type biomaterial for drug delivery with excellent absorbent ability applied in wound dressing. In this research, one composite self-healing hydrogel with pH sensitivity for drug delivery system based on the Schiff-base reaction was fabricated. Therein aldehyde group of oxidized microcrystalline cellulose (OMCC) from PP were crosslinked with amino group of carboxymethyl chitosan (CMCS) from HER via Schiff-base reaction for structuring hydrogels. The structures of the prepared hydrogels were characterized. Meanwhile, its blood clotting activity and physical properties were investigated. The hydrogels show some favorable performances with suitable gel time (54 s of minimum), distinguish swelling rate (about 31.18 g/g), good mechanical, self-healing characteristic and well coagulation effect. The cumulative release of the rutin-loaded hydrogel OMCM-54 reached about 80 % within 6 h, suggesting the well-controlled release of rutin by crosslinking degree between the modified OMCC and CMCS based on Schiff-base reaction. The novel biomaterial based on hericium erinaceus residues and pineapple peel shows its potential use as wound dressing.
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Affiliation(s)
- Huishuang Yin
- School of Food Science and Engineering, South China University of Technology, Guangzhou 510641, P.R. China
| | - Peiqin Song
- School of Food Science and Engineering, South China University of Technology, Guangzhou 510641, P.R. China
| | - Xingyu Chen
- School of Food Science and Engineering, South China University of Technology, Guangzhou 510641, P.R. China
| | - Qiuyan Huang
- College of Food Science, South China Agricultural University, Guangzhou 510641, P.R. China
| | - Huihua Huang
- School of Food Science and Engineering, South China University of Technology, Guangzhou 510641, P.R. China.
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Guo Q, Jin L, Li ZA, Huang GW, Liu HM, Qin Z, Wang XD, Ma YX. Sequential extraction, preliminary characterization and functional properties of sesame (Sesamum indicum L.) hull polysaccharides. Lebensm Wiss Technol 2022. [DOI: 10.1016/j.lwt.2022.113661] [Citation(s) in RCA: 0] [Impact Index Per Article: 0] [Reference Citation Analysis] [Track Full Text] [Journal Information] [Subscribe] [Scholar Register] [Indexed: 10/18/2022]
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Zhang RY, Gao JH, Shi YL, Lan YF, Liu HM, Zhu WX, Wang XD. Characterization of Structure and Antioxidant Activity of Polysaccharides From Sesame Seed Hull. Front Nutr 2022; 9:928972. [PMID: 35799594 PMCID: PMC9253664 DOI: 10.3389/fnut.2022.928972] [Citation(s) in RCA: 0] [Impact Index Per Article: 0] [Reference Citation Analysis] [Abstract] [Track Full Text] [Download PDF] [Figures] [Journal Information] [Subscribe] [Scholar Register] [Received: 04/26/2022] [Accepted: 05/23/2022] [Indexed: 11/17/2022] Open
Abstract
Sesame seed hull is the major by-product of sesame seed processing and is rich in polysaccharides. In this work, sesame hull polysaccharides (SHP) were extracted by ultrasound-assisted alkali extraction methods with a yield of 6.49%. Three purified polysaccharide fractions were obtained after decolorization, deproteinization, and column chromatography. Then, their main composition and antioxidant activity were investigated. The dominant fraction was SHP-2 with a yield of 3.78%. It was composed of galacturonic acid (51.3%), glucuronic acid (13.8%), rhamnose (8.9%), glucose (8.4%), and others. The linkage types of SHP-2 have the α-D-GalpA-(1,4)-linked, α-D-GlcpA-(1,2)-linked, β-T-D-Rhap-linked, β-D-Glcp-(1,6)-linked, β-T-D-Galp-linked, α-L-Xylp-(1,4)-linked, α-L-Araf-(1,3,5)-linked, and β-D-Manp-(1,4)-linked. This study might provide some useful basic data for developing applications for sesame seed hull polysaccharides in the food and pharmaceutical industries.
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Li YR, Xu S, Zhang RY, Yang MX, Liu HM, Wang XD. Structural Characterization of Polysaccharides in Waste Liquor Produced by Wet Decortication of Sesame Seeds. Front Nutr 2022; 9:940442. [PMID: 35769381 PMCID: PMC9234482 DOI: 10.3389/fnut.2022.940442] [Citation(s) in RCA: 0] [Impact Index Per Article: 0] [Reference Citation Analysis] [Abstract] [Grants] [Track Full Text] [Download PDF] [Figures] [Journal Information] [Subscribe] [Scholar Register] [Received: 05/10/2022] [Accepted: 05/26/2022] [Indexed: 11/18/2022] Open
Abstract
The wet decortication of sesame seeds produces wastewater containing diverse minerals and organic pollutants that could be valuable resources for the food industry. This investigation aimed to reclaim, purify, and characterize the polysaccharides contained in the waste liquor from the sesame decortication industry. The purified polysaccharide fractions were characterized using monosaccharide analysis, GPC (high-performance gel permeation chromatography), FT-IR (Fourier-transform infrared) spectroscopy, methylation analysis, 1D and 2D Nucleai Magnetic Resonance (NMR) analysis, and thermal analysis. Four fractions were found (SSP-1,-2,-3, -4), of which SSP-2 was proportionately the largest and most interesting. The backbone of SSP-2 is mainly composed of (1→2,4)-β-D-Xylp residues with side chains connected to the O-4 position, with many T-β-D-Galp and (1→5)-α-L-Araf residues, and fewer (1→4)-α-D-Glcp, (1→2)-α-L-Rhap, T-α-L-Araf, and (1→2)-β-D-GlcpA residues. An efficient method for removing the polysaccharides would simplify wastewater treatment while finding a use for them would benefit the sesame, food, and pharmaceutical industries.
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Affiliation(s)
- Yao-Ran Li
- College of Food Science and Technology, Henan University of Technology, Zhengzhou, China
- College of Biosystems Engineering and Food Science, Zhejiang University, Hangzhou, China
| | - Shuai Xu
- College of Food Science and Technology, Henan University of Technology, Zhengzhou, China
| | - Run-Yang Zhang
- College of Food Science and Technology, Henan University of Technology, Zhengzhou, China
| | - Ming-Xuan Yang
- College of Food Science and Technology, Henan University of Technology, Zhengzhou, China
| | - Hua-Min Liu
- College of Food Science and Technology, Henan University of Technology, Zhengzhou, China
- *Correspondence: Hua-Min Liu,
| | - Xue-De Wang
- College of Food Science and Technology, Henan University of Technology, Zhengzhou, China
- Xue-De Wang,
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