SELfies and CELLfies: Whole Genome Sequencing and Annotation of Five Antibiotic Resistant Bacteria Isolated from the Surfaces of Smartphones, An Inquiry Based Laboratory Exercise in a Genomics Undergraduate Course at the Rochester Institute of Technology.
Anutthaman Parthasarathy, Narayan H Wong, Amanda N Weiss, Susan Tian, Sara E Ali, Nicole T Cavanaugh, Tyler M Chinsky, Chelsea E Cramer, Aditya Gupta, Rakshanda Jha, Loryn K Johnson, Elizabeth D Tuason, Lauren M Klafehn, Varada Krishnadas, Ryan J Musich, Jennifer M Pfaff, Spencer C Richman, Alexandria J Shumway, André O Hudson
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引用次数: 5
Abstract
Are touchscreen devices a public health risk for the transmission of pathogenic bacteria, especially those that are resistant to antibiotics? To investigate this, we embarked on a project aimed at isolating and identifying bacteria that are resistant to antibiotics from the screens of smartphones. Touchscreen devices have become ubiquitous in society, and it is important to evaluate the potential risks they pose towards public health, especially as it pertains to the harboring and transmission of pathogenic bacteria that are resistant to antibiotics. Sixteen bacteria were initially isolated of which five were unique (four Staphylococcus species and one Micrococcus species). The genomes of the five unique isolates were subsequently sequenced and annotated. The genomes were analyzed using in silico tools to predict the synthesis of antibiotics and secondary metabolites using the antibiotics and Secondary Metabolite Analysis SHell (antiSMASH) tool in addition to the presence of gene clusters that denote resistance to antibiotics using the Resistance Gene Identifier (RGI) tool. In vivo analysis was also done to assess resistance/susceptibility to four antibiotics that are commonly used in a research laboratory setting. The data presented in this manuscript is the result of a semester-long inquiry based laboratory exercise in the genomics course (BIOL340) in the Thomas H. Gosnell School of Life Sciences/College of Science at the Rochester Institute of Technology.
触屏设备是否会对致病菌(尤其是对抗生素有耐药性的致病菌)的传播构成公共卫生风险?为了调查这个问题,我们开始了一个项目,旨在从智能手机屏幕上分离和识别对抗生素有抗药性的细菌。触摸屏设备在社会中已经无处不在,评估它们对公共卫生构成的潜在风险非常重要,特别是因为它涉及对抗生素具有耐药性的致病菌的窝藏和传播。最初分离出16种细菌,其中5种是独特的(4种葡萄球菌和1种微球菌)。随后对五个独特分离株的基因组进行了测序和注释。使用硅芯片工具对基因组进行分析,使用抗生素和次级代谢物分析SHell (antiSMASH)工具预测抗生素和次级代谢物的合成,并使用耐药基因标识符(RGI)工具检测耐药基因簇的存在。还进行了体内分析,以评估对研究实验室环境中常用的四种抗生素的耐药性/易感性。本文中提供的数据是罗切斯特理工学院Thomas H. Gosnell生命科学学院/理学院基因组学课程(BIOL340)一个学期的研究性实验室练习的结果。
期刊介绍:
Journal of Genomics publishes papers of high quality in all areas of gene, genetics, genomics, proteomics, metabolomics, DNA/RNA, computational biology, bioinformatics, and other relevant areas of research and application. Articles published by the journal are rigorously peer-reviewed. Types of articles include: Research paper, Short research communication, Review or mini-reviews, Commentary, Database, Software.
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