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Evolve and resequencing (E&R) was applied to lab adaptation of Toxoplasma gondii for over 1,500 generations with the goal of mapping host-independent virulence traits. Phenotypic assessments of steps across the lytic cycle revealed that only traits needed in the extracellular milieu evolved. Nonsynonymous single-nucleotide polymorphisms (SNPs) in only one gene, a P4 flippase, fixated across two different evolving populations, whereas dramatic changes in the transcriptional signature of extracellular parasites were identified. Newly developed computational tools correlated phenotypes evolving at different rates with specific transcriptomic changes. A set of 300 phenotype-associated genes was mapped, of which nearly 50% is annotated as hypothetical. Validation of a select number of genes by knockouts confirmed their role in lab adaptation and highlights novel mechanisms underlying virulence traits. Further analyses of differentially expressed genes revealed the development of a "pro-tachyzoite" profile as well as the upregulation of the fatty acid biosynthesis (FASII) pathway. The latter aligned with the P4 flippase SNP and aligned with a low abundance of medium-chain fatty acids at low passage, indicating this is a limiting factor in extracellular parasites. In addition, partial overlap with the bradyzoite differentiation transcriptome in extracellular parasites indicated that stress pathways are involved in both situations. This was reflected in the partial overlap between the assembled ApiAP2 and Myb transcription factor network underlying the adapting extracellular state with the bradyzoite differentiation program. Overall, E&R is a new genomic tool successfully applied to map the development of polygenic traits underlying virulence of T. gondii. It has been well established that prolonged cultivation of Toxoplasma gondii augments progression of the lytic cycle. This lab adaptation results in increased capacities to divide, migrate, and survive outside a host cell, all of which are considered host-independent virulence factors. However, the mechanistic basis underlying these enhanced virulence features is unknown. Here, E&R was utilized to empirically characterize the phenotypic, genomic, and transcriptomic changes in the non-lab-adapted strain, GT1, during 2.5 years of lab adaptation. This identified the shutdown of stage differentiation and upregulation of lipid biosynthetic pathways as the key processes being modulated. Furthermore, lab adaptation was primarily driven by transcriptional reprogramming, which rejected the starting hypothesis that genetic mutations would drive lab adaptation. Overall, the work empirically shows that lab adaptation augments T. gondii's virulence by transcriptional reprogramming and that E&R is a powerful new tool to map multigenic traits.

进化与重测序（E&R）技术被应用于刚地弓形虫的实验室适应性研究，历经1500多代，目的是绘制与宿主无关的毒力性状图谱。对整个裂解周期各阶段的表型评估显示，只有细胞外环境中所需的性状发生了进化。在两个不同的进化群体中，只有一个基因（一种P4翻转酶）中的非同义单核苷酸多态性（SNP）固定下来，而细胞外寄生虫的转录特征则发生了显著变化。新开发的计算工具将以不同速率进化的表型与特定的转录组变化关联起来。绘制了一组300个与表型相关的基因，其中近50%被注释为假设基因。通过基因敲除对选定的一些基因进行验证，证实了它们在实验室适应性中的作用，并突出了毒力性状背后的新机制。对差异表达基因的进一步分析揭示了“速殖子前体”特征的发展以及脂肪酸生物合成（FASII）途径的上调。后者与P4翻转酶SNP一致，且与低传代时中链脂肪酸的低丰度一致，表明这是细胞外寄生虫中的一个限制因素。此外，细胞外寄生虫中与缓殖子分化转录组的部分重叠表明应激途径在这两种情况下都有涉及。这反映在适应细胞外状态的组装的ApiAP2和Myb转录因子网络与缓殖子分化程序之间的部分重叠上。总体而言，E&R是一种新的基因组工具，已成功应用于绘制刚地弓形虫毒力多基因性状的发展图谱。

已经充分证实，刚地弓形虫的长期培养会加速裂解周期的进程。这种实验室适应性导致其在宿主细胞外分裂、迁移和存活的能力增强，所有这些都被视为与宿主无关的毒力因子。然而，这些增强的毒力特征背后的机制尚不清楚。在此，利用E&R技术对非实验室适应菌株GT1在2.5年实验室适应过程中的表型、基因组和转录组变化进行了实证研究。这确定了阶段分化的停止和脂质生物合成途径的上调是被调节的关键过程。此外，实验室适应性主要由转录重编程驱动，这否定了基因突变会驱动实验室适应性的初始假设。总体而言，这项工作实证表明，实验室适应性通过转录重编程增强了刚地弓形虫的毒力，并且E&R是绘制多基因性状的强大新工具。