通过深度测序推断天然微生物分离物混合培养物的组成

Mark Samuel Voorhies, Bastian Joehnk, Jessie Uehling, Keith Walcott, Claire Dubin, Heather Mead, Christina Homer, John Galgiani, Bridget Barker, Rachel Brem, Anita Sil
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引用次数: 0

摘要

新一代测序技术为微生物种群提供了大量基因型信息,但表型分析仍然是利用这些信息的瓶颈,尤其是对于难以操作的病原体。在这里,我们建立了一种对混合培养物进行高通量表型分析的方法,其中每个分离物中天然存在的单核苷酸多态性模式被用作内在条形码,可通过测序读出。我们证明,我们的方法可以在模拟混合菌株池中正确地分辨菌株比例。为了对我们的方法进行实验测试,我们对 66 个天然分离的热二态致病真菌 Coccidioides posadasii 进行了全基因组测序,并推断了这些菌株在 37 摄氏度和室温下竞争后的大型混合菌株池的菌株组成。我们在较小的菌种池中重现了温度特异性富集结果,从而验证了这些选择实验的结果。此外,我们还证明了用我们的方法估算出的菌株适合度可作为全基因组关联研究的定量性状。我们预计,我们的方法将广泛适用于微生物自然种群,并使高通量表型分析与基因组数据获取速度相匹配。
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Inferring the composition of a mixed culture of natural microbial isolates by deep sequencing
Next generation sequencing has unlocked a wealth of genotype information for microbial populations, but phenotyping remains a bottleneck for exploiting this information, particularly for pathogens that are difficult to manipulate. Here, we establish a method for high-throughput phenotyping of mixed cultures, in which the pattern of naturally occurring single-nucleotide polymorphisms in each isolate is used as intrinsic barcodes which can be read out by sequencing. We demonstrate that our method can correctly deconvolute strain proportions in simulated mixed-strain pools. As an experimental test of our method, we perform whole genome sequencing of 66 natural isolates of the thermally dimorphic pathogenic fungus Coccidioides posadasii and infer the strain compositions for large mixed pools of these strains after competition at 37 deg C and room temperature. We validate the results of these selection experiments by recapitulating the temperature-specific enrichment results in smaller pools. Additionally, we demonstrate that strain fitness estimated by our method can be used as a quantitative trait for genome-wide association studies. We anticipate that our method will be broadly applicable to natural populations of microbes and allow high-throughput phenotyping to match the rate of genomic data acquisition.
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