A Comparative In Silico Study of the Antioxidant Defense Gene Repertoire of Distinct Lifestyle Trypanosomatid Species

Evolutionary Bioinformatics Online Pub Date : 2016-01-01 DOI:10.4137/EBO.S40648

I. T. Beltrame-Botelho, C. Talavera-López, B. Andersson, E. Grisard, P. H. Stoco

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引用次数: 7

Abstract

Kinetoplastids are an ancestral group of protists that contains free-living species and parasites with distinct mechanisms in response to stress. Here, we compared genes involved in antioxidant defense (AD), proposing an evolution model among trypanosomatids. All genes were identified in Bodo saltans, suggesting that AD mechanisms have evolved prior to adaptation for parasitic lifestyles. While most of the monoxenous and dixenous parasites revealed minor differences from B. saltans, the endosymbiont-bearing species have an increased number of genes. The absence of these genes was mainly observed in the extracellular parasites of the genera Phytomonas and Trypanosoma. In trypanosomes, a distinction was observed between stercorarian and salivarian parasites, except for Trypanosoma rangeli. Our analyses indicate that the variability of AD among trypanosomatids at the genomic level is not solely due to the geographical isolation, being mainly related to specific adaptations of their distinct biological cycles within insect vectors and to a parasitism of a wide range of hosts.

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不同生活方式锥虫种抗氧化防御基因库的计算机对比研究

着丝质体是原生生物的一个祖先群，其中包含自由生活的物种和寄生虫，它们对压力的反应机制不同。在这里，我们比较了参与抗氧化防御(AD)的基因，提出了一种锥虫的进化模型。所有基因都在Bodo saltans中被鉴定出来，这表明AD机制在适应寄生生活方式之前就已经进化了。虽然大多数单、双源寄生虫与萨尔坦双球菌存在微小差异，但内共生物种的基因数量有所增加。这些基因的缺失主要见于植物单胞菌属和锥虫属的细胞外寄生虫。在锥虫中，除了兰氏锥虫外，还观察到粪虫和唾液寄生虫的区别。我们的分析表明，锥虫病在基因组水平上的可变性不仅仅是由于地理隔离，主要与它们在昆虫媒介中独特的生物周期的特定适应以及对广泛宿主的寄生有关。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Evolutionary Bioinformatics Online

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