Chromosome-scale genome of the human blood fluke Schistosoma mekongi and its implications for public health.

IF 8.1 1区 医学
Minyu Zhou, Lian Xu, Dahua Xu, Wen Chen, Jehangir Khan, Yue Hu, Hui Huang, Hang Wei, Yiqing Zhang, Phiraphol Chusongsang, Kanthi Tanasarnprasert, Xiang Hu, Yanin Limpanont, Zhiyue Lv
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引用次数: 0

Abstract

Background: Schistosoma mekongi is a human blood fluke causing schistosomiasis that threatens approximately 1.5 million humans in the world. Nonetheless, the limited available S. mekongi genomic resources have hindered understanding of its biology and parasite-host interactions for disease management and pathogen control. The aim of our study was to integrate multiple technologies to construct a high-quality chromosome-level assembly of the S. mekongi genome.

Methods: The reference genome for S. mekongi was generated through integrating Illumina, PacBio sequencing, 10 × Genomics linked-read sequencing, and high-throughput chromosome conformation capture (Hi-C) methods. In this study, we conducted de novo assembly, alignment, and gene prediction to assemble and annotate the genome. Comparative genomics allowed us to compare genomes across different species, shedding light on conserved regions and evolutionary relationships. Additionally, our transcriptomic analysis focused on genes associated with parasite-snail interactions in S. mekongi infection. We employed gene ontology (GO) enrichment analysis for functional annotation of these genes.

Results: In the present study, the S. mekongi genome was both assembled into 8 pseudochromosomes with a length of 404 Mb, with contig N50 and scaffold N50 lengths of 1168 kb and 46,759 kb, respectively. We detected that 43% of the genome consists of repeat sequences and predicted 9103 protein-coding genes. We also focused on proteases, particularly leishmanolysin-like metalloproteases (M8), which are crucial in the invasion of hosts by 12 flatworm species. Through phylogenetic analysis, it was discovered that the M8 gene exhibits lineage-specific amplification among the genus Schistosoma. Lineage-specific expansion of M8 was observed in blood flukes. Additionally, the results of the RNA-seq revealed that a mass of genes related to metabolic and biosynthetic processes were up-regulated, which might be beneficial for cercaria production.

Conclusions: This study delivers a high-quality, chromosome-scale reference genome of S. mekongi, enhancing our understanding of the divergence and evolution of Schistosoma. The molecular research conducted here also plays a pivotal role in drug discovery and vaccine development. Furthermore, our work greatly advances the understanding of host-parasite interactions, providing crucial insights for schistosomiasis intervention strategies.

人血吸虫血吸虫染色体尺度基因组及其对公共卫生的意义。
背景:米孔血吸虫是一种引起血吸虫病的人血吸虫,威胁着全世界约150万人。然而,有限的湄孔假丝酵母菌基因组资源阻碍了对其生物学和寄生虫-宿主相互作用的理解,不利于疾病管理和病原体控制。本研究的目的是整合多种技术,构建高质量的湄孔蝇基因组染色体水平组装。方法:整合Illumina、PacBio测序、10 × Genomics linked-read测序和高通量染色体构象捕获(high-throughput chromosome构象捕获,Hi-C)等方法,构建mekongi参比基因组。在这项研究中,我们进行了从头组装、比对和基因预测来组装和注释基因组。比较基因组学使我们能够比较不同物种的基因组,揭示保守区域和进化关系。此外,我们的转录组学分析侧重于与血吸虫感染中寄生虫-蜗牛相互作用相关的基因。我们使用基因本体(GO)富集分析对这些基因进行功能注释。结果:在本研究中,湄孔线虫基因组均组装成8条假染色体,长度为404 Mb,其中contig N50和scaffold N50长度分别为1168 kb和46,759 kb。我们检测到43%的基因组由重复序列组成,并预测了9103个蛋白质编码基因。我们还关注了蛋白酶,特别是利什曼溶素样金属蛋白酶(M8),它在12种扁虫入侵宿主中起着至关重要的作用。通过系统发育分析,发现M8基因在血吸虫属中表现出谱系特异性扩增。在血吸虫中观察到M8的谱系特异性扩增。此外,RNA-seq结果显示,大量与代谢和生物合成过程相关的基因被上调,这可能有利于尾蚴的产生。结论:本研究提供了一个高质量的、染色体尺度的湄孔血吸虫参考基因组,增强了我们对血吸虫分化和进化的认识。在这里进行的分子研究在药物发现和疫苗开发中也起着关键作用。此外,我们的工作极大地促进了对宿主-寄生虫相互作用的理解,为血吸虫病的干预策略提供了重要的见解。
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来源期刊
Infectious Diseases of Poverty
Infectious Diseases of Poverty INFECTIOUS DISEASES-
自引率
1.20%
发文量
368
期刊介绍: Infectious Diseases of Poverty is an open access, peer-reviewed journal that focuses on addressing essential public health questions related to infectious diseases of poverty. The journal covers a wide range of topics including the biology of pathogens and vectors, diagnosis and detection, treatment and case management, epidemiology and modeling, zoonotic hosts and animal reservoirs, control strategies and implementation, new technologies and application. It also considers the transdisciplinary or multisectoral effects on health systems, ecohealth, environmental management, and innovative technology. The journal aims to identify and assess research and information gaps that hinder progress towards new interventions for public health problems in the developing world. Additionally, it provides a platform for discussing these issues to advance research and evidence building for improved public health interventions in poor settings.
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