Your search keyword '"Mekuto, L."' showing total 39 results

1. Electrocatalysts: selectivity and utilization

Author

Dyantyi, N., primary, Calderón Gómez, J.C., additional, Mekuto, L., additional, Bujlo, P., additional, and Pattrick, G., additional

Published

2022

2. List of contributors

Author

Afshari, Ebrahim, primary, Araya, Samuel Simon, additional, Atyabi, Seyed Ali, additional, Bharti, Abha, additional, Bujlo, P., additional, Calderón Gómez, J.C., additional, Chhina, H., additional, Delavar, Mojtaba Aghajani, additional, Dharmalingam, Sangeetha, additional, Duncan, K.L., additional, Dyantyi, N., additional, Elumalai, Vijayakumar, additional, Gates, Byron D., additional, Gautam, Sakshi, additional, Heidary, Hadi, additional, Hong, Patrick, additional, Jahantigh, Nabi, additional, Jiao, Kui, additional, Kaur, Gurbinder, additional, Kugarajah, Vaidhegi, additional, Li, Na, additional, Liso, Vincenzo, additional, Mekuto, L., additional, Mir, Rameez Ahmad, additional, Moein Jahromi, Mahbod, additional, Natarajan, Rajalakshmi, additional, Omrani, Reza, additional, Pandey, O.P., additional, Panthalingal, Manoj Kumar, additional, Pattrick, G., additional, Ponnusamy, Pavithra, additional, Pullithadathil, Biji, additional, Rajalakshmi, Natarajan, additional, Ramakrishnan, Sundararajan, additional, Ramya, Krishnan, additional, Schneider-Coppolino, Merissa, additional, Sharma, Piyush, additional, Taylor, A.K., additional, Wang, Junye, additional, Wang, Yun, additional, Wu, Lizhen, additional, Younas, Tanzila, additional, and Zhang, Guobin, additional

Published

2022

3. Performance of various cyanide degrading bacteria on the biodegradation of free cyanide in water

Author

Razanamahandry, L.C., Onwordi, C.T., Saban, W., Bashir, A.K.H., Mekuto, L., Malenga, E., Manikandan, E., Fosso-Kankeu, E., Maaza, M., and Ntwampe, S.K.O

Published

2019

4. Assessing the effectiveness of Hyparrhenia hirta in the rehabilitation of the ecosystem of a gold mine dump

Author

Okereafor G.U, Makhatha M.E, Mekuto L, and Mavumengwana V

Subjects

Environmental sciences, GE1-350

Abstract

The mining of gold is associated with several environmental challenges such as acid mine drainage, release of toxic metals which are associated to tailing sediments and have adversely impacted human health and the ecosystem. With increasing global population that is faced with limited land resources for agricultural activities, there is need for land restoration through effective rehabilitation of contaminated soils. The introduction of Hyparrhenia hirta, an indigenous grass specie as a phytoremediation technique for in situ rehabilitation of degraded soil is not only an economically viable approach but also environmentally friendly. Hyparrhenia hirta being a tufted and wiry perennial grass that is invasive with deep root system often aid in stabilizing the ecosystem owing to their self-fertile and drought resistant potentials that support that prevalence in harsh conditions at mine dump sites. In this study, mine tailings at Gold One Mine, Ekuhurleni, South Africa were assessed for heavy metal contents at the same time analysing the uptake of such heavy metals by Hyparrhenia hirta grass specie. The total metal mean concentrations was high (4023.67 mg/kg) for Hyparrhenia hirta which absorbed more of the following mean metal concentrations: 46.10 mg/kg for Cu; 40.08 mg/kg for Zn; 859.12 mg/kg for Pb; 618.26 mg/kg for Cr; 151.70 mg/kg for Co and 2308.41 mg/kg for Ni. The tailings were strongly acidic with a pH range of 3.86 – 4.34. These heavy metals despite the acidic environments were successfully absorbed by Hyparrhenia hirta grass specie. Along these lines Hyparrhenia hirta was discovered reasonable for re-vegetation of mine tailings dump as it has the capacity to hold together tailings sediments against wind and water erosion.

Published

2020

5. Chapter 3 - Electrocatalysts: selectivity and utilization

Author

Dyantyi, N., Calderón Gómez, J.C., Mekuto, L., Bujlo, P., and Pattrick, G.

Published

2022

6. Performance of various cyanide degrading bacteria on the biodegradation of free cyanide in water

Author

Razanamahandry, L. C., Onwordi, C. T., Saban, W., Bashir, A. K. H., Mekuto, L., Malenga, E., Manikandan, E., Fosso-Kankeu, E., Maaza, M., and Ntwampe, S. K. O.

Abstract

This study reports on the biodegradation of free cyanide (FCN) by cyanide degrading bacteria (CDB) that were isolated from mining wastewater and thiocyanate containing wastewater. The performance of these isolates was compared to cryopreserved CDBs that were used in previous studies. The performance of the isolates to degrade FCN was studied in batch cultures. It was observed that the CDB from the thiocyanate wastewater showed higher biodegradation rates (2.114 g CN−. L−1.O.D600 nm−1.h−1) compared to the isolates from the mining wastewater. The isolates from the cryopreserved CDBs and from the mining wastewater achieved a biodegradation rate of 1.285 g CN− L−1.O.D600 nm−1.h−1 and 1.209 g CN−.L−1.O.D600 nm−1.h−1, respectively. This study demonstrated that the source of the organisms plays a significant role on FCN biodegradation.

Published

2019

7. Assessing the effectiveness of Hyparrhenia hirta in the rehabilitation of the ecosystem of a gold mine dump.

Author

Baltrėnaitė-Gedienė, E., Iticescu, C., Okereafor, G.U, Makhatha, M.E, Mekuto, L, and Mavumengwana, V

Published

2020

8. Isolation of high-salinity-tolerant bacterial strains, Enterobacter sp., Serratia sp., Yersinia sp., for nitrification and aerobic denitrification under cyanogenic conditions

Author

Sko, Ntwampe, Mpongwana, N., Ntwampe, S. K. O., Mekuto, L., Akinpelu, E. A., Ea, Akinpelu, Dyantyi, S., and Mpentshu, Y.

Abstract

Cyanides (CN−) and soluble salts could potentially inhibit biological processes in wastewater treatment plants (WWTPs), such as nitrification and denitrification. Cyanide in wastewater can alter metabolic functions of microbial populations in WWTPs, thus significantly inhibiting nitrifier and denitrifier metabolic processes, rendering the water treatment processes ineffective. In this study, bacterial isolates that are tolerant to high salinity conditions, which are capable of nitrification and aerobic denitrification under cyanogenic conditions, were isolated from a poultry slaughterhouse effluent. Three of the bacterial isolates were found to be able to oxidise NH4-N in the presence of 65.91 mg/L of free cyanide (CN−) under saline conditions, i.e. 4.5% (w/v) NaCl. The isolates I, H and G, were identified as Enterobacter sp., Yersinia sp. and Serratia sp., respectively. Results showed that 81% (I), 71% (G) and 75% (H) of 400 mg/L NH4-N was biodegraded (nitrification) within 72 h, with the rates of biodegradation being suitably described by first order reactions, with rate constants being: 4.19 h−1 (I), 4.21 h−1 (H) and 3.79 h−1 (G), respectively, with correlation coefficients ranging between 0.82 and 0.89. Chemical oxygen demand (COD) removal rates were 38% (I), 42% (H) and 48% (G), over a period of 168 h with COD reduction being highest at near neutral pH.

Published

2016

9. Isolation of high-salinity-tolerant bacterial strains, Enterobacter sp., Serratia sp., Yersinia sp., for nitrification and aerobic denitrification under cyanogenic conditions

Author

Mpongwana, N., primary, Ntwampe, S. K. O., primary, Mekuto, L., primary, Akinpelu, E. A., primary, Dyantyi, S., primary, and Mpentshu, Y., primary

Published

2016

10. Elucidating the effects of nitrogen and phosphorus co-doped carbon on complex spinel NiFe 2 O 4 towards oxygen reduction reaction in alkaline media.

Author

Mbokazi SP, Matthews T, Zheng H, Chabalala MP, Zikhali M, Mugadza K, Gwebu S, Mekuto L, and Maxakato NW

Abstract

The study presents for the first time complex spinel NiFe 2 O 4 nanoparticles supported on nitrogen and phosphorus co-doped carbon nanosheets (NPCNS) prepared using sol gel and the carbonization of graphitic carbon nitride with lecithin as a highly active and durable electrocatalyst for oxygen reduction reaction. The physicochemical properties of complex spinel NiFe 2 O 4 on NPCNS and subsequent nanomaterials were investigated using techniques such as X-ray diffraction, Fourier transform infrared spectroscopy, X-ray photoelectron spectroscopy, and transmission electron microscopy. The electrochemical activity of the electrocatalysts was evaluated using hydrodynamic linear sweep voltammetry, cyclic voltammetry, electrochemical impedance spectroscopy, and chronoamperometry. The electrocatalytic performance of the NiFe 2 O 4 /NPCNS nanohybrid electrocatalyst is dominated by the 4e - transfer mechanism, with an onset potential of 0.92 V vs. RHE, which is closer to that of the Pt/C, and a current density of 7.81 mA/cm 2 that far exceeds that of the Pt/C. The nanohybrid demonstrated the best stability after 14 400 s, outstanding durability after 521 cycles, and the best ability to oxidize methanol and remove CO from its active sites during CO tolerance studies. This improved catalytic activity can be attributed to small nanoparticle sizes of the unique complex spinel nickel ferrite structure, N - Fe/Ni coordination of nanocomposite, high dispersion, substantial ECSA of 47.03 mF/cm 2 , and synergy caused by strong metal-support and electronic coupling interactions., Competing Interests: The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (© 2024 Published by Elsevier Ltd.)

Published

2024

11. Optimization of Chitosan Synthesis Process Parameters to Enhance PES/Chitosan Membrane Performance for the Treatment of Acid Mine Drainage (AMD).

Author

Rasifudi NF, Mekuto L, and Mathaba MJ

Abstract

Acid mine drainage (AMD) is an environmental issue linked with mining activities, causing the release of toxic water from mining areas. Polyethersulphone (PES) membranes are explored for AMD treatment, but their limited hydrophilicity hinders their performance. Chitosan enhances hydrophilicity, addressing this issue. However, the effectiveness depends on chitosan's degree of deacetylation (DD), determined during the deacetylation process for chitosan production. This study optimized the chitin deacetylation temperature, alkaline (NaOH) concentration, and reaction time, yielding the highest chitosan degree of deacetylation (DD) for PES/chitosan membrane applications. Prior research has shown that high DD chitosan enhances membrane antifouling and hydrophilicity, increasing contaminant rejection and permeate flux. Evaluation of the best deacetylation conditions in terms of temperature (80, 100, 120 °C), NaOH concentration (20, 40, 60 wt.%), and time (2, 4, 6 h) was performed. The highest chitosan DD obtained was 87.11% at 80 °C, 40 wt. %NaOH at 4 h of chitin deacetylation. The PES/0.75 chitosan membrane (87.11%DD) showed an increase in surface hydrophilicity (63.62° contact angle) as compared to the pristine PES membrane (72.83° contact angle). This was an indicated improvement in membrane performance. Thus, presumably leading to high contaminant rejection and permeate flux in the AMD treatment context, postulate to literature.

Published

2024

12. Cloning and heterologous expression of Fusarium oxysporum nitrilase gene in Escherichia coli and evaluation in cyanide degradation.

Author

Moosavizadeh A, Motallebi M, Jahromi ZM, and Mekuto L

Subjects

Cloning, Molecular, Recombinant Proteins metabolism, Escherichia coli genetics, Escherichia coli metabolism, Cyanides metabolism, Aminohydrolases, Fusarium

Abstract

Cyanide is widely utilized in the extraction of precious metal extraction even though it has been deemed as the most toxic compound. Fusarium oxysporum has been shown to degrade cyanide through the activity of the Nitrilase enzyme. In this study, the coding sequence of nitrilase gene from F. oxysporum genomic DNA was optimized for cloning and expression in E. coli. The pUC57 containing synthetic optimized nitrilase gene was transferred into E. coli DH5α strain. This nitrilase gene was sub-cloned into pET26b (+) expression vector containing an in-built His-tag at the C-terminal end to facilitate its purification. The recombinant plasmid, pETAM1, was confirmed by PCR, digestion pattern, and sequencing. The recombinant protein was overproduced in E. coli BL21 (DE3). The results of the SDS-PAGE pattern and Western blot analysis confirmed the expression of the expected recombinant protein. For expression optimization of Nitrilase protein, M16 orthogonal experimental design of the Taguchi method was used. The effect of induction time, temperature and IPTG concentration were examined using four levels for each factors. Estimation of the amount of the expressed protein was calculated via densitometry on SDS-PAGE. The enzyme activity and expression in E. coli proved to be successful since there was ammonia production when potassium cyanide and acrylonitrile were used as substrates while the highest enzyme activity of 88% was expressed at 30 °C. The K m and V m values of the expressed Nitrilase enzyme were determined to be 0.68 mM and 0.48 mM/min respectively., Competing Interests: Declaration of Competing Interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2023 The Authors. Published by Elsevier Inc. All rights reserved.)

Published

2024

13. Cyanide Biodegradation by Trichoderma harzianum and Cyanide Hydratase Network Analysis.

Author

Malmir N, Zamani M, Motallebi M, Fard NA, and Mekuto L

Subjects

Biodegradation, Environmental, Hydro-Lyases, Cyanides, Hypocreales metabolism

Abstract

Cyanide is a poisonous and dangerous chemical that binds to metals in metalloenzymes, especially cytochrome C oxidase and, thus, interferes with their functionalities. Different pathways and enzymes are involved during cyanide biodegradation, and cyanide hydratase is one of the enzymes that is involved in such a process. In this study, cyanide resistance and cyanide degradation were studied using 24 fungal strains in order to find the strain with the best capacity for cyanide bioremediation. To confirm the capacity of the tested strains, cyano-bioremediation and the presence of the gene that is responsible for the cyanide detoxification was assessed. From the tested organisms, Trichoderma harzianum ( T. harzianum ) had a significant capability to resist and degrade cyanide at a 15 mM concentration, where it achieved an efficiency of 75% in 7 days. The gene network analysis of enzymes that are involved in cyanide degradation revealed the involvement of cyanide hydratase, dipeptidase, carbon-nitrogen hydrolase-like protein, and ATP adenylyltransferase. This study revealed that T. harzianum was more efficient in degrading cyanide than the other tested fungal organisms, and molecular analysis confirmed the experimental observations.

Published

2022

14. Cyanide Hydratase Modification Using Computational Design and Docking Analysis for Improved Binding Affinity in Cyanide Detoxification.

Author

Malmir N, Fard NA, Mgwatyu Y, and Mekuto L

Subjects

Amino Acid Substitution, Fungal Proteins genetics, Hydro-Lyases genetics, Hypocreales genetics, Mutation, Missense, Cyanides chemistry, Fungal Proteins chemistry, Hydro-Lyases chemistry, Hypocreales enzymology, Molecular Docking Simulation

Abstract

Cyanide is a hazardous and detrimental chemical that causes the inactivation of the respiration system through the inactivation of cytochrome c oxidase. Because of the limitation in the number of cyanide-degrading enzymes, there is a great demand to design and introduce new enzymes with better functionality. This study developed an integrated method of protein-homology-modelling and ligand-docking protein-design approaches that reconstructs a better active site from cyanide hydratase (CHT) structure. Designing a mutant CHT (mCHT) can improve the CHT performance. A computational design procedure that focuses on mutation for constructing a new model of cyanide hydratase with better activity was used. In fact, this study predicted the three-dimensional (3D) structure of CHT for subsequent analysis. Inducing mutation on CHT of Trichoderma harzianum was performed and molecular docking was used to compare protein interaction with cyanide as a ligand in both CHT and mCHT. By combining multiple designed mutations, a significant improvement in docking for CHT was obtained. The results demonstrate computational capabilities for enhancing and accelerating enzyme activity. The result of sequence alignment and homology modeling show that catalytic triad (Cys-Glu-Lys) was conserved in CHT of Trichoderma harzianum . By inducing mutation in CHT structure, MolDock score enhanced from -18.1752 to -23.8575, thus the nucleophilic attack can occur rapidly by adding Cys in the catalytic cavity and the total charge of protein in pH 6.5 is increased from -6.0004 to -5.0004. Also, molecular dynamic simulation shows a stable protein-ligand complex model. These changes would help in the cyanide degradation process by mCHT.

Published

2021

15. Decoding Heavy Metal Stress Signalling in Plants: Towards Improved Food Security and Safety.

Author

Keyster M, Niekerk LA, Basson G, Carelse M, Bakare O, Ludidi N, Klein A, Mekuto L, and Gokul A

Abstract

The mining of heavy metals from the environment leads to an increase in soil pollution, leading to the uptake of heavy metals into plant tissue. The build-up of toxic metals in plant cells often leads to cellular damage and senescence. Therefore, it is of utmost importance to produce plants with improved tolerance to heavy metals for food security, as well as to limit heavy metal uptake for improved food safety purposes. To achieve this goal, our understanding of the signaling mechanisms which regulate toxic heavy metal uptake and tolerance in plants requires extensive improvement. In this review, we summarize recent literature and data on heavy metal toxicity (oral reference doses) and the impact of the metals on food safety and food security. Furthermore, we discuss some of the key events (reception, transduction, and response) in the heavy metal signaling cascades in the cell wall, plasma membrane, and cytoplasm. Our future perspectives provide an outlook of the exciting advances that will shape the plant heavy metal signaling field in the near future.

Published

2020

16. Antibacterial and Anticancer Activity and Untargeted Secondary Metabolite Profiling of Crude Bacterial Endophyte Extracts from Crinum macowanii Baker Leaves.

Author

Sebola TE, Uche-Okereafor NC, Mekuto L, Makatini MM, Green E, and Mavumengwana V

Abstract

This study isolated and identified endophytic bacteria from the leaves of Crinum macowanii and investigated the potential of the bacterial endophyte extracts as antibacterial and anticancer agents and their subsequent secondary metabolites. Ethyl acetate extracts from the endophytes and the leaves (methanol: dichloromethane (1 : 1)) were used for antibacterial activity against selected pathogenic bacterial strains by using the broth microdilution method. The anticancer activity against the U87MG glioblastoma and A549 lung carcinoma cells was determined by the MTS (3-(4,5-dimethylthiazol-2-yl)-5-(3-carboxymethoxy-phenyl)-2-(4-sulfophenyl)-2H-tetrazolium) assay. Bacterial endophytes that were successfully isolated from C. macowanii leaves include Raoultella ornithinolytica , Acinetobacter guillouiae , Pseudomonas sp., Pseudomonas palleroniana , Pseudomonas putida , Bacillus safensis , Enterobacter asburiae , Pseudomonas cichorii , and Arthrobacter pascens . Pseudomonas cichorii exhibited broad antibacterial activity against both Gram-negative and Gram-positive pathogenic bacteria while Arthrobacter pascens displayed the least MIC of 0.0625 mg/mL. Bacillus safensis crude extracts were the only sample that showed notable cell reduction of 50% against A549 lung carcinoma cells at a concentration of 100  μ g/mL. Metabolite profiling of Bacillus safensis , Pseudomonas cichorii , and Arthrobacter pascens crude extracts revealed the presence of known antibacterial and/or anticancer agents such as lycorine (1), angustine (2), crinamidine (3), vasicinol (4), and powelline. It can be concluded that the crude bacterial endophyte extracts obtained from C. macowanii leaves can biosynthesize bioactive compounds and can be bioprospected for medical application into antibacterial and anticancer agents., Competing Interests: The authors declare that they have no conflicts of interest., (Copyright © 2020 Tendani E. Sebola et al.)

Published

2020

17. Toxic Metal Implications on Agricultural Soils, Plants, Animals, Aquatic life and Human Health.

Author

Okereafor U, Makhatha M, Mekuto L, Uche-Okereafor N, Sebola T, and Mavumengwana V

Subjects

Animals, Aquatic Organisms, Ecosystem, Environmental Monitoring, Humans, Mining, Plants, Soil, South Africa, Metals, Heavy toxicity, Soil Pollutants toxicity

Abstract

The problem of environmental pollution is a global concern as it affects the entire ecosystem. There is a cyclic revolution of pollutants from industrial waste or anthropogenic sources into the environment, farmlands, plants, livestock and subsequently humans through the food chain. Most of the toxic metal cases in Africa and other developing nations are a result of industrialization coupled with poor effluent disposal and management. Due to widespread mining activities in South Africa, pollution is a common site with devastating consequences on the health of animals and humans likewise. In recent years, talks on toxic metal pollution had taken center stage in most scientific symposiums as a serious health concern. Very high levels of toxic metals have been reported in most parts of South African soils, plants, animals and water bodies due to pollution. Toxic metals such as Zinc (Zn), Lead (Pb), Aluminium (Al), Cadmium (Cd), Nickel (Ni), Iron (Fe), Manganese (Mn) and Arsenic (As) are major mining effluents from tailings which contaminate both the surface and underground water, soil and food, thus affecting biological function, endocrine systems and growth. Environmental toxicity in livestock is traceable to pesticides, agrochemicals and toxic metals. In this review, concerted efforts were made to condense the information contained in literature regarding toxic metal pollution and its implications in soil, water, plants, animals, marine life and human health., Competing Interests: The authors declare no conflict of interest.

Published

2020

18. Anticancer activity and metabolite profiling data of Penicillium janthinellum KTMT5.

Author

Tapfuma KI, Sebola TE, Uche-Okereafor N, Koopman J, Hussan R, Makatini MM, Mekuto L, and Mavumengwana V

Abstract

Fungi are ubiquitous, they proliferate even in environments with toxic pollutants that are otherwise harmful to other eukaryotes. This article presents data of fungi which were isolated from gold mine tailings and identified by DNA sequencing of their inter transcribed spacer regions 1 and 2. Five fungal isolates were identified, among which the crude extract of Penicillium janthinellum KTMT5 was investigated for anticancer activity on A549 (lung carcinoma) and UMG87 (glioblastoma) cell lines. Untargeted metabolite profiling of the crude extract of P. janthinellum KTMT5 was performed using liquid chromatography quadrupole time of flight tandem mass spectrometry (LC-QTOF-MS/MS) and a molecular network generated using the online workflow on the Global Natural Product Social molecular networking (GNPS) website. DNA sequencing showed that all fungal isolates belonged to phylum Ascomycota with the genus Penicillium representing 75% of the fungal isolates. P. janthinellum KTMT5 which was selected for further experiments showed significant anticancer activity against UMG87 cells with a calculated IC 50 value of 44.23 μg/mL in the MTS assay, while the real time xCELLigence assay showed dose-dependent anticancer activity at 50 and 100 μg/mL. Metabolite profiling revealed the presence of several known metabolites in the crude extract of P. janthinellum KTMT5 and molecular networking showed the relationships among these metabolites., (© 2019 The Author(s).)

Published

2019

19. Evaluating antibacterial and anticancer activity of crude extracts of bacterial endophytes from Crinum macowanii Baker bulbs.

Author

Sebola TE, Uche-Okereafor NC, Tapfuma KI, Mekuto L, Green E, and Mavumengwana V

Subjects

Anti-Bacterial Agents chemistry, Antineoplastic Agents chemistry, Bacteria classification, Bacteria cytology, Bacteria genetics, Cell Line, Tumor, Cell Survival drug effects, Complex Mixtures chemistry, Endophytes cytology, Humans, Phylogeny, Anti-Bacterial Agents pharmacology, Antineoplastic Agents pharmacology, Bacteria chemistry, Complex Mixtures pharmacology, Crinum microbiology, Endophytes chemistry

Abstract

The results from this study revealed that crude extracts isolated from bacterial endophytes obtained from Crinum macowanii bulbs showed activity against both Gram-positive and Gram-negative pathogenic bacteria, while Acinetobacter guillouiae crude extracts displayed anticancer activity. This study aimed to isolate and characterize bacterial endophytes and their crude extracts from C. macowanii bulbs. Endophytes were isolated using validated surface sterilization techniques, followed by phenotypic and genotypic profiles of the isolates. Crude extracts were extracted from the endophytes using ethyl acetate, while methanol:dichloromethane (1:1) was used to obtain crude extracts from the bulbs. Antibacterial activity of crude extract from each endophyte was investigated against selected pathogenic strains using the broth microdilution method, and anticancer activity against U87MG glioblastoma and A549 lung carcinoma cells was determined by the MTS (3-(4,5-dimethylthiazol-2-yl)-5-(3-carboxymethoxy-phenyl)-2-(4-sulfophenyl)-2H-tetrazolium) assay. Acinetobacter guillouiae, Pseudomonas moraviensis, Pseudomonas sp., Rahnella aquatilis, Bacillus cereus, Novosphingobium sp., Raoultella ornithinolytica, and Burkholderia tropica were successfully isolated. The crude extracts from the majority of endophytes showed antibacterial activity, ranging from 0.125 to >16.00 mg/ml against Gram-negative and Gram-positive pathogenic bacteria. Acinetobacter guillouiae extracts showed a high bioactive potential against U87MG glioblastoma cell lines by reducing their growth by 50% at concentrations of 12.5, 6.25, and 3.13 µg/ml. Crude extracts isolated from C. macowanii bulbs showed potential for possible drug lead against common pathogenic bacteria., (© 2019 The Authors. MicrobiologyOpen published by John Wiley & Sons Ltd.)

Published

2019

20. Cytotoxic activity of crude extracts from Datura stramonium's fungal endophytes against A549 lung carcinoma and UMG87 glioblastoma cell lines and LC-QTOF-MS/MS based metabolite profiling.

Author

Tapfuma KI, Uche-Okereafor N, Sebola TE, Hussan R, Mekuto L, Makatini MM, Green E, and Mavumengwana V

Subjects

A549 Cells, Antineoplastic Agents chemistry, Biological Products chemistry, Cell Line, Tumor, Chromatography, Liquid, Endophytes chemistry, Endophytes genetics, Endophytes metabolism, Fungi chemistry, Fungi genetics, Fungi metabolism, Humans, Tandem Mass Spectrometry, Antineoplastic Agents pharmacology, Biological Products pharmacology, Cell Survival drug effects, Datura stramonium microbiology

Abstract

Background: Endophytic fungi are a proven source of bioactive secondary metabolites that may provide lead compounds for novel drug discovery. In this study, crude extracts from fungal endophytes isolated from Datura stramonium were evaluated for cytotoxic activity on two human cancer cell lines., Methods: Fungal endophytes were isolated from surface sterilized aerial parts of D. stramonium and identified using molecular, morphological and phylogenetic methods. Ethyl acetate crude extracts from these isolates were evaluated for cytotoxic activity on A549 lung carcinoma and UMG87 glioblastoma cell lines. Metabolite profiling was then performed by liquid chromatography coupled to quadrupole time-of-flight with tandem mass spectrometry (LC-QTOF-MS/MS) for the cytotoxic crude extract., Results: Eleven fungal endophytes were identified from D. stramonium. Significant cytotoxicity was only observed from the crude extract of Alternaria sp. KTDL7 on UMG87 glioblastoma cells (IC 50  = 21.49 μg/ml). Metabolite profiling of this crude extract tentatively revealed the presence of the following secondary metabolites: 1,8-dihydroxynaphthalene (1), anserinone B (2), phelligridin B (3), metacytofilin (4), phomopsidin (5) and vermixocin A (6). Compounds 2 and 3 have been shown to be cytotoxic in literature., Conclusion: The findings in this study suggest that the crude extract of Alternaria sp. KTDL7 possesses compound(s) cytotoxic to glioblastoma multiforme cells. Future studies to isolate and characterize the cytotoxic compound(s) from this fungus could result in lead development of a fungal-based drug for glioblastoma multiforme treatment.

Published

2019

21. The Use of Candida pyralidae and Pichia kluyveri to Control Spoilage Microorganisms of Raw Fruits Used for Beverage Production.

Author

Mewa-Ngongang M, Plessis HWD, Ntwampe SKO, Chidi BS, Hutchinson UF, Mekuto L, and Jolly NP

Abstract

Undesired fermentation of fruit-derived beverages by fungal, yeast and bacterial spoilage organisms are among the major contributors of product losses in the food industry. As an alternative to chemical preservatives, the use of Candida pyralidae and Pichia kluyveri was assessed for antimicrobial activity against several yeasts ( Dekkera bruxellensis, Dekkera anomala, Zygosaccharomyces bailii ) and fungi ( Botrytis cinerea , Colletotrichum acutatum and Rhizopus stolonifer ) associated with spoilage of fruit and fruit-derived beverages. The antagonistic properties of C. pyralidae and P. kluyveri were evaluated on cheap solidified medium (grape pomace extract) as well as on fruits (grapes and apples). Volatile organic compounds (VOCs) from C. pyralidae and P. kluyveri deemed to have antimicrobial activit y were identified by gas chromatography-mass spectrometry (GC-MS). A cell suspension of C. pyralidae and P. kluyveri showed growth inhibition activity against all spoilage microorganisms studied. Direct contact and extracellular VOCs were two of the mechanisms of inhibition. Twenty-five VOCs belonging to the categories of alcohols, organic acids and esters were identified as potential sources for the biocontrol activity observed in this study. This study reports, for the first time, the ability of C. pyralidae to inhibit fungal growth and also for P. kluyveri to show growth inhibition activity against spoilage organisms ( n = 6) in a single study., Competing Interests: The authors hereby declare that they have no conflict of interest.

Published

2019

22. Dataset on assessment of pollution level of selected trace metals in farming area within the proximity of a gold mine dump, Ekuhurleni, South Africa.

Author

Okereafor U, Makhatha E, Mekuto L, and Mavumengwana V

Abstract

Food security remains an important aspect of human lives and the vital role of soil in the global agricultural and food crops production is obvious. The quality of agricultural products which is being consumed by human through the food chain is dependent on the condition of the soil. Previous gold mining activities resulted in the discharge of tailing materials containing various hazardous trace metals such as manganese (Mn), nickel (Ni), arsenic (As), cadmium (Cd), cobalt (Co), copper (Cu), chromium (Cr), lead (Pb), and zinc (Zn). 20 representative soil samples were collected from the Gold one Mine tailing dump located in Ekuhurleni, Gauteng Province, South Africa and used in describing the prevalence and concentrations of selected trace metals using inductively coupled plasma optical emission spectrometry (ICP-OES). The concentration of identified trace metals in decreasing order is as follows: Cr > Al > As > Fe > Pb > Co > Ni > Ti > Cd > Zn > Cu. Contamination levels of trace metals in the soils were evaluated using various pollution indices such as contamination factor, degree of contamination, geo-accumulation index, pollution load index and the United States Environmental Protection Agency. These evaluations revealed a high degree and the ultra-high degree of contamination classes of soils. Based on the observed concentrations of trace metals and contamination levels, this study strongly support the call for analysis of the nearby stream and drinking water quality, including the staple crops that are cultivated within the vicinity of the dump site, to ascertain the levels of heavy metals within such crops. Stringent mitigation plans or conversion of the tailing dump into value-added products should be considered.

Published

2019

23. Metagenomic profiling dataset of bacterial communities of a drinking water supply system (DWSS) in the arid Namaqualand region, South Africa: Source (lower Orange River) to point-of-use (O'Kiep).

Author

Erdogan IG, Mekuto L, Ntwampe SKO, Fosso-Kankeu E, and Waanders FB

Abstract

The metagenomic data presented herein contains the bacterial community profile of a drinking water supply system (DWSS) supplying O'Kiep, Namaqualand, South Africa. Representative samples from the source (Orange River) to the point of use (O'Kiep), through a 150km DWSS used for drinking water distribution were analysed for bacterial content. PCR amplification of the 16S rRNA V1-V3 regions was undertaken using oligonucleotide primers 27F and 518R subsequent to DNA extraction. The PCR amplicons were processed using the illumina ® reaction kits as per manufactures guidelines and sequenced using the illumina ® MiSeq-2000, by means of MiSeq V3 kit. The data obtained was processed using a bioinformatics QIIME software with a compatible fast nucleic acid (fna) file. The raw sequences were deposited at the National Centre of Biotechnology (NCBI) and the Sequence Read Archive (SRA) database, obtaining accession numbers for each species identified.

Published

2019

24. The LC-QTOF-MS/MS analysis data of detected metabolites from the crude extract of Datura stramonium leaves.

Author

Tapfuma KI, Mekuto L, Makatini MM, and Mavumengwana V

Abstract

This data article presents the untargeted metabolite profiling of a crude extract from the leaves of Datura stramonium . The plant was collected in Johannesburg (South Africa) and the extract was prepared by firstly air-drying fresh D. stramonium leaves for one week, grinding the dry leaves into fine powder, followed by solvent extraction using a 1:1 solvent mixture of dichloromethane and methanol (v/v) to extract the compounds. The extract was concentrated at 65 °C to obtain a solid crude extract which was then stored under refrigeration at -80 °C. Qualitative tandem liquid chromatography quadrupole time of flight mass spectrometry (LC-QTOF-MS/MS) was utilized to identify compounds in the extract. The data processing revealed the presence of 76 known compounds in the crude extract from the leaves. This data article contains the m/z [M + H + ] values, retention times and corresponding database search hit identities of the 76 compounds and the comprehensive list of m/z values detected during the LC-QTOF-MS/MS analysis.

Published

2019

25. A dataset representing the impact of cyanide on the fatty acid profile of Scenedesmus obliquus .

Author

Mekuto L and Musingadi D

Abstract

The data presented represents the biodetoxification of free cyanide (CN - ) by Scenedesmus obliquus and the subsequent fatty acid profile of the tested algal specie. This algal organism can use cyanide as a source of carbon and/or nitrogen for its growth. The organism was able to degrade 100 and 150 mg CN - /L to 3.7 and 12.4 mg CN - /L respectively, after 192 h. The main fatty acids which were detected were fatty acids with C 16 -C 18 and were observed to be 97.7% and 99.55% from cultures with 100 and 150 mg CN - /L respectively. High CN - concentrations proved to be favourable for the accumulation of polyunsaturated fatty acids (≥75%), thus demonstrating the biofuel production capacity of microalgal species in bioremediation of hazardous substances.

Published

2019

26. Propensity of Tagetes erecta L., a Medicinal Plant Commonly Used in Diabetes Management, to Accumulate Perfluoroalkyl Substances.

Author

Mudumbi JBN, Daso AP, Okonkwo OJ, Ntwampe SKO, Matsha TE, Mekuto L, Itoba-Tombo EF, Adetunji AT, and Sibali LL

Abstract

It has been extensively demonstrated that plants accumulate organic substances emanating from various sources, including soil and water. This fact suggests the potentiality of contamination of certain vital bioresources, such as medicinal plants, by persistent contaminants, such as perfluorooctanoic acid (PFOA), perfluorooctane sulfonate (PFOS), and perfluorobutane sulfonate (PFBS). Hence, in this study, the propensity of Tagetes erecta L. (a commonly used medicinal plant) to accumulate PFOA, PFOS, and PFBS was determined using liquid chromatography/tandem mass spectrometry (LC⁻MS/MS-8030). From the results, PFOA, PFOS, and PFBS were detected in all the plant samples and concentration levels were found to be 94.83 ng/g, 5.03 ng/g, and 1.44 ng/g, respectively, with bioconcentration factor (BCF) ranges of 1.30 to 2.57, 13.67 to 72.33, and 0.16 to 0.31, respectively. Little evidence exists on the bioaccumulative susceptibility of medicinal plants to these persistent organic pollutants (POPs). These results suggest that these medicinal plants (in particular, Tagetes erecta L., used for the management of diabetes) are also potential conduits of PFOA, PFOS, and PFBS into humans.

Published

2019

27. Antibacterial Activities of Crude Secondary Metabolite Extracts from Pantoea Species Obtained from the Stem of Solanum mauritianum and Their Effects on Two Cancer Cell Lines.

Author

Uche-Okereafor N, Sebola T, Tapfuma K, Mekuto L, Green E, and Mavumengwana V

Subjects

Anti-Bacterial Agents pharmacology, Cell Line, Endophytes genetics, Escherichia coli genetics, Humans, Microbial Sensitivity Tests, Pantoea classification, Plant Stems microbiology, Plants, Medicinal, Pseudomonas aeruginosa genetics, RNA, Ribosomal, 16S genetics, Solanum microbiology, Staphylococcus aureus drug effects, Pantoea chemistry, Plant Extracts pharmacology, Plant Stems chemistry, Solanum chemistry

Abstract

Endophytes are microorganisms that are perceived as non-pathogenic symbionts found inside plants since they cause no symptoms of disease on the host plant. Soil conditions and geography among other factors contribute to the type(s) of endophytes isolated from plants. Our research interest is the antibacterial activity of secondary metabolite crude extracts from the medicinal plant Solanum mauritianum and its bacterial endophytes. Fresh, healthy stems of S. mauritianum were collected, washed, surface sterilized, macerated in PBS, inoculated in the nutrient agar plates, and incubated for 5 days at 30 °C. Amplification and sequencing of the 16S rRNA gene was applied to identify the isolated bacterial endophytes. These endophytes were then grown in nutrient broth for 7⁻14 days, after which sterilized Amberlite ® XAD7HP 20⁻60 mesh (Merck KGaA, Darmstadt, Germany) resin was added to each culture to adsorb the secondary metabolites, which were later extracted using ethyl acetate. Concentrated crude extracts from each bacterial endophyte were tested for antibacterial activity against 11 pathogenic bacteria and two human cancer cell lines. In this study, a total of three bacterial endophytes of the Pantoea genus were identified from the stem of S. mauritianum . The antibacterial test showed that crude secondary metabolites of the endophytes and stem of S. mauritianum possessed antibacterial properties against pathogenic microbes such as Escherichia coli, Staphylococcus aureus, Klebsiella pneumoniae, and Pseudomonas aeruginosa , with concentrations showing inhibition ranging from 0.0625 to 8.0000 mg/mL. The anticancer analysis showed an increase in cell proliferation when A549 lung carcinoma and UMG87 glioblastoma cell lines were treated with both the plant and endophytes' crude extracts. As far as we know, this is the first study of its kind on Solanum mauritianum in South Africa showing S. mauritianum endophytes having activity against some of the common human pathogenic organisms.

Published

2019

28. Grape Pomace Extracts as Fermentation Medium for the Production of Potential Biopreservation Compounds.

Author

Mewa-Ngongang M, du Plessis HW, Ntwampe SKO, Chidi BS, Hutchinson UF, Mekuto L, and Jolly NP

Abstract

Microbial spoilage causes food losses in the food industry and as such, the use of synthetic chemical preservatives is still required. The current study proposes the use of agro-waste, i.e., grape pomace extracts (GPE), as production medium for biopreservation compounds. Production kinetics, subsequent to optimization using response surface methodology (RSM) for biopreservation compounds production was studied for three yeasts using GPE broth as a fermentation medium. The results showed that the highest volumetric zone of inhibition (VZI) was 1.24 L contaminated solidified media (CSM) per mL biopreservation compounds used (BCU) when Candida pyralidae Y1117 was inoculated in a pH 3-diluted GPE broth (150 g L -1 ) incubated at 25 °C for 24 h. Similar conditions were applied for Pichia kluyveri Y1125 and P. kluyveri Y1164, albeit under slightly elongated fermentation periods (up to 28 h), prior to the attainment of a maximum VZI of only 0.72 and 0.76 L CSM mL -1 ACU, respectively. The potential biopreservation compounds produced were identified to be isoamyl acetate, isoamyl alcohol, 2-phenyl ethylacetate and 2-phenyl ethanol.

Published

2019

29. The role of pollutants in type 2 diabetes mellitus (T2DM) and their prospective impact on phytomedicinal treatment strategies.

Author

Mudumbi JBN, Ntwampe SKO, Mekuto L, Matsha T, and Itoba-Tombo EF

Subjects

Developing Countries statistics & numerical data, Endocrine Disruptors toxicity, Environmental Monitoring, Humans, Prospective Studies, Diabetes Mellitus, Type 2 epidemiology, Environmental Exposure statistics & numerical data, Environmental Pollution statistics & numerical data

Abstract

Type 2 diabetes mellitus (T2DM) is the most common form of diabetes and it is characterized by high blood sugar and abnormal sera lipid levels. Although the specific reasons for the development of these abnormalities are still not well understood, traditionally, genetic and lifestyle behavior have been reported as the leading causes of this disease. In the last three decades, the number of diabetic patients has drastically increased worldwide, with current statistics suggesting the number is to double in the next two decades. To combat this incurable ailment, orthodox medicines, to which economically disadvantaged patients have minimal access to, have been used. Thus, a considerable amalgamation of medicinal plants has recently been proven to possess therapeutic capabilities to manage T2DM, and this has prompted studies primarily focusing on the healing aspect of these plants, and ultimately, their commercialization. Hence, this review aims to highlight the potential threat of pollutants, i.e., polyfluoroalkyl compounds (PFCs), endocrine disrupting chemicals (EDCs) and heavy metals, to medicinal plants, and their prospective impact on the phytomedicinal therapy strategies for T2DM. It is further suggested that auxiliary research be undertaken to better comprehend the factors that influence the uptake of these compounds by these plants. This should include a comprehensive risk assessment of phytomedicinal products destined for the treatment of T2DM. Regulations that control the use of PFC-precursors in certain developing countries are also long overdue.

Published

2018

30. Microbial communities associated with the co-metabolism of free cyanide and thiocyanate under alkaline conditions.

Author

Mekuto L, Ntwampe SKO, and Mudumbi JBN

Abstract

This study focused on the identification of free cyanide (CDO) and thiocyanate (TDO) degrading microbial communities using a culture-dependent and independent approach. Culturable microbial species were isolated from the CDOs ( n  = 13) and TDOs ( n  = 18). The CDOs were largely dominated by Bacillus sp. while the TDOs were dominated by Bacillus sp., Klebsiella oxytoca , Providencia sp. and Pseudomonas sp. However, 16S rRNA amplicon gene-sequencing revealed the complexity and diversity of the microbial communities in contrast to the organisms that were detected using culture-dependent technique. Overall, the organisms were mainly dominated by Myroides odoratimimus and Proteus sp. at 37.82 and 30.5% for CDOs, and 35.26 and 17.58% for TDOs, respectively. The co-culturing of the CDOs and TDOs resulted in biochemical changes of key metabolic enzymes, and this resulted in the complete degradation of CN - and SCN - simultaneously; a phenomenon which has not been witnessed, especially under alkaline conditions. Current ongoing studies are focused on the application of these organisms for the biodegradation of CN - and SCN - in a continuous system, under changing operational parameters, to assess their effectiveness in the biodegradation of CN - and SCN - ., Competing Interests: Compliance with ethical standardsThe authors declare that there is no conflict of interest associated with this work.

Published

2018

31. Process performance determination data in thiocyanate biodegradation systems: Use of sulphate production.

Author

Mekuto L, Razanamahandry LC, Ntwampe SKO, Mudumbi JN, and Muchatibaya G

Abstract

This data article presents the utilization of sulphates as an indirect technique for the assessment of microbial growth, activity and SCN - biodegradation efficiency since the TDO were observed to be unable to utilise the produced sulphates as a source of sulphur (Mekuto e al., 2017) [1] The TDO demonstrated complete SCN - biodegradation while also utilizing the produced ammonium. The production of SO 4 2- from SCN - biodegradation had a good correlation in comparison to the traditional methods of assessing microbial growth and activity i.e. direct cell counts (DCC), heterotrophic counts (CFU) and fluorescein production from fluorescein diacetate (FDA). The concentration of the produced SO 4 2- demonstrated a similar logarithmic trend with the FDA, DCC and CFU techniques, thus confirming that the production of SO 4 2- from SCN - biodegradation systems can be utilised as an indirect technique for the assessment of microbial growth, activity and SCN - biodegradation performance.

Published

2018

32. Recent developments in polyfluoroalkyl compounds research: a focus on human/environmental health impact, suggested substitutes and removal strategies.

Author

Mudumbi JBN, Ntwampe SKO, Matsha T, Mekuto L, and Itoba-Tombo EF

Subjects

Adsorption, Alkanesulfonic Acids analysis, Caprylates analysis, Environment, Environmental Health, Fluorine, Humans, Environmental Monitoring, Environmental Pollutants analysis, Environmental Restoration and Remediation methods, Fluorocarbons analysis

Abstract

Between the late 1940s and early 1950s, humans manufactured polyfluoroalkyl compounds (PFCs) using electrochemical fluorination and telomerisation technologies, whereby hydrogen atoms are substituted by fluorine atoms, thus conferring unnatural and unique physicochemical properties to these compounds. Presently, there are wide ranges of PFCs, and owing to their bioaccumulative properties, they have been detected in various environmental matrices and in human sera. It has thus been suggested that they are hazardous. Hence, this review aims at highlighting the recent development in PFC research, with a particular focus on perfluorooctanoate (PFOA) and perfluorooctane sulfonate (PFOS), the most studied and predominantly found PFCs in various environmental matrices, although recent reports have included perfluorobutane sulfonate (PFBS), which was previously regarded as innocuously harmless, when compared to its counterparts, PFOA and PFOS. As such, proper investigations are thus required for a better understanding of short-chain PFC substitutes, which have been suggested as suitable replacements to long-chained PFCs, although these substitutes have also been suggested to pose various health risks comparable to those associated with long-chain PFCs. Similarly, several novel technologies, such as PFC reduction using zero-valent iron, including removal at point of use, adsorption and coagulation, have been proposed. However, regardless of how efficient removers some of these techniques have proven to be, short-chain PFCs remain a challenge to overcome for scientists, in this regard.

Published

2017

33. Biochemical characteristics of a free cyanide and total nitrogen assimilating Fusarium oxysporum EKT01/02 isolate from cyanide contaminated soil.

Author

Akinpelu EA, Adetunji AT, Ntwampe SKO, Nchu F, and Mekuto L

Abstract

Sustainability of nutrient requirements for microbial proliferation on a large scale is a challenge in bioremediation processes. This article presents data on biochemical properties of a free cyanide resistant and total nitrogen assimilating fungal isolate from the rhizosphere of Zea mays (maize) growing in soil contaminated with a cyanide-based pesticide. DNA extracted from this isolate were PCR amplified using universal primers; TEF1-α and ITS. The raw sequence files are available on the NCBI database. Characterisation using biochemical data was obtained using colorimetric reagents analysed with VITEK ® 2 software version 7.01. The data will be informative in selection of biocatalyst for environmental engineering application.

Published

2017

34. Metagenomic data of free cyanide and thiocyanate degrading bacterial communities.

Author

Mekuto L, Ntwampe SKO, Mudumbi JBN, Akinpelu EA, and Mewa-Ngongang M

Abstract

The data presented in this article contains the bacterial community structure of the free cyanide (CN - ) and thiocyanate (SCN - ) degrading organisms that were isolated from electroplating wastewater and synthetic SCN - containing wastewater. PCR amplification of the 16S rRNA V1-V3 regions was undertaken using the 27F and 518R oligonucleotide primers following the metacommunity DNA extraction procedure. The PCR amplicons were processed using the illumina® reaction kits as per manufacturer׳s instruction and sequenced using the illumina® MiSeq-2000, using the MiSeq V3 kit. The data was processed using bioinformatics tools such as QIIME and the raw sequence files are available via NCBI׳s Sequence Read Archive (SRA) database.

Published

2017

35. Kinetic modelling and optimisation of antimicrobial compound production by Candida pyralidae KU736785 for control of Candida guilliermondii.

Author

Mewa-Ngongang M, du Plessis HW, Hutchinson UF, Mekuto L, and Ntwampe SK

Subjects

Anti-Infective Agents, Kinetics, Candida growth & development, Candida physiology, Fermentation, Models, Biological

Abstract

Biological antimicrobial compounds from yeast can be used to address the critical need for safer preservatives in food, fruit and beverages. The inhibition of Candida guilliermondii, a common fermented beverage spoilage organism, was achieved using antimicrobial compounds produced by Candida pyralidae KU736785. The antimicrobial production system was modelled and optimised using response surface methodology, with 22.5 ℃ and pH of 5.0 being the optimum conditions. A new concept for quantifying spoilage organism inhibition was developed. The inhibition activity of the antimicrobial compounds was observed to be at a maximum after 17-23 h of fermentation, with C. pyralidae concentration being between 0.40 and 1.25 × 10 9 CFU ml -1 , while its maximum specific growth rate was 0.31-0.54 h -1 . The maximum inhibitory activity was between 0.19 and 1.08 l contaminated solidified media per millilitre of antimicrobial compound used. Furthermore, the antimicrobial compound formation rate was 0.037-0.086 l VZI ml -1 ACU h -1 , respectively. The response surface methodology analysis showed that the model developed sufficiently described the antimicrobial compound formation rate 1.08 l VZI ml -1 ACU, as 1.17 l VZI ml -1 ACU, predicted under the optimum production conditions.

Published

2017

36. Co-metabolism of thiocyanate and free cyanide by Exiguobacterium acetylicum and Bacillus marisflavi under alkaline conditions.

Author

Mekuto L, Alegbeleye OO, Ntwampe SK, Ngongang MM, Mudumbi JB, and Akinpelu EA

Abstract

The continuous discharge of cyanide-containing effluents to the environment has necessitated for the development of environmentally benign treatment processes that would result in complete detoxification of the cyanide-containing wastewaters, without producing additional environmental toxicants. Since biological detoxification of hazardous chemical compounds has been renowned for its robustness and environmental-friendliness, the ability of the Exiguobacterium acetylicum (GenBank accession number KT282229) and Bacillus marisflavi (GenBank accession number KR016603) to co-metabolise thiocyanate (SCN - ) and free cyanide (CN - ) under alkaline conditions was evaluated. E. acetylicum had an SCN - degradation efficiency of 99.9 % from an initial SCN - concentration of 150 mg SCN - /L, but the organism was unable to degrade CN - . Consequently, B. marisflavi had a CN - degradation efficiency of 99 % from an initial concentration of 200 mg CN - /L. Similarly, the organism was unable to degrade SCN - ; hence, this resulted in the evaluation of co-metabolism of SCN - and CN - by the two microbial species. Optimisation of operational conditions was evaluated using response surface methodology (RSM). A numeric optimisation technique was used to evaluate the optimisation of the input variables i.e. pH, temperature, SCN - and CN - concentrations. The optimum conditions were found to be as follows: pH 9.0, temperature 34 °C, 140 mg SCN - /L and 205 mg CN - /L under which complete SCN - and CN - degradation would be achieved over a 168-h period. Using the optimised data, co-metabolism of SCN - and CN - by both E. acetylicum and B. marisflavi was evaluated, achieving a combined degradation efficiency of ≥99.9 %. The high degradative capacity of these organisms has resulted in their supplementation on an active continuous biological degradation system that is treating both SCN - and CN - .

Published

2016

37. An integrated biological approach for treatment of cyanidation wastewater.

Author

Mekuto L, Ntwampe SK, and Akcil A

Subjects

Cyanides chemistry, Waste Disposal, Fluid methods, Wastewater chemistry, Water Pollutants, Chemical chemistry

Abstract

The cyanidation process has been, and still remains, a profitable and highly efficient process for the recovery of precious metals from ores. However, this process has contributed to environmental deterioration and potable water reserve contamination due to the discharge of poorly treated, or untreated, cyanide containing wastewater. The process produces numerous cyanide complexes in addition to the gold cyanocomplex. Additionally, the discharge constituents also include hydrogen cyanide (HCN) - metallic complexes with iron, nickel, copper, zinc, cobalt and other metals; thiocyanate (SCN); and cyanate (CNO). The fate of these complexes in the environment dictates the degree to which these species pose a threat to living organisms. This paper reviews the impact that the cyanidation process has on the environment, the ecotoxicology of the cyanidation wastewater and the treatment methods that are currently utilised to treat cyanidation wastewater. Furthermore, this review proposes an integrated biological approach for the treatment of the cyanidation process wastewater using microbial consortia that is insensitive and able to degrade cyanide species, in all stages of the proposed process., (Copyright © 2016 Elsevier B.V. All rights reserved.)

Published

2016

38. Free cyanide and thiocyanate biodegradation by Pseudomonas aeruginosa STK 03 capable of heterotrophic nitrification under alkaline conditions.

Author

Mekuto L, Ntwampe SKO, Kena M, Golela MT, and Amodu OS

Abstract

An alkali-tolerant bacterium, Pseudomonas aeruginosa STK 03 (accession number KR011154), isolated from an oil spill site, was evaluated for the biodegradation of free cyanide and thiocyanate under alkaline conditions. The organism had a free cyanide degradation efficiency of 80 and 32 % from an initial concentration of 250 and 450 mg CN - /L, respectively. Additionally, the organism was able to degrade thiocyanate, achieving a degradation efficiency of 78 and 98 % from non- and free cyanide spiked cultures, respectively. The organism was capable of heterotrophic nitrification but was unable to denitrify aerobically. The organism was unable to degrade free cyanide in the absence of a carbon source, but it was able to degrade thiocyanate heterotrophically, achieving a degradation efficiency of 79 % from an initial concentration of 250 mg SCN - /L. Further increases in thiocyanate degradation efficiency were only observed when the cultures were spiked with free cyanide (50 mg CN - /L), achieving a degradation efficiency of 98 % from an initial concentration of 250 mg SCN - /L. This is the first study to report free cyanide and thiocyanate degradation by Pseudomonas aeruginosa. The higher free cyanide and thiocyanate tolerance of the isolate STK 03, which surpasses the stipulated tolerance threshold of 200 mg CN - /L for most organisms, could be valuable in microbial consortia for the degradation of cyanides in an industrial setting.

Published

2016

39. Biodegradation of free cyanide and subsequent utilisation of biodegradation by-products by Bacillus consortia: optimisation using response surface methodology.

Author

Mekuto L, Ntwampe SK, and Jackson VA

Subjects

Aerobiosis, Biodegradation, Environmental, Bioreactors, Culture Media, Denitrification, Hydrogen-Ion Concentration, Microbial Consortia, Models, Statistical, Nitrates metabolism, Nitrification, Wastewater, Water Purification, Whey Proteins metabolism, Bacillus metabolism, Biofilms, Cyanides metabolism, Water Pollutants, Chemical metabolism

Abstract

A mesophilic alkali-tolerant bacterial consortium belonging to the Bacillus genus was evaluated for its ability to biodegrade high free cyanide (CN(-)) concentration (up to 500 mg CN(-)/L), subsequent to the oxidation of the formed ammonium and nitrates in a continuous bioreactor system solely supplemented with whey waste. Furthermore, an optimisation study for successful cyanide biodegradation by this consortium was evaluated in batch bioreactors (BBs) using response surface methodology (RSM). The input variables, that is, pH, temperature and whey-waste concentration, were optimised using a numerical optimisation technique where the optimum conditions were found to be as follows: pH 9.88, temperature 33.60 °C and whey-waste concentration of 14.27 g/L, under which 206.53 mg CN(-)/L in 96 h can be biodegraded by the microbial species from an initial cyanide concentration of 500 mg CN(-)/L. Furthermore, using the optimised data, cyanide biodegradation in a continuous mode was evaluated in a dual-stage packed-bed bioreactor (PBB) connected in series to a pneumatic bioreactor system (PBS) used for simultaneous nitrification, including aerobic denitrification. The whey-supported Bacillus sp. culture was not inhibited by the free cyanide concentration of up to 500 mg CN(-)/L, with an overall degradation efficiency of ≥ 99 % with subsequent nitrification and aerobic denitrification of the formed ammonium and nitrates over a period of 80 days. This is the first study to report free cyanide biodegradation at concentrations of up to 500 mg CN(-)/L in a continuous system using whey waste as a microbial feedstock. The results showed that the process has the potential for the bioremediation of cyanide-containing wastewaters.

Published

2015