Remoción del compuesto heterocíclico carbazol usando inmovilización celular de thalassospira profundimaris cepa m02

I. M. Maliki; N. H. Abdul-Manas; S. A. Ahmad; H. Fuse; N. Ramírez-Moreno; A. Zulkhamain

doi:10.24275/rmiq/Bio1808

Remoción del compuesto heterocíclico carbazol usando inmovilización celular de thalassospira profundimaris cepa m02

Translated title of the contribution: Removal of heterocyclic compound carbazole using cell immobilization of thalassospira profundvmaris strain m02

I. M. Maliki, N. H. Abdul-Manas, S. A. Ahmad, H. Fuse, N. Ramírez-Moreno, A. Zulkhamain

Research output: Contribution to journal › Article › peer-review

3 Citations (Scopus)

Abstract

Cell immobilization offers promising potential to maximize microbial biodegradation activity and overcome limitations involved in bioremediation. Thalassospira profundimaris strain M02 was used to determine the effectiveness of cell immobilization for carbazole biodegradation. Effects of different matrices, effective diffusivity, mechanical strength, matrix concentration, cell mass load and reusability were investigated in this study. Results revealed that calcium alginate (Ca-Al) was better compared to gellan gum as higher carbazole biodegradation rate was observed. Diffusion analysis and mechanical strength analyses also revealed that Ca-Al possessed superior characteristics as immobilization matrix for carbazole biodegradation compared to gellan gum. Ca-Al works best at 4% (w/v) with 1.25 g of cell mass loading. In addition, immobilized strain M02 retained carbazole biodegradation activity after 6 cycles of usage.

Translated title of the contribution	Removal of heterocyclic compound carbazole using cell immobilization of thalassospira profundvmaris strain m02
Original language	Spanish
Pages (from-to)	413-422
Number of pages	10
Journal	Revista Mexicana de Ingeniera Quimica
Volume	20
Issue number	1
DOIs	https://doi.org/10.24275/rmiq/Bio1808
Publication status	Published - 2021

Keywords

Bioremediation
Calcium alginate
Carbazole
Cell immobilization
Gellan gum

ASJC Scopus subject areas

Chemical Engineering(all)

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10.24275/rmiq/Bio1808

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title = "Remoci{\'o}n del compuesto heteroc{\'i}clico carbazol usando inmovilizaci{\'o}n celular de thalassospira profundimaris cepa m02",

abstract = "Cell immobilization offers promising potential to maximize microbial biodegradation activity and overcome limitations involved in bioremediation. Thalassospira profundimaris strain M02 was used to determine the effectiveness of cell immobilization for carbazole biodegradation. Effects of different matrices, effective diffusivity, mechanical strength, matrix concentration, cell mass load and reusability were investigated in this study. Results revealed that calcium alginate (Ca-Al) was better compared to gellan gum as higher carbazole biodegradation rate was observed. Diffusion analysis and mechanical strength analyses also revealed that Ca-Al possessed superior characteristics as immobilization matrix for carbazole biodegradation compared to gellan gum. Ca-Al works best at 4% (w/v) with 1.25 g of cell mass loading. In addition, immobilized strain M02 retained carbazole biodegradation activity after 6 cycles of usage.",

keywords = "Bioremediation, Calcium alginate, Carbazole, Cell immobilization, Gellan gum",

author = "Maliki, {I. M.} and Abdul-Manas, {N. H.} and Ahmad, {S. A.} and H. Fuse and N. Ram{\'i}rez-Moreno and A. Zulkhamain",

year = "2021",

doi = "10.24275/rmiq/Bio1808",

language = "Spanish",

volume = "20",

pages = "413--422",

journal = "Revista Mexicana de Ingeniera Quimica",

issn = "1665-2738",

publisher = "Universidad Autonoma Metropolitana-Iztapalapa",

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T1 - Remoción del compuesto heterocíclico carbazol usando inmovilización celular de thalassospira profundimaris cepa m02

AU - Maliki, I. M.

AU - Abdul-Manas, N. H.

AU - Ahmad, S. A.

AU - Fuse, H.

AU - Ramírez-Moreno, N.

AU - Zulkhamain, A.

PY - 2021

Y1 - 2021

N2 - Cell immobilization offers promising potential to maximize microbial biodegradation activity and overcome limitations involved in bioremediation. Thalassospira profundimaris strain M02 was used to determine the effectiveness of cell immobilization for carbazole biodegradation. Effects of different matrices, effective diffusivity, mechanical strength, matrix concentration, cell mass load and reusability were investigated in this study. Results revealed that calcium alginate (Ca-Al) was better compared to gellan gum as higher carbazole biodegradation rate was observed. Diffusion analysis and mechanical strength analyses also revealed that Ca-Al possessed superior characteristics as immobilization matrix for carbazole biodegradation compared to gellan gum. Ca-Al works best at 4% (w/v) with 1.25 g of cell mass loading. In addition, immobilized strain M02 retained carbazole biodegradation activity after 6 cycles of usage.

AB - Cell immobilization offers promising potential to maximize microbial biodegradation activity and overcome limitations involved in bioremediation. Thalassospira profundimaris strain M02 was used to determine the effectiveness of cell immobilization for carbazole biodegradation. Effects of different matrices, effective diffusivity, mechanical strength, matrix concentration, cell mass load and reusability were investigated in this study. Results revealed that calcium alginate (Ca-Al) was better compared to gellan gum as higher carbazole biodegradation rate was observed. Diffusion analysis and mechanical strength analyses also revealed that Ca-Al possessed superior characteristics as immobilization matrix for carbazole biodegradation compared to gellan gum. Ca-Al works best at 4% (w/v) with 1.25 g of cell mass loading. In addition, immobilized strain M02 retained carbazole biodegradation activity after 6 cycles of usage.

KW - Bioremediation

KW - Calcium alginate

KW - Carbazole

KW - Cell immobilization

KW - Gellan gum

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Remoción del compuesto heterocíclico carbazol usando inmovilización celular de thalassospira profundimaris cepa m02

Abstract

Keywords

ASJC Scopus subject areas

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