Barcode sequencing and a high-throughput assay for chronological lifespan uncover ageing-associated genes in fission yeast

IF 4.1 3区 生物学 Q2 CELL BIOLOGY Microbial Cell Pub Date : 2021-03-04 DOI:10.1101/2021.03.04.433786
Catalina-Andreea Romila, StJohn Townsend, M. Malecki, S. Kamrad, María Rodríguez-López, Olivia Hillson, Cristina Cotobal, M. Ralser, J. Bähler
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引用次数: 10

Abstract

Ageing-related processes are largely conserved, with simple organisms remaining the main platform to discover and dissect new ageing-associated genes. Yeasts provide potent model systems to study cellular ageing owing their amenability to systematic functional assays under controlled conditions. Even with yeast cells, however, ageing assays can be laborious and resource-intensive. Here we present improved experimental and computational methods to study chronological lifespan in Schizosaccharomyces pombe. We decoded the barcodes for 3206 mutants of the latest gene-deletion library, enabling the parallel profiling of ∼700 additional mutants compared to previous screens. We then applied a refined method of barcode sequencing (Bar-seq), addressing technical and statistical issues raised by persisting DNA in dead cells and sampling bottlenecks in aged cultures, to screen for mutants showing altered lifespan during stationary phase. This screen identified 341 long-lived mutants and 1246 short-lived mutants which point to many previously unknown ageing-associated genes, including 51 conserved but entirely uncharacterized genes. The ageing-associated genes showed coherent enrichments in processes also associated with human ageing, particularly with respect to ageing in non-proliferative brain cells. We also developed an automated colony-forming unit assay for chronological lifespan to facilitate medium- to high-throughput ageing studies by saving time and resources compared to the traditional assay. Results from the Bar-seq screen showed good agreement with this new assay, validating 33 genes not previously associated with cellular ageing. This study provides an effective methodological platform and identifies many new ageing-associated genes as a framework for analysing cellular ageing in yeast and beyond.
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条形码测序和高通量测定时间顺序寿命揭示老化相关基因在裂变酵母
与衰老相关的过程在很大程度上是保守的,简单的生物体仍然是发现和剖析新的衰老相关基因的主要平台。酵母为研究细胞衰老提供了强有力的模型系统,因为它们可以在受控条件下进行系统的功能测定。然而,即使使用酵母细胞,老化测定也可能是费力和资源密集的。在这里,我们提出了改进的实验和计算方法来研究pombe裂殖酵母的时间寿命。我们解码了最新基因缺失文库的3206个突变体的条形码,与之前的筛选相比,我们能够对大约700个额外的突变体进行平行分析。然后,我们应用了一种改进的条形码测序方法(Bar-seq),解决了死细胞中DNA的持续存在和老化培养物中的采样瓶颈所带来的技术和统计问题,以筛选在固定期寿命改变的突变体。该筛选鉴定了341个长寿突变体和1246个短命突变体,这些突变体指向许多以前未知的衰老相关基因,包括51个保守但完全不具特征的基因。衰老相关基因在与人类衰老相关的过程中表现出一致的富集,特别是在非增殖性脑细胞的衰老方面。我们还开发了一种按时间顺序使用寿命的自动集落形成单元测定法,通过与传统测定法相比节省时间和资源,促进中高通量老化研究。Bar-seq筛选的结果显示与这一新的测定结果非常一致,验证了33个以前与细胞衰老无关的基因。这项研究提供了一个有效的方法学平台,并确定了许多新的衰老相关基因,作为分析酵母及其他细胞衰老的框架。
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来源期刊
Microbial Cell
Microbial Cell Multiple-
CiteScore
6.40
自引率
0.00%
发文量
32
审稿时长
12 weeks
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