Quantitative Structure-Activity Relationship (QSAR) Studies on the Toxic Effects of Nitroaromatic Compounds (NACs): A Systematic Review

Huang, Tao; Sun, Guizhi; Zhao, Lu; Zhang, Na; Zhong, Rugang; Peng, Yongzhen

doi:10.3390/ijms22168557

Cited by 54 publications

(18 citation statements)

References 65 publications

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“…), and topological (wiener index [Windx], shape attribute [ShpA], etc.) properties were chosen as candidate descriptors, as they are frequently adopted in QSAR modeling with respect to different types of chemical reactions. ,− In particular, MW, E LUMO , E LUMO , heat of formation ( H f ), and total energy ( E T ) have been reported to be involved in developed QSAR models for dehalogenation of halogenated organic compounds by using ZVI, nanoscale ZVI, ultraviolet (UV), cement slurries with Fe(II), or fungal laccases. − Calculated values of candidate descriptors are listed in Table S2. To minimize chance correlation risk in the model, the appropriate ratio of cases to variables must be as high as possible (minimum 5:1) .…”

Section: Resultsmentioning

confidence: 99%

Zerovalent Iron/Cu Combined Degradation of Halogenated Disinfection Byproducts and Quantitative Structure–Activity Relationship Modeling

Liu

Gao

Zhu

et al. 2023

Environ. Sci. Technol.

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Previous studies have reported that zerovalent iron (ZVI) can reduce several aliphatic groups of disinfection byproducts (DBPs) (e.g., haloacetic acids and haloacetamides) effectively, and the removal efficiency can be significantly improved by metallic copper. Information regarding ZVI/Cu combined degradation of different types of halogenated DBPs can help understand the fate of overall DBPs in drinking water distribution and storage systems consisting of unlined cast iron/copper pipes and related potential control strategies. In this study, we found that, besides aliphatic DBPs, many groups of new emerging aromatic DBPs formed in chlorinated and chloraminated drinking water can be effectively degraded by ZVI/Cu; meanwhile, total organic halogen and total ion intensity were reduced significantly after treatment. Moreover, a robust quantitative structure–activity relationship model was developed and validated based on the ZVI/Cu combined degradation rate constants of 14 typical aromatic DBPs; it can predict the degradation rate constants of other aromatic DBPs for screening and comparative purposes, and the optimized descriptors indicate that DBPs possessing a lower value of the lowest unoccupied molecular orbital energy and a higher value of dipole moment tend to present higher degradation rate constants. In addition, toxicity data of 47 DBPs (belonging to 18 groups) were predicted by two previously established toxicity models, demonstrating that, although most DBPs exhibit higher toxicity than their dehalogenated products, some DBPs show lower toxicity than their lowly halogenated analogs.

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Section: Resultsmentioning

confidence: 99%

Zerovalent Iron/Cu Combined Degradation of Halogenated Disinfection Byproducts and Quantitative Structure–Activity Relationship Modeling

Liu

Gao

Zhu

et al. 2023

Environ. Sci. Technol.

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“…The Quantitative Structure-Activity Relationship (QSAR) plays an important role in detecting the correlation between the chemical structure with biological activity or chemical reactivity quantitatively. It takes into account a lot of factors like number of atoms, number and type of chemical bonds, molecular connectivity, ionization constant, molecular mass, lipophilic parameters and many others depending on the software used [28]. QSAR analysis of the flavonoids were done with Toxtree software (https://apps.ideaconsult.net/data/ui/toxtree ), which is a web based QSAR tool that focuses on the molecular analysis with additional toxicity analysis towards the organs, different specific endpoints, pathways and targets [29].…”

Section: Qsar Analysismentioning

confidence: 99%

Identification of Flavonoids of Kalanchoe Pinnata as Candidate Drugs for COVID-19 Gamma-Variant Treatment

Aurora

Tarigan

Suryanto

et al. 2022

Mal. J. Fund. Appl. Sci.

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Treatment of COVID-19 that is based on plants could be a more cost-effective therapy against the disease. Flavonoids, a group of compounds that have been observed to have various effects, including antiviral activity, were chosen as the candidate molecule for treatment of COVID-19. Kalanchoe Pinnata is one of the plants containing flavonoids that has been demonstrated to have antiviral activity. The structure of ACE2 and various flavonoids were retrieved and cleaned from unnecessary residues. The ACE2 structure was subjected to molecular docking in order to analyze the binding affinity. Following that, the ADME properties of each flavonoid were analyzed accordingly. The QSAR analysis was also performed for each type of flavonoid. Lastly, molecular dynamics simulation was conducted. All of the tested compounds were able to bind to human ACE2 and SARS-CoV-2 Spike protein, but were unable to compete with them as the binding affinity of the compounds to the protein were lower compared to ACE2-Spike interaction. The ADME and toxicity analysis showed that most of the ligands were able to be absorbed by the GI tract, but have low bioavailability. The compounds also cause no major toxicity effects and were able to be sufficiently distributed to the body. Molecular dynamics analysis also revealed that among the compounds, quercetin and rutin were able to interact with ACE2 and Spike protein stably. The QSAR analysis showed that friedelin, kaempferol, quercetin, and rutin are mostly non-toxic, but the high Cramer values indicate that there are no initial safety impressions for these molecules and could cause toxicity. In conclusion, quercetin and rutin have potential to be a candidate for COVID-19 drug development based on the in-silico predictions results obtained. Friedelin and Narcissin whose affinity to the proteins were relatively stronger but had unstable interactions from molecular dynamics simulation results, may also be a potential COVID-19 treatment with further investigation. However, further research is required to assess the effectiveness and also specially to measure the toxicity of the compounds.

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“…Various industries release waste effluents containing nitroaromatics, , such as nitrophenols (N-PhOHs), which are used in various industrial sectors such as dyes, resins, plastics, pharmaceutics, pulp and paper, insecticides, herbicides, explosives, disinfectants, etc . However, if effluents get mixed with usable water, it can cause severe health issues − and have potential to deteriorate soil fertility. , Many catalysts have already been used for the photocatalytic degradation of these N-PhOHs, such as a Cu 2 O/TiO 2 p–n heterojunction network catalyst and molecularly imprinted polymer (MIP)-coated TiO 2 used for the photodegradation of para -nitrophenol (PNP), strontium-doped titania nanoplates, sugar-glass secondary organic aerosol, CuO-coated ZnO used for the photodegradation of dinitrophenol (DNP), ZnO/Pt-based Janus micromotors, and carbon quantum dot (CQD)-deposited Fe 3 O 4 @m-TiO 2 Koosh balls used for the photodegradation of trinitrophenol (TNP).…”

Section: Introductionmentioning

confidence: 99%

Fe₃O₄ Nanoparticles Synthesized from Waste Iron Dust for Sunlight-Boosted Photodegradation of Nitrophenols and Their Mixtures

Twinkle,

Kaushik,

Singla

et al. 2023

Ind. Eng. Chem. Res.

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Here, we describe a simpler-sustainable approach for fabricating photo-active magnetite nanoparticles (Fe 3 O 4 -NPs) using an almost inert waste material known as red-colored iron oxide dust (IOD). The synthesized heterogeneous catalyst Fe 3 O 4 -NPs showed photoactivity in the presence of sunlight and was used for photodegradation of a higher concentration (∼1000 mg L −1 ) of noxious nitrophenols and their mixtures in an aqueous medium. Kinetic studies, including control tests, have been performed to compare the photocatalytic performance of Fe 3 O 4 -NPs vs IOD in sunlight and artificial bulb light. The half-life and percentage of photodegradation strongly suggest that sunlight influences the faster rate of photodegradation of nitrophenols and their mixtures. Radical trapping experiments were performed to identify the reactive active species responsible for the photodegradation, and the results support the significant involvement of hydroxyl radicals along with holes. Further, the real-life assessment of Fe 3 O 4 -NPs as a photocatalyst was explored by checking its photodegradation capability in industrial wastewater and soil samples via the external spiking of nitrophenols. Moreover, the results are compared with two commercially available samples of Fe 3 O 4 , which showed almost comparable results, and in the case of trinitrophenol (TNP) and the mixture, synthesized Fe 3 O 4 -NPs showed slightly better results. The quantitative studies of green chemistry metrics and DOZN software-based calculations supported the greener and more sustainable process of the present method for the synthesis of Fe 3 O 4 -NPs.

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Quantitative Structure-Activity Relationship (QSAR) Studies on the Toxic Effects of Nitroaromatic Compounds (NACs): A Systematic Review

Cited by 54 publications

References 65 publications

Zerovalent Iron/Cu Combined Degradation of Halogenated Disinfection Byproducts and Quantitative Structure–Activity Relationship Modeling

Zerovalent Iron/Cu Combined Degradation of Halogenated Disinfection Byproducts and Quantitative Structure–Activity Relationship Modeling

Identification of Flavonoids of Kalanchoe Pinnata as Candidate Drugs for COVID-19 Gamma-Variant Treatment

Fe₃O₄ Nanoparticles Synthesized from Waste Iron Dust for Sunlight-Boosted Photodegradation of Nitrophenols and Their Mixtures

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Quantitative Structure-Activity Relationship (QSAR) Studies on the Toxic Effects of Nitroaromatic Compounds (NACs): A Systematic Review

Cited by 54 publications

References 65 publications

Zerovalent Iron/Cu Combined Degradation of Halogenated Disinfection Byproducts and Quantitative Structure–Activity Relationship Modeling

Zerovalent Iron/Cu Combined Degradation of Halogenated Disinfection Byproducts and Quantitative Structure–Activity Relationship Modeling

Identification of Flavonoids of Kalanchoe Pinnata as Candidate Drugs for COVID-19 Gamma-Variant Treatment

Fe3O4 Nanoparticles Synthesized from Waste Iron Dust for Sunlight-Boosted Photodegradation of Nitrophenols and Their Mixtures

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Fe₃O₄ Nanoparticles Synthesized from Waste Iron Dust for Sunlight-Boosted Photodegradation of Nitrophenols and Their Mixtures