[HTML][HTML] The m6A-YTH regulatory system in plants: A status
Plants use mRNA methylation to regulate gene expression. As in other eukaryotes, the only
abundant methylated nucleotide in plant mRNA bodies is N6-methyladenosine (m 6 A). The …
abundant methylated nucleotide in plant mRNA bodies is N6-methyladenosine (m 6 A). The …
Defining context-dependent m6A RNA methylomes in Arabidopsis
B Zhang, S Zhang, Y Wu, Y Li, L Kong, R Wu, M Zhao… - Developmental Cell, 2024 - cell.com
Summary N 6-Methyladenosine (m 6 A) prevalently occurs on cellular RNA across almost all
kingdoms of life. It governs RNA fate and is essential for development and stress responses …
kingdoms of life. It governs RNA fate and is essential for development and stress responses …
m6A modification plays an integral role in mRNA stability and translation during pattern-triggered immunity
T Chen, GH Greene, J Motley, M Mwimba… - Proceedings of the …, 2024 - pnas.org
Plants employ distinct mechanisms to respond to environmental changes. Modification of
mRNA by N 6-methyladenosine (m6A), known to affect the fate of mRNA, may be one such …
mRNA by N 6-methyladenosine (m6A), known to affect the fate of mRNA, may be one such …
Principles, functions, and biological implications of m6A in plants
P Song, Z Cai, G Jia - RNA, 2024 - rnajournal.cshlp.org
Over the past decade, N 6-methyladenosine (m6A) has emerged as a prevalent and
dynamically regulated modification across the transcriptome; it has been reversibly installed …
dynamically regulated modification across the transcriptome; it has been reversibly installed …
An mRNA methylase and demethylase regulate sorghum salt tolerance by mediating N6-methyladenosine modification
H Zheng, Y Dang, Y Gao, S Li, FH Wu, F Zhang… - Plant …, 2024 - academic.oup.com
Abstract N 6-methyladenosine (m6A) modification is a crucial and widespread molecular
mechanism governing plant development and stress tolerance. The specific impact of m6A …
mechanism governing plant development and stress tolerance. The specific impact of m6A …
Dynamics of epitranscriptomes uncover translational reprogramming directed by ac4C in rice during pathogen infection
X Lu, Y He, JQ Guo, Y Wang, Q Yan, Q **ong, H Shi… - Nature Plants, 2024 - nature.com
Messenger RNA modifications play pivotal roles in RNA biology, but comprehensive
landscape changes of epitranscriptomes remain largely unknown in plant immune …
landscape changes of epitranscriptomes remain largely unknown in plant immune …
The FvABF3-FvALKBH10B-FvSEP3 cascade regulates fruit ripening in strawberry
R Tang, X Duan, L Zhou, G Gao, J Liu, Y Wang… - Nature …, 2024 - nature.com
Fruit ripening is a highly-orchestrated process that requires the fine-tuning and precise
control of gene expression, which is mainly governed by phytohormones, epigenetic …
control of gene expression, which is mainly governed by phytohormones, epigenetic …
Comparative analyses suggest a link between mRNA splicing, stability, and RNA covalent modifications in flowering plants
Background In recent years, covalent modifications on RNA nucleotides have emerged as
pivotal moieties influencing the structure, function, and regulatory processes of RNA …
pivotal moieties influencing the structure, function, and regulatory processes of RNA …
Feedback regulation of m6A modification creates local auxin maxima essential for rice microsporogenesis
Summary N 6-methyladenosine (m 6 A) RNA modification and its effectors control various
plant developmental processes, yet whether and how these effectors are transcriptionally …
plant developmental processes, yet whether and how these effectors are transcriptionally …
mRNA ADENOSINE METHYLASE promotes drought tolerance through N6‐methyladenosine‐dependent and independent impacts on mRNA regulation in …
Among many mRNA modifications, adenine methylation at the N6 position (N6‐
methyladenosine, m6A) is known to affect mRNA biology extensively. The influence of m6A …
methyladenosine, m6A) is known to affect mRNA biology extensively. The influence of m6A …