曼氏血吸虫的氨基酸利用和蛋白质表达水平

IF 1.4 4区医学 Q4 BIOCHEMISTRY & MOLECULAR BIOLOGY

Molecular and biochemical parasitology Pub Date : 2023-09-01 DOI:10.1016/j.molbiopara.2023.111581

Guillermo Lamolle , Andrés Iriarte , Diego Simón , Héctor Musto

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引用次数: 0

摘要

曼氏血吸虫病是一种寄生扁虫，可引起一种名为血吸虫病或血吸虫病的人类疾病。在基因组水平上，曼氏S.mansoni富含At，但具有一些成分异质性。事实上，它基因组的一些区域富含GC，主要位于染色体末端附近的区域。最近，我们发现，尽管对A/T末端密码子有强烈的偏见，但高表达基因倾向于使用富含GC的密码子。在这里，我们要解决以下问题：高表达序列的氨基酸频率是否有偏差？我们的分析表明，曼氏S.mansoni的这些序列，从细菌到人类，在核苷酸组成上都有很大的偏差。高表达基因倾向于使用富含GC的密码子（在第一和第二密码子位置），其编码能量上最便宜的氨基酸。因此，我们得出结论，氨基酸的使用，至少在高表达基因中，是由自然选择强烈决定的，以避免能量昂贵的残基。这是否是对曼索尼S.mansoni寄生生活方式的适应，目前尚不清楚，因为自由生活物种也有同样的模式。

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Amino acid usage and protein expression levels in the flatworm Schistosoma mansoni

Schistosoma mansoni is a parasitic flatworm that causes a human disease called schistosomiasis, or bilharzia. At the genomic level, S. mansoni is AT-rich, but has some compositional heterogeneity. Indeed, some regions of its genome are GC-rich, mainly in the regions located near the extreme ends of the chromosomes. Recently, we showed that, despite the strong bias towards A/T ending codons, highly expressed genes tend to use GC-rich codons. Here, we address the following question: are highly expressed sequences biased in their amino acid frequencies? Our analyses show that these sequences in S. mansoni, as in species ranging from bacteria to human, are strongly biased in nucleotide composition. Highly expressed genes tend to use GC-rich codons (in the first and second codon positions), which code the energetically cheapest amino acids. Therefore, we conclude that amino acid usage, at least in highly expressed genes, is strongly shaped by natural selection to avoid energetically expensive residues. Whether this is an adaptation to the parasitic way of life of S. mansoni, is unclear since the same pattern occurs in free-living species.

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来源期刊

Molecular and biochemical parasitology 医学-寄生虫学

CiteScore

2.90

自引率

0.00%

发文量

审稿时长

63 days

期刊介绍： The journal provides a medium for rapid publication of investigations of the molecular biology and biochemistry of parasitic protozoa and helminths and their interactions with both the definitive and intermediate host. The main subject areas covered are: • the structure, biosynthesis, degradation, properties and function of DNA, RNA, proteins, lipids, carbohydrates and small molecular-weight substances • intermediary metabolism and bioenergetics • drug target characterization and the mode of action of antiparasitic drugs • molecular and biochemical aspects of membrane structure and function • host-parasite relationships that focus on the parasite, particularly as related to specific parasite molecules. • analysis of genes and genome structure, function and expression • analysis of variation in parasite populations relevant to genetic exchange, pathogenesis, drug and vaccine target characterization, and drug resistance. • parasite protein trafficking, organelle biogenesis, and cellular structure especially with reference to the roles of specific molecules • parasite programmed cell death, development, and cell division at the molecular level.