Potensi Metabolit Sekunder Isolat Aktinomycetes Sebagai Penghasil Senyawa Antibakteri Terhadap Methicillin Resistant Staphylococcus aureus (MRSA) Dari Tanah Mangrove Wonorejo Surabaya

Anita Dwi Anggraini, Ayu Puspitasari, Christ Kartika Rahayuningsih
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Abstract

Infectious diseases are estimated to be the cause of half of all deaths worldwide. About 50-75% of deaths in hospital are reported to be due to infection. This number continues to increase rapidly in line with the development of bacterial resistance to certain antibiotics. One of the causes of resistance due to antibiotic abuse. The number of resistance events that occur encourages new discoveries in order to overcome the problem of resistance. Actinomycetes are Gram-positive microscopic bacteria that are widespread in nature. These bacteria can live in various environmental conditions that contain lots of nutrients. Actinomycetes population increases in the presence of organic matter that undergoes decomposition. Acinomycetes have the ability to produce antimicrobial compounds. The need for antibiotic compounds and chemotherapy compounds that are effective with low toxicity to the host, and the resulting waste can be degraded by the environment, is a problem that needs serious attention. The existence of resistance to antibiotics causes the need to develop new types of antibiotics from natural ingredients and microorganisms that can control microbapatogens. Compounds obtained from natural materials, especially plants and microbes, provide promising results in the development of new antibiotic compounds, among the existing types of microorganisms, Actinomycetes are the most potential source of producing antibiotics. Apart from antibiotics, actinomycetes also produce bioactive compounds of high economic value in the health sector as antiviral and anti-cancer, while in agriculture as herbicides, insecticides, and anti-parasitic compounds. This causes the need to explore actinomycetes which have the potential to produce antibiotic compounds against bacteria. This study aims to determine the antibacterial activity of secondary metabolites of actinomycetes isolates against cuts infected with Staphylococcus aureus resistant methicillin (MRSA) in winstar rats (rattus norvegicus). This type of research is carried out in an experimental laboratory. The results showed that the potential for secondary metabolites of actinomysetes isolates against MRSA bacteria was classified as strong with an inhibitory index of 10.1.
据估计,全世界一半的死亡是由传染病造成的。据报告,约50-75%的医院死亡是由感染造成的。随着细菌对某些抗生素产生耐药性,这一数字继续迅速增加。抗生素滥用导致耐药性的原因之一。发生的耐药事件的数量鼓励新的发现,以克服耐药问题。放线菌是自然界中广泛存在的革兰氏阳性显微细菌。这些细菌可以生活在含有大量营养物质的各种环境条件下。放线菌的数量在有机物分解的情况下增加。放线菌具有产生抗菌化合物的能力。需要对宿主有效且毒性低的抗生素化合物和化疗化合物,并且产生的废物可以被环境降解,这是一个需要认真关注的问题。抗生素耐药性的存在导致需要从天然成分和微生物中开发新型抗生素,以控制微细菌原。从天然材料,特别是植物和微生物中获得的化合物为开发新的抗生素化合物提供了很好的结果,在现有的微生物类型中,放线菌是最有潜力的抗生素生产来源。除抗生素外,放线菌还产生在卫生部门具有高经济价值的生物活性化合物,如抗病毒和抗癌,而在农业中作为除草剂、杀虫剂和抗寄生虫化合物。这就需要探索放线菌,因为放线菌有可能产生对抗细菌的抗生素化合物。本研究旨在测定放线菌分离物次级代谢物对褐家鼠(rattus norvegicus)金黄色葡萄球菌耐甲氧西林(MRSA)伤口感染的抑菌活性。这类研究是在实验室里进行的。结果表明,放线菌分离物对MRSA细菌的次生代谢物潜力较强,抑制指数为10.1。
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