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Promising substitute of inconsistent algal alginates: exploring the biocompatible properties of di-O-acetylated, poly-L-guluronate-deficient alginate from soil bacterium Pseudomonas aeruginosa CMG1418

The structural inconsistencies in commercial algal alginates have limited their reliability and quality for various applications. Therefore, the biosynthesis of structurally consistent alginates is crucial to replace the algal alginates. Thus, this study aimed to investigate the structural and algin...

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Autores principales: Muhammadi, Shafiq, Shabina, Rizvi, Zarrin F.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Termedia Publishing House 2023
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10323745/
https://www.ncbi.nlm.nih.gov/pubmed/37427033
http://dx.doi.org/10.5114/bta.2023.127204
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author Muhammadi
Shafiq, Shabina
Rizvi, Zarrin F.
author_facet Muhammadi
Shafiq, Shabina
Rizvi, Zarrin F.
author_sort Muhammadi
collection PubMed
description The structural inconsistencies in commercial algal alginates have limited their reliability and quality for various applications. Therefore, the biosynthesis of structurally consistent alginates is crucial to replace the algal alginates. Thus, this study aimed to investigate the structural and alginate's structural and functional properties of Pseudomonas aeruginosa CMG1418 as a substitute. To achieve this, the CMG1418 alginates were physiochemically characterized using various techniques such as transmission electron microscopy, Fourier-transform infrared (1)H-NMR, (13)C-NMR, and gel permeation chromatography. The synthesized CMG1418 alginate was then subjected to standard tests to evaluate its biocompatibility, emulsification, hydrophilic, flocculation, gelling, and rheological properties. The analytical studies revealed that CMG1418 alginate is an extracellular and polydisperse polymer with a molecular weight range of 20 000–250 000 Da. It comprises 76% poly-(1–4)-β-D-mannuronic acid (M-blocks), no poly-α-L-guluronate (G-blocks), 12% alternating sequences of β-D-mannuronic acid and α-L-guluronic acid (poly-MG/GM-blocks), 12% MGM-blocks, 172 degrees of polymerization, and di-O-acetylation of M-residues. Interestingly, CMG1418 alginate did not show any cytotoxic or antimetabolic activity. Moreover, compared to algal alginates, CMG1418 alginate exhibited higher and more stable flocculation efficiencies (70–90%) and viscosities (4500–4760 cP) over a wide range of pH and temperatures. Additionally, it displayed soft to flexible gelling abilities and higher water-holding capacities (375%). It also showed thermodynamically more stable emulsifying activities (99–100%) that surpassed the algal alginates and commercial emulsifying agents. However, only divalent and multivalent cations could slightly increase viscosity, gelling, and flocculation. In conclusion, this study explored a structurally di-O-acetylated and poly-G-blocks-deficient, biocompatible alginate, and its pH and thermostable functional properties. This research suggests that CMG1418 alginate is a superior and more reliable substitute for algal alginates in various applications, such as viscosifying, soft gelling, flocculating, emulsifying, and water-holding.
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spelling pubmed-103237452023-07-07 Promising substitute of inconsistent algal alginates: exploring the biocompatible properties of di-O-acetylated, poly-L-guluronate-deficient alginate from soil bacterium Pseudomonas aeruginosa CMG1418 Muhammadi Shafiq, Shabina Rizvi, Zarrin F. BioTechnologia (Pozn) Research Papers The structural inconsistencies in commercial algal alginates have limited their reliability and quality for various applications. Therefore, the biosynthesis of structurally consistent alginates is crucial to replace the algal alginates. Thus, this study aimed to investigate the structural and alginate's structural and functional properties of Pseudomonas aeruginosa CMG1418 as a substitute. To achieve this, the CMG1418 alginates were physiochemically characterized using various techniques such as transmission electron microscopy, Fourier-transform infrared (1)H-NMR, (13)C-NMR, and gel permeation chromatography. The synthesized CMG1418 alginate was then subjected to standard tests to evaluate its biocompatibility, emulsification, hydrophilic, flocculation, gelling, and rheological properties. The analytical studies revealed that CMG1418 alginate is an extracellular and polydisperse polymer with a molecular weight range of 20 000–250 000 Da. It comprises 76% poly-(1–4)-β-D-mannuronic acid (M-blocks), no poly-α-L-guluronate (G-blocks), 12% alternating sequences of β-D-mannuronic acid and α-L-guluronic acid (poly-MG/GM-blocks), 12% MGM-blocks, 172 degrees of polymerization, and di-O-acetylation of M-residues. Interestingly, CMG1418 alginate did not show any cytotoxic or antimetabolic activity. Moreover, compared to algal alginates, CMG1418 alginate exhibited higher and more stable flocculation efficiencies (70–90%) and viscosities (4500–4760 cP) over a wide range of pH and temperatures. Additionally, it displayed soft to flexible gelling abilities and higher water-holding capacities (375%). It also showed thermodynamically more stable emulsifying activities (99–100%) that surpassed the algal alginates and commercial emulsifying agents. However, only divalent and multivalent cations could slightly increase viscosity, gelling, and flocculation. In conclusion, this study explored a structurally di-O-acetylated and poly-G-blocks-deficient, biocompatible alginate, and its pH and thermostable functional properties. This research suggests that CMG1418 alginate is a superior and more reliable substitute for algal alginates in various applications, such as viscosifying, soft gelling, flocculating, emulsifying, and water-holding. Termedia Publishing House 2023-06-26 /pmc/articles/PMC10323745/ /pubmed/37427033 http://dx.doi.org/10.5114/bta.2023.127204 Text en © 2023 Institute of Bioorganic Chemistry, Polish Academy of Sciences https://creativecommons.org/licenses/by-nc-nd/3.0/This is an Open Access article distributed under the terms of the Creative Commons Attribution-NonCommercial-NoDerivs (CC BY-NC-ND), allowing third parties to download and share its works but not commercially purposes or to create derivative works.
spellingShingle Research Papers
Muhammadi
Shafiq, Shabina
Rizvi, Zarrin F.
Promising substitute of inconsistent algal alginates: exploring the biocompatible properties of di-O-acetylated, poly-L-guluronate-deficient alginate from soil bacterium Pseudomonas aeruginosa CMG1418
title Promising substitute of inconsistent algal alginates: exploring the biocompatible properties of di-O-acetylated, poly-L-guluronate-deficient alginate from soil bacterium Pseudomonas aeruginosa CMG1418
title_full Promising substitute of inconsistent algal alginates: exploring the biocompatible properties of di-O-acetylated, poly-L-guluronate-deficient alginate from soil bacterium Pseudomonas aeruginosa CMG1418
title_fullStr Promising substitute of inconsistent algal alginates: exploring the biocompatible properties of di-O-acetylated, poly-L-guluronate-deficient alginate from soil bacterium Pseudomonas aeruginosa CMG1418
title_full_unstemmed Promising substitute of inconsistent algal alginates: exploring the biocompatible properties of di-O-acetylated, poly-L-guluronate-deficient alginate from soil bacterium Pseudomonas aeruginosa CMG1418
title_short Promising substitute of inconsistent algal alginates: exploring the biocompatible properties of di-O-acetylated, poly-L-guluronate-deficient alginate from soil bacterium Pseudomonas aeruginosa CMG1418
title_sort promising substitute of inconsistent algal alginates: exploring the biocompatible properties of di-o-acetylated, poly-l-guluronate-deficient alginate from soil bacterium pseudomonas aeruginosa cmg1418
topic Research Papers
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10323745/
https://www.ncbi.nlm.nih.gov/pubmed/37427033
http://dx.doi.org/10.5114/bta.2023.127204
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