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Cell lineage-specific transcriptome analysis for interpreting cell fate specification of proembryos

Xuemei Zhou, Zhenzhen Liu, Kun Shen, Peng Zhao, Meng‐Xiang Sun

2020Nature Communications35 citationsDOIOpen Access PDF

Abstract

In Arabidopsis, a zygote undergoes asymmetrical cell division that establishes the first two distinct cell types of early proembryos, apical and basal cells. However, the genome-wide transcriptional activities that guide divergence of apical and basal cell development remain unknown. Here, we present a comprehensive transcriptome analysis of apical and basal cell lineages, uncovering distinct molecular pathways during cell lineage specification. Selective deletion of inherited transcripts and specific de novo transcription contribute to the establishment of cell lineage-specific pathways for cell fate specification. Embryo-related pathways have been specifically activated in apical cell lineage since 1-cell embryo stage, but quick transcriptome remodeling toward suspensor-specific pathways are found in basal cell lineage. Furthermore, long noncoding RNAs and alternative splicing isoforms may be involved in cell lineage specification. This work also provides a valuable lineage-specific transcriptome resource to elucidate the molecular pathways for divergence of apical and basal cell lineages at genome-wide scale.

Topics & Concepts

BiologyTranscriptomeLineage (genetic)Cell fate determinationApical cellCell biologySuspensorCellGeneticsCellular differentiationGenomeCell typeGeneEmbryoTranscription factorZygoteEmbryogenesisGene expressionPlant Molecular Biology ResearchPlant Gene Expression AnalysisPhotosynthetic Processes and Mechanisms