用于绘制小鼠大脑衰老图谱的无光学空间基因组学技术

bioRxiv Pub Date : 2024-08-08 DOI:10.1101/2024.08.06.606712
Abdulraouf Abdulraouf, Weirong Jiang, Zihan Xu, Zehao Zhang, Samuel Isakov, Tanvir Raihan, Wei Zhou, Junyue Cao
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引用次数: 0

摘要

空间转录组学通过绘制不同解剖位置的分子和细胞组织图,彻底改变了我们对衰老和疾病中细胞网络动态的理解。尽管取得了这些进展,但目前的方法在通量和成本方面仍面临巨大挑战,限制了它们在综合研究中的应用。为了解决这些局限性,我们推出了 IRISeq(使用索引测序的成像重建),这是一种无光学器件的空间转录组学平台,无需预定义的捕获阵列或大量成像,可同时快速、经济高效地处理多个组织切片。它能仅根据局部 DNA 相互作用的测序结果重建图像,因此可以不受尺寸限制地对不同分辨率的组织进行分析。应用 IRISeq,我们检测了成年小鼠和老年小鼠 30 个脑区的基因表达和细胞动态,发现了与衰老相关的特定区域基因表达变化。以细胞类型为中心的进一步分析进一步确定了与年龄相关的细胞亚型和细胞相互作用的复杂变化,这些变化与特定的空间壁龛不同,强调了不同脑区衰老的独特方面。IRISeq 价格低廉、操作简单,是绘制各种生物系统中特定区域基因表达和细胞相互作用图谱的多功能工具。一句话总结:IRISeq 是一种创新的免光学空间转录组学方法,它揭示了大脑衰老过程中与衰老相关的空间基因表达和病灶细胞相互作用的变化。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Optics-free Spatial Genomics for Mapping Mouse Brain Aging
Spatial transcriptomics has revolutionized our understanding of cellular network dynamics in aging and disease by enabling the mapping of molecular and cellular organization across various anatomical locations. Despite these advances, current methods face significant challenges in throughput and cost, limiting their utility for comprehensive studies. To address these limitations, we introduce IRISeq (Imaging Reconstruction using Indexed Sequencing), a optics-free spatial transcriptomics platform that eliminates the need for predefined capture arrays or extensive imaging, allowing for the rapid and cost-effective processing of multiple tissue sections simultaneously. Its capacity to reconstruct images based solely on sequencing local DNA interactions allows for profiling of tissues without size constraints and across varied resolutions. Applying IRISeq, we examined gene expression and cellular dynamics in thirty brain regions of both adult and aged mice, uncovering region-specific changes in gene expression associated with aging. Further cell type-centric analysis further identified age-related cell subtypes and intricate changes in cell interactions that are distinct to certain spatial niches, emphasizing the unique aspects of aging in different brain regions. The affordability and simplicity of IRISeq position it as a versatile tool for mapping region-specific gene expression and cellular interactions across various biological systems. One Sentence Summary: IRISeq, an innovative optics-free spatial transcriptomics method, uncovers aging-related changes in spatial gene expression and focal cell interactions in brain aging.
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