Rapid Targeted Assembly of the Proteome Reveals Evolutionary Variation of GC Content in Avian Lice.

IF 2.3 Q3 BIOCHEMICAL RESEARCH METHODS Bioinformatics and Biology Insights Pub Date : 2024-06-09 eCollection Date: 2024-01-01 DOI:10.1177/11779322241257991
Avery R Grant, Kevin P Johnson, Edward L Stanley, James Baldwin-Brown, Stanislav Kolenčík, Julie M Allen
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Abstract

Nucleotide base composition plays an influential role in the molecular mechanisms involved in gene function, phenotype, and amino acid composition. GC content (proportion of guanine and cytosine in DNA sequences) shows a high level of variation within and among species. Many studies measure GC content in a small number of genes, which may not be representative of genome-wide GC variation. One challenge when assembling extensive genomic data sets for these studies is the significant amount of resources (monetary and computational) associated with data processing, and many bioinformatic tools have not been optimized for resource efficiency. Using a high-performance computing (HPC) cluster, we manipulated resources provided to the targeted gene assembly program, automated target restricted assembly method (aTRAM), to determine an optimum way to run the program to maximize resource use. Using our optimum assembly approach, we assembled and measured GC content of all of the protein-coding genes of a diverse group of parasitic feather lice. Of the 499 426 genes assembled across 57 species, feather lice were GC-poor (mean GC = 42.96%) with a significant amount of variation within and between species (GC range = 19.57%-73.33%). We found a significant correlation between GC content and standard deviation per taxon for overall GC and GC3, which could indicate selection for G and C nucleotides in some species. Phylogenetic signal of GC content was detected in both GC and GC3. This research provides a large-scale investigation of GC content in parasitic lice laying the foundation for understanding the basis of variation in base composition across species.

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蛋白质组的快速定向组装揭示了禽虱 GC 含量的进化变异。
核苷酸碱基组成在基因功能、表型和氨基酸组成的分子机制中发挥着重要作用。GC 含量(DNA 序列中鸟嘌呤和胞嘧啶的比例)在物种内部和物种之间存在很大差异。许多研究只测量了少数基因的 GC 含量,这可能无法代表整个基因组的 GC 变异。为这些研究收集大量基因组数据集时面临的一个挑战是,数据处理需要大量资源(资金和计算资源),而且许多生物信息工具尚未针对资源效率进行优化。利用高性能计算(HPC)集群,我们对提供给靶向基因组装程序--自动靶向限制组装法(aTRAM)--的资源进行了操作,以确定运行程序的最佳方式,从而最大限度地利用资源。利用最佳组装方法,我们组装并测量了一组不同寄生羽毛虱的所有蛋白质编码基因的 GC 含量。在 57 个物种的 499 426 个基因中,羽毛虱的 GC 含量较低(平均 GC = 42.96%),物种内部和物种之间的差异很大(GC 范围 = 19.57%-73.33%)。我们发现总 GC 和 GC3 的 GC 含量与每个分类群的标准偏差之间存在明显的相关性,这可能表明某些物种对 G 和 C 核苷酸进行了选择。在 GC 和 GC3 中都检测到了 GC 含量的系统发育信号。这项研究对寄生虱的 GC 含量进行了大规模调查,为了解不同物种碱基组成差异的基础奠定了基础。
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来源期刊
Bioinformatics and Biology Insights
Bioinformatics and Biology Insights BIOCHEMICAL RESEARCH METHODS-
CiteScore
6.80
自引率
1.70%
发文量
36
审稿时长
8 weeks
期刊介绍: Bioinformatics and Biology Insights is an open access, peer-reviewed journal that considers articles on bioinformatics methods and their applications which must pertain to biological insights. All papers should be easily amenable to biologists and as such help bridge the gap between theories and applications.
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