Literature DB >> 31156026

Lignin biosynthesis genes play critical roles in the adaptation of Arabidopsis plants to high-salt stress.

Hyun Jin Chun1, Dongwon Baek2, Hyun Min Cho2, Su Hyeon Lee2, Byung Jun Jin2, Dae-Jin Yun3, Young-Shick Hong4, Min Chul Kim1,2.   

Abstract

Salinity is a major abiotic stressor that limits the growth, development, and reproduction of plants. Our previous metabolic analysis of high salt-adapted callus suspension cell cultures from Arabidopsis roots indicated that physical reinforcement of the cell wall is an important step in adaptation to saline conditions. Compared to normal cells, salt-adapted cells exhibit an increased lignin content and thickened cell wall. In this study, we investigated not only the lignin biosynthesis gene expression patterns in salt-adapted cells, but also the effects of a loss-of-function of CCoAOMT1, which plays a critical role in the lignin biosynthesis pathway, on plant responses to high-salt stress. Quantitative real-time PCR analysis revealed higher mRNA levels of genes involved in lignin biosynthesis, including CCoAOMT1, 4CL1, 4CL2, COMT, PAL1, PAL2, and AtPrx52, in salt-adapted cells relative to normal cells, which suggests activation of the lignin biosynthesis pathway in salt-adapted cells. Moreover, plants harboring the CCoAOMT1 mutants, ccoaomt1-1 and ccoaomt1-2, were phenotypically hypersensitive to salt stress. Our study has provided molecular and genetic evidence indicating the importance of enhanced lignin accumulation in the plant cell wall during the responses to salt stress.

Entities:  

Keywords:  Arabidopsis; CCoAOMT1; lignin biosynthesis; salt adaptation; salt stress

Mesh:

Substances:

Year:  2019        PMID: 31156026      PMCID: PMC6619940          DOI: 10.1080/15592324.2019.1625697

Source DB:  PubMed          Journal:  Plant Signal Behav        ISSN: 1559-2316


  17 in total

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Journal:  Plant Physiol       Date:  2018-12-10       Impact factor: 8.340

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Journal:  J Proteomics       Date:  2013-02-04       Impact factor: 4.044

5.  Salt stress enhances xylem development and expression of S-adenosyl-L-methionine synthase in lignifying tissues of tomato plants.

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Authors: 
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Review 8.  Cell Wall Metabolism in Response to Abiotic Stress.

Authors:  Hyacinthe Le Gall; Florian Philippe; Jean-Marc Domon; Françoise Gillet; Jérôme Pelloux; Catherine Rayon
Journal:  Plants (Basel)       Date:  2015-02-16

Review 9.  Regulation of Lignin Biosynthesis and Its Role in Growth-Defense Tradeoffs.

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  18 in total

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Review 3.  Regulation of Plant Responses to Salt Stress.

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4.  Application of compound material alleviates saline and alkaline stress in cotton leaves through regulation of the transcriptome.

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5.  Arabidopsis CCoAOMT1 Plays a Role in Drought Stress Response via ROS- and ABA-Dependent Manners.

Authors:  Hyun Jin Chun; Lack Hyeon Lim; Mi Sun Cheong; Dongwon Baek; Mi Suk Park; Hyun Min Cho; Su Hyeon Lee; Byung Jun Jin; Dong Hyeon No; Ye Jin Cha; Yong Bok Lee; Jong Chan Hong; Dae-Jin Yun; Min Chul Kim
Journal:  Plants (Basel)       Date:  2021-04-21

6.  Transcriptomic and Metabolomic Analyses Reveal the Differential Regulatory Mechanisms of Compound Material on the Responses of Brassica campestris to Saline and Alkaline Stresses.

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7.  Microtubule Dynamics Plays a Vital Role in Plant Adaptation and Tolerance to Salt Stress.

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8.  Pluronic F-68 Improves Callus Proliferation of Recalcitrant Rice Cultivar via Enhanced Carbon and Nitrogen Metabolism and Nutrients Uptake.

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Journal:  Front Plant Sci       Date:  2021-06-02       Impact factor: 5.753

9.  Tartary Buckwheat (Fagopyrum tataricum) NAC Transcription Factors FtNAC16 Negatively Regulates of Pod Cracking and Salinity Tolerant in Arabidopsis.

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10.  Integrated physiological, proteomic, and metabolomic analyses of pecan cultivar 'Pawnee' adaptation to salt stress.

Authors:  Yun Jiao; Jianhong Zhang; Cunde Pan
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