基因的进化年龄有助于基因组挖掘

IF 0.2 4区 生物学 Q4 BIOLOGY Periodicum Biologorum Pub Date : 2020-12-30 DOI:10.18054/PB.V121-122I1-2.10737
I. Mijakovic
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引用次数: 1

摘要

微生物基因组测序的速度正在加快,希望能发现新的抗生素、治疗各种疾病的方法或新的工业酶。然而,在测序的微生物基因组中,约有25-30%的基因没有指定的功能。预测这些“未知”基因的功能可以为生物医学和生物技术的应用解锁相当大的生物学潜力,并进一步加深我们对生命分子原理的理解。目前的基因挖掘方法基本上依赖于初级序列或3d结构与已表征基因的比较。这种方法的问题是,与已经确定的基因没有同源性的未知基因仍然完全无法达到。在此,我认为进化方法,如基因组系统地层学,可以对基因组挖掘做出实质性的贡献-特别是对于与特征基因没有同源性的基因。我的小组最近使用基因组系统地层学发现了与细菌模式生物枯草芽孢杆菌的孢子形成有关的新基因。这些新的产孢基因与已知的产孢基因没有序列同源性,是所有其他基因组挖掘方法所遗漏的。它们的发现仅仅是基于它们的进化年龄。沿着这些思路,我认为系统地层学应该整合到基因组挖掘管道中,并开发一个简单的例子来说明如何做到这一点。
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Evolutionary age of genes can assist in genome mining
The rate of sequencing microbial genomes is accelerating, with the hope of discovering new antibiotics, cures for various diseases or new industrial en-zymes. However, about 25-30% of the genes in the sequenced microbial genomes do not have an assigned function. Predicting the functions of these “unknown” genes could unlock a considerable biological potential for biomedical and biotechnology applications, as well as further our understanding of the molecular tenets of life. Current methods for gene mining rely basically on comparison of primary sequences or 3D-structures to those of already characterized genes. The problem with such approaches is that unknown genes with no homology to the already characterized genes remain completely out of reach. Herein, I argue that evolutionary approaches, such as the genomic phylostratigraphy, can make a substantial contribution to genome mining – especially regarding genes with no homology to the characterized ones. My group has recently used genomic phylostratigraphy to discover new genes involved in sporulation of the bacterial model organism Bacillus subtilis . These new sporulation genes exhibited no sequence homology with the known sporulation genes and were missed by all other genome mining approaches. They have been discovered solely based on their evolutionary age. Along these lines, I argue that phylostratigraphy should be integrated into genome mining pipelines and develop a brief example of how this could be done .
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来源期刊
Periodicum Biologorum
Periodicum Biologorum 生物-生物学
CiteScore
0.80
自引率
0.00%
发文量
16
审稿时长
6-12 weeks
期刊介绍: This journal provides immediate open access to its content on the principle that making research freely available to the public supports a greater global exchange of knowledge.
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