Your search keyword '"Algal polysaccharides"' showing total 199 results

1. Synthesis, Optimization and Molecular Self-Assembly Behavior of Alginate-g-Oleylamine Derivatives Based on Ugi Reaction for Hydrophobic Drug Delivery.

Author

Bu, Yanan, Chen, Xiuqiong, Wu, Ting, Zhang, Ruolin, Yan, Huiqiong, and Lin, Qiang

Subjects

*CRITICAL micelle concentration, *MOLECULAR self-assembly, *CYTOTOXINS, *ZETA potential, *LIGHT scattering

Abstract

To achieve the optimal alginate-based oral formulation for delivery of hydrophobic drugs, on the basis of previous research, we further optimized the synthesis process parameters of alginate-g-oleylamine derivatives (Ugi-FOlT) and explored the effects of different degrees of substitution (DSs) on the molecular self-assembly properties of Ugi-FOlT, as well as the in vitro cytotoxicity and drug release behavior of Ugi-FOlT. The resultant Ugi-FOlT exhibited good amphiphilic properties with the critical micelle concentration (CMC) ranging from 0.043 mg/mL to 0.091 mg/mL, which decreased with the increase in the DS of Ugi-FOlT. Furthermore, Ugi-FOlT was able to self-assemble into spherical micellar aggregates in aqueous solution, whose sizes and zeta potentials with various DSs measured by dynamic light scattering (DLS) were in the range of 653 ± 25~710 ± 40 nm and −58.2 ± 1.92~−48.9 ± 2.86 mV, respectively. In addition, RAW 264.7 macrophages were used for MTT assay to evaluate the in vitro cytotoxicity of Ugi-FOlT in the range of 100~500 μg/mL, and the results indicated good cytocompatibility for Ugi-FOlT. Ugi-FOlT micellar aggregates with favorable stability also showed a certain sustained and pH-responsive release behavior for the hydrophobic drug ibuprofen (IBU). Meanwhile, it is feasible to control the drug release rate by regulating the DS of Ugi-FOlT. The influence of different DSs on the properties of Ugi-FOlT is helpful to fully understand the relationship between the micromolecular structure of Ugi-FOlT and its macroscopic properties. [ABSTRACT FROM AUTHOR]

Published

2024

2. Phosphoryl oligosaccharide alleviates food allergy by suppressing IgE class switch recombination through LCN2 pathway

Author

Chong Wang, Juan Zhong, Li Wang, and Linglin Fu

Subjects

Class switch recombination, B cells, Algal polysaccharides, Food allergy, Phosphoryl oligosaccharides, Nutrition. Foods and food supply, TX341-641

Abstract

Specific algal polysaccharides exhibit significant anti-allergic activity. B cell class switch recombination (CSR) is a crucial step in food allergies, however, the role of polysaccharides in regulating CSR remains unclear. To investigate the regulation of B cell CSR by algal polysaccharides, an in vitro IgE-type CSR cell model was used to screen for active algal polysaccharides, and four active polysaccharides were identified. In a food allergy mouse model, Undaria pinnatifida polysaccharides (UPP) and phosphoryl oligosaccharides (POS) suppressed allergic responses and reduced the proliferation of IgE+ B cells. Transcriptome sequencing of B cells identified LCN2 as a potential target of POS, and inhibition of LCN2 blocked the activity of POS on CSR. These findings demonstrated the efficacy of POS in regulating B cell CSR and alleviating allergic responses and revealed the underlying mechanisms. This work provided data and theoretical support for the development of polysaccharide-based functional foods for individuals with allergies.

Published

2024

3. Use of Limestone Sludge in the Preparation of ɩ-Carrageenan/Alginate-Based Films.

Author

Adão, Pedro, Calado, Maria da Luz, Fernandes, Wilson, Alves, Luís G., Côrte-Real, Leonor, Guedes, Mafalda, Baptista, Ricardo, Bernardino, Raul, Gil, Maria M., Campos, Maria Jorge, and Bernardino, Susana

Subjects

*LIMESTONE, *MOLDING materials, *CARRAGEENANS, *SORBITOL, *SURFACE cracks, *ALGINIC acid, *CHEMICAL structure

Abstract

The use of processed limestone sludge as a crosslinking agent for films based on Na–alginate and ɩ-carrageenan/Na-alginate blends was studied. Sorbitol was tested as a plasticizer. The produced gel formulations included alginate/sorbitol and carrageenan/alginate/sorbitol mixtures, with tested sorbitol concentrations of 0.0, 0.5 and 1.0 wt%. The limestone sludge waste obtained from the processing of quarried limestone was converted into an aqueous solution of Ca2+ by dissolution with mineral acid. This solution was then diluted in water and used to induce gel crosslinking. The necessity of using sorbitol as a component of the crosslinking solution was also assessed. The resulting films were characterized regarding their dimensional stability, microstructure, chemical structure, mechanical performance and antifungal properties. Alginate/sorbitol films displayed poor dimensional stability and were deemed not viable. Carrageenan/alginate/sorbitol films exhibited higher dimensional stability and smooth and flat surfaces, especially in compositions with 0.5 wt% sorbitol. However, an increasing amount of plasticizer appears to result in severe surface cracking, the development of a segregation phenomenon affecting carrageenan and an overall decrease in films' mechanical resistance. Although further studies regarding film composition—including plasticizer fraction, film optimal thickness and film/mold material interaction—are mandatory, the attained results show the potential of the reported ɩ-carrageenan/alginate/sorbitol films to be used towards the development of viable films derived from algal polysaccharides. [ABSTRACT FROM AUTHOR]

Published

2024

4. Ultrasound-Assisted Multi-Enzyme Extraction for Highly Efficient Extraction of Polysaccharides from Ulva lactuca.

Author

Wenqian Wang, Jinbi Li, Fuping Lu, and Fufeng Liu

Abstract

Ulva polysaccharides present several physiological activities including antiviral, antitumor and anti-plasmodial effects. However, current processing usually results in low yields and high prices, thus lacking commercialization potential. The aim of this study was to develop an efficient method for the extraction of Ulva polysaccharides with high biological activity. The effect of cell walldegrading enzymes including cellulase, hemicellulase, pectinase and protease on Ulva polysaccharide extraction was studied by statistical mixing design. Using the most effective enzyme preparations as the basic components, the optimal proportions of the enzyme mixture were determined as follows: cellulase 35.3%, pectinase 34.5%, alkaline protease 30.2%, which increased the polysaccharide yield from 6.43% in the absence of enzymes to 26.68%. Subsequently, through response surface analysis, the optimal conditions were determined: enzyme concentration of 1.5%, enzymatic time of 1.1 h, ultrasonic time of 90 min and enzymatic temperature of 60 ◦C. Under the optimal extraction conditions, the extraction yield of Ulva polysaccharides could be increased to 30.14%. Moreover, extracted polysaccharides exhibit strong antioxidant properties in DPPH, ABTS, hydroxyl radical, superoxide radical and H2O2 -induced cellular damage models. This study laid a solid foundation for the use and development of Ulva polysaccharides. [ABSTRACT FROM AUTHOR]

Published

2024

5. Synthesis, Optimization and Molecular Self-Assembly Behavior of Alginate-g-Oleylamine Derivatives Based on Ugi Reaction for Hydrophobic Drug Delivery

Author

Yanan Bu, Xiuqiong Chen, Ting Wu, Ruolin Zhang, Huiqiong Yan, and Qiang Lin

Subjects

algal polysaccharides, polysaccharide derivatives, micellar aggregates, Ugi four-component reaction, hydrophobic pharmaceutical formulations, Biology (General), QH301-705.5, Chemistry, QD1-999

Abstract

To achieve the optimal alginate-based oral formulation for delivery of hydrophobic drugs, on the basis of previous research, we further optimized the synthesis process parameters of alginate-g-oleylamine derivatives (Ugi-FOlT) and explored the effects of different degrees of substitution (DSs) on the molecular self-assembly properties of Ugi-FOlT, as well as the in vitro cytotoxicity and drug release behavior of Ugi-FOlT. The resultant Ugi-FOlT exhibited good amphiphilic properties with the critical micelle concentration (CMC) ranging from 0.043 mg/mL to 0.091 mg/mL, which decreased with the increase in the DS of Ugi-FOlT. Furthermore, Ugi-FOlT was able to self-assemble into spherical micellar aggregates in aqueous solution, whose sizes and zeta potentials with various DSs measured by dynamic light scattering (DLS) were in the range of 653 ± 25~710 ± 40 nm and −58.2 ± 1.92~−48.9 ± 2.86 mV, respectively. In addition, RAW 264.7 macrophages were used for MTT assay to evaluate the in vitro cytotoxicity of Ugi-FOlT in the range of 100~500 μg/mL, and the results indicated good cytocompatibility for Ugi-FOlT. Ugi-FOlT micellar aggregates with favorable stability also showed a certain sustained and pH-responsive release behavior for the hydrophobic drug ibuprofen (IBU). Meanwhile, it is feasible to control the drug release rate by regulating the DS of Ugi-FOlT. The influence of different DSs on the properties of Ugi-FOlT is helpful to fully understand the relationship between the micromolecular structure of Ugi-FOlT and its macroscopic properties.

Published

2024

6. Algae Polysaccharides (Carrageenan and Alginate)—A Treasure-Trove of Antiviral Compounds: An In Silico Approach to Identify Potential Candidates for Inhibition of S1-RBD Spike Protein of SARS-CoV2

Author

Dikshansha Rohilla, Akhileshwar Kumar Srivastava, Rahul Prasad Singh, Priya Yadav, Sandeep Kumar Singh, Dharmendra Kumar, Nikunj Bhardwaj, Mahipal Singh Kesawat, Kapil Deo Pandey, and Ajay Kumar

Subjects

algal polysaccharides, alginic acid, carrageenen, COVID-19, molecular docking, in silico studies, Biology (General), QH301-705.5

Abstract

For the last three years, the world has faced the unexpected spread of the pandemic of Severe Acute Respiratory Syndrome Coronavirus 2 (SARS-CoV-2). The high mortality rate and ever-changing shape of the virus are the challenging factors in the effective management of SARS-CoV-2. However, in last three years, research communities have made significant progress in developing vaccines and controlling the spread of the pandemic to a certain extent. These vaccines contain the attenuated pathogens, which after application did not kill the virus but protected the human by enhancing the immune system response during pandemic exposure. However, the negative side effects and the high cost of the synthetic vaccines are always of concern for researchers, consumers, and the government. Therefore, as an alternative to synthetic drugs, natural medicines or natural plant products have piqued researchers’ interest. Algae are considered as a treasure house of bioactive compounds such as carotenoids, vitamins, polysaccharides, proteins, etc. These bioactive compounds have been well documented for the treatments of various human ailments such as cancer and cardiovascular diseases. Furthermore, sulfated polysaccharides such as alginate and carrageenan have been reported as having antiviral and immunomodulating properties. Therefore, this review addresses algal polysaccharides, especially alginate and carrageenan, and their application in the treatment of COVID-19. In addition, in silico approaches are discussed for the inhibition of the S1-RBD (receptor-binding domain) of SARS-CoV-2, which attaches to the host receptor ACE2 (angiotensin-converting enzyme 2), and the interaction with the network of relative proteins is also explored, which will help in drug discovery and drug design.

Published

2023

7. Chemical Composition of Macroalgae Polysaccharides from Galician and Portugal Coasts: Seasonal Variations and Biological Properties.

Author

Miguel, Sónia P., D'Angelo, Caíque, Ribeiro, Maximiano P., Simões, Rogério, and Coutinho, Paula

Abstract

Crude polysaccharides extracted from the Codium sp. and Osmundea sp. macroalgae collected in different seasons (winter, spring and summer) from the Galician and North Portugal coasts were characterised, aiming to support their biomedical application to wound healing. An increase in polysaccharides' sulphate content was registered from winter to summer, and higher values were obtained for Osmundea sp. In turn, the monosaccharide composition constantly changed with a decrease in glucose in Osmundea sp. from spring to winter. For Codium sp., a higher increase was noticed regarding glucose content in the Galician and Portugal coasts. Galactose was the major monosaccharide in all the samples, remaining stable in all seasons and collection sites. These results corroborate the sulphate content and antioxidant activity, since the Osmundea sp.-derived polysaccharides collected in summer exhibited higher scavenging radical ability. The biocompatibility and wound scratch assays revealed that the Osmundea sp. polysaccharide extracted from the Portugal coast in summer possessed more potential for promoting fibroblast migration. This study on seasonal variations of polysaccharides, sulphate content, monosaccharide composition and, consequently, biological properties provides practical guidance for determining the optimal season for algae harvest to standardise preparations of polysaccharides for the biomedical field. [ABSTRACT FROM AUTHOR]

Published

2023

8. Algae Polysaccharides (Carrageenan and Alginate)—A Treasure-Trove of Antiviral Compounds: An In Silico Approach to Identify Potential Candidates for Inhibition of S1-RBD Spike Protein of SARS-CoV2.

Author

Rohilla, Dikshansha, Srivastava, Akhileshwar Kumar, Singh, Rahul Prasad, Yadav, Priya, Singh, Sandeep Kumar, Kumar, Dharmendra, Bhardwaj, Nikunj, Kesawat, Mahipal Singh, Pandey, Kapil Deo, and Kumar, Ajay

Subjects

*ALGAE, *ALGINIC acid, *CARRAGEENANS, *COVID-19, *CAROTENOIDS, *ANTIVIRAL agents, *DRUG discovery, *DRUG design

Abstract

For the last three years, the world has faced the unexpected spread of the pandemic of Severe Acute Respiratory Syndrome Coronavirus 2 (SARS-CoV-2). The high mortality rate and ever-changing shape of the virus are the challenging factors in the effective management of SARS-CoV-2. However, in last three years, research communities have made significant progress in developing vaccines and controlling the spread of the pandemic to a certain extent. These vaccines contain the attenuated pathogens, which after application did not kill the virus but protected the human by enhancing the immune system response during pandemic exposure. However, the negative side effects and the high cost of the synthetic vaccines are always of concern for researchers, consumers, and the government. Therefore, as an alternative to synthetic drugs, natural medicines or natural plant products have piqued researchers' interest. Algae are considered as a treasure house of bioactive compounds such as carotenoids, vitamins, polysaccharides, proteins, etc. These bioactive compounds have been well documented for the treatments of various human ailments such as cancer and cardiovascular diseases. Furthermore, sulfated polysaccharides such as alginate and carrageenan have been reported as having antiviral and immunomodulating properties. Therefore, this review addresses algal polysaccharides, especially alginate and carrageenan, and their application in the treatment of COVID-19. In addition, in silico approaches are discussed for the inhibition of the S1-RBD (receptor-binding domain) of SARS-CoV-2, which attaches to the host receptor ACE2 (angiotensin-converting enzyme 2), and the interaction with the network of relative proteins is also explored, which will help in drug discovery and drug design. [ABSTRACT FROM AUTHOR]

Published

2023

9. Use of Limestone Sludge in the Preparation of ɩ-Carrageenan/Alginate-Based Films

Author

Pedro Adão, Maria da Luz Calado, Wilson Fernandes, Luís G. Alves, Leonor Côrte-Real, Mafalda Guedes, Ricardo Baptista, Raul Bernardino, Maria M. Gil, Maria Jorge Campos, and Susana Bernardino

Subjects

limestone sludge, ɩ-carrageenan, sodium alginate, algal polysaccharides, polysaccharide films, Technology, Electrical engineering. Electronics. Nuclear engineering, TK1-9971, Engineering (General). Civil engineering (General), TA1-2040, Microscopy, QH201-278.5, Descriptive and experimental mechanics, QC120-168.85

Abstract

The use of processed limestone sludge as a crosslinking agent for films based on Na–alginate and ɩ-carrageenan/Na-alginate blends was studied. Sorbitol was tested as a plasticizer. The produced gel formulations included alginate/sorbitol and carrageenan/alginate/sorbitol mixtures, with tested sorbitol concentrations of 0.0, 0.5 and 1.0 wt%. The limestone sludge waste obtained from the processing of quarried limestone was converted into an aqueous solution of Ca2+ by dissolution with mineral acid. This solution was then diluted in water and used to induce gel crosslinking. The necessity of using sorbitol as a component of the crosslinking solution was also assessed. The resulting films were characterized regarding their dimensional stability, microstructure, chemical structure, mechanical performance and antifungal properties. Alginate/sorbitol films displayed poor dimensional stability and were deemed not viable. Carrageenan/alginate/sorbitol films exhibited higher dimensional stability and smooth and flat surfaces, especially in compositions with 0.5 wt% sorbitol. However, an increasing amount of plasticizer appears to result in severe surface cracking, the development of a segregation phenomenon affecting carrageenan and an overall decrease in films’ mechanical resistance. Although further studies regarding film composition—including plasticizer fraction, film optimal thickness and film/mold material interaction—are mandatory, the attained results show the potential of the reported ɩ-carrageenan/alginate/sorbitol films to be used towards the development of viable films derived from algal polysaccharides.

Published

2024

10. Hyaluronidase-inhibiting Polysaccharide from Caulerpa lentillifera.

Author

Gamage Awanthi, Mahanama Geegana, Saki Nagamoto, Hirosuke Oku, Kanefumi Kitahara, and Terako Konishi

Subjects

POLYSACCHARIDES, HYALURONIDASES, CAULERPA, MOLECULAR weights, TRIFLUOROACETIC acid

Abstract

Algal sulfated polysaccharides are known to be effective hyaluronidase inhibitors. We evaluated hyaluronidase inhibitory activity of sulfated polysaccharide (SP) from Caulerpa lentillifera. Results showed that SP with IC50 of 163 pg/mL appears to allosterically inhibit the hyaluronidase activity. Main sugar composition and sulfate content of SP was estimated to be Gal, Glc, Xyl, Man, uronic acids, and sulfate in the weight percent of27.7:28.9:14.6:22.5:3.4:21.7. We modified the SPby desulfation and partial hydrolysis with trifluoroacetic acid (TFA) to investigate the effect of sulfate content and molecular weight on inhibition. Hyaluronidase inhibitory activity of desulfated SP, 0.1 M TFA-hydrolyzed SP and 0.5 M TFA-hydrolyzed SP were significantly lower than that of native SP, revealing that sulfate content or molecular weight is important for hyaluronidase inhibition. [ABSTRACT FROM AUTHOR]

Published

2023

11. Directed preparation of algal oligosaccharides with specific structures by algal polysaccharide degrading enzymes.

Author

Wang, Hui and Zhu, Benwei

Subjects

*POLYSACCHARIDES, *DEGREE of polymerization, *ALGINIC acid, *CHEMICAL decomposition, *GLYCOSIDASES

Abstract

Seaweed polysaccharides have a wide range of sources and rich content, with various biological activities such as anti-inflammatory, anti-tumor, anticoagulant, and blood pressure lowering. They can be applied in fields such as food, agriculture, and medicine. However, the poor solubility of macromolecular seaweed polysaccharides limits their further application. Reports have shown that some biological activities of seaweed oligosaccharides are more extensive and superior to that of seaweed polysaccharides. Therefore, reducing the degree of polymerization of polysaccharides will be the key to the high value utilization of seaweed polysaccharide resources. There are three main methods for degrading algal polysaccharides into algal oligosaccharides, physical, chemical and enzymatic degradation. Among them, enzymatic degradation has been a hot research topic in recent years. Various types of algal polysaccharide hydrolases and related glycosidases are powerful tools for the preparation of algal oligosaccharides, including α-agarases, β-agaroses, α-neoagarose hydrolases and β-galactosidases that are related to agar, κ-carrageenases, ι-carrageenases and λ-carrageenases that are related to carrageenan, β-porphyranases that are related to porphyran, funoran hydrolases that are related to funoran, alginate lyases that are related to alginate and ulvan lyases related to ulvan. This paper describes the bioactivities of agar oligosaccharide, carrageenan oligosaccharide, porphyran oligosaccharide, funoran oligosaccharide, alginate oligosaccharide and ulvan oligosaccharide and provides a detailed review of the progress of research on the enzymatic preparation of these six oligosaccharides. At the same time, the problems and challenges faced are presented to guide and improve the preparation and application of algal oligosaccharides in the future. [ABSTRACT FROM AUTHOR]

Published

2024

12. Phosphoryl oligosaccharide alleviates food allergy by suppressing IgE class switch recombination through LCN2 pathway.

Author

Wang, Chong, Zhong, Juan, Wang, Li, and Fu, Linglin

Abstract

[Display omitted] • Four polysaccharides showed significant activity in regulating CSR in vitro. • UPP and POS suppressed IgE type CSR in vivo. • LCN2 mediated the activity of POS in regulating B cell CSR. Specific algal polysaccharides exhibit significant anti-allergic activity. B cell class switch recombination (CSR) is a crucial step in food allergies, however, the role of polysaccharides in regulating CSR remains unclear. To investigate the regulation of B cell CSR by algal polysaccharides, an in vitro IgE-type CSR cell model was used to screen for active algal polysaccharides, and four active polysaccharides were identified. In a food allergy mouse model, Undaria pinnatifida polysaccharides (UPP) and phosphoryl oligosaccharides (POS) suppressed allergic responses and reduced the proliferation of IgE+ B cells. Transcriptome sequencing of B cells identified LCN2 as a potential target of POS, and inhibition of LCN2 blocked the activity of POS on CSR. These findings demonstrated the efficacy of POS in regulating B cell CSR and alleviating allergic responses and revealed the underlying mechanisms. This work provided data and theoretical support for the development of polysaccharide-based functional foods for individuals with allergies. [ABSTRACT FROM AUTHOR]

Published

2024

13. Chemical Composition of Macroalgae Polysaccharides from Galician and Portugal Coasts: Seasonal Variations and Biological Properties

Author

Sónia P. Miguel, Caíque D’Angelo, Maximiano P. Ribeiro, Rogério Simões, and Paula Coutinho

Subjects

algal polysaccharides, seasonal variation, sulphate groups, antioxidant, biocompatibility, Biology (General), QH301-705.5

Abstract

Crude polysaccharides extracted from the Codium sp. and Osmundea sp. macroalgae collected in different seasons (winter, spring and summer) from the Galician and North Portugal coasts were characterised, aiming to support their biomedical application to wound healing. An increase in polysaccharides’ sulphate content was registered from winter to summer, and higher values were obtained for Osmundea sp. In turn, the monosaccharide composition constantly changed with a decrease in glucose in Osmundea sp. from spring to winter. For Codium sp., a higher increase was noticed regarding glucose content in the Galician and Portugal coasts. Galactose was the major monosaccharide in all the samples, remaining stable in all seasons and collection sites. These results corroborate the sulphate content and antioxidant activity, since the Osmundea sp.-derived polysaccharides collected in summer exhibited higher scavenging radical ability. The biocompatibility and wound scratch assays revealed that the Osmundea sp. polysaccharide extracted from the Portugal coast in summer possessed more potential for promoting fibroblast migration. This study on seasonal variations of polysaccharides, sulphate content, monosaccharide composition and, consequently, biological properties provides practical guidance for determining the optimal season for algae harvest to standardise preparations of polysaccharides for the biomedical field.

Published

2023

14. Marine Resources with Potential in Controlling Plant Diseases

Author

Garcés-Fiallos, Felipe R., de Quadros, Felipe M., de Freitas, Mateus B., Prasad, Ram, Series Editor, Maddela, Naga Raju, editor, García Cruzatty, Luz C, editor, and Chakraborty, Sagnik, editor

Published

2021

15. Defense responses induced by ulvan in wheat against powdery mildew caused by Blumeria graminis f. sp. tritici.

Author

Velho, Aline C., Dall'Asta, Pamela, de Borba, Marlon C., Magnin-Robert, Maryline, Reignault, Philippe, Siah, Ali, Stadnik, Marciel J., and Randoux, Béatrice

Abstract

Ulvan is a water-soluble sulfated heteropolysaccharide extracted from the cell walls of the green seaweeds Ulva spp. This polysaccharide is known to induce resistance and protect plants against a broad range of plant pathogenic fungi, such as Blumeria graminis f. sp. tritici (Bgt), the causal agent of powdery mildew in wheat. We aimed to study the defense mechanisms induced by ulvan against Bgt in susceptible wheat by investigating the defense-related gene expression, enzymes activity, accumulation of phenolic compounds and hydrogen peroxide (H 2 O 2), as well as the development of Bgt infection structures in vitro and in planta. Symptoms were reduced by 42% in ulvan-treated plants. In vitro , ulvan did not inhibit conidial germination of Bgt but in planta , increased the appressorial germ tubes without haustorium. Ulvan increased the presence of fluorescent papillae and accumulation of H 2 O 2 at the penetration sites of Bgt , as well as the content of phenolic compounds. POX, PAL and LOX activities were stimulated in ulvan-treated plants during the first 48 h after inoculation. However, few of defense-related genes studied were differentially expressed in infected plants after ulvan treatment. By contrast, in non-infected conditions, ulvan up-regulated the expression of genes involved in phenylpropanoid metabolism, i.e. PAL , CHS , COMT , ANS and FLS, genes encoding pathogenesis-related proteins, i.e. PR1, PR9 , PR15, and LOX during the first 96 h after treatment. This study provides new insights about the multiple ulvan effects on wheat defense responses, and especially the elicitation of the phenylpropanoid pathway leading to phenolic compounds accumulation, which could be involved in cell wall reinforcement. [Display omitted] • Ulvan polysaccharide reduced the severity of powdery mildew by 42% on bread wheat. • Ulvan treatment up-regulated the expression of a set of defense-related genes. • Ulvan induced plant defense responses independently of fungal infection. • The phenylpropanoid pathway is involved in ulvan protection against Bgt in wheat. • Ulvan increased phenolic compounds and H 2 O 2 at penetration sites of Bgt. [ABSTRACT FROM AUTHOR]

Published

2022

16. Algal Polysaccharides‐Based Nanoparticles for Targeted Drug Delivery Applications.

Author

Zhang, Shuangshuang, Qamar, Sarmad Ahmad, Junaid, Muhammad, Munir, Bushra, Badar, Qurratulain, and Bilal, Muhammad

Subjects

*TARGETED drug delivery, *BIOACTIVE compounds, *CARRAGEENANS, *NANOPARTICLES, *POLYSACCHARIDES, *ALGINATES

Abstract

A huge variety of polysaccharides can be obtained from algal biomass having several attractive properties such as cost‐effectiveness, non‐toxicity, biodegradability, abundant availability, and biocompatibility. In recent years, algal polysaccharides (including alginates, carrageenans, fucoidans, ulvans, and agaroses) have extensively been reported for their chemical properties and important bioactive potentialities. Furthermore, algal polysaccharides have gained huge scientific interest as they are a significant source of biologically active compounds, and they show various medical potentialities including anticancer, antiproliferative, anticoagulant, antitumoral, and antiviral properties. Exceptional physicochemical and biological characteristics make them interesting candidates for biotechnological and biomedical investigations. In this review, nanodrug delivery systems based on different algal‐polysaccharides (alginates, carrageenans, fucoidan, ulvan, and other) are described in a systematic way. Moreover, the current challenges and future prospects in the area of algal exploitation for biomedical applications are summarized at the end. [ABSTRACT FROM AUTHOR]

Published

2022

17. Inhaled aerosolized algal polysaccharides: A novel and reliable strategy for treating pneumonia through inflammation and oxidative stress inhibition.

Author

Zhang, XingXing, Lv, Demin, Li, Bingxia, and Ding, Yuting

Subjects

*OXIDATIVE stress, *SEPSIS, *DRUG delivery systems, *POLYSACCHARIDES, *INFLAMMATION, *HEMATOXYLIN & eosin staining, *INTRAPERITONEAL injections

Abstract

• The lung's protective effect of APs was demonstrated through aerosolization. • It is evident that APs exhibit high efficacy in combating inflammation. • The anti-inflammatory properties of APs were achieved through inhibition of inflammation and oxidative stress. Sepsis-associated acute lung injury (ALI) poses a significant threat, characterized by inflammation and oxidative damage. Effective drugs targeting these aspects with reliable drug delivery systems are vital for ALI management. This study aimed to evaluate the influence of algal polysaccharides (APs) with aerosolized drug delivery in ALI mice and clarify the underlying mechanism. To induce the sepsis-associated acute lung injury (ALI) model, mice were administered intraperitoneal injections of 10 mg/kg LPS for 48 h in vivo. ALI mice received APs via atomization to arrive at different sites within the lungs. Lung tissue samples and bronchoalveolar lavage fluid (BALF) were collected to access lung injury parameters. Concurrently, western blotting, H&E staining, and immunofluorescence (IF) were applied to investigate the specific impact of APs on ALI. The results showed that APs protect lung tissue against ALI by inhibiting inflammation and mitigating oxidative stress-induced damage. This study highlights promising avenues for ALI intervention using natural compounds with anti-inflammatory and antioxidant properties. [ABSTRACT FROM AUTHOR]

Published

2024

18. Algal Polysaccharides-Based Hydrogels: Extraction, Synthesis, Characterization, and Applications.

Author

Lin, Jianan, Jiao, Guangling, and Kermanshahi-pour, Azadeh

Abstract

Hydrogels are three-dimensional crosslinked hydrophilic polymer networks with great potential in drug delivery, tissue engineering, wound dressing, agrochemicals application, food packaging, and cosmetics. However, conventional synthetic polymer hydrogels may be hazardous and have poor biocompatibility and biodegradability. Algal polysaccharides are abundant natural products with biocompatible and biodegradable properties. Polysaccharides and their derivatives also possess unique features such as physicochemical properties, hydrophilicity, mechanical strength, and tunable functionality. As such, algal polysaccharides have been widely exploited as building blocks in the fabrication of polysaccharide-based hydrogels through physical and/or chemical crosslinking. In this review, we discuss the extraction and characterization of polysaccharides derived from algae. This review focuses on recent advances in synthesis and applications of algal polysaccharides-based hydrogels. Additionally, we discuss the techno-economic analyses of chitosan and acrylic acid-based hydrogels, drawing attention to the importance of such analyses for hydrogels. Finally, the future prospects of algal polysaccharides-based hydrogels are outlined. [ABSTRACT FROM AUTHOR]

Published

2022

19. Algal polysaccharide's potential to combat respiratory infections caused by Klebsiella pneumoniae and Serratia marcescens biofilms.

Author

Vishwakarma, Jyoti, Waghela, Bhumika, Falcao, Berness, and Vavilala, Sirisha L.

Abstract

The growth of respiratory diseases, as witnessed through the SARS and COVID-19 outbreaks, and antimicrobial-resistance together pose a serious threat to humanity. One reason for antimicrobial resistance is formation of bacterial biofilms. In this study the sulphated polysaccharides from green algae Chlamydomonas reinhardtii (Cr-SPs) is tested for its antibacterial and antibiofilm potential against Klebsiella pneumoniae and Serratia marcescens. Agar cup assay clearly indicated the antibacterial potential of Cr-SPs. Minimum inhibitory concentration (MIC50) of Cr-SPs against Klebsiella pneumoniae was found to be 850 µg/ml, and it is 800 µg/ml in Serratia marcescens. Time-kill and colony-forming ability assays suggest the concentration-dependent bactericidal potential of Cr-SPs. Cr-SPs showed 74–100% decrease in biofilm formation in a concentration-dependent manner by modifying the cell surface hydrophobic properties of these bacteria. Cr-SPs have also distorted preformed-biofilms by their ability to interact and destroy the extra polymeric substance and eDNA of the matured biofilm. Scanning electron microscopy analysis showed that Cr-SPs effectively altered the morphology of these bacterial cells and distorted the bacterial biofilms. Furthermore reduced protease, urease and prodigiosin pigment production suggest that Cr-SPs interferes the quorum sensing mechanism in these bacteria. The current study paves way towards developing Cr-SPs as a control strategy for treatment of respiratory tract infections. [ABSTRACT FROM AUTHOR]

Published

2022

20. Algae As Fertilizers, Biostimulants, and Regulators of Plant Growth

Author

Dmytryk, Agnieszka, Chojnacka, Katarzyna, Borowitzka, Michael A., Series Editor, Chojnacka, Katarzyna, editor, Wieczorek, Piotr Pawel, editor, Schroeder, Grzegorz, editor, and Michalak, Izabela, editor

Published

2018

21. Algal carbohydrate polymers: Catalytic innovations for sustainable development.

Author

Sahu, Sudarshan, Sharma, Shalini, Kaur, Anupreet, Singh, Gursharan, Khatri, Madhu, and Arya, Shailendra Kumar

Subjects

*HOMOGENEOUS catalysis, *CHEMICAL amplification, *HETEROGENEOUS catalysis, *HETEROGENEOUS catalysts, *POLYMERS

Abstract

Algal polysaccharides, harnessed for their catalytic potential, embody a compelling narrative in sustainable chemistry. This review explores the complex domains of algal carbohydrate-based catalysis, revealing its diverse trajectory. Starting with algal polysaccharide synthesis and characterization methods as catalysts, the investigation includes sophisticated techniques like NMR spectroscopy that provide deep insights into the structural variety of these materials. Algal polysaccharides undergo various preparation and modification techniques to enhance their catalytic activity such as immobilization. Homogeneous catalysis, revealing its significance in practical applications like crafting organic compounds and facilitating chemical transformations. Recent studies showcase how algal-derived catalysts prove to be remarkably versatile, showcasing their ability to customise reactions for specific substances. Heterogeneous catalysis, it highlights the significance of immobilization techniques, playing a central role in ensuring stability and the ability to reuse catalysts. The practical applications of heterogeneous algal catalysts in converting biomass and breaking down contaminants, supported by real-life case studies, emphasize their effectiveness. In sustainable chemistry, algal polysaccharides emerge as compelling catalysts, offering a unique intersection of eco-friendliness, structural diversity, and versatile catalytic properties. Tackling challenges such as dealing with complex structural variations, ensuring the stability of the catalyst, and addressing economic considerations calls for out-of-the-box and inventive solutions. Embracing the circular economy mindset not only assures sustainable catalyst design but also promotes efficient recycling practices. The use of algal carbohydrates in catalysis stands out as a source of optimism, paving the way for a future where chemistry aligns seamlessly with nature, guiding us toward a sustainable, eco-friendly, and thriving tomorrow. This review encapsulates—structural insights, catalytic applications, challenges, and future perspectives—invoking a call for collective commitment to catalyze a sustainable scientific revolution. [Display omitted] [ABSTRACT FROM AUTHOR]

Published

2024

22. Algal Polysaccharides-Based Hydrogels: Extraction, Synthesis, Characterization, and Applications

Author

Jianan Lin, Guangling Jiao, and Azadeh Kermanshahi-pour

Subjects

algal polysaccharides, hydrogels, polysaccharides-based hydrogels, natural polymers, Biology (General), QH301-705.5

Abstract

Hydrogels are three-dimensional crosslinked hydrophilic polymer networks with great potential in drug delivery, tissue engineering, wound dressing, agrochemicals application, food packaging, and cosmetics. However, conventional synthetic polymer hydrogels may be hazardous and have poor biocompatibility and biodegradability. Algal polysaccharides are abundant natural products with biocompatible and biodegradable properties. Polysaccharides and their derivatives also possess unique features such as physicochemical properties, hydrophilicity, mechanical strength, and tunable functionality. As such, algal polysaccharides have been widely exploited as building blocks in the fabrication of polysaccharide-based hydrogels through physical and/or chemical crosslinking. In this review, we discuss the extraction and characterization of polysaccharides derived from algae. This review focuses on recent advances in synthesis and applications of algal polysaccharides-based hydrogels. Additionally, we discuss the techno-economic analyses of chitosan and acrylic acid-based hydrogels, drawing attention to the importance of such analyses for hydrogels. Finally, the future prospects of algal polysaccharides-based hydrogels are outlined.

Published

2022

23. Ultrasound-Assisted Multi-Enzyme Extraction for Highly Efficient Extraction of Polysaccharides from Ulva lactuca .

Author

Wang W, Li J, Lu F, and Liu F

Abstract

Ulva polysaccharides present several physiological activities including antiviral, antitumor and anti-plasmodial effects. However, current processing usually results in low yields and high prices, thus lacking commercialization potential. The aim of this study was to develop an efficient method for the extraction of Ulva polysaccharides with high biological activity. The effect of cell wall-degrading enzymes including cellulase, hemicellulase, pectinase and protease on Ulva polysaccharide extraction was studied by statistical mixing design. Using the most effective enzyme preparations as the basic components, the optimal proportions of the enzyme mixture were determined as follows: cellulase 35.3%, pectinase 34.5%, alkaline protease 30.2%, which increased the polysaccharide yield from 6.43% in the absence of enzymes to 26.68%. Subsequently, through response surface analysis, the optimal conditions were determined: enzyme concentration of 1.5%, enzymatic time of 1.1 h, ultrasonic time of 90 min and enzymatic temperature of 60 °C. Under the optimal extraction conditions, the extraction yield of Ulva polysaccharides could be increased to 30.14%. Moreover, extracted polysaccharides exhibit strong antioxidant properties in DPPH, ABTS, hydroxyl radical, superoxide radical and H 2 O 2 -induced cellular damage models. This study laid a solid foundation for the use and development of Ulva polysaccharides.

Published

2024

24. A Multifunctional Polysaccharide Utilization Gene Cluster in Colwellia echini Encodes Enzymes for the Complete Degradation of κ-Carrageenan, ι-Carrageenan, and Hybrid β/κ-Carrageenan

Author

Line Christiansen, Duleepa Pathiraja, Pernille Kjersgaard Bech, Mikkel Schultz-Johansen, Rosanna Hennessy, David Teze, In-Geol Choi, and Peter Stougaard

Subjects

furcellaran, carrageenan, marine bacteria, algal polysaccharides, glycoside hydrolases, metabolic pathway, Microbiology, QR1-502

Abstract

ABSTRACT Algal cell wall polysaccharides constitute a large fraction in the biomass of marine primary producers and are thus important in nutrient transfer between trophic levels in the marine ecosystem. In order for this transfer to take place, polysaccharides must be degraded into smaller mono- and disaccharide units, which are subsequently metabolized, and key components in this degradation are bacterial enzymes. The marine bacterium Colwellia echini A3T is a potent enzyme producer since it completely hydrolyzes agar and κ-carrageenan. Here, we report that the genome of C. echini A3T harbors two large gene clusters for the degradation of carrageenan and agar, respectively. Phylogenetical and functional studies combined with transcriptomics and in silico structural modeling revealed that the carrageenolytic cluster encodes furcellaranases, a new class of glycoside hydrolase family 16 (GH16) enzymes that are key enzymes for hydrolysis of furcellaran, a hybrid carrageenan containing both β- and κ-carrageenan motifs. We show that furcellaranases degrade furcellaran into neocarratetraose-43-O-monosulfate [DA-(α1,3)-G4S-(β1,4)-DA-(α1,3)-G], and we propose a molecular model of furcellaranases and compare the active site architectures of furcellaranases, κ-carrageenases, β-agarases, and β-porphyranases. Furthermore, C. echini A3T was shown to encode κ-carrageenases, ι-carrageenases, and members of a new class of enzymes, active only on hybrid β/κ-carrageenan tetrasaccharides. On the basis of our genomic, transcriptomic, and functional analyses of the carrageenolytic enzyme repertoire, we propose a new model for how C. echini A3T degrades complex sulfated marine polysaccharides such as furcellaran, κ-carrageenan, and ι-carrageenan. IMPORTANCE Here, we report that a recently described bacterium, Colwellia echini, harbors a large number of enzymes enabling the bacterium to grow on κ-carrageenan and agar. The genes are organized in two clusters that encode enzymes for the total degradation of κ-carrageenan and agar, respectively. As the first, we report on the structure/function relationship of a new class of enzymes that hydrolyze furcellaran, a partially sulfated β/κ-carrageenan. Using an in silico model, we hypothesize a molecular structure of furcellaranases and compare structural features and active site architectures of furcellaranases with those of other GH16 polysaccharide hydrolases, such as κ-carrageenases, β-agarases, and β-porphyranases. Furthermore, we describe a new class of enzymes distantly related to GH42 and GH160 β-galactosidases and show that this new class of enzymes is active only on hybrid β/κ-carrageenan oligosaccharides. Finally, we propose a new model for how the carrageenolytic enzyme repertoire enables C. echini to metabolize β/κ-, κ-, and ι-carrageenan.

Published

2020

25. Seaweed polysaccharides as bio-elicitors of natural defenses in olive trees against verticillium wilt of olive

Author

Imane Ben Salah, Salma Aghrouss, Allal Douira, Salama Aissam, Zainab El Alaoui-Talibi, Abdelkarim Filali-Maltouf, and Cherkaoui El Modafar

Subjects

Algal polysaccharides, natural defenses, phenolic metabolism, olive trees, Verticillium dahliae, Plant culture, SB1-1110, Plant ecology, QK900-989

Abstract

Ulvan, carrageenan, alginate and laminarin were tested in olive trees’ twigs to elicit phenolic metabolism and control verticillium wilt of olive (VWO) caused by Verticillium dahliae. The elicitation effect was determined through phenylalanine ammonia-lyase activity, total polyphenol content and lignin content. VWO was assessed in twigs previously elicited (24 h) and maintained in a solution containing bio-elicitors (2 g/L) and conidial suspension (106 conidia/mL). Our results showed stimulation of the phenolic metabolism and the decline of wilt symptoms. Ulvan reduced significantly the area under the disease progress curve for severity to 39.9% and the final incidence to 28.9%. Ulvan and alginate produced significant inhibitory rates on mycelial growth of the fungus in vitro. Seaweed polysaccharides might help to overcome VWO by strengthening the host defense metabolism and restricting the pathogen’s growth.

Published

2018

26. Dichotomaria marginata (Rhodophyta) as a bioindicator for marine pollution: An overview about its metabolites and adsorbed pollutants.

Author

Nunes Garcia, Angelica, Mattos Stein, Erika, Zambotti Villela, Leonardo, Yokoya, Nair S., Colepicolo Neto, Pio, and Retz de Carvalho, Luciana

Abstract

Copyright of Revista de Biologia Marina y Oceanografía (RBMO) is the property of Universidad de Valparaiso, Facultad de Ciencias del Mar 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

2020

27. Structural characterization of polysaccharides from three seaweed species and their hypoglycemic and hypolipidemic activities in type 2 diabetic rats.

Author

Jia, Rui-Bo, Wu, Juan, Li, Zhao-Rong, Ou, Zhi-Rong, Lin, Lianzhu, Sun, Baoguo, and Zhao, Mouming

Subjects

*STREPTOZOTOCIN, *CERAMIALES, *HIGH-fat diet, *BLOOD urea nitrogen, *GIANT kelp, *MOLECULAR weights, *RATS

Abstract

Three algal polysaccharides (APs) were acquired from Scagassum (SCP), Sargassum fusiforme (Harv.) Setch. (SFP) and Macrocystis pyrifera (L.) Ag. (MAP) by hot water extraction, and their structural characterization and antidiabetic activity were investigated in high fat diet and streptozotocin-induced type 2 diabetic rats. The results revealed that there were obvious differences in extraction yield, molecular weight, compositions of monosaccharide and organic element, molecular morphology, rheological properties and the contents of total sugar, protein, uronic acid and sulfate of SCP, MAP and SFP. SFP had the highest extraction yield, the contents of total sugar and uronic acid and the smallest molecular weight. Congo red assay indicated that all polysaccharides had no triple-helix structure. Oral administration of APs prominently restrained loss of weight and increase of water intake (P <.05), and also significantly controlled the increase of levels of blood glucose, triglyceride (TG) and total cholesterol (TC) in diabetic rats (P <0.05). Diabetic rats treated with SCP had the highest high density lipoprotein cholesterol (HDL-C) level (P <.05), similar to those in normal group. MAP and SCP showed positive effect in improving the low density lipoprotein cholesterol (LDL-C) level of diabetic rats (P <.05). Meanwhile, the increased ALT and BUN contents caused by the liver and kidney damages were markedly ameliorated in the diabetic rats with APs intervention (P <.05). As a consequence, APs could be promising candidates as natural medicines and functional foods for the improvement of diabetes and its complications. • The molecular weight, compositions, rheological properties and molecular morphology of APs are different. • APs controlled prominently the levels of blood glucose, triglyceride (TG), total cholesterol (TC) Alanine transaminase (ALT) and blood urea nitrogen (BUN) in type 2 diabetic rats. • MAP and SCP showed positive effect in controlling the low density lipoprotein cholesterol (LDL-C) level of type 2 diabetic rats. • Oral administration of SCP significantly increased the high density lipoprotein cholesterol (HDL-C) level in type 2 diabetic rats. [ABSTRACT FROM AUTHOR]

Published

2020

28. Comparison of physicochemical properties and antidiabetic effects of polysaccharides extracted from three seaweed species.

Author

Jia, Rui-Bo, Wu, Juan, Li, Zhao-Rong, Ou, Zhi-Rong, Zhu, Qiyuan, Sun, Baoguo, Lin, Lianzhu, and Zhao, Mouming

Subjects

*ASPARTATE aminotransferase, *POLYSACCHARIDES, *MOLECULAR weights, *FREE fatty acids, *UNDARIA pinnatifida, *BLOOD lipids

Abstract

Three algae polysaccharides (APs) extracted from Ascophyllum nodosum (ANP), Fucus vesiculosus (FVP) and Undaria Pinnatifida (USP) significantly differed in the zeta potential, water and oil holding capacity, monosaccharide composition, organic element composition, molecular weight distribution, microstructure and rheological properties. Antidiabetic effects of APs were compared by oral intervention at the dose of 400 mg/kg·body weight/day in high sugar and fat diets and streptozotocin injection induced type 2 diabetic rats. The analysis of body weight, water intake, fasting blood glucose, insulin, oral glucose tolerance, blood lipid indicators (including total cholesterol (TC), triglyceride (TG), low density lipoprotein cholesterol (LDL-C) and free fatty acid (FFA)), liver function indexes (involving alanine aminotransferase (ALT) and aspartate aminotransferase (AST)) and renal function profiles (comprising uric acid (UA) and urea nitrogen (BUN)) showed that APs possessed obvious antidiabetic activities, and FVP showed better effects in controlling the levels of FFA, AST, ALT, UA and BUN. Intervention of FVP reduced the total bile acid (TBA) level and elevated high density lipoprotein cholesterol (HDL-C) level of diabetic rats. Histomorphological observation further demonstrated that APs, especially FVP, could attenuate liver and kidney damage caused by diabetes. This study concluded that the antidiabetic effects of ANP, FVP and USP were distinctly different, which might be attributed to their different chemical structures. Therefore, the structure-activity relationship and antidiabetic mechanism of APs will be our future research direction. Unlabelled Image • The compositions, zeta potentials, molecular weights, rheological properties and microstructure of APs are significantly different. • USP has stronger water and oil holding capacity than ANP and FVP. • APs could ameliorate hyperglycemia, hyperlipidemia and liver and kidney damage of diabetic rats, and FVP shows better effects in controlling the levels of free fatty acid (FFA), alanine aminotransferase (ALT), aspartate aminotransferase (AST), total bile acid (TBA) and uric acid (UA). • Intervention of APs could decrease the serum insulin level of diabetic rats. • FVP could significantly increase the high density lipoprotein cholesterol (HDL-C) level of diabetic rats. • USP could more significantly reverse weight loss of diabetic rats than ANP and FVP. [ABSTRACT FROM AUTHOR]

Published

2020

29. Potential Antiviral Properties of Industrially Important Marine Algal Polysaccharides and Their Significance in Fighting a Future Viral Pandemic

Author

Renu Geetha Bai and Rando Tuvikene

Subjects

marine algae, algal polysaccharides, pandemic, antiviral medicines, sulfated polysaccharides, Microbiology, QR1-502

Abstract

Over the decades, the world has witnessed diverse virus associated pandemics. The significant inhibitory effects of marine sulfated polysaccharides against SARS-CoV-2 shows its therapeutic potential in future biomedical applications and drug development. Algal polysaccharides exhibited significant role in antimicrobial, antitumor, antioxidative, antiviral, anticoagulant, antihepatotoxic and immunomodulating activities. Owing to their health benefits, the sulfated polysaccharides from marine algae are a great deal of interest globally. Algal polysaccharides such as agar, alginate, carrageenans, porphyran, fucoidan, laminaran and ulvans are investigated for their nutraceutical potential at different stages of infection processes, structural diversity, complexity and mechanism of action. In this review, we focus on the recent antiviral studies of the marine algae-based polysaccharides and their potential towards antiviral medicines.

Published

2021

30. Cell Wall Polysaccharides of Marine Algae

Author

Synytsya, Andriy, Čopíková, Jana, Kim, Woo J., Park, Yong Il, and Kim, Se-Kwon, editor

Published

2015

31. Defense responses induced by ulvan in wheat against powdery mildew caused by Blumeria graminis f. sp. tritici

Author

Aline C. Velho, Pamela Dall’Asta, Marlon C. de Borba, Maryline Magnin-Robert, Philippe Reignault, Ali Siah, Marciel J. Stadnik, Béatrice Randoux, Unité de Chimie Environnementale et Interactions sur le Vivant (UCEIV), Université du Littoral Côte d'Opale (ULCO), Universidade Federal de Santa Catarina = Federal University of Santa Catarina [Florianópolis] (UFSC), Transfrontalière BioEcoAgro - UMR 1158 (BioEcoAgro), Université d'Artois (UA)-Université de Liège-Université de Picardie Jules Verne (UPJV)-Université du Littoral Côte d'Opale (ULCO)-Université de Lille-Institut National de Recherche pour l’Agriculture, l’Alimentation et l’Environnement (INRAE)-JUNIA (JUNIA), and Université catholique de Lille (UCL)-Université catholique de Lille (UCL)

Subjects

Triticum aestivum L, Algal polysaccharides, Physiology, [SDV]Life Sciences [q-bio], food and beverages, Induced resistance, Hydrogen Peroxide, Plant Science, [SDV.BV.PEP]Life Sciences [q-bio]/Vegetal Biology/Phytopathology and phytopharmacy, Ascomycota, Polysaccharides, Ulva fasciata, Genetics, Blumeria graminis, Erysiphe, Triticum, Disease Resistance, Plant Diseases, Plant Proteins

Abstract

International audience; Ulvan is a water-soluble sulfated heteropolysaccharide extracted from the cell walls of the green seaweeds Ulva spp. This polysaccharide is known to induce resistance and protect plants against a broad range of plant pathogenic fungi, such as Blumeria graminis f. sp. tritici (Bgt), the causal agent of powdery mildew in wheat. We aimed to study the defense mechanisms induced by ulvan against Bgt in susceptible wheat by investigating the defense-related gene expression, enzymes activity, accumulation of phenolic compounds and hydrogen peroxide (H2O2), as well as the development of Bgt infection structures in vitro and in planta. Symptoms were reduced by 42% in ulvan-treated plants. In vitro, ulvan did not inhibit conidial germination of Bgt but in planta, increased the appressorial germ tubes without haustorium. Ulvan increased the presence of fluorescent papillae and accumulation of H2O2 at the penetration sites of Bgt, as well as the content of phenolic compounds. POX, PAL and LOX activities were stimulated in ulvan-treated plants during the first 48 h after inoculation. However, few of defense-related genes studied were differentially expressed in infected plants after ulvan treatment. By contrast, in non-infected conditions, ulvan up-regulated the expression of genes involved in phenylpropanoid metabolism, i.e. PAL, CHS, COMT, ANS and FLS, genes encoding pathogenesis-related proteins, i.e. PR1, PR9, PR15, and LOX during the first 96 h after treatment. This study provides new insights about the multiple ulvan effects on wheat defense responses, and especially the elicitation of the phenylpropanoid pathway leading to phenolic compounds accumulation, which could be involved in cell wall reinforcement.

Published

2022

32. Identification, classification, and evolution of putative xylosyltransferases from algae.

Author

Han, Wentao, Fan, Xiao, Teng, Linhong, Kaczurowski, Michelle Joyce Slade, Zhang, Xiaowen, Xu, Dong, Yin, Yanbin, and Ye, Naihao

Subjects

*RED algae, *GREEN algae, *ALGAE, *CHAROPHYTA, *CRYPTOMONADS, *BROWN algae

Abstract

Xylosyltransferases (XylTs) play key roles in the biosynthesis of many different polysaccharides. These enzymes transfer d-xylose from UDP-xylose to substrate acceptors. In this study, we identified 30 XylTs from primary endosymbionts (green algae, red algae, and glaucophytes) and secondary or higher endosymbionts (brown algae, diatoms, Eustigmatophyceae, Pelagophyceae, and Cryptophyta). We performed comparative phylogenetic studies on key XylT subfamilies, and investigated the functional divergence of genes using RNA-Seq. Of the 30 XylTs, one β-1,4-XylT IRX14-related, one β-1,4 XylT IRX10L-related, and one xyloglucan 6-XylT 1-related gene were identified in the Charophyta, showing strong similarities to their land plant descendants. This implied the ancient occurrence of xylan and xyloglucan biosynthetic machineries in Charophyta. The other 27 XylTs were identified as UDP-d-xylose: l-fucose-α-1,3-d-XylT (FucXylT) type that specifically transferred d-xylose to fucose. We propose that FucXylTs originated from the last eukaryotic common ancestor, rather than being plant specific, because they are also distributed in Choanoflagellatea and Echinodermata. Considering the evidence from many aspects, we hypothesize that the FucXylTs likely participated in fucoidan biosynthesis in brown algae. We provide the first insights into the evolutionary history and functional divergence of FucXylT in algal biology. [ABSTRACT FROM AUTHOR]

Published

2019

33. Seaweed polysaccharides as bio-elicitors of natural defenses in olive trees against verticillium wilt of olive.

Author

Ben Salah, Imane, Aghrouss, Salma, Douira, Allal, Aissam, Salama, El Alaoui-Talibi, Zainab, Filali-Maltouf, Abdelkarim, and El Modafar, Cherkaoui

Subjects

*POLYSACCHARIDES, *ELICITORS (Botany), *OLIVE, *POLYPHENOLS, *VERTICILLIUM dahliae, *VERTICILLIUM

Abstract

Ulvan, carrageenan, alginate and laminarin were tested in olive trees' twigs to elicit phenolic metabolism and control verticillium wilt of olive (VWO) caused by Verticillium dahliae. The elicitation effect was determined through phenylalanine ammonia-lyase activity, total polyphenol content and lignin content. VWO was assessed in twigs previously elicited (24 h) and maintained in a solution containing bio-elicitors (2 g/L) and conidial suspension (106 conidia/mL). Our results showed stimulation of the phenolic metabolism and the decline of wilt symptoms. Ulvan reduced significantly the area under the disease progress curve for severity to 39.9% and the final incidence to 28.9%. Ulvan and alginate produced significant inhibitory rates on mycelial growth of the fungus in vitro. Seaweed polysaccharides might help to overcome VWO by strengthening the host defense metabolism and restricting the pathogen's growth. [ABSTRACT FROM AUTHOR]

Published

2018

34. Anticoagulant activity of extracts of Codium species

Author

Jurd, Karen Margaret

Subjects

572, Algal polysaccharides

Published

1992

35. Progress in Modern Marine Biomaterials Research

Author

Yuliya Khrunyk, Slawomir Lach, Iaroslav Petrenko, and Hermann Ehrlich

Subjects

marine biomaterials, algal polysaccharides, chitin, spongin, collagen, gelatin, Biology (General), QH301-705.5

Abstract

The growing demand for new, sophisticated, multifunctional materials has brought natural structural composites into focus, since they underwent a substantial optimization during long evolutionary selection pressure and adaptation processes. Marine biological materials are the most important sources of both inspiration for biomimetics and of raw materials for practical applications in technology and biomedicine. The use of marine natural products as multifunctional biomaterials is currently undergoing a renaissance in the modern materials science. The diversity of marine biomaterials, their forms and fields of application are highlighted in this review. We will discuss the challenges, solutions, and future directions of modern marine biomaterialogy using a thorough analysis of scientific sources over the past ten years.

Published

2020

36. Macroalgae Derived Fungi Have High Abilities to Degrade Algal Polymers

Author

Aleksandrina Patyshakuliyeva, Daniel L. Falkoski, Ad Wiebenga, Klaas Timmermans, and Ronald P. de Vries

Subjects

seaweed biomass, enzymes, algal polysaccharides, marine fungi, Biology (General), QH301-705.5

Abstract

Marine fungi associated with macroalgae are an ecologically important group that have a strong potential for industrial applications. In this study, twenty-two marine fungi isolated from the brown seaweed Fucus sp. were examined for their abilities to produce algal and plant biomass degrading enzymes. Growth of these isolates on brown and green algal biomass revealed a good growth, but no preference for any specific algae. Based on the analysis of enzymatic activities, macroalgae derived fungi were able to produce algae specific and (hemi-)cellulose degrading enzymes both on algal and plant biomass. However, the production of algae specific activities was lower than the production of cellulases and xylanases. These data revealed the presence of different enzymatic approaches for the degradation of algal biomass by macroalgae derived fungi. In addition, the results of the present study indicate our poor understanding of the enzymes involved in algal biomass degradation and the mechanisms of algal carbon source utilization by marine derived fungi.

Published

2019

37. A Novel Enzyme Portfolio for Red Algal Polysaccharide Degradation in the Marine Bacterium Paraglaciecola hydrolytica S66T Encoded in a Sizeable Polysaccharide Utilization Locus

Author

Mikkel Schultz-Johansen, Pernille K. Bech, Rosanna C. Hennessy, Mikkel A. Glaring, Tristan Barbeyron, Mirjam Czjzek, and Peter Stougaard

Subjects

marine bacteria, carbohydrate-active enzymes, algal polysaccharides, agarase, carrageenase, furcellaran, Microbiology, QR1-502

Abstract

Marine microbes are a rich source of enzymes for the degradation of diverse polysaccharides. Paraglaciecola hydrolytica S66T is a marine bacterium capable of hydrolyzing polysaccharides found in the cell wall of red macroalgae. In this study, we applied an approach combining genomic mining with functional analysis to uncover the potential of this bacterium to produce enzymes for the hydrolysis of complex marine polysaccharides. A special feature of P. hydrolytica S66T is the presence of a large genomic region harboring an array of carbohydrate-active enzymes (CAZymes) notably agarases and carrageenases. Based on a first functional characterization combined with a comparative sequence analysis, we confirmed the enzymatic activities of several enzymes required for red algal polysaccharide degradation by the bacterium. In particular, we report for the first time, the discovery of novel enzyme activities targeting furcellaran, a hybrid carrageenan containing both β-carrageenan and κ/β-carrageenan motifs. Some of these enzymes represent a new subfamily within the CAZy classification. From the combined analyses, we propose models for the complete degradation of agar and κ/β-type carrageenan by P. hydrolytica S66T. The novel enzymes described here may find value in new bio-based industries and advance our understanding of the mechanisms responsible for recycling of red algal polysaccharides in marine ecosystems.

Published

2018

38. Polysaccharide-Degrading Activity in Marine and Terrestrial Strains of Mycelial Fungi.

Author

Balabanova, L. A., Bakunina, I. Yu., Slepchenko, L. V., Kirichuk, N. N., Khudyakova, Yu. V., Son, O. M., Pivkin, M. V., and Rasskazov, V. A.

Subjects

*ALGAL cell walls, *MARINE fungi, *POLYSACCHARIDES, *EXTRACELLULAR enzymes, *CARBOHYDRATE analysis

Abstract

The activity of extracellular polysaccharide-degrading enzymes and glycosidases from mycelial fungi towards various carbohydrates and carbohydrate derivatives from plant and algal cell walls has been screened. Twenty-three strains of mycelial fungi isolated from the marine sediment and dung were grown by submerged cultivation on a plant-based substrate (a by-product of the grain processing industry) for previous screening for their biomass and protein productivity. Molecular identification allowed for the assignment of marine fungal strains to the following species: Sirastachys phyllophila, Ochroconis mirabilis, Pseudallescheria boydii, Pseudallescheria ellipsoidea, Beauveria felina, Scopulariopsis brevicaulis, Cladosporium sp., and Trichoderma sp. The terrestrial strains belonged to the species Thermomyces thermophilus, Thermomyces dupontii, Thermomyces lanuginosus, Fusarium avenaceum, Mycothermus thermophilum, and Thermothelomyces thermophila. Seven strains of thermophilic terrestrial fungal species T. thermophila, T. thermophilus, T. dupontii and M. thermophilus and two marine fungal strains of S. brevicaulis and Beauveria felina exhibited the highest protein yields and a wide range of polysaccharide-degrading activity when the cultures were cultivated at 22-25°C. The cellulolytic thermophilic strain M. thermophilus 55 isolated from dung demonstrated unusual specificity, most intensive increase of mycelial biomass, and high activity towards algal polysaccharides after seven days of cultivation. The specific activity of laminarinase was one order of magnitude higher than in the marine strains and amounted to 1180 U/mg, and the alginate lyase, carrageenase, polymannuronate lyase, agarase, and fucoidanase activity levels (from 208 to 500 U/mg) were also higher than in all marine strains. All active polysaccharide-degrading strains of thermophilic terrestrial and marine fungi identified in the present study are of considerable interest, as the potential of these fungi for polysaccharide degradation can be applied in the transformation of various agricultural and maricultural waste of plant origin and in the modification of carbohydrate-containing substances in structural research and biotechnology. [ABSTRACT FROM AUTHOR]

Published

2018

39. A Novel Enzyme Portfolio for Red Algal Polysaccharide Degradation in the Marine Bacterium Paraglaciecola hydrolytica S66T Encoded in a Sizeable Polysaccharide Utilization Locus.

Author

Schultz-Johansen, Mikkel, Bech, Pernille K., Hennessy, Rosanna C., Glaring, Mikkel A., Barbeyron, Tristan, Czjzek, Mirjam, and Stougaard, Peter

Subjects

MARINE bacteria, POLYSACCHARIDES, AGARASE

Abstract

Marine microbes are a rich source of enzymes for the degradation of diverse polysaccharides. Paraglaciecola hydrolytica S66T is a marine bacterium capable of hydrolyzing polysaccharides found in the cell wall of red macroalgae. In this study, we applied an approach combining genomic mining with functional analysis to uncover the potential of this bacterium to produce enzymes for the hydrolysis of complex marine polysaccharides. A special feature of P. hydrolytica S66T is the presence of a large genomic region harboring an array of carbohydrate-active enzymes (CAZymes) notably agarases and carrageenases. Based on a first functional characterization combined with a comparative sequence analysis, we confirmed the enzymatic activities of several enzymes required for red algal polysaccharide degradation by the bacterium. In particular, we report for the first time, the discovery of novel enzyme activities targeting furcellaran, a hybrid carrageenan containing both b-carrageenan and κ/β-carrageenan motifs. Some of these enzymes represent a new subfamily within the CAZy classification. From the combined analyses, we propose models for the complete degradation of agar and κ/β-type carrageenan by P. hydrolytica S66T. The novel enzymes described here may find value in new bio-based industries and advance our understanding of the mechanisms responsible for recycling of red algal polysaccharides in marine ecosystems. [ABSTRACT FROM AUTHOR]

Published

2018

40. Potential Antibacterial Activity of Marine Macroalgae against Pathogens Relevant for Aquaculture and Human Health.

Author

Rizzo, Carmen, Genovese, Giuseppa, Morabito, Marina, Faggio, Caterina, Pagano, Maria, Spanò, Antonio, Zammuto, Vincenzo, Minicante, Simona Armeli, Manghisi, Antonio, Cigala, Rosalia Maria, Crea, Francesco, Marino, Fabio, and Gugliandolo, Concetta

Subjects

*PATHOGENIC microorganisms, *PATHOGENIC bacteria, *ANTI-infective agents, *ANTIBACTERIAL agents, *COMMUNICABLE diseases

Abstract

The exploitation of macroalgal biomass, as a source of antibacterial drugs, would result into the valuable transformation of waste into an economic resource. Ethanol and water extracts or polysaccharides, from nine DNA-barcoded macroalgae (2 Chlorophyta, 5 Ochrophyta and 2 Rhodophyta) collected from Italian coastal environments, were screened for antibacterial activity against ten bacterial pathogens with relevance for aquaculture and human health. All extracts have not cytotoxic effects on molluscan digestive gland cells and mammalian red blood cells. As resulted by agar diffusion assays, water extracts showed broader and higher inhibitory activity than ethanol extracts against the tested pathogens. Polysaccharides from Fucus virsoides (Ochrophyta) possessed the strongest inhibitory activity against Aeromonas salmonicida subsp. salmonicida and Photobacterium damselae subsp. damselae, an emergent pathogen for humans. Polysaccharides from Undaria pinnatifida (Ochrophyta) were the most active against V. harveyi, the major pathogen responsible for diseases in aquaculture, and also against a multiresistant, clinical strain of Pseudomonas aeruginosa. Our results suggest that these polysaccharides could represent a novel source of compounds active against bacterial pathogens relevant for eco-sustainable aquaculture and human health. [ABSTRACT FROM AUTHOR]

Published

2017

41. Algal polysaccharide utilisation by saprotrophic planktonic marine fungi.

Author

Cunliffe, Michael, Hollingsworth, Anita, Bain, Cal, Sharma, Vikram, and Taylor, Joe D.

Abstract

The functional roles that marine mycoplankton fulfil are poorly understood, resulting in a lack of knowledge of their ecology. Here we show, using DNA Stable Isotope Probing with 13 C-labelled diatom polysaccharide microgels, that mycoplankton assimilate algal-derived particulate organic carbon (POC), identifying two genera, Malassezia and Cladosporium , which are active saprotrophs in coastal waters. We subsequently isolated polysaccharide-utilising Cladosporium strains from the same ecosystem and that are well-represented in marine mycoplankton assemblages. At the study site, Cladosporium occurs across multiple years and is associated with diatoms. During growth with the polysaccharide laminarin, Cladosporium spp. secrete the extracellular carbohydrate-active enzyme glucan 1,3-β-glucosidase. These results show that some marine mycoplankton have a saprotrophic functional role in processing algal polysaccharides. Mycoplankton may, therefore, be involved in the trophic transfer of phytoplankton produced POC in marine food webs, and because bacterioplankton occupy the same niche, potential interactions maybe taking place that are yet to be characterised. [ABSTRACT FROM AUTHOR]

Published

2017

42. Algal polysaccharide’s potential to combat respiratory infections caused by Klebsiella pneumoniae and Serratia marcescens biofilms

Author

Berness Falcao, Sirisha L. Vavilala, Jyoti Vishwakarma, and Bhumika Waghela

Subjects

Algal polysaccharides, Klebsiella pneumoniae, education, Bioengineering, Microbial Sensitivity Tests, Applied Microbiology and Biotechnology, Biochemistry, Microbiology, Prodigiosin, Minimum inhibitory concentration, chemistry.chemical_compound, fluids and secretions, Chlorophyta, Polysaccharides, Humans, Biofilm eradication, Respiratory Tract Infections, Molecular Biology, Serratia marcescens, biology, Respiratory tract infections, SARS-CoV-2, fungi, Biofilm, COVID-19, Quorum Sensing, General Medicine, equipment and supplies, biology.organism_classification, Anti-Bacterial Agents, COVID-19 Drug Treatment, Biofilm inhibition, Quorum sensing, chemistry, Biofilms, Respiratory tract infections (RTIs), Extra polymeric substance (EPS), Original Article, Quorum sensing interference, Bacteria, Biotechnology

Abstract

The growth of respiratory diseases, as witnessed through the SARS and COVID-19 outbreaks, and antimicrobial-resistance together pose a serious threat to humanity. One reason for antimicrobial resistance is formation of bacterial biofilms. In this study the sulphated polysaccharides from green algae Chlamydomonas reinhardtii (Cr-SPs) is tested for its antibacterial and antibiofilm potential against Klebsiella pneumoniae and Serratia marcescens. Agar cup assay clearly indicated the antibacterial potential of Cr-SPs. Minimum inhibitory concentration (MIC50) of Cr-SPs against Klebsiella pneumoniae was found to be 850 µg/ml, and it is 800 µg/ml in Serratia marcescens. Time-kill and colony-forming ability assays suggest the concentration-dependent bactericidal potential of Cr-SPs. Cr-SPs showed 74–100% decrease in biofilm formation in a concentration-dependent manner by modifying the cell surface hydrophobic properties of these bacteria. Cr-SPs have also distorted preformed-biofilms by their ability to interact and destroy the extra polymeric substance and eDNA of the matured biofilm. Scanning electron microscopy analysis showed that Cr-SPs effectively altered the morphology of these bacterial cells and distorted the bacterial biofilms. Furthermore reduced protease, urease and prodigiosin pigment production suggest that Cr-SPs interferes the quorum sensing mechanism in these bacteria. The current study paves way towards developing Cr-SPs as a control strategy for treatment of respiratory tract infections.

Published

2021

43. Perspective on the Therapeutic Applications of Algal Polysaccharides

Author

Murthy Chavali, Sheetal K. Bhardwaj, Sonal Nigam, Surbhi Sinha, Maria P. Nikolova, Rachana Singh, and Rokkayya Sami

Subjects

Environmental Engineering, Future perspective, Materials science, Polymers and Plastics, Human welfare, Algae, fungi, Extraction, Review, Bioactivity, Research community, Materials Chemistry, Algal polysaccharides, Prospective research, Biochemical engineering, Challenges, Health sector, Polysaccharide, Purification

Abstract

Algae are an enormous source of polysaccharides and have gained much interest in human flourishing as organic drugs. Algal polysaccharides have aroused interest in the health sector owing to the various bioactivities namely anticancer, antiviral, immunoregulation, antidiabetic and antioxidant effects. The research community has comprehensively described the importance of algal polysaccharides regarding their extraction, purification, and potential use in various sectors. However, regardless of all the intriguing properties and potency in the health sector, these algal polysaccharides deserve detailed investigation. Hence, the present review emphasizes extensively on the previous and latest developments in the extraction, purification, structural properties and therapeutic bioactivities of algal polysaccharides to upgrade the knowledge for further advancement in this area of research. Moreover, the review also addresses the challenges, prospective research gaps and future perspective. We believe this review can provide a boost to upgrade the traditional methods of algal polysaccharide production for the development of efficacious drugs that will promote human welfare. Graphic Abstract

Published

2021

44. Algal Polysaccharides and Their Biological Properties

Author

Kit-Leong Cheong, Hong Du, Valentina Jesumani, Bilal Muhammad Khan, and Yang Liu

Subjects

Biochemistry, Chemistry, Biological property, Extraction (chemistry), Algal polysaccharides, Biological activity

Published

2021

45. Algal polysaccharides: Structure, preparation and applications in food packaging.

Author

Thiviya, Punniamoorthy, Gamage, Ashoka, Liyanapathiranage, Anuradhi, Makehelwala, Madhubhashini, Dassanayake, R.S., Manamperi, Asanga, Merah, Othmane, Mani, Sudhargar, Koduru, Janardhan Reddy, and Madhujith, Terrence

Subjects

*FOOD packaging, *POLYSACCHARIDES, *PLASTICS, *CARRAGEENANS, *GALACTANS, *AGAR, *EDIBLE coatings, *BIOPOLYMERS

Abstract

• Summarized recent extraction process for agar & carrageenan, alginates and ulvan. • Summing up the numerous uses for polysaccharides generated from macroalgae. • Summarized the physicochemical and mechanical properties algal polysaccharides. • Reviewed algal polysaccharide potential use in edible, active, and food packaging. Algal polysaccharides have become more popular in the food and packaging industry because of their excellent physicochemical properties. Further, the use of biodegradable, biobased polymers as an alternative renewable source for developing environmentally friendly materials has emerged as a substitute for non-renewable plastic materials. In this regard, algal polysaccharide-based biopolymers are highly studied in the development of novel packaging materials with the improved barrier, mechanical, antioxidant, and antimicrobial properties. In this review, major algal polysaccharides, such as galactans (agar, carrageenan), alginates, and ulvan, are mainly considered and will give information about their structure, properties, and applications in the food packaging industry. [ABSTRACT FROM AUTHOR]

Published

2023

46. Marine Algal Polysaccharides and Their Applications

Author

Irudayaraj Rajendran

Subjects

Food industry, business.industry, Chemistry, Chemical modification, Algal polysaccharides, Food science, business

Published

2020

47. TBAF Effects 3,6-Anhydro Formation from 6-O-Tosyl Pyranosides

Author

Zachary A. Morrison and Mark Nitz

Subjects

chemistry.chemical_classification, 010405 organic chemistry, Organic Chemistry, Glycoside, 010402 general chemistry, Tetrabutylammonium fluoride, 01 natural sciences, Biochemistry, 0104 chemical sciences, 3. Good health, chemistry.chemical_compound, Hydroxylamine, chemistry, Tosyl, Organic chemistry, Algal polysaccharides, Physical and Theoretical Chemistry, Sugar

Abstract

3,6-Anhydro sugars are common structures in algal polysaccharides and occur in the furanodictine and sauropunol natural products. We have found that treatment of 6-O-tosylpyranosides with tetrabutylammonium fluoride provides a mild, high-yielding synthesis of 3,6-anhydro sugars. Using O-glycoside substrates, 3,6-anhydropyranosides are isolated and the use of N,O-dimethyl hydroxylamine glycosides yields 3,6-anhydrofuranosides. Applying this approach, concise synthetic routes to several 3,6-anhydro sugar natural products are reported, including furanodictine A and sauropunols A-D.

Published

2020

48. Algal-based polysaccharides as polymer electrolytes in modern electrochemical energy conversion and storage systems: A review

Author

Gabriel E. De-la-Torre and Fernando G. Torres

Subjects

chemistry.chemical_classification, Supercapacitor, Materials science, Biopolymer, Polymer electrolytes, fungi, Alginate, General Medicine, Electrolyte, QD415-436, Electrochemistry, Polysaccharide, Carrageenan, Seaweed, Electrochemical energy conversion, Biochemistry, Solid electrolyte, Chemical engineering, chemistry, Agarose, Algal polysaccharides, Ionic conductivity

Abstract

In the last decade, the development of high-efficiency electrolytes based on polymeric materials has drawn increasing attention. Polysaccharides are widespread biopolymers with properties suitable for the fabrication of high-efficiency polymer electrolytes. In specific, algal-based polysaccharides are promising eco-friendly and biodegradable alternatives to conventional polymer electrolytes. This review focuses on the recent progress of polymer electrolytes based on algal polysaccharides. We set the basic consideration for high-performance polymer electrolytes and discuss the materials science aspects of algal-based polysaccharides involved. Then, we review the recent progress of algal polysaccharides-based electrolytes, including the various physical and chemical treatments applied for the enhancement of ionic conductivity and mechanical properties. Lastly, we summarize the applications of the algal polymer electrolytes in batteries, fuel cells, supercapacitors, and dye-sensitized solar cells and their performance. Algal polysaccharides are presented as biodegradable, cost-efficient, high-performance, and eco-friendly alternatives for the development of high-performance solid polymer electrolytes for modern electrochemical applications.

Published

2021

49. Natural polysaccharides: Chemical properties and application in pharmaceutical formulations.

Author

Tudu, Mousumi and Samanta, Amalesh

Subjects

*CHEMICAL properties, *MICROBIAL polysaccharides, *FOOD packaging, *CHEMICAL structure

Abstract

[Display omitted] Natural polysaccharides have an important role in pharmaceutical industries and are considered a huge source and importance. Polysaccharides are biopolymers characterized by complex secondary structures performing several roles in plants, animals, and different other microorganisms. As it has versatility such as hydrophilicity, good stability, safety, lack of toxicity, and biodegradability in nature, some of them are extensively used for food packaging, pharmaceutical formulations, and various kind of sustainable and renewable goods in biomedical industries. In this context, we focused on natural polysaccharides from different sources such as plants, animals, algae, and microbes. Here, we concentrate on the chemical structures along with their commercial importance in the pharmaceutical industry. Moreover, a summary of the formulations and their applications in different natural polysaccharides has been highlighted in this review. Therefore, this study might be helpful for the development of not only different pharmaceutical formulations but also advantageous in food and biomedical industries in the future. [ABSTRACT FROM AUTHOR]

Published

2023

50. Hyaluronidase-inhibiting Polysaccharide from Caulerpa lentillifera .

Author

Awanthi MGG, Nagamoto S, Oku H, Kitahara K, and Konishi T

Abstract

Algal sulfated polysaccharides are known to be effective hyaluronidase inhibitors. We evaluated hyaluronidase inhibitory activity of sulfated polysaccharide (SP) from Caulerpa lentillifera. Results showed that SP with IC 50 of 163 µg/mL appears to allosterically inhibit the hyaluronidase activity. Main sugar composition and sulfate content of SP was estimated to be Gal, Glc, Xyl, Man, uronic acids, and sulfate in the weight percent of 27.7: 28.9: 14.6: 22.5: 3.4: 21.7. We modified the SP by desulfation and partial hydrolysis with trifluoroacetic acid (TFA) to investigate the effect of sulfate content and molecular weight on inhibition. Hyaluronidase inhibitory activity of desulfated SP, 0.1 M TFA-hydrolyzed SP and 0.5 M TFA-hydrolyzed SP were significantly lower than that of native SP, revealing that sulfate content or molecular weight is important for hyaluronidase inhibition., Competing Interests: The authors declare no conflicts of interest, (2023 by The Japanese Society of Applied Glycoscience.)

Published

2023