High-Spatial-Resolution Multi-Omics Sequencing via Deterministic Barcoding in Tissue.

IF: 66.850

Cited by: 322

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Abstract

We present deterministic barcoding in tissue for spatial omics sequencing (DBiT-seq) for co-mapping of mRNAs and proteins in a formaldehyde-fixed tissue slide via next-generation sequencing (NGS). Parallel microfluidic channels were used to deliver DNA barcodes to the surface of a tissue slide, and crossflow of two sets of barcodes, A1-50 and B1-50, followed by ligation in situ, yielded a 2D mosaic of tissue pixels, each containing a unique full barcode AB. Application to mouse embryos revealed major tissue types in early organogenesis as well as fine features like microvasculature in a brain and pigmented epithelium in an eye field. Gene expression profiles in 10-μm pixels conformed into the clusters of single-cell transcriptomes, allowing for rapid identification of cell types and spatial distributions. DBiT-seq can be adopted by researchers with no experience in microfluidics and may find applications in a range of fields including developmental biology, cancer biology, neuroscience, and clinical pathology.

Keywords

Spatial Omics

DBiT-seq

SM-Omics

Spatial Gene Expression

high spatial resolution

in situ barcoding

mouse embryo

next-generation sequencing

spatial multi-omics

MeSH terms

Animals

Automation

Brain

Cluster Analysis

DNA Barcoding, Taxonomic

DNA, Complementary

Embryo, Mammalian

Eye

Female

Gene Expression Regulation, Developmental

Genomics

Human Umbilical Vein Endothelial Cells

Humans

Mice, Inbred C57BL

Microfluidics

Organ Specificity

RNA, Messenger

Reproducibility of Results

Single-Cell Analysis

Transcriptome

Authors

Liu, Yang

Yang, Mingyu

Deng, Yanxiang

Su, Graham

Enninful, Archibald

Guo, Cindy C

Tebaldi, Toma

Zhang, Di

Kim, Dongjoo

Bai, Zhiliang

Norris, Eileen

Pan, Alisia

Li, Jiatong

Xiao, Yang

Halene, Stephanie

Fan, Rong

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