Morphological changes and luminescence of Escherichia coli in contact with Mn₂O₃ and Co₃O₄ ultrafine particles as components of a mineral feed additive.

IF 1.7 Q2 AGRICULTURE, DAIRY & ANIMAL SCIENCE Veterinary World Pub Date : 2024-08-01 Epub Date: 2024-08-24 DOI:10.14202/vetworld.2024.1880-1888

Daniil Evgenievich Shoshin, Elena Anatolievna Sizova, Aina Maratovna Kamirova

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引用次数: 0

Abstract

Background and aim: The spread of antibiotic resistance and mineral depletion in soils encourages an intensive search for highly effective and environmentally safe bactericidal agents and sources of macro- and micro-elements. The most profitable solution would combine both the described tasks. Ultrafine particles (UFPs) have this functionality. Thus, this study aimed to analyze the bioluminescence and external morphological changes of Escherichia coli cells after contact with M₂O₃ and Co₃O₄ UFPs at effective concentrations (ECs).

Materials and methods: The antibiotic properties of the studied samples were determined on a multifunctional microplate analyzer TECAN Infinite F200 (Tecan Austria GmbH, Austria) by fixing the luminescence value of the bacterial strain E. coli K12 TG11 (Ecolum, NVO Immunotech Closed Joint Stock Company, Russia). Morphological changes in the cell structure were evaluated using a Certus Standard EG-5000 atomic force microscope equipped with NSPEC software (Nano Scan Technology LLC, Russia).

Results: The obtained results indicate high bactericidal properties of Co₃O₄ and Mn₂O₃ UFPs (EC₅₀ at 3.1 × 10^-5 and 1.9 × 10^-3 mol/L, respectively) due to the degradation of the cell wall, pathological increase in size, disruption of septic processes, and loss of cytoplasmic contents.

Conclusion: The prospects for the environmentally safe use of ultrafine materials are outlined. The limits of the dosages of Co₃O₄ and Mn₂O₃ UFPs recommended for further study in vitro and in vivo in feeding farm animals are established (no more than 4.9 × 10^-4 mol/L for Mn₂O₃ UFPs and 1.5 × 10^-5 mol/L for Co₃O₄ UFPs). The limitation of the work is the lack of experiments to determine the mechanisms of the toxic effect of UFP on bacteria, protein structures, and DNA and oxidative stress, which is planned to be performed in the future together with in situ and in vivo studies on animals.

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大肠杆菌与作为矿物饲料添加剂成分的 Mn2O3 和 Co3O4 超细粒子接触后的形态变化和发光情况。

背景和目的：抗生素耐药性的蔓延和土壤中矿物质的枯竭促使人们加紧寻找高效、对环境安全的杀菌剂以及宏量和微量元素的来源。最有利的解决方案是将上述两项任务结合起来。超微粒子（UFP）就具有这种功能。因此，本研究旨在分析大肠杆菌细胞在接触有效浓度（ECs）的 M2O3 和 Co3O4 超微粒子后的生物发光和外部形态变化：在多功能微孔板分析仪 TECAN Infinite F200（Tecan Austria GmbH，奥地利）上，通过固定大肠杆菌菌株 K12 TG11（Ecolum，NVO Immunotech Closed Joint Stock Company，俄罗斯）的发光值来确定所研究样品的抗生素特性。使用配备 NSPEC 软件（Nano Scan Technology LLC，俄罗斯）的 Certus Standard EG-5000 原子力显微镜对细胞结构的形态变化进行了评估：结果表明，Co3O4 和 Mn2O3 UFPs 具有很高的杀菌性能（EC50 分别为 3.1 × 10-5 和 1.9 × 10-3 mol/L），这是由于细胞壁降解、体积病理性增大、败血过程中断和细胞质内容物丢失所致：结论：概述了环境安全使用超细材料的前景。结论：概述了环境安全使用超细材料的前景，确定了建议在饲养农场动物的体外和体内进一步研究的 Co3O4 和 Mn2O3 超细材料的剂量限制（Mn2O3 超细材料不超过 4.9 × 10-4 mol/L，Co3O4 超细材料不超过 1.5 × 10-5 mol/L）。这项工作的局限性在于缺乏确定 UFP 对细菌、蛋白质结构、DNA 和氧化应激毒性作用机制的实验，计划今后在对动物进行原位和活体研究时一并进行。

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来源期刊

Veterinary World Multiple-

CiteScore

3.60

自引率

12.50%

发文量

317

审稿时长

16 weeks

期刊介绍： Veterinary World publishes high quality papers focusing on Veterinary and Animal Science. The fields of study are bacteriology, parasitology, pathology, virology, immunology, mycology, public health, biotechnology, meat science, fish diseases, nutrition, gynecology, genetics, wildlife, laboratory animals, animal models of human infections, prion diseases and epidemiology. Studies on zoonotic and emerging infections are highly appreciated. Review articles are highly appreciated. All articles published by Veterinary World are made freely and permanently accessible online. All articles to Veterinary World are posted online immediately as they are ready for publication.