Genome draft of the Arabidopsis relative Pachycladon cheesemanii reveals novel strategies to tolerate New Zealand’s high ultraviolet B radiation environment

Genome draft of the Arabidopsis relative Pachycladon cheesemanii reveals novel strategies to tolerate New Zealand’s high ultraviolet B radiation environment

Abstract Background Pachycladon cheesemanii is a close relative of Arabidopsis thaliana and is an allotetraploid perennial herb which is widespread in the South Island of New Zealand. It grows at altitudes of up to 1000 m where it is subject to relatively high levels of ultraviolet (UV)-B radiation....

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Main Authors: Yanni Dong, Saurabh Gupta, Rixta Sievers, Jason J. Wargent, David Wheeler, Joanna Putterill, Richard Macknight, Tsanko Gechev, Bernd Mueller-Roeber, Paul P. Dijkwel
Format: Article
Language:English
Published: BMC 2019-11-01
Series:BMC Genomics
Subjects:
Abiotic stress
Arabidopsis
Genome assembly
Pachycladon
UV-B tolerance
Online Access:http://link.springer.com/article/10.1186/s12864-019-6084-4
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spelling doaj-472b083f546c4aa8a3a11d6710987cc42020-11-25T04:07:18ZengBMCBMC Genomics1471-21642019-11-0120111410.1186/s12864-019-6084-4Genome draft of the Arabidopsis relative Pachycladon cheesemanii reveals novel strategies to tolerate New Zealand’s high ultraviolet B radiation environmentYanni Dong0Saurabh Gupta1Rixta Sievers2Jason J. Wargent3David Wheeler4Joanna Putterill5Richard Macknight6Tsanko Gechev7Bernd Mueller-Roeber8Paul P. Dijkwel9School of Fundamental Sciences, Massey UniversityDepartment Molecular Biology, Institute of Biochemistry and Biology, University of PotsdamSchool of Agriculture & Environment, Massey UniversitySchool of Agriculture & Environment, Massey UniversitySchool of Fundamental Sciences, Massey UniversitySchool of Biological Sciences, University of AucklandBiochemistry Department, School of Biomedical Sciences, University of OtagoDepartment of Plant Physiology and Molecular Biology, University of PlovdivDepartment Molecular Biology, Institute of Biochemistry and Biology, University of PotsdamSchool of Fundamental Sciences, Massey UniversityAbstract Background Pachycladon cheesemanii is a close relative of Arabidopsis thaliana and is an allotetraploid perennial herb which is widespread in the South Island of New Zealand. It grows at altitudes of up to 1000 m where it is subject to relatively high levels of ultraviolet (UV)-B radiation. To gain first insights into how Pachycladon copes with UV-B stress, we sequenced its genome and compared the UV-B tolerance of two Pachycladon accessions with those of two A. thaliana accessions from different altitudes. Results A high-quality draft genome of P. cheesemanii was assembled with a high percentage of conserved single-copy plant orthologs. Synteny analysis with genomes from other species of the Brassicaceae family found a close phylogenetic relationship of P. cheesemanii with Boechera stricta from Brassicaceae lineage I. While UV-B radiation caused a greater growth reduction in the A. thaliana accessions than in the P. cheesemanii accessions, growth was not reduced in one P. cheesemanii accession. The homologues of A. thaliana UV-B radiation response genes were duplicated in P. cheesemanii, and an expression analysis of those genes indicated that the tolerance mechanism in P. cheesemanii appears to differ from that in A. thaliana. Conclusion Although the P. cheesemanii genome shows close similarity with that of A. thaliana, it appears to have evolved novel strategies allowing the plant to tolerate relatively high UV-B radiation.http://link.springer.com/article/10.1186/s12864-019-6084-4Abiotic stressArabidopsisGenome assemblyPachycladonUV-B tolerance
collection DOAJ
language English
format Article
sources DOAJ
author Yanni Dong
Saurabh Gupta
Rixta Sievers
Jason J. Wargent
David Wheeler
Joanna Putterill
Richard Macknight
Tsanko Gechev
Bernd Mueller-Roeber
Paul P. Dijkwel
spellingShingle Yanni Dong
Saurabh Gupta
Rixta Sievers
Jason J. Wargent
David Wheeler
Joanna Putterill
Richard Macknight
Tsanko Gechev
Bernd Mueller-Roeber
Paul P. Dijkwel
Genome draft of the Arabidopsis relative Pachycladon cheesemanii reveals novel strategies to tolerate New Zealand’s high ultraviolet B radiation environment
BMC Genomics
Abiotic stress
Arabidopsis
Genome assembly
Pachycladon
UV-B tolerance
author_facet Yanni Dong
Saurabh Gupta
Rixta Sievers
Jason J. Wargent
David Wheeler
Joanna Putterill
Richard Macknight
Tsanko Gechev
Bernd Mueller-Roeber
Paul P. Dijkwel
author_sort Yanni Dong
title Genome draft of the Arabidopsis relative Pachycladon cheesemanii reveals novel strategies to tolerate New Zealand’s high ultraviolet B radiation environment
title_short Genome draft of the Arabidopsis relative Pachycladon cheesemanii reveals novel strategies to tolerate New Zealand’s high ultraviolet B radiation environment
title_full Genome draft of the Arabidopsis relative Pachycladon cheesemanii reveals novel strategies to tolerate New Zealand’s high ultraviolet B radiation environment
title_fullStr Genome draft of the Arabidopsis relative Pachycladon cheesemanii reveals novel strategies to tolerate New Zealand’s high ultraviolet B radiation environment
title_full_unstemmed Genome draft of the Arabidopsis relative Pachycladon cheesemanii reveals novel strategies to tolerate New Zealand’s high ultraviolet B radiation environment
title_sort genome draft of the arabidopsis relative pachycladon cheesemanii reveals novel strategies to tolerate new zealand’s high ultraviolet b radiation environment
publisher BMC
series BMC Genomics
issn 1471-2164
publishDate 2019-11-01
description Abstract Background Pachycladon cheesemanii is a close relative of Arabidopsis thaliana and is an allotetraploid perennial herb which is widespread in the South Island of New Zealand. It grows at altitudes of up to 1000 m where it is subject to relatively high levels of ultraviolet (UV)-B radiation. To gain first insights into how Pachycladon copes with UV-B stress, we sequenced its genome and compared the UV-B tolerance of two Pachycladon accessions with those of two A. thaliana accessions from different altitudes. Results A high-quality draft genome of P. cheesemanii was assembled with a high percentage of conserved single-copy plant orthologs. Synteny analysis with genomes from other species of the Brassicaceae family found a close phylogenetic relationship of P. cheesemanii with Boechera stricta from Brassicaceae lineage I. While UV-B radiation caused a greater growth reduction in the A. thaliana accessions than in the P. cheesemanii accessions, growth was not reduced in one P. cheesemanii accession. The homologues of A. thaliana UV-B radiation response genes were duplicated in P. cheesemanii, and an expression analysis of those genes indicated that the tolerance mechanism in P. cheesemanii appears to differ from that in A. thaliana. Conclusion Although the P. cheesemanii genome shows close similarity with that of A. thaliana, it appears to have evolved novel strategies allowing the plant to tolerate relatively high UV-B radiation.
topic Abiotic stress
Arabidopsis
Genome assembly
Pachycladon
UV-B tolerance
url http://link.springer.com/article/10.1186/s12864-019-6084-4
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