sg:pub.10.1186/s12870-019-1686-1 - Springer Nature SciGraph

Article Info

DATE

2019-12

AUTHORS

Hongju Yin, Mengzhan Li, Dingding Li, Sardar-Ali Khan, Shelley R. Hepworth, Suo-Min Wang

ABSTRACT

BACKGROUND: Zygophyllum xanthoxylum is a succulent xerophyte with remarkable tolerance to diverse abiotic stresses. Previous studies have revealed important physiological mechanisms and identified functional genes associated with stress tolerance. However, knowledge of the regulatory genes conferring stress tolerance in this species is poorly understood. RESULTS: Here, we present a comprehensive analysis of regulatory genes based on the transcriptome of Z. xanthoxylum roots exposed to osmotic stress and salt treatments. Significant changes were observed in transcripts related to known and obscure stress-related hormone signaling pathways, in particular abscisic acid and auxin. Significant changes were also found among key classes of early response regulatory genes encoding protein kinases, transcription factors, and ubiquitin-mediated proteolysis machinery. Network analysis shows a highly integrated matrix formed by these conserved and novel gene products associated with osmotic stress and salt in Z. xanthoxylum. Among them, two previously uncharacterized NAC (NAM/ATAF/CUC) transcription factor genes, ZxNAC083 (Unigene16368_All) and ZxNAC035 (CL6534.Contig1_All), conferred tolerance to salt and drought stress when constitutively overexpressed in Arabidopsis plants. CONCLUSIONS: This study provides a unique framework for understanding osmotic stress and salt adaptation in Z. xanthoxylum including novel gene targets for engineering stress tolerance in susceptible crop species. More... »

PAGES

References to SciGraph publications

2017-02. The role of receptor-like protein kinases (RLKs) in abiotic stress response in plants in PLANT CELL REPORTS

2010-10. Auxin signaling participates in the adaptative response against oxidative stress and salinity by interacting with redox metabolism in Arabidopsis in PLANT MOLECULAR BIOLOGY

2016-05. Transcriptome analyses reveal genotype- and developmental stage-specific molecular responses to drought and salinity stresses in chickpea in SCIENTIFIC REPORTS

2011-08. Plant tolerance to drought and salinity: stress regulating transcription factors and their functional significance in the cellular transcriptional network in PLANT CELL REPORTS

2016-12. PtrA/NINV, an alkaline/neutral invertase gene of Poncirus trifoliata, confers enhanced tolerance to multiple abiotic stresses by modulating ROS levels and maintaining photosynthetic efficiency in BMC PLANT BIOLOGY

2014-11. Characterization of Arabidopsis Tubby-like proteins and redundant function of AtTLP3 and AtTLP9 in plant response to ABA and osmotic stress in PLANT MOLECULAR BIOLOGY

2007-11. The bHLH-type transcription factor AtAIB positively regulates ABA response in Arabidopsis in PLANT MOLECULAR BIOLOGY

2015-06. Competitive binding of antagonistic peptides fine-tunes stomatal patterning in NATURE

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2003-09. Effect of water stress on growth, Na+ and K+ accumulation and water use efficiency in relation to osmotic adjustment in two populations of Atriplex halimus L. in PLANT GROWTH REGULATION

2016-05. Transcriptomic analysis of the succulent xerophyte Zygophyllum xanthoxylum in response to salt treatment and osmotic stress in PLANT AND SOIL

2008-06. Genetic approaches to crop improvement: responding to environmental and population changes in NATURE REVIEWS GENETICS

2010-05. AtCPK6, a functionally redundant and positive regulator involved in salt/drought stress tolerance in Arabidopsis in PLANTA

Journal

TITLE

BMC Plant Biology

ISSUE

VOLUME

Subjects

FOR: Genetics

FOR: Biological Sciences

MESH: Gene Expression Profiling

MESH: Gene Expression Regulation, Plant

MESH: Osmosis

MESH: Osmotic Pressure

MESH: Plant Proteins

MESH: Sodium Chloride

MESH: Transcription Factors

Author Affiliations

Lanzhou University

Carleton University

Identifiers

URI

http://scigraph.springernature.com/pub.10.1186/s12870-019-1686-1

DOI

http://dx.doi.org/10.1186/s12870-019-1686-1

DIMENSIONS

https://app.dimensions.ai/details/publication/pub.1112465272

PUBMED

https://www.ncbi.nlm.nih.gov/pubmed/30819118

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