Literature DB >> 26842464

Time-Series Transcriptomics Reveals That AGAMOUS-LIKE22 Affects Primary Metabolism and Developmental Processes in Drought-Stressed Arabidopsis.

Ulrike Bechtold1, Christopher A Penfold2, Dafyd J Jenkins2, Roxane Legaie2, Jonathan D Moore2, Tracy Lawson3, Jack S A Matthews3, Silvere R M Vialet-Chabrand3, Laura Baxter2, Sunitha Subramaniam3, Richard Hickman2, Hannah Florance4, Christine Sambles4, Deborah L Salmon4, Regina Feil5, Laura Bowden6, Claire Hill6, Neil R Baker3, John E Lunn5, Bärbel Finkenstädt7, Andrew Mead6, Vicky Buchanan-Wollaston8, Jim Beynon8, David A Rand2, David L Wild2, Katherine J Denby8, Sascha Ott2, Nicholas Smirnoff4, Philip M Mullineaux3.   

Abstract

In Arabidopsis thaliana, changes in metabolism and gene expression drive increased drought tolerance and initiate diverse drought avoidance and escape responses. To address regulatory processes that link these responses, we set out to identify genes that govern early responses to drought. To do this, a high-resolution time series transcriptomics data set was produced, coupled with detailed physiological and metabolic analyses of plants subjected to a slow transition from well-watered to drought conditions. A total of 1815 drought-responsive differentially expressed genes were identified. The early changes in gene expression coincided with a drop in carbon assimilation, and only in the late stages with an increase in foliar abscisic acid content. To identify gene regulatory networks (GRNs) mediating the transition between the early and late stages of drought, we used Bayesian network modeling of differentially expressed transcription factor (TF) genes. This approach identified AGAMOUS-LIKE22 (AGL22), as key hub gene in a TF GRN. It has previously been shown that AGL22 is involved in the transition from vegetative state to flowering but here we show that AGL22 expression influences steady state photosynthetic rates and lifetime water use. This suggests that AGL22 uniquely regulates a transcriptional network during drought stress, linking changes in primary metabolism and the initiation of stress responses.
© 2016 American Society of Plant Biologists. All rights reserved.

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Year:  2016        PMID: 26842464      PMCID: PMC4790877          DOI: 10.1105/tpc.15.00910

Source DB:  PubMed          Journal:  Plant Cell        ISSN: 1040-4651            Impact factor:   11.277


  116 in total

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