A Global View of RNA-Protein Interactions Identifies Post-transcriptional Regulators of Root Hair Cell Fate

Foley, Shawn W.; Gosai, Sager J.; Wang, Dongxue; Selamoglu, Nur; Sollitti, Amelia C.; Köster, Tino; Steffen, Alexander; Lyons, Eric; Daldal, Fevzi; García, Benjamin A.; Staiger, Dorothee; Deal, Roger B.; Gregory, Brian D.

doi:10.1016/j.devcel.2017.03.018

Cited by 51 publications

(50 citation statements)

References 56 publications

(79 reference statements)

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“…These results indicate strong conservation of components of GI protein‐interaction partners across different plant species. We also identified additional interesting candidates, such as an essential light signal receptor PHYTOCHROME C ( PHYC ; Woods, Ream, Minevich, Hobert, & Amasino, ), an RNA‐directed DNA methylation pathway gene ARGONAUTE 4 ( AGO4 ; Lahmy et al, ), a cold response and root hair regulator GLYCINE RICH PROTEIN 8 ( GRP8 ; Carpenter, Kreps, & Simon, ; Foley et al, ), and a cell wall modification gene EXPANSIN 13 ( EXP13 ; Lee, Choi, & Kende, ), with strong coexpression patterns with PhGI under SD, LD, or both conditions (Table S11). The functional diversity of these coexpressed genes might help to understand the pleiotropic roles of GI in the external coincidence model.…”

Section: Resultsmentioning

confidence: 99%

“…Arabidopsis , showed coexpression patterns with PhGI coexpression genes. The full lines represent five co-expression genes that identified as GI interaction partners in previous reports hair regulator GLYCINE RICH PROTEIN 8 (GRP8;Carpenter, Kreps, & Simon, 1994;Foley et al, 2017), and a cell wall modification gene EXPANSIN 13 (EXP13; Lee, Choi, & Kende, 2001), with strong coexpression patterns with PhGI under SD, LD, or both conditions (Table S11). The functional diversity of these coexpressed genes might help to understand the pleiotropic roles of GI in the external coincidence model.…”

Section: Phgi Coexpression Network and Potential Coincidence Factomentioning

confidence: 99%

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Complex interactions between day length and diurnal patterns of gene expression drive photoperiodic responses in a perennial C₄ grass

Weng

Lovell

Schwartz

et al. 2019

Plant Cell & Environment

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Photoperiod is a key environmental cue affecting flowering and biomass traits in plants. Key components of the photoperiodic flowering pathway have been identified in many species, but surprisingly few studies have globally examined the diurnal rhythm of gene expression with changes in day length. Using a cost‐effective 3′‐Tag RNA sequencing strategy, we characterize 9,010 photoperiod responsive genes with strict statistical testing across a diurnal time series in the C4 perennial grass, Panicum hallii. We show that the vast majority of photoperiod responses are driven by complex interactions between day length and sampling periods. A fine‐scale contrast analysis at each sampling time revealed a detailed picture of the temporal reprogramming of cis‐regulatory elements and biological processes under short‐ and long‐day conditions. Phase shift analysis reveals quantitative variation among genes with photoperiod‐dependent diurnal patterns. In addition, we identify three photoperiod enriched transcription factor families with key genes involved in photoperiod flowering regulatory networks. Finally, coexpression networks analysis of GIGANTEA homolog predicted 1,668 potential coincidence partners, including five well‐known GI‐interacting proteins. Our results not only provide a resource for understanding the mechanisms of photoperiod regulation in perennial grasses but also lay a foundation to increase biomass yield in biofuel crops.

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Section: Resultsmentioning

confidence: 99%

Section: Phgi Coexpression Network and Potential Coincidence Factomentioning

confidence: 99%

Complex interactions between day length and diurnal patterns of gene expression drive photoperiodic responses in a perennial C₄ grass

Weng

Lovell

Schwartz

et al. 2019

Plant Cell & Environment

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“…INTACT can enable profiling all of these levels of regulation from the same preparation of nuclei, as shown for mouse neuronal cells (Mo et al, 2015). Access to nuclei can also improve chromatin immunopurification and chromosome conformation studies (Rodriguez-Granados et al, 2016), enable RNAprotein interaction analyses (Foley et al, 2017), as well as refine proteomic analyses by allowing access to nuclei of discrete cell-or tissue-types (Amin et al, 2014). INTACT and other methods for isolation of nuclei vary in their advantages and disadvantages.…”

Section: Resultsmentioning

confidence: 99%

“…Others have compared nuclear poly(A) + (Zhang et al, 2008) and total nuclear RNA (Deal and Henikoff, 2010) to total poly(A) + mRNA of Arabidopsis (Arabidopsis thaliana) using microarrays. More recently, two studies have used nuclear RNAs to evaluate their structure and RNA-protein interactions (Gosai et al, 2015;Foley et al, 2017). To date, there has been no comparison of nuclear RNA with total cellular poly(A) + RNA using high-throughput RNA-seq for any plant.…”

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confidence: 99%

Nuclear Transcriptomes at High Resolution Using Retooled INTACT

et al. 2017

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Isolated nuclei provide access to early steps in gene regulation involving chromatin as well as transcript production and processing. Here, we describe transfer of the isolation of nuclei from tagged specific cell types (INTACT) to the monocot rice (Oryza sativa L.). The purification of biotinylated nuclei was redesigned by replacing the outer nuclear-envelope-targeting domain of the nuclear tagging fusion (NTF) protein with an outer nuclear-envelope-anchored domain. This modified NTF was combined with codon-optimized Escherichia coli BirA in a single T-DNA construct. We also developed inexpensive methods for INTACT, T-DNA insertion mapping, and profiling of the complete nuclear transcriptome, including a ribosomal RNA degradation procedure that minimizes pre-ribosomal RNA (pre-rRNA) transcripts. A high-resolution comparison of nuclear and steady-state poly(A) + transcript populations of seedling root tips confirmed the capture of pre-messenger RNA (pre-mRNA) and exposed distinctions in diversity and abundance of the nuclear and total transcriptomes. This retooled INTACT can enable high-resolution monitoring of the nuclear transcriptome and chromatin in specific cell types of rice and other species.

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“…More recently, two studies have used nuclear RNAs to evaluate their structure and RNAprotein interactions (Gosai et al, 2015;Foley et al, 2017). To date, there has been no comparison of nuclear RNA with total cellular poly(A) + RNA using high-throughput RNA-seq for any plant.…”

Section: Introductionmentioning

confidence: 99%

Nuclear transcriptomes at high resolution using retooled INTACT

Reynoso

Pauluzzi

Kajala

et al. 2017

Preprint

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Isolated nuclei provide access to early steps in gene regulation involving chromatin as well as transcript production and processing. Here we describe transfer of the Isolation of Nuclei from TAgged specific Cell Types (INTACT) to the monocot rice (Oryza sativa L.). The purification of biotinylated nuclei was redesigned by replacing the outer nuclear envelope-targeting domain of the Nuclear Tagging Fusion (NTF) protein with an outer nuclear envelope-anchored domain. This modified NTF was combined with codon optimized E. coli BirA in a single T-DNA construct. We also developed inexpensive methods for INTACT, T-DNA insertion mapping and profiling of the complete nuclear transcriptome, including a rRNA degradation procedure that minimizes pre-rRNA transcripts. A high-resolution comparison of nuclear and steady-state poly (A)+ transcript populations of seedling root tips confirmed the capture of pre-mRNA and exposed distinctions in diversity and abundance of the nuclear and total transcriptomes. This retooled INTACT can enable high-resolution monitoring of the nuclear transcriptome and chromatin in specific cell-types of rice and other species.Summary:Improved technology and methodology for affinity purification of nuclei and analysis of nuclear transcriptomes, chromatin and other nuclear components.

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A Global View of RNA-Protein Interactions Identifies Post-transcriptional Regulators of Root Hair Cell Fate

Cited by 51 publications

References 56 publications

Complex interactions between day length and diurnal patterns of gene expression drive photoperiodic responses in a perennial C₄ grass

Complex interactions between day length and diurnal patterns of gene expression drive photoperiodic responses in a perennial C₄ grass

Nuclear Transcriptomes at High Resolution Using Retooled INTACT

Nuclear transcriptomes at high resolution using retooled INTACT

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A Global View of RNA-Protein Interactions Identifies Post-transcriptional Regulators of Root Hair Cell Fate

Cited by 51 publications

References 56 publications

Complex interactions between day length and diurnal patterns of gene expression drive photoperiodic responses in a perennial C4 grass

Complex interactions between day length and diurnal patterns of gene expression drive photoperiodic responses in a perennial C4 grass

Nuclear Transcriptomes at High Resolution Using Retooled INTACT

Nuclear transcriptomes at high resolution using retooled INTACT

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Product

Resources

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Complex interactions between day length and diurnal patterns of gene expression drive photoperiodic responses in a perennial C₄ grass

Complex interactions between day length and diurnal patterns of gene expression drive photoperiodic responses in a perennial C₄ grass