A comprehensive overview of proteomics approach for COVID 19: new perspectives in target therapy strategies.

Journal of proteins and proteomics Pub Date : 2020-01-01 Epub Date: 2020-11-02 DOI:10.1007/s42485-020-00052-9
Rashmi Rana, Vaishnavi Rathi, Nirmal Kumar Ganguly
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引用次数: 13

Abstract

World Health Organisation declared COVID-19 a pandemic on March 11, 2020. It was temporarily named as 2019-nCoV then subsequently named as COVID-19 virus. A coronavirus is a group of viruses, known to be zoonotic, causing illness ranging from acute to mild respiratory infections. These are spherical or pleomorphic enveloped particles containing positive sense RNA. The virus enters host cells, its uncoated genetic material transcribes, and translates. Since it has started spreading rapidly, protective measures have been taken all over the world. However, its transmission has been proved to be unstoppable and the absence of an effective drug makes the situation worse. The scientific community has gone all-out to discover and develop a possible vaccine or a competent antiviral drug. Other domains of biological sciences that promise effective results and target somewhat stable entities that are proteins, could be very useful in this time of crisis. Proteomics and metabolomics are the vast fields that are equipped with sufficient technologies to face this challenge. Various protein separation and identification techniques are available which facilitates the analysis of various types of interactions among proteins and their evolutionary lineages. The presented review aims at confronting the question: 'how proteomics can help in tackling SARS-CoV-2?' It deals with the role of upcoming proteome technology in these pandemic situations and discusses the proteomics approach towards the COVID-19 dilemma.

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COVID - 19蛋白质组学方法综述:靶向治疗策略的新视角
世界卫生组织于2020年3月11日宣布COVID-19为大流行。它被暂时命名为2019-nCoV,随后被命名为COVID-19病毒。冠状病毒是一组已知的人畜共患病毒,可引起从急性到轻度呼吸道感染不等的疾病。它们是球形或多形性包膜颗粒,含有正义RNA。病毒进入宿主细胞,其未包被的遗传物质进行转录和翻译。由于它开始迅速传播,世界各地都采取了保护措施。然而,它的传播已被证明是不可阻挡的,缺乏有效的药物使情况变得更糟。科学界已经全力以赴地发现和开发一种可能的疫苗或有效的抗病毒药物。生物科学的其他领域,承诺有效的结果,并针对一些稳定的实体,如蛋白质,可能在这个危机时期非常有用。蛋白质组学和代谢组学是一个广阔的领域,拥有足够的技术来应对这一挑战。目前已有多种蛋白质分离和鉴定技术,可用于分析蛋白质之间的各种相互作用及其进化谱系。这篇综述的目的是面对这样一个问题:“蛋白质组学如何帮助应对SARS-CoV-2?”它讨论了即将到来的蛋白质组技术在这些大流行情况下的作用,并讨论了蛋白质组学方法解决COVID-19困境。
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