Litcius/Paper detail

An improved bacterial single-cell RNA-seq reveals biofilm heterogeneity

Xiaodan Yan, Hebin Liao, Chenyi Wang, Chunming Huang, Wei Zhang, Chunming Guo, Yingying Pu

2024eLife13 citationsDOIOpen Access PDF

Abstract

In contrast to mammalian cells, bacterial cells lack mRNA polyadenylated tails, presenting a hurdle in isolating mRNA amidst the prevalent rRNA during single-cell RNA-seq. This study introduces a novel method, ribosomal RNA-derived cDNA depletion (RiboD), seamlessly integrated into the PETRI-seq technique, yielding RiboD-PETRI. This innovative approach offers a cost-effective, equipment-free, and high-throughput solution for bacterial single-cell RNA sequencing (scRNA-seq). By efficiently eliminating rRNA reads and substantially enhancing mRNA detection rates (up to 92%), our method enables precise exploration of bacterial population heterogeneity. Applying RiboD-PETRI to investigate biofilm heterogeneity, distinctive subpopulations marked by unique genes within biofilms were successfully identified. Notably, PdeI, a marker for the cell-surface attachment subpopulation, was observed to elevate cyclic diguanylate (c-di-GMP) levels, promoting persister cell formation. Thus, we address a persistent challenge in bacterial single-cell RNA-seq regarding rRNA abundance, exemplifying the utility of this method in exploring biofilm heterogeneity. Our method effectively tackles a long-standing issue in bacterial scRNA-seq: the overwhelming abundance of rRNA. This advancement significantly enhances our ability to investigate the intricate heterogeneity within biofilms at unprecedented resolution.

Topics & Concepts

BiofilmBiologyRibosomal RNARNAComputational biologySingle-cell analysisPopulationRNA-SeqCellPetri dishTranscriptomeGeneCell biologyGene expressionGeneticsBacteriaDemographySociologySingle-cell and spatial transcriptomicsMicrobial Community Ecology and PhysiologyGut microbiota and health