Multi‐omics analyses reveal epigenomics basis for cotton somatic embryogenesis through successive regeneration acclimation process
Plant regeneration via somatic embryogenesis is time‐consuming and highly genotype‐
dependent. The plant somatic embryogenesis process provokes many epigenetics changes …
dependent. The plant somatic embryogenesis process provokes many epigenetics changes …
Dynamic roles for small RNAs and DNA methylation during ovule and fiber development in allotetraploid cotton
DNA methylation is essential for plant and animal development. In plants, methylation
occurs at CG, CHG, and CHH (H= A, C or T) sites via distinct pathways. Cotton is an …
occurs at CG, CHG, and CHH (H= A, C or T) sites via distinct pathways. Cotton is an …
Multi-omics maps of cotton fibre reveal epigenetic basis for staged single-cell differentiation
Epigenetic modifications are highlighted for their great importance in regulating plant
development, but their function associated with single-cell differentiation remains …
development, but their function associated with single-cell differentiation remains …
Metabolome and transcriptome association analysis reveals dynamic regulation of purine metabolism and flavonoid synthesis in transdifferentiation during somatic …
H Guo, H Guo, L Zhang, Z Tang, X Yu, J Wu… - International Journal of …, 2019 - mdpi.com
Plant regeneration via somatic embryogenesis (SE) is a key step during genetic
engineering. In the current study, integrated widely targeted metabolomics and RNA …
engineering. In the current study, integrated widely targeted metabolomics and RNA …
Global analysis reveals the crucial roles of DNA methylation during rice seed development
MQ Xing, YJ Zhang, SR Zhou, WY Hu, XT Wu… - Plant …, 2015 - academic.oup.com
Seed development is an important process of reproductive development and consists of
embryo and endosperm development; both comprise several key processes. To determine …
embryo and endosperm development; both comprise several key processes. To determine …
Genetic and DNA Methylation Changes in Cotton (Gossypium) Genotypes and Tissues
In plants, epigenetic regulation is important in normal development and in modulating some
agronomic traits. The potential contribution of DNA methylation mediated gene regulation to …
agronomic traits. The potential contribution of DNA methylation mediated gene regulation to …
Single-cell resolution analysis reveals the preparation for reprogramming the fate of stem cell niche in cotton lateral meristem
X Zhu, Z Xu, G Wang, Y Cong, L Yu, R Jia, Y Qin… - Genome Biology, 2023 - Springer
Background Somatic embryogenesis is a major process for plant regeneration. However,
cell communication and the gene regulatory network responsible for cell reprogramming …
cell communication and the gene regulatory network responsible for cell reprogramming …
Single-base resolution methylome of cotton cytoplasmic male sterility system reveals epigenomic changes in response to high-temperature stress during anther …
Single-base resolution methylome of cotton cytoplasmic male sterility system reveals
epigenomic changes in response to high-temperature stress during anther development …
epigenomic changes in response to high-temperature stress during anther development …
DNA methylation reprogramming during seed development and its functional relevance in seed size/weight determination in chickpea
Seed development is orchestrated via complex gene regulatory networks and pathways.
Epigenetic factors may also govern seed development and seed size/weight. Here, we …
Epigenetic factors may also govern seed development and seed size/weight. Here, we …
T ranscriptome Profiling Reveals Auxin and Cytokinin Regulating Somatic Embryogenesis in Different Sister Lines of Cotton Cultivar CCRI24
Z Xu, C Zhang, X Zhang, C Liu, Z Wu… - Journal of integrative …, 2013 - Wiley Online Library
To get a broader view on the molecular mechanisms underlying somatic embryogenesis
(SE) in cotton (Gossypium hirsutum L.), global analysis of cotton transcriptome dynamics …
(SE) in cotton (Gossypium hirsutum L.), global analysis of cotton transcriptome dynamics …