Recent Advances in Enzyme Immobilisation Strategies: An Overview of Techniques and Composite Carriers

Mohidem, Nur Atikah; Mohamad, Mardawani; Rashid, Muhammad Usman; Norizan, Mohd Nurazzi; Hamzah, Fazlena; Mat, Hanapi bin

doi:10.3390/jcs7120488

Cited by 24 publications

(10 citation statements)

References 196 publications

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“… No Hexachlorocyclohexane (HCH) [ 1 , 26 ] Esd (serine hydrolase) Myobacterium sp. Flavin and NADH Endosulfan [ 1 , 12 , 43 ] Ese (monooxygenase) Arthrobacter sp. Flavin (FMN) Endosulfan; Endosulfan sulphate [ 1 , 12 , 43 ] CotA (laccase) Bacillus subtilis No Endosulfan [ 43 ] Organophosphate (OP) pesticides OpdA (organophosphate hydrolase) Agrobacterium radiobacter; Pseudomonas diminuta; Flavobacterium Fe 2+ and Zn 2+ Phosphotriester insecticides [ 1 ] PTE (phosphotriesterase) Pseudomonas diminuta ; Sulfolobus solfataricus; Deinococcus radiodurans Zn 2+ Paraoxon [ 15 , 17 ] SsoPox (phosphotriesterase-like lactonases) Sulfolobus solfataricus Zn 2+ Paraoxon [ 15 ] OPAA (prolidases) Alteromonas sp.…”

Section: Enzymatic Biodegradation Of Different Targeted Pesticidesmentioning

confidence: 99%

“…The degradation process via Lin pathway was extensively studied [ 10 , 42 , 43 ]. Figure 8 demonstrates the degradation pathway.…”

Section: Enzymatic Biodegradation Of Different Targeted Pesticidesmentioning

confidence: 99%

“…In the case of lindane, the degradation initiated by two LinA from UT26 that catalyzed dehydrochlorinations, producing 1,4-TCDN (1,3,4,6-tetrachloro-1,4-cyclohexadiene) via gamma-PCCH (pentachlorocyclohexene) which is the metabolic intermediates. Then, two LinB catalyzed hydrolytic dechlorination, producing 2,5-DDOL (2,5-dichloro-2,5-cyclohexadiene-1,4-diol) via 2,4,5-DNOL (2,4,5-trichloro2,5-cyclohexadiene-1-ol) [ 10 , 42 , 43 ].

Fig.…”

Section: Enzymatic Biodegradation Of Different Targeted Pesticidesmentioning

confidence: 99%

“…For delta-HCH, two types of dichlorination mechanisms observed. One is the dehydrochlorination of delta-HCH to delta-PCCH by LinA from UT26, while another one is the hydrolytic dichlorination of delta-HCH to tetrachlorocyclohexanediol via PCHL by LinB from B90A [ 10 , 42 , 43 ].…”

Section: Enzymatic Biodegradation Of Different Targeted Pesticidesmentioning

confidence: 99%

“…The biodegradability of endosulfan and its metabolites by enzymes from the family of two-component flavin diffusible monooxygenase (TC-FDM) has been studied in the literature [ 43 , 46 , 48 ]. Ese and Esd are the two members of the TC-FDM family which derived from endosulfan-exposed soil bacteria, capable of degrading the endosulfan and endosulfan sulfate [ 46 ].…”

Section: Enzymatic Biodegradation Of Different Targeted Pesticidesmentioning

confidence: 99%

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The function of microbial enzymes in breaking down soil contaminated with pesticides: a review

Chia,

Hadibarata,

Kristanti

et al. 2024

Bioprocess Biosyst Eng

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The use of pesticides and the subsequent accumulation of residues in the soil has become a worldwide problem. Organochlorine (OC) pesticides have spread widely in the environment and caused contamination from past agricultural activities. This article reviews the bioremediation of pesticide compounds in soil using microbial enzymes, including the enzymatic degradation pathway and the recent development of enzyme-mediated bioremediation. Enzyme-mediated bioremediation is divided into phase I and phase II, where the former increases the solubility of pesticide compounds through oxidation–reduction and hydrolysis reactions, while the latter transforms toxic pollutants into less toxic or nontoxic products through conjugation reactions. The identified enzymes that can degrade OC insecticides include dehalogenases, phenol hydroxylase, and laccases. Recent developments to improve enzyme-mediated bioremediation include immobilization, encapsulation, and protein engineering, which ensure its stability, recyclability, handling and storage, and better control of the reaction.

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Section: Enzymatic Biodegradation Of Different Targeted Pesticidesmentioning

confidence: 99%

“…The degradation process via Lin pathway was extensively studied [ 10 , 42 , 43 ]. Figure 8 demonstrates the degradation pathway.…”

Section: Enzymatic Biodegradation Of Different Targeted Pesticidesmentioning

confidence: 99%

Fig.…”

Section: Enzymatic Biodegradation Of Different Targeted Pesticidesmentioning

confidence: 99%

Section: Enzymatic Biodegradation Of Different Targeted Pesticidesmentioning

confidence: 99%

Section: Enzymatic Biodegradation Of Different Targeted Pesticidesmentioning

confidence: 99%

See 3 more Smart Citations

The function of microbial enzymes in breaking down soil contaminated with pesticides: a review

Chia,

Hadibarata,

Kristanti

et al. 2024

Bioprocess Biosyst Eng

View full text Add to dashboard Cite

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Advances and Challenges in the Development of Immobilized Enzymes for Batch and Flow Biocatalyzed Processes

Patti,

Magrini Alunno,

Pedroni

et al. 2024

ChemSusChem

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The development of immobilized enzymes both for batch and continuous flow biocatalytic processes has gained significant traction in recent years, driven by the need for cost‐effective and sustainable production methods in the fine chemicals and pharmaceutical industries. Enzyme immobilization not only enables the recycling of biocatalysts but also streamlines downstream processing, significantly reducing the cost and environmental impact of biotransformations. This review explores recent advancements in enzyme immobilization techniques, covering both carrier‐free methods, entrapment strategies and support‐based approaches. At this regard, the selection of suitable materials for enzyme immobilization is examined, highlighting the advantages and challenges associated with inorganic, natural, and synthetic organic carriers. Novel opportunities coming from innovative binding strategies, such as genetic fusion technologies, for the preparation of heterogeneous biocatalysts with enhanced activity and stability will be discussed as well. This review underscores the need for ongoing research to address current limitations and optimize immobilization strategies for industrial applications.

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Optimization of Enzymatic Transesterification of Acid Oil for Biodiesel Production Using a Low-Cost Lipase: The Effect of Transesterification Conditions and the Synergy of Lipases with Different Regioselectivity

Moschona,

Spanou,

Pavlidis

et al. 2024

Appl Biochem Biotechnol

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This study describes the enzymatic production of second-generation biodiesel using low-quality acid oil as a substrate. Biolipasa-R, a commercially available and low-cost lipase, was employed for enzymatic transesterification. Response surface methodology was applied to optimize the enzymatic transesterification process. The optimal conditions for biodiesel production, which comprised 42% lipase concentration (per weight of oil), 32% water content (per weight of oil), a methanol to oil molar ratio of 3:1, pH 7.0 and reaction temperature 30°C, resulted in the highest fatty acid methyl ester (FAME) content (71.3%). Subsequently, the synergistic effect of two lipases with different regioselectivities under the optimum transesterification conditions was studied, aiming at the enhancement of process efficiency. The transesterification efficiency of immobilized Biolipasa-R was determined and compared to that of Biolipasa-R in its free form. The results revealed a good performance on FAME content (66.5%), while the recycling of immobilized lipase resulted in a decrease in transesterification efficiency after three consecutive uses.

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Recent Advances in Enzyme Immobilisation Strategies: An Overview of Techniques and Composite Carriers

Cited by 24 publications

References 196 publications

The function of microbial enzymes in breaking down soil contaminated with pesticides: a review

The function of microbial enzymes in breaking down soil contaminated with pesticides: a review

Advances and Challenges in the Development of Immobilized Enzymes for Batch and Flow Biocatalyzed Processes

Optimization of Enzymatic Transesterification of Acid Oil for Biodiesel Production Using a Low-Cost Lipase: The Effect of Transesterification Conditions and the Synergy of Lipases with Different Regioselectivity

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