Probabilistic cell typing enables fine mapping of closely related cell types in situ.

IF: 47.990

Cited by: 100

Abstract

Understanding the function of a tissue requires knowing the spatial organization of its constituent cell types. In the cerebral cortex, single-cell RNA sequencing (scRNA-seq) has revealed the genome-wide expression patterns that define its many, closely related neuronal types, but cannot reveal their spatial arrangement. Here we introduce probabilistic cell typing by in situ sequencing (pciSeq), an approach that leverages previous scRNA-seq classification to identify cell types using multiplexed in situ RNA detection. We applied this method by mapping the inhibitory neurons of mouse hippocampal area CA1, for which ground truth is available from extensive previous work identifying their laminar organization. Our method identified these neuronal classes in a spatial arrangement matching ground truth, and further identified multiple classes of isocortical pyramidal cell in a pattern matching their known organization. This method will allow identifying the spatial organization of closely related cell types across the brain and other tissues.

Keywords

Gene Expression

pciSeq

ISS

MeSH terms

Algorithms

Animals

CA1 Region, Hippocampal

Gene Expression Profiling

Male

Mice

Models, Statistical

Neocortex

Neurons

Pyramidal Cells

Sequence Analysis, RNA

Single-Cell Analysis

Authors

Qian, Xiaoyan

Harris, Kenneth D

Hauling, Thomas

Nicoloutsopoulos, Dimitris

Muñoz-Manchado, Ana B

Skene, Nathan

Hjerling-Leffler, Jens

Nilsson, Mats

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