Overexpression of watermelon m6A methyltransferase ClMTB enhances drought tolerance in tobacco by mitigating oxidative stress and photosynthesis inhibition and modulating stress-responsive gene expression
Published 2021 View Full Article
- Home
- Publications
- Publication Search
- Publication Details
Title
Overexpression of watermelon m6A methyltransferase ClMTB enhances drought tolerance in tobacco by mitigating oxidative stress and photosynthesis inhibition and modulating stress-responsive gene expression
Authors
Keywords
N6-methyladenosine (m, A) modification, ClMTB, Drought tolerance, Watermelon, Tobacco
Journal
PLANT PHYSIOLOGY AND BIOCHEMISTRY
Volume 168, Issue -, Pages 340-352
Publisher
Elsevier BV
Online
2021-10-15
DOI
10.1016/j.plaphy.2021.10.007
References
Ask authors/readers for more resources
Related references
Note: Only part of the references are listed.- Transcriptional Regulation of Drought Response in Arabidopsis and Woody Plants
- (2021) Tao Yao et al. Frontiers in Plant Science
- Transcriptomic analysis reveals key transcription factors associated to drought tolerance in a wild papaya (Carica papaya) genotype
- (2021) Humberto Estrella-Maldonado et al. PLoS One
- The Arabidopsis SMALL AUXIN UP RNA32 Protein Regulates ABA-Mediated Responses to Drought Stress
- (2021) Yanjun He et al. Frontiers in Plant Science
- Functions of Jasmonic Acid in Plant Regulation and Response to Abiotic Stress
- (2020) Jia Wang et al. INTERNATIONAL JOURNAL OF MOLECULAR SCIENCES
- MTA, an RNA m6A Methyltransferase, Enhances Drought Tolerance by Regulating the Development of Trichomes and Roots in Poplar
- (2020) Liang Lu et al. INTERNATIONAL JOURNAL OF MOLECULAR SCIENCES
- CDK8 is associated with RAP2.6 and SnRK2.6 and positively modulates abscisic acid signaling and drought response in Arabidopsis
- (2020) Yingfang Zhu et al. NEW PHYTOLOGIST
- Class I TCP proteins TCP14 and TCP15 are required for elongation and gene expression responses to auxin
- (2020) Lucia V. Ferrero et al. PLANT MOLECULAR BIOLOGY
- Transcriptional Regulation of Protein Phosphatase 2C Genes to Modulate Abscisic Acid Signaling
- (2020) Choonkyun Jung et al. INTERNATIONAL JOURNAL OF MOLECULAR SCIENCES
- Overexpression of a MYB Family Gene, OsMYB6, Increases Drought and Salinity Stress Tolerance in Transgenic Rice
- (2019) Yuehui Tang et al. Frontiers in Plant Science
- RBOH-Dependent ROS Synthesis and ROS Scavenging by Plant Specialized Metabolites To Modulate Plant Development and Stress Responses
- (2019) Jordan M. Chapman et al. CHEMICAL RESEARCH IN TOXICOLOGY
- N6‐methyladenosine regulatory machinery in plants: composition, function and evolution
- (2019) Hong Yue et al. PLANT BIOTECHNOLOGY JOURNAL
- The AP2/ERF Transcription Factor TINY Modulates Brassinosteroid-Regulated Plant Growth and Drought Responses in Arabidopsis
- (2019) Zhouli Xie et al. PLANT CELL
- Rice NAC transcription factor ONAC066 functions as a positive regulator of drought and oxidative stress response
- (2019) Xi Yuan et al. BMC PLANT BIOLOGY
- Evolution of the RNA N6-methyladenosine methylome mediated by genomic duplication
- (2019) Zhenyan Miao et al. PLANT PHYSIOLOGY
- Overexpression of MdIAA9 confers high tolerance to osmotic stress in transgenic tobacco
- (2019) Dong Huang et al. PeerJ
- An m6A-YTH Module Controls Developmental Timing and Morphogenesis in Arabidopsis
- (2018) Laura Arribas-Hernández et al. PLANT CELL
- The m6A Reader ECT2 Controls Trichome Morphology by Affecting mRNA Stability in Arabidopsis
- (2018) Lian-Huan Wei et al. PLANT CELL
- The YTH Domain Protein ECT2 Is an m6A Reader Required for Normal Trichome Branching in Arabidopsis
- (2018) Jérémy Scutenaire et al. PLANT CELL
- N6-methyl-adenosine level in Nicotiana tabacum is associated with tobacco mosaic virus
- (2018) Zhurui Li et al. Virology Journal
- Overexpression of a WRKY Transcription Factor TaWRKY2 Enhances Drought Stress Tolerance in Transgenic Wheat
- (2018) Huiming Gao et al. Frontiers in Plant Science
- The Wheat MYB Transcription Factor TaMYB31 Is Involved in Drought Stress Responses in Arabidopsis
- (2018) Yue Zhao et al. Frontiers in Plant Science
- Identification of factors required for m6 A mRNA methylation in Arabidopsis reveals a role for the conserved E3 ubiquitin ligase HAKAI
- (2017) Kamil Růžička et al. NEW PHYTOLOGIST
- NAC transcription factor JUNGBRUNNEN1 enhances drought tolerance in tomato
- (2017) Venkatesh P. Thirumalaikumar et al. PLANT BIOTECHNOLOGY JOURNAL
- Arabidopsism6A demethylase activity modulates viral infection of a plant virus and the m6A abundance in its genomic RNAs
- (2017) Mireya Martínez-Pérez et al. PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA
- Photosynthesis-dependent H2O2 transfer from chloroplasts to nuclei provides a high-light signalling mechanism
- (2017) Marino Exposito-Rodriguez et al. Nature Communications
- OsJAZ1 Attenuates Drought Resistance by Regulating JA and ABA Signaling in Rice
- (2017) Jie Fu et al. Frontiers in Plant Science
- Gene expression profiling of the green seed problem in Soybean
- (2016) Renake N. Teixeira et al. BMC PLANT BIOLOGY
- Functional identification of apple MdJAZ2 in Arabidopsis with reduced JA-sensitivity and increased stress tolerance
- (2016) Xiu-Hong An et al. PLANT CELL REPORTS
- Constitutive Expression of Arabidopsis SMALL AUXIN UP RNA19 ( SAUR19 ) in Tomato Confers Auxin-Independent Hypocotyl Elongation
- (2016) Angela K. Spartz et al. PLANT PHYSIOLOGY
- A novel system for evaluating drought–cold tolerance of grapevines using chlorophyll fluorescence
- (2015) Lingye Su et al. BMC PLANT BIOLOGY
- 5′ UTR m6A Promotes Cap-Independent Translation
- (2015) Kate D. Meyer et al. CELL
- The plasma membrane NADPH oxidase OsRbohA plays a crucial role in developmental regulation and drought-stress response in rice
- (2015) Xiang Wang et al. PHYSIOLOGIA PLANTARUM
- OsJAZ9 acts as a transcriptional regulator in jasmonate signaling and modulates salt stress tolerance in rice
- (2015) Hua Wu et al. PLANT SCIENCE
- Physiological, anatomical and transcriptional alterations in a rice mutant leading to enhanced water stress tolerance
- (2015) John Milton Lima et al. AoB Plants
- FTO-dependent demethylation of N6-methyladenosine regulates mRNA splicing and is required for adipogenesis
- (2014) Xu Zhao et al. CELL RESEARCH
- N6-methyladenosine-dependent regulation of messenger RNA stability
- (2013) Xiao Wang et al. NATURE
- Transcriptome-wide mapping of N6-methyladenosine by m6A-seq based on immunocapturing and massively parallel sequencing
- (2013) Dan Dominissini et al. Nature Protocols
- Cloning and characterization of a carbohydrate metabolism-associated gene IbSnRK1 from sweetpotato
- (2013) Tao Jiang et al. SCIENTIA HORTICULTURAE
- The draft genome of watermelon (Citrullus lanatus) and resequencing of 20 diverse accessions
- (2012) Shaogui Guo et al. NATURE GENETICS
- Adenosine Methylation in Arabidopsis mRNA is Associated with the 3′ End and Reduced Levels Cause Developmental Defects
- (2012) Zsuzsanna Bodi et al. Frontiers in Plant Science
- MEGA5: Molecular Evolutionary Genetics Analysis Using Maximum Likelihood, Evolutionary Distance, and Maximum Parsimony Methods
- (2011) K. Tamura et al. MOLECULAR BIOLOGY AND EVOLUTION
- Arabidopsis Cys2/His2 Zinc-Finger Proteins AZF1 and AZF2 Negatively Regulate Abscisic Acid-Repressive and Auxin-Inducible Genes under Abiotic Stress Conditions
- (2011) K.-S. Kodaira et al. PLANT PHYSIOLOGY
- Identification and expression profiling analysis of TIFY family genes involved in stress and phytohormone responses in rice
- (2009) Haiyan Ye et al. PLANT MOLECULAR BIOLOGY
- Altered Architecture and Enhanced Drought Tolerance in Rice via the Down-Regulation of Indole-3-Acetic Acid by TLD1/OsGH3.13 Activation
- (2009) S.-W. Zhang et al. PLANT PHYSIOLOGY
- Transcription factor AtTCP14 regulates embryonic growth potential during seed germination inArabidopsis thaliana
- (2007) Kiyoshi Tatematsu et al. PLANT JOURNAL
Discover Peeref hubs
Discuss science. Find collaborators. Network.
Join a conversationPublish scientific posters with Peeref
Peeref publishes scientific posters from all research disciplines. Our Diamond Open Access policy means free access to content and no publication fees for authors.
Learn More