Genome-Wide Association Study of Natural Variation in <i>Arabidopsis</i> Exposed to Acid Mine Drainage Toxicity and Validation of Associated Genes with Reverse Genetics

Bandana Ghimire; Thangasamy Saminathan; Abiodun Bodunrin; Venkata Lakshmi Abburi; Arjun Ojha Kshetry; Suhas Shinde; Padma Nimmakayala; Umesh K. Reddy

doi:10.3390/plants10020191

Plants (Jan 2021)

Genome-Wide Association Study of Natural Variation in <i>Arabidopsis</i> Exposed to Acid Mine Drainage Toxicity and Validation of Associated Genes with Reverse Genetics

Bandana Ghimire,
Thangasamy Saminathan,
Abiodun Bodunrin,
Venkata Lakshmi Abburi,
Arjun Ojha Kshetry,
Suhas Shinde,
Padma Nimmakayala,
Umesh K. Reddy

Affiliations

Bandana Ghimire: Gus R. Douglass Institute and Department of Biology, West Virginia State University, Institute, WV 25112-1000, USA
Thangasamy Saminathan: Gus R. Douglass Institute and Department of Biology, West Virginia State University, Institute, WV 25112-1000, USA
Abiodun Bodunrin: Gus R. Douglass Institute and Department of Biology, West Virginia State University, Institute, WV 25112-1000, USA
Venkata Lakshmi Abburi: Gus R. Douglass Institute and Department of Biology, West Virginia State University, Institute, WV 25112-1000, USA
Arjun Ojha Kshetry: Gus R. Douglass Institute and Department of Biology, West Virginia State University, Institute, WV 25112-1000, USA
Suhas Shinde: Gus R. Douglass Institute and Department of Biology, West Virginia State University, Institute, WV 25112-1000, USA
Padma Nimmakayala: Gus R. Douglass Institute and Department of Biology, West Virginia State University, Institute, WV 25112-1000, USA
Umesh K. Reddy: Gus R. Douglass Institute and Department of Biology, West Virginia State University, Institute, WV 25112-1000, USA

DOI: https://doi.org/10.3390/plants10020191
Journal volume & issue: Vol. 10, no. 2
p. 191

Abstract

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Acid mine drainage (AMD) is a huge environmental problem in mountain-top mining regions worldwide, including the Appalachian Mountains in the United States. This study applied a genome-wide association study (GWAS) to uncover genomic loci in Arabidopsis associated with tolerance to AMD toxicity. We characterized five major root phenotypes—cumulative root length, average root diameter, root surface area, root volume, and primary root length—in 180 Arabidopsis accessions in response to AMD-supplemented growth medium. GWAS of natural variation in the panel revealed genes associated with tolerance to an acidic environment. Most of these genes were transcription factors, anion/cation transporters, metal transporters, and unknown proteins. Two T-DNA insertion mutants, At1g63005 (miR399b) and At2g05635 (DEAD helicase RAD3), showed enhanced acidity tolerance. Our GWAS and the reverse genetic approach revealed genes involved in conferring tolerance to coal AMD. Our results indicated that proton resistance in hydroponic conditions could be an important index to improve plant growth in acidic soil, at least in acid-sensitive plant species.

Published in Plants

ISSN: 2223-7747 (Online)
Publisher: MDPI AG
Country of publisher: Switzerland
LCC subjects: Science: Botany
Website: http://www.mdpi.com/journal/plants

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