感染人类的物种的全基因组靶向富集与测序
WHOLE GENOME TARGETED ENRICHMENT AND SEQUENCING OF HUMAN-INFECTING spp.
作者信息
Bayona-Vásquez N J, Sullivan A H, Beaudry M S, Khan A, Baptista R P, Petersen K N, Bhuiyan Miu, Brunelle B, Robinson G, Chalmers R M, Alves-Ferreira Evc, Grigg M E, Kissinger J C, Glenn T C
机构信息
Division of Natural Science and Mathematics, Oxford College of Emory University, Oxford, GA, 30054, USA.
Department of Environmental Health Science, College of Public Health, University of Georgia, Athens, GA, 30602, USA.
出版信息
Res Sq. 2024 May 17:rs.3.rs-4294842. doi: 10.21203/rs.3.rs-4294842/v1.
spp. are protozoan parasites that cause severe illness in vulnerable human populations. Obtaining pure DNA from clinical and environmental samples is challenging because the oocysts shed in contaminated feces are limited in quantity, difficult to purify efficiently, may derive from multiple species, and yield limited DNA (<40 fg/oocyst). Here, we develop and validate a set of 100,000 RNA baits (CryptoCap_100k) based on six human-infecting spp. (, , , , , and ) to enrich spp. DNA from a wide array of samples. We demonstrate that CryptoCap_100k increases the percentage of reads mapping to target references in a wide variety of scenarios, increasing the depth and breadth of genome coverage, facilitating increased accuracy of detecting and analyzing species within a given sample, while simultaneously decreasing costs, thereby opening new opportunities to understand the complex biology of these important pathogens.
某些物种是原生动物寄生虫,会在易感染人群中引发严重疾病。从临床和环境样本中获取纯净的DNA具有挑战性,因为受污染粪便中排出的卵囊数量有限,难以高效纯化,可能来自多个物种,并且产生的DNA量有限(每个卵囊<40 fg)。在此,我们基于六种感染人类的某些物种(具体物种名称未给出)开发并验证了一组10万个RNA诱饵(CryptoCap_100k),以从各种样本中富集某些物种的DNA。我们证明,在各种情况下,CryptoCap_100k都能提高映射到目标参考序列的读数百分比,增加基因组覆盖的深度和广度,有助于提高给定样本中物种检测和分析的准确性,同时降低成本,从而为了解这些重要病原体的复杂生物学特性带来新机遇。
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