跨物种/宿主-寄生虫蛋白质相互作用预测综述。
Inter-Species/Host-Parasite Protein Interaction Predictions Reviewed.
作者信息
Soyemi Jumoke, Isewon Itunnuoluwa, Oyelade Jelili, Adebiyi Ezekiel
机构信息
Department of Computer Science, The Federal Polytechnic, Ilaro, Nigeria.
Covenant University Bioinformatics Research (CUBRe), Ota, Nigeria.
出版信息
Curr Bioinform. 2018 Aug;13(4):396-406. doi: 10.2174/1574893613666180108155851.
BACKGROUND
Host-parasite protein interactions (HPPI) are those interactions occurring between a parasite and its host. Host-parasite protein interaction enhances the understanding of how parasite can infect its host. The interaction plays an important role in initiating infections, although it is not all host-parasite interactions that result in infection. Identifying the protein-protein interactions (PPIs) that allow a parasite to infect its host has a lot do in discovering possible drug targets. Such PPIs, when altered, would prevent the host from being infected by the parasite and in some cases, result in the parasite inability to complete specific stages of its life cycle and invariably lead to the death of such parasite. It therefore becomes important to understand the workings of host-parasite interactions which are the major causes of most infectious diseases.
OBJECTIVE
Many studies have been conducted in literature to predict HPPI, mostly using computational methods with few experimental methods. Computational method has proved to be faster and more efficient in manipulating and analyzing real life data. This study looks at various computational methods used in literature for host-parasite/inter-species protein-protein interaction predictions with the hope of getting a better insight into computational methods used and identify whether machine learning approaches have been extensively used for the same purpose.
METHODS
The various methods involved in host-parasite protein interactions were reviewed with their individual strengths. Tabulations of studies that carried out host-parasite/inter-species protein interaction predictions were performed, analyzing their predictive methods, filters used, potential protein-protein interactions discovered in those studies and various validation measurements used as the case may be. The commonly used measurement indexes for such studies were highlighted displaying the various formulas. Finally, future prospects of studies specific to human-plasmodium falciparum PPI predictions were proposed.
RESULT
We discovered that quite a few studies reviewed implemented machine learning approach for HPPI predictions when compared with methods such as sequence homology search and protein structure and domain-motif. The key challenge well noted in HPPI predictions is getting relevant information.
CONCLUSION
This review presents useful knowledge and future directions on the subject matter.
背景
宿主 - 寄生虫蛋白相互作用(HPPI)是指寄生虫与其宿主之间发生的相互作用。宿主 - 寄生虫蛋白相互作用有助于加深对寄生虫如何感染其宿主的理解。尽管并非所有宿主 - 寄生虫相互作用都会导致感染,但这种相互作用在引发感染过程中起着重要作用。识别使寄生虫能够感染其宿主的蛋白质 - 蛋白质相互作用(PPI)对于发现潜在的药物靶点具有重要意义。此类PPI一旦改变,将阻止宿主被寄生虫感染,在某些情况下,会导致寄生虫无法完成其生命周期的特定阶段,并最终导致此类寄生虫死亡。因此,了解作为大多数传染病主要病因的宿主 - 寄生虫相互作用的机制变得至关重要。
目的
文献中已经进行了许多预测HPPI的研究,大多使用计算方法,实验方法较少。计算方法已被证明在处理和分析实际数据方面更快、更有效。本研究着眼于文献中用于宿主 - 寄生虫/种间蛋白质 - 蛋白质相互作用预测的各种计算方法,以期更好地了解所使用的计算方法,并确定机器学习方法是否已被广泛用于同一目的。
方法
回顾了宿主 - 寄生虫蛋白相互作用所涉及的各种方法及其各自的优势。对进行宿主 - 寄生虫/种间蛋白质相互作用预测的研究进行了列表整理,分析了它们的预测方法、所使用的筛选器、在这些研究中发现的潜在蛋白质 - 蛋白质相互作用以及视情况而定所使用的各种验证测量方法。突出显示了此类研究常用的测量指标,并展示了各种公式。最后,提出了针对人类 - 恶性疟原虫PPI预测的特定研究的未来前景。
结果
我们发现,与序列同源性搜索、蛋白质结构以及结构域 - 基序等方法相比,在所回顾的研究中,有不少研究采用了机器学习方法进行HPPI预测。HPPI预测中一个显著的关键挑战是获取相关信息。
结论
本综述提供了关于该主题的有用知识和未来方向。
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