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Title: A seed resource for screening functionally redundant genes and isolation of new mutants impaired in CO2 and ABA responses.

Authors: Hauser, Felix; Ceciliato, Paulo H O; Lin, Yi-Chen; Guo, DanDan; Gregerson, J D; Abbasi, Nazia; Youhanna, Diana; Park, Jiyoung; Dubeaux, Guillaume; Shani, Eilon; Poomchongkho, Nusra; Schroeder, Julian I

Published In J Exp Bot, (2019 01 07)

Abstract: The identification of homologous genes with functional overlap in forward genetic screens is severely limited. Here, we report the generation of over 14000 artificial microRNA (amiRNA)-expressing plants that enable screens of the functionally redundant gene space in Arabidopsis. A protocol was developed for isolating robust and reproducible amiRNA mutants. Examples of validation approaches and essential controls are presented for two new amiRNA mutants that exhibit genetically redundant phenotypes and circumvent double mutant lethality. In a forward genetic screen for abscisic acid (ABA)-mediated inhibition of seed germination, amiRNAs that target combinations of known redundant ABA receptor and SnRK2 kinase genes were rapidly isolated, providing a strong proof of principle for this approach. A new ABA-insensitive amiRNA line that targets three avirulence-induced gene 2(-like) genes was isolated . A thermal imaging screen for plants with impaired stomatal opening in response to low CO2 exposure led to the isolation of a new amiRNA targeting two essential proteasomal subunits, PAB1 and PAB2. The seed library of 11000 T2 amiRNA lines (with 3000 lines in progress) generated here provides a new platform for forward genetic screens and has been made available to the Arabidopsis Biological Resource Center (ABRC). Optimized procedures for amiRNA screening and controls are described.

PubMed ID: 30346611 Exiting the NIEHS site

MeSH Terms: Abscisic Acid/metabolism*; Arabidopsis/genetics*; Arabidopsis/metabolism; Carbon Dioxide/metabolism*; Gene Library; Germination; MicroRNAs*; Phenotype; Seeds*

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