一个具有空间分辨率的、针对出生后小鼠大脑的脑区和细胞类型特异性异构体图谱。

A spatially resolved brain region- and cell type-specific isoform atlas of the postnatal mouse brain.

机构信息

Brain and Mind Research Institute and Center for Neurogenetics, Weill Cornell Medicine, New York, NY, USA.

Center for Algorithmic Biotechnology, Institute of Translational Biomedicine, St. Petersburg State University, St Petersburg, Russia.

出版信息

Nat Commun. 2021 Jan 19;12(1):463. doi: 10.1038/s41467-020-20343-5.

DOI:10.1038/s41467-020-20343-5

PMID:33469025

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7815907/

Abstract

Splicing varies across brain regions, but the single-cell resolution of regional variation is unclear. We present a single-cell investigation of differential isoform expression (DIE) between brain regions using single-cell long-read sequencing in mouse hippocampus and prefrontal cortex in 45 cell types at postnatal day 7 ( www.isoformAtlas.com ). Isoform tests for DIE show better performance than exon tests. We detect hundreds of DIE events traceable to cell types, often corresponding to functionally distinct protein isoforms. Mostly, one cell type is responsible for brain-region specific DIE. However, for fewer genes, multiple cell types influence DIE. Thus, regional identity can, although rarely, override cell-type specificity. Cell types indigenous to one anatomic structure display distinctive DIE, e.g. the choroid plexus epithelium manifests distinct transcription-start-site usage. Spatial transcriptomics and long-read sequencing yield a spatially resolved splicing map. Our methods quantify isoform expression with cell-type and spatial resolution and it contributes to further our understanding of how the brain integrates molecular and cellular complexity.

摘要

剪接在脑区之间存在差异，但区域变化的单细胞分辨率尚不清楚。我们使用单细胞长读测序在小鼠海马体和前额叶皮层中，对出生后第 7 天的 45 种细胞类型进行了单细胞研究，探讨了脑区之间差异异构体表达（DIE）。与外显子测试相比，异构体测试在 DIE 中的表现更好。我们检测到数百个可追踪到细胞类型的 DIE 事件，这些事件通常对应于功能不同的蛋白质异构体。通常，一种细胞类型负责脑区特异性的 DIE。然而，对于少数基因，多种细胞类型影响 DIE。因此，区域特征虽然很少见，但可以覆盖细胞类型的特异性。起源于同一解剖结构的细胞类型表现出独特的 DIE，例如脉络丛上皮表现出不同的转录起始位点使用。空间转录组学和长读测序产生了一个空间分辨率的剪接图谱。我们的方法以细胞类型和空间分辨率定量异构体表达，并有助于进一步了解大脑如何整合分子和细胞复杂性。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/3cb8/7815907/d114b992d1cb/41467_2020_20343_Fig1_HTML.jpg

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一个具有空间分辨率的、针对出生后小鼠大脑的脑区和细胞类型特异性异构体图谱。

A spatially resolved brain region- and cell type-specific isoform atlas of the postnatal mouse brain.

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