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Literature DB >> 29114015

Genetic Components of Root Architecture Remodeling in Response to Salt Stress.

Magdalena M Julkowska^1,2, Iko T Koevoets², Selena Mol^1,2, Huub Hoefsloot³, Richard Feron⁴, Mark A Tester⁵, Joost J B Keurentjes^6,7, Arthur Korte⁸, Michel A Haring¹, Gert-Jan de Boer⁴, Christa Testerink⁹.

Abstract

Salinity of the soil is highly detrimental to plant growth. Plants respond by a redistribution of root mass between main and lateral roots, yet the genetic machinery underlying this process is still largely unknown. Here, we describe the natural variation among 347 Arabidopsis thaliana accessions in root system architecture (RSA) and identify the traits with highest natural variation in their response to salt. Salt-induced changes in RSA were associated with 100 genetic loci using genome-wide association studies. Two candidate loci associated with lateral root development were validated and further investigated. Changes in CYP79B2 expression in salt stress positively correlated with lateral root development in accessions, and cyp79b2 cyp79b3 double mutants developed fewer and shorter lateral roots under salt stress, but not in control conditions. By contrast, high HKT1 expression in the root repressed lateral root development, which could be partially rescued by addition of potassium. The collected data and multivariate analysis of multiple RSA traits, available through the Salt_NV_Root App, capture root responses to salinity. Together, our results provide a better understanding of effective RSA remodeling responses, and the genetic components involved, for plant performance in stress conditions.

Entities: Chemical Gene Species

Mesh：

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Year: 2017 PMID： 29114015 PMCID： PMC5757256 DOI： 10.1105/tpc.16.00680

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

63 in total

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Authors: Rana Munns; Mark Tester
Journal: Annu Rev Plant Biol Date: 2008 Impact factor: 26.379

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Authors: Karin Ljung; Anna K Hull; John Celenza; Masashi Yamada; Mark Estelle; Jennifer Normanly; Göran Sandberg
Journal: Plant Cell Date: 2005-03-16 Impact factor: 11.277

3. A Scalable Open-Source Pipeline for Large-Scale Root Phenotyping of Arabidopsis.

Authors: Radka Slovak; Christian Göschl; Xiaoxue Su; Koji Shimotani; Takashi Shiina; Wolfgang Busch
Journal: Plant Cell Date: 2014-06-10 Impact factor: 11.277

4. Capturing Arabidopsis root architecture dynamics with ROOT-FIT reveals diversity in responses to salinity.

Authors: Magdalena M Julkowska; Huub C J Hoefsloot; Selena Mol; Richard Feron; Gert-Jan de Boer; Michel A Haring; Christa Testerink
Journal: Plant Physiol Date: 2014-09-30 Impact factor: 8.340

5. A novel protein kinase involved in Na(+) exclusion revealed from positional cloning.

Authors: S J Roy; W Huang; X J Wang; A Evrard; S M Schmöckel; Z U Zafar; M Tester
Journal: Plant Cell Environ Date: 2012-09-10 Impact factor: 7.228

6. Reduced Na+ uptake in the NaCl-hypersensitive sos1 mutant of Arabidopsis thaliana.

Authors: L Ding; J K Zhu
Journal: Plant Physiol Date: 1997-03 Impact factor: 8.340

7. The 1001 genomes project for Arabidopsis thaliana.

Authors: Detlef Weigel; Richard Mott
Journal: Genome Biol Date: 2009-05-27 Impact factor: 13.583

8. Camalexin is synthesized from indole-3-acetaldoxime, a key branching point between primary and secondary metabolism in Arabidopsis.

Authors: Erich Glawischnig; Bjarne Gram Hansen; Carl Erik Olsen; Barbara Ann Halkier
Journal: Proc Natl Acad Sci U S A Date: 2004-05-17 Impact factor: 11.205

9. Cell cycle modulation in the response of the primary root of Arabidopsis to salt stress.

Authors: Gerrit West; Dirk Inzé; Gerrit T S Beemster
Journal: Plant Physiol Date: 2004-06-04 Impact factor: 8.340

10. Natural variants of AtHKT1 enhance Na+ accumulation in two wild populations of Arabidopsis.

Authors: Ana Rus; Ivan Baxter; Balasubramaniam Muthukumar; Jeff Gustin; Brett Lahner; Elena Yakubova; David E Salt
Journal: PLoS Genet Date: 2006-10-26 Impact factor: 5.917

27 in total

1. Changing Gears in Salt Stress Tolerance: AtCAMTA6's Role in Transcriptional Regulation of Ion Transport.

Authors: Magdalena M Julkowska
Journal: Plant Physiol Date: 2019-06 Impact factor: 8.340

2. SnRK2 Protein Kinases and mRNA Decapping Machinery Control Root Development and Response to Salt.

Authors: Dorota Kawa; A Jessica Meyer; Henk L Dekker; Ahmed M Abd-El-Haliem; Kris Gevaert; Eveline Van De Slijke; Justyna Maszkowska; Maria Bucholc; Grażyna Dobrowolska; Geert De Jaeger; Robert C Schuurink; Michel A Haring; Christa Testerink
Journal: Plant Physiol Date: 2019-09-30 Impact factor: 8.340

3. Rapid Changes: Abscisic Acid-Independent SnRK2s Target mRNA Decay.

Authors: Magda Julkowska
Journal: Plant Physiol Date: 2020-01 Impact factor: 8.340

4. The Formation of a Camalexin Biosynthetic Metabolon.

Authors: Stefanie Mucha; Stephanie Heinzlmeir; Verena Kriechbaumer; Benjamin Strickland; Charlotte Kirchhelle; Manisha Choudhary; Natalie Kowalski; Ruth Eichmann; Ralph Hückelhoven; Erwin Grill; Bernhard Kuster; Erich Glawischnig
Journal: Plant Cell Date: 2019-09-11 Impact factor: 11.277