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A guiding role of the Arabidopsis circadian clock in cell differentiation revealed by time-series single-cell RNA sequencing

Kotaro Torii, Keisuke Inoue, Keita Bekki, Kazuya Haraguchi, Minoru Kubo, Yuki Kondo, Takamasa Suzuki, Akane Kubota, Kyohei Uemoto, Hanako Shimizu, Masato Saito, Hiroo Fukuda, Takashi Araki, Motomu Endo

2022Cell Reports28 citationsDOIOpen Access PDF

Abstract

Circadian rhythms and progression of cell differentiation are closely coupled in multicellular organisms. However, whether establishment of circadian rhythms regulates cell differentiation or vice versa has not been elucidated due to technical limitations. Here, we exploit high cell fate plasticity of plant cells to perform single-cell RNA sequencing during the entire process of cell differentiation. By analyzing reconstructed actual time series of the differentiation processes at single-cell resolution using a method we developed (PeakMatch), we find that the expression profile of clock genes is changed prior to cell differentiation, including induction of the clock gene LUX ARRYTHMO (LUX). ChIP sequencing analysis reveals that LUX induction in early differentiating cells directly targets genes involved in cell-cycle progression to regulate cell differentiation. Taken together, these results not only reveal a guiding role of the plant circadian clock in cell differentiation but also provide an approach for time-series analysis at single-cell resolution.

Topics & Concepts

BiologyMulticellular organismCell fate determinationCellular differentiationCircadian clockCircadian rhythmCell biologyCellCell cycleArabidopsisSingle-cell analysisRNAGeneComputational biologyGeneticsTranscription factorNeuroscienceMutantSingle-cell and spatial transcriptomicsPlant Molecular Biology ResearchLight effects on plants
A guiding role of the Arabidopsis circadian clock in cell differentiation revealed by time-series single-cell RNA sequencing | Litcius