Electron Transfer Mechanisms in Enzyme-Electrode Interfaces: A Comprehensive Systematic Review

https://doi.org/10.24036/sainstek/vol3-iss01/33

Penulis

  • Ahmad Zikri Department of Mechanical Engineering, Faculty of Engineering, Bursa Uludag University, Bursa 16850, Türkiye
  • Luthfiyah W.R Department of Chemistry, Faculty of Mathematics and Natural Sciences, Universitas Negeri Padang

Kata Kunci:

Microbial Electrochemical Systems, Electron Transfer Mechanisms, Direc Electron Transfer, Mediated Electron Transfer, Enzyme-Electrode Interfaces

Abstrak

In the realm of microbial electrochemical systems (MESs), understanding the electron transfer mechanisms between bacteria and solid electrodes is pivotal for harnessing their potential in various applications. This systematic review delves into the intricate interplay of direct and mediated electron transfer processes at enzyme-electrode interfaces. We explore the fundamental principles governing direct electron transfer (DET) and mediated electron transfer (MET) mechanisms, elucidating their distinct advantages and limitations. The review highlights how DET capitalizes on nanowires and outer membrane cytochromes for efficient electron exchange, while MET relies on redox-active mediators as intermediaries. A comprehensive analysis of enzymatic reactions and substrate oxidations underpins the roles of DET and MET, shedding light on their applicability in microbial fuel cells, biosensors, and bioremediation strategies. Furthermore, we scrutinize factors influencing electron transfer efficiency, such as electrode surface modifications, enzyme immobilization techniques, and mediator selection. By critically evaluating recent advancements and challenges, this review offers insights into enhancing MES performance, informing the design of bioelectrochemical systems that bridge biological and electrochemical domains. Ultimately, this synthesis contributes to the refinement of microbial-electrode interfaces, unlocking novel avenues for sustainable bioenergy and environmental technologies.

Referensi

Mohd Yazid, S.N.A., Md Isa, I., Ali, N.M., Hashim, N., Saidin, M.I., Ahmad, M.S., Asiri, A.M., Khan, A., Zainul, R. Graphene/iridium(III) dimer complex composite modified glassy carbon electrode as selective electrochemical sensor for determination of hydroquinone in real-life water samples (2022) International Journal of Environmental Analytical Chemistry, 102 (11), pp. 2607-2624.

Sedenho, G.C., Hassan, A., de Souza, J.C. and Crespilho, F.N., 2022. In situ and operando electrochemistry of redox enzymes. Current Opinion in Electrochemistry, 34, p.101015.

Guo, Y., Hong, X., Chen, Z. and Lv, Y., 2023. Electro-enzyme coupling systems for selective reduction of CO2. Journal of Energy Chemistry.

Onyancha, R.B., Ukhurebor, K.E., Aigbe, U.O., Osibote, O.A., Kusuma, H.S., Darmokoesoemo, H. and Balogun, V.A., 2021. A systematic review on the detection and monitoring of toxic gases using carbon nanotube-based biosensors. Sensing and Bio-Sensing Research, 34, p.100463.

Sharif, S.N.M., Hashim, N., Isa, I.M., Bakar, S.A., Saidin, M.I., Ahmad, M.S., Mamat, M., Hussein, M.Z., Zainul, R. Chitosan as a coating material in enhancing the controlled release behaviour of zinc hydroxide nitrate–sodium dodecylsulphate–bispyribac nanocomposite (2021) Chemical Papers, 75 (2), pp. 611-627.

Dey, B. and Dutta, T., 2022. Laccases: Thriving the domain of bio-electrocatalysis. Bioelectrochemistry, 146, p.108144.

ul Haque, S., Nasar, A., Duteanu, N. and Pandey, S., 2023. Carbon based-nanomaterials used in biofuel cells–A review. Fuel, 331, p.125634.

Lienemann, M., 2021. Molecular mechanisms of electron transfer employed by native proteins and biological-inorganic hybrid systems. Computational and Structural Biotechnology Journal, 19, pp.206-213.

Aiyer, K. and Doyle, L.E., 2022. Capturing the signal of weak electricigens: A worthy endeavour. Trends in Biotechnology, 40(5), pp.564-575.

Oktavia, B., Purnama Sari, M., Comala Sary, R., Lisa, M., Nasra, E., Zainul, R., Efendi, J. Optimization and analysis of some oxinate metal complex system as introduction test for HPLC analysis (2019) Journal of Physics: Conference Series, 1317 (1), art. no. 012024.

Davis, C., Wang, S.X. and Sepunaru, L., 2021. What can electrochemistry tell us about individual enzymes?. Current Opinion in Electrochemistry, 25, p.100643.

Ansari, A.A. and Malhotra, B.D., 2022. Current progress in organic–inorganic hetero-nano-interfaces based electrochemical biosensors for healthcare monitoring. Coordination Chemistry Reviews, 452, p.214282.

Chen, Y., Su, D., Chen, Y., Zhu, Z. and Li, W., 2021. Three-phase interface-assisted advanced electrochemistry-related applications. Cell Reports Physical Science, 2(10).

Zainul, R., Hashim, N., Yazid, S.N.A.M., Sharif, S.N.M., Ahmad, M.S., Saidin, M.I., Suyanta, Sobry, M.M.C., Isa, I.M. Magnesium layered hydroxide-3-(4-methoxyphenyl) propionate modified single-walled carbon nanotubes as sensor for simultaneous determination of Bisphenol A and Uric Acid (2021) International Journal of Electrochemical Science, 16, art. no. 210941, pp. 1-12. C

Feng, Y., Xu, Y., Liu, S., Wu, D., Su, Z., Chen, G., Liu, J. and Li, G., 2022. Recent advances in enzyme immobilization based on novel porous framework materials and its applications in biosensing. Coordination Chemistry Reviews, 459, p.214414.

Bollella, P., 2022. Enzyme-based amperometric biosensors: 60 years later… Quo Vadis?. Analytica Chimica Acta, 1234, p.340517.

Soto, D., Alzate, M., Gallego, J. and Orozco, J., 2021. Hybrid nanomaterial/catalase-modified electrode for hydrogen peroxide sensing. Journal of Electroanalytical Chemistry, 880, p.114826.

Wijaya, K., Pratika, R.A., Nadia, A., Rahmawati, F., Zainul, R., Oh, W.C., Saputri, W.D. Recent Trends and Application of Nanomaterial Based on Carbon Paste Electrodes: A Short Review (2023) Evergreen, 10 (3), pp. 1374-1387.

Cao, C., Chang, Q., Qiao, H., Shao, R., Guo, X., Xiao, G., Shi, W. and Huang, L., 2021. Determination of H+ ion diffusion in Ti3C2-rGO glucose sensor. Sensors and Actuators B: Chemical, 340, p.129943.

Badiani, V.M., Cobb, S.J., Wagner, A., Oliveira, A.R., Zacarias, S., Pereira, I.A. and Reisner, E., 2022. Elucidating film loss and the role of hydrogen bonding of adsorbed redox enzymes by electrochemical quartz crystal microbalance analysis. ACS catalysis, 12(3), pp.1886-1897.

Manimegalai, B., Lyons, M.E. and Rajendran, L., 2021. A kinetic model for amperometric immobilized enzymes at planar, cylindrical and spherical electrodes: The Akbari-Ganji method. Journal of Electroanalytical Chemistry, 880, p.114921.

Azis, N.A., Isa, I.M., Hashim, N., Ahmad, M.S., Mohd Yazid, S.N.A., Saidin, M.I., Si, S.M., Zainul, R., Ulianas, A., Mukdasai, S. Voltammetric determination of bisphenol a in the presence of uric acid using a zn/al-ldh-qm modified MWCNT paste electrode (2019) International Journal of Electrochemical Science, 14 (11), pp. 10607-10621.

Tamarani, A., Zainul, R., Dewata, I. Preparation and characterization of XRD nano Cu-TiO2 using sol-gel method (2019) Journal of Physics: Conference Series, 1185 (1), art. no. 01202

Guven, N., Apetrei, R.M. and Camurlu, P., 2021. Next step in 2nd generation glucose biosensors: Ferrocene-loaded electrospun nanofibers. Materials Science and Engineering: C, 128, p.112270.

Rahmawati, F., Heliani, K.R., Wijayanta, A.T., Zainul, R., Wijaya, K., Miyazaki, T., Miyawaki, J. Alkaline leaching-carbon from sugarcane solid waste for screen-printed carbon electrode (2023) Chemical Papers, 77 (6), pp. 3399-3411.

Sari, T. K., Riga, R. and Zubir, M. (2021) “Pencil Lead Electrode Modified with Gold Thin Layer for Voltammetric Detection of Chromium (VI)”, EKSAKTA: Berkala Ilmiah Bidang MIPA, 22(2), pp. 145-153. doi: 10.24036/eksakta/vol22-iss2/265.

Modak, N. and Friebe, V.M., 2023. Amperometric Biosensors: Harnessing Photosynthetic Reaction Centers for Herbicide Detection. Current Opinion in Electrochemistry, p.101414.

Weliwatte, N.S. and Minteer, S.D., 2021. Photo-bioelectrocatalytic CO2 reduction for a circular energy landscape. Joule, 5(10), pp.2564-2592.

Setianto, S., Abdurrohman, A., Nurhilal, O., Suhendi, N. . and Hidayat, D. (2022) “Performance of Sediment Microbial Fuel Cell (SMFC) System using Carbon Fiber Electrodes”, EKSAKTA: Berkala Ilmiah Bidang MIPA, 23(04), pp. 322-328. doi: 10.24036/eksakta/vol23-iss04/366.

Adachi, T., Mazurenko, I., Mano, N., Kitazumi, Y., Kataoka, K., Kano, K., Sowa, K. and Lojou, E., 2022. Kinetic and thermodynamic analysis of Cu2+-dependent reductive inactivation in direct electron transfer-type bioelectrocatalysis by copper efflux oxidase. Electrochimica Acta, 429, p.140987.

ul Haque, S., Yasir, M. and Cosnier, S., 2022. Recent advancements in the field of flexible/wearable enzyme fuel cells. Biosensors and Bioelectronics, p.114545.

ul Haque, S., Duteanu, N., Ciocan, S. and Nasar, A., 2021. A review: Evolution of enzymatic biofuel cells. Journal of Environmental Management, 298, p.113483.

Azis, N.A., Isa, I.M., Hashim, N., Ahmad, M.S., Yazid, S.N.A.M., Saidin, M.I., Si, S.M., Zainul, R., Ulianas, A., Mawardi, M., Mukdasai, S. Synergistic effect of zinc/aluminium-layered double hydroxide-clopyralid carbon nanotubes paste electrode in the electrochemical response of dopamine, acetaminophen, and bisphenol A (2020) International Journal of Electrochemical Science, 15 (9), pp. 9088-9107.

Kalambate, P.K., Thirabowonkitphithan, P., Kaewarsa, P., Permpoka, K., Radwan, A.B., Shakoor, R.A., Kalambate, R.P., Khosropour, H., Huang, Y. and Laiwattanapaisal, W., 2022. Progress, challenges, and opportunities of two-dimensional layered materials based electrochemical sensors and biosensors. Materials Today Chemistry, 26, p.101235.

Lestari, I., Putri, S. D. E. P., Rahayu, M. A. . and Gusti, D. R. . (2022) “The Adsorption of Mercury from Aqueous Solution on Durian (Durio zibethinus) Seed Immobilized Alginate”, EKSAKTA: Berkala Ilmiah Bidang MIPA, 23(01), pp. 30-41. doi: 10.24036/eksakta/vol23-iss01/305.

(2022) “Automatic Transfer Switch System Design on Solar Cell – Grid Hybrid Based on Android Application”, EKSAKTA: Berkala Ilmiah Bidang MIPA, 23(04), pp. 266-283. doi: 10.24036/eksakta/vol23-iss04/332.

Soto, D., Alzate, M., Gallego, J. and Orozco, J., 2021. Hybrid nanomaterial/catalase-modified electrode for hydrogen peroxide sensing. Journal of Electroanalytical Chemistry, 880, p.114826.

Shabihah, F. and Paramita, R. I. (2023) “Genome-Wide Association Study in Pigmentation as One of Skin Aging Characteristics”, EKSAKTA: Berkala Ilmiah Bidang MIPA, 24(02), pp. 237-248. doi: 10.24036/eksakta/vol24-iss02/412.

Sharif, S.N.M., Hashim, N., Isa, I.M., Bakar, S.A., Saidin, M.I., Ahmad, M.S., Mamat, M., Hussein, M.Z., Zainul, R. The impact of a hygroscopic chitosan coating on the controlled release behaviour of zinc hydroxide nitrate-sodium dodecylsulphate-imidacloprid nanocomposites (2020) New Journal of Chemistry, 44 (21), pp. 9097-9108.

Diterbitkan

2024-06-30

Cara Mengutip

Zikri, A., & Luthfiyah W.R. (2024). Electron Transfer Mechanisms in Enzyme-Electrode Interfaces: A Comprehensive Systematic Review. SAINSTEK International Journal on Applied Science, Advanced Technology and Informatics, 3(01), 1–11. https://doi.org/10.24036/sainstek/vol3-iss01/33