一个新的实验平台促进了对衰老酵母转录组和染色质组的评估。

A new experimental platform facilitates assessment of the transcriptional and chromatin landscapes of aging yeast.

机构信息

Calico Life Sciences LLC, South San Francisco, United States.

出版信息

Elife. 2018 Oct 19;7:e39911. doi: 10.7554/eLife.39911.

DOI:10.7554/eLife.39911

PMID:30334737

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6261268/

Abstract

Replicative aging of is an established model system for eukaryotic cellular aging. A limitation in yeast lifespan studies has been the difficulty of separating old cells from young cells in large quantities. We engineered a new platform, the Miniature-chemostat Aging Device (MAD), that enables purification of aged cells at sufficient quantities for genomic and biochemical characterization of aging yeast populations. Using MAD, we measured DNA accessibility and gene expression changes in aging cells. Our data highlight an intimate connection between aging, growth rate, and stress. Stress-independent genes that change with age are highly enriched for targets of the signal recognition particle (SRP). Combining MAD with an improved ATAC-seq method, we find that increasing proteasome activity reduces rDNA instability usually observed in aging cells and, contrary to published findings, provide evidence that global nucleosome occupancy does not change significantly with age.

摘要

是一种已建立的真核细胞衰老模型系统。酵母寿命研究的一个限制因素是难以大量分离老细胞和年轻细胞。我们设计了一个新的平台，即微型恒化器衰老装置（MAD），它可以纯化足够数量的衰老细胞，用于基因组和生物化学特征分析衰老酵母群体。使用 MAD，我们测量了衰老细胞中 DNA 可及性和基因表达变化。我们的数据突出了衰老、生长速度和应激之间的密切联系。与年龄相关的变化的与应激无关的基因，高度富集信号识别颗粒（SRP）的靶标。将 MAD 与改进的 ATAC-seq 方法相结合，我们发现增加蛋白酶体活性可减少衰老细胞中通常观察到的 rDNA 不稳定性，与已发表的研究结果相反，提供了证据表明，全局核小体占有率随年龄变化不显著。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/682f/6261268/33cc985de6bb/elife-39911-fig1.jpg

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一个新的实验平台促进了对衰老酵母转录组和染色质组的评估。

A new experimental platform facilitates assessment of the transcriptional and chromatin landscapes of aging yeast.

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