Your search keyword '"Drapek, Colleen"' showing total 3 results

1. Histone Deacetylase HDA19 Affects Root Cortical Cell Fate by Interacting with SCARECROW1[OPEN]

Author

Chen, Wen-Qian, Drapek, Colleen, Li, Dong-Xu, Xu, Zhi-Hong, Benfey, Philip N., and Bai, Shu-Nong

Subjects

Arabidopsis Proteins, Gene Expression Regulation, Plant, Plant Cells, Arabidopsis, Cell Differentiation, Articles, Plants, Genetically Modified, behavioral disciplines and activities, Plant Roots, Histone Deacetylases, Plant Epidermis

Abstract

The Arabidopsis (Arabidopsis thaliana) root epidermis is a simple model for investigating cell fate specification and pattern formation. In addition to regulatory networks consisting of transcription factors, histone deacetylases are also involved in the formation of cellular patterns. Here, we report thatHistone Deacetylase19 (HDA19) affects the root epidermal cellular pattern through regulation of cortical cell fate by interacting with SCARECROW (SCR). HDA19 binds to the DNA sequence upstream of SCR, as well as to those of several of SCR’s target genes, and regulates their expression. Mutant lines of several SCR target genes show impaired patterns of epidermal differentiation and cortical cell division, similar to that of hda19. This work presents HDA19 and SCR as two further players in the regulation of cortical and epidermal cell specification and describes an additional function for SCR.

Published

2019

2. Establishment of Expression in the SHORTROOT-SCARECROW Transcriptional Cascade through Opposing Activities of Both Activators and Repressors

Author

Sparks, Erin E, Drapek, Colleen, Gaudinier, Allison, Li, Song, Ansariola, Mitra, Shen, Ning, Hennacy, Jessica H, Zhang, Jingyuan, Turco, Gina, Petricka, Jalean J, Foret, Jessica, Hartemink, Alexander J, Gordân, Raluca, Megraw, Molly, Brady, Siobhan M, and Benfey, Philip N

Subjects

roots, Arabidopsis, Genetically Modified, Plant Roots, Medical and Health Sciences, Promoter Regions, Genetic, Models, Two-Hybrid System Techniques, Genetics, Computer Simulation, Gene Regulatory Networks, Reporter, transcription factor, SHORTROOT, Arabidopsis Proteins, Synthetic, Plant, Plants, Biological Sciences, Repressor Proteins, SCARECROW, Gene Expression Regulation, Genes, Trans-Activators, Transcription Factors, Developmental Biology

Abstract

Tissue-specific gene expression is often thought to arise from spatially restricted transcriptional cascades. However, it is unclear how expression is established at the top of these cascades in the absence of pre-existing specificity. We generated a transcriptional network to explore how transcription factor expression is established in the Arabidopsis thaliana root ground tissue. Regulators of the SHORTROOT-SCARECROW transcriptional cascade were validated in planta. At the top of this cascade, we identified both activators and repressors of SHORTROOT. The aggregate spatial expression of these regulators is not sufficient to predict transcriptional specificity. Instead, modeling, transcriptional reporters, and synthetic promoters support a mechanism whereby expression at the top of the SHORTROOT-SCARECROW cascade is established through opposing activities of activators and repressors.

Published

2016

3. Compartmentalisation: A strategy for optimising symbiosis and tradeoff management

Author

Nadiatul A. Mohd‐Radzman, Colleen Drapek, Mohd-Radzman, Nadiatul A [0000-0002-5913-1326], Drapek, Colleen [0000-0002-8977-7101], and Apollo - University of Cambridge Repository

Subjects

arbuscular mycorrhizal symbiosis, rhizobia legume symbiosis, Physiology, nitrogen fixation, Plant Science

Abstract

Plant root architecture is developmentally plastic in response to fluctuating nutrient levels in the soil. Part of this developmental plasticity is the formation of dedicated root cells and organs to host mutualistic symbionts. Structures like nitrogen-fixing nodules serve as alternative nutrient acquisition strategies during starvation conditions. Some root systems can also form myconodules-globular root structures that can host mycorrhizal fungi. The myconodule association is different from the wide-spread arbuscular mycorrhization. This range of symbiotic associations provides different degrees of compartmentalisation, from the cellular to organ scale, which allows the plant host to regulate the entry and extent of symbiotic interactions. In this review, we discuss the degrees of symbiont compartmentalisation by the plant host as a developmental strategy and speculate how spatial confinement mitigates risks associated with root symbiosis.

Published

2023