2017
DOI: 10.1016/j.tig.2017.05.002
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Uncovering Gene Regulatory Networks Controlling Plant Cell Differentiation

Abstract: The development of multicellular organisms relies on the precise regulation of cellular differentiation. As such, there has been significant effort invested to understand the process through which an immature cell undergoes differentiation. In this review, we highlight key discoveries and advances that have contributed to our understanding of the transcriptional networks underlying Arabidopsis root endodermal differentiation. To conclude, we propose perspectives on how advances in molecular biology, microscopy… Show more

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Cited by 45 publications
(35 citation statements)
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References 67 publications
(121 reference statements)
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“…To test the quality of the atlas annotation, we used Seurat to perform differential gene expression analyses and asked if expected markers are enriched in each of the twelve cell type groups produced with our method as compared to the atlas as a whole. We observed enrichment of known cell type markers in their expected cell type groups 12 (Fig 1d) and also identified many new genes that are enriched in a cell type or developmental stage (Supplementary Dataset 6). We subsequently asked if genes with cell-type specific expression patterns also show localized expression along the developmental gradient.…”
Section: Cell Annotation Places Tissues In Known Developmental Contextsmentioning
confidence: 82%
“…To test the quality of the atlas annotation, we used Seurat to perform differential gene expression analyses and asked if expected markers are enriched in each of the twelve cell type groups produced with our method as compared to the atlas as a whole. We observed enrichment of known cell type markers in their expected cell type groups 12 (Fig 1d) and also identified many new genes that are enriched in a cell type or developmental stage (Supplementary Dataset 6). We subsequently asked if genes with cell-type specific expression patterns also show localized expression along the developmental gradient.…”
Section: Cell Annotation Places Tissues In Known Developmental Contextsmentioning
confidence: 82%
“…In general, the answer involves a complex interplay between signals and gene regulation. This is true both during development of multicellular eukaryotes (Davidson and Levine, ; Frum and Ralston, ; Drapek et al , ) and during transitions in microbial communities that lead to different cell types (Bush et al , ; van Gestel et al , ; Norman et al , ; Kroos, ). Bacterial cells in microbial communities adopt different fates as gene regulatory networks (GRNs) respond to a variety of signals, including some generated by other cells.…”
Section: Introductionmentioning
confidence: 99%
“…They act in combination to form genetic regulatory circuits involved in transcriptional control (Megraw et al, 2016;Cora et al, 2017). A significant body of research is dedicated to understanding how transcription factors are involved in the regulation of multiple cellular processes in Arabidopsis thaliana, one of the best studied plant model systems (Taylor-Teeples et al, 2015;González-Morales et al, 2016;Drapek et al, 2017). In contrast, broad scale studies of sRNAmediated regulation in A. thaliana are not common and their scope is limited due to challenges posed by the high false positive rate of bioinformatic predictions of small RNA activities (Ding et al, 2012).…”
Section: Introductionmentioning
confidence: 99%