Transcription factor motif activity as a biomarker of muscle aging

Anastasiya Börsch, M. Zavolan
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引用次数: 1

Abstract

In prior work, we analyzed gene expression profiles of mouse, rat and human gastrocnemius muscles to identify conserved regulators of muscle aging processes. By further comparing data obtained from different muscles we found stronger conservation of aging-related factors at the level of molecular pathways than at the level of individual genes. Here we compared the predictive power of models based on gene expression levels and those based on transcription factor motif activities for an individual’s age. Although somewhat less accurate than models based on gene expression, models based on motif activities achieve good prediction of muscle age, further providing insights into aging-related molecular pathways.
转录因子基序活性作为肌肉衰老的生物标志物
在之前的工作中,我们分析了小鼠、大鼠和人类腓肠肌的基因表达谱,以确定肌肉衰老过程的保守调节因子。通过进一步比较从不同肌肉中获得的数据,我们发现与衰老相关的因素在分子途径水平上比在个体基因水平上的保存更强。在这里,我们比较了基于基因表达水平的模型和基于转录因子基序活性的模型对个体年龄的预测能力。尽管与基于基因表达的模型相比,基于基序活性的模型的准确性略低,但基于基序活性的模型可以很好地预测肌肉年龄,从而进一步深入了解与衰老相关的分子途径。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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