[HTML][HTML] Dynamics of DNA methylation and its functions in plant growth and development
S Kumar, T Mohapatra - Frontiers in Plant Science, 2021 - frontiersin.org
Epigenetic modifications in DNA bases and histone proteins play important roles in the
regulation of gene expression and genome stability. Chemical modification of DNA base …
regulation of gene expression and genome stability. Chemical modification of DNA base …
[PDF][PDF] Epigenetic modifications of mRNA and DNA in plants
Advances in the detection and mapping of messenger RNA (mRNA) N 6-methyladenosine
(m 6 A) and 5-methylcytosine (m 5 C), and DNA N 6-methyldeoxyadenosine (6mA) …
(m 6 A) and 5-methylcytosine (m 5 C), and DNA N 6-methyldeoxyadenosine (6mA) …
RNA demethylation increases the yield and biomass of rice and potato plants in field trials
Q Yu, S Liu, L Yu, Y Xiao, S Zhang, X Wang, Y Xu… - Nature …, 2021 - nature.com
Abstract RNA N 6-methyladenosine (m6A) modifications are essential in plants. Here, we
show that transgenic expression of the human RNA demethylase FTO in rice caused a more …
show that transgenic expression of the human RNA demethylase FTO in rice caused a more …
iLearnPlus: a comprehensive and automated machine-learning platform for nucleic acid and protein sequence analysis, prediction and visualization
Sequence-based analysis and prediction are fundamental bioinformatic tasks that facilitate
understanding of the sequence (-structure)-function paradigm for DNAs, RNAs and proteins …
understanding of the sequence (-structure)-function paradigm for DNAs, RNAs and proteins …
Deep transformers and convolutional neural network in identifying DNA N6-methyladenine sites in cross-species genomes
As one of the most common post-transcriptional epigenetic modifications, N6-methyladenine
(6 mA), plays an essential role in various cellular processes and disease pathogenesis …
(6 mA), plays an essential role in various cellular processes and disease pathogenesis …
i6mA-Pred: identifying DNA N6-methyladenine sites in the rice genome
Abstract Motivation DNA N6-methyladenine (6mA) is associated with a wide range of
biological processes. Since the distribution of 6mA site in the genome is non-random …
biological processes. Since the distribution of 6mA site in the genome is non-random …
[HTML][HTML] SDM6A: a web-based integrative machine-learning framework for predicting 6mA sites in the rice genome
DNA N 6-adenine methylation (6mA) is an epigenetic modification in prokaryotes and
eukaryotes. Identifying 6mA sites in rice genome is important in rice epigenetics and …
eukaryotes. Identifying 6mA sites in rice genome is important in rice epigenetics and …
Biodiversity-based development and evolution: the emerging research systems in model and non-model organisms
Evolutionary developmental biology, or Evo-Devo for short, has become an established field
that, broadly speaking, seeks to understand how changes in development drive major …
that, broadly speaking, seeks to understand how changes in development drive major …
i6mA-Caps: A CapsuleNet-based framework for identifying DNA N6-methyladenine sites
Abstract Motivation DNA N6-methyladenine (6mA) has been demonstrated to have an
essential function in epigenetic modification in eukaryotic species in recent research. 6mA …
essential function in epigenetic modification in eukaryotic species in recent research. 6mA …
[PDF][PDF] N6-methyladenine DNA methylation in Japonica and Indica rice genomes and its association with gene expression, plant development, and stress responses
Abstract N 6-Methyladenine (6mA) DNA methylation has recently been implicated as a
potential new epigenetic marker in eukaryotes, including the dicot model Arabidopsis …
potential new epigenetic marker in eukaryotes, including the dicot model Arabidopsis …