[HTML][HTML] Epigenetics for crop improvement in times of global change
Simple Summary Research on plant epigenetics aims to understand how endogenous,
biotic, and abiotic factors regulate plant development and growth independent of changes in …
biotic, and abiotic factors regulate plant development and growth independent of changes in …
[HTML][HTML] Genetic and molecular control of somatic embryogenesis
C Salaün, L Lepiniec, B Dubreucq - Plants, 2021 - mdpi.com
Somatic embryogenesis is a method of asexual reproduction that can occur naturally in
various plant species and is widely used for clonal propagation, transformation and …
various plant species and is widely used for clonal propagation, transformation and …
[HTML][HTML] Technological development and application of plant genetic transformation
W Su, M Xu, Y Radani, L Yang - International Journal of Molecular …, 2023 - mdpi.com
Genetic transformation is an important strategy for enhancing plant biomass or resistance in
response to adverse environments and population growth by imparting desirable genetic …
response to adverse environments and population growth by imparting desirable genetic …
[HTML][HTML] Strategies for genotype-flexible plant transformation
Recent advances in the genome-editing tools have demonstrated a great potential for
accelerating functional genomics and crop trait improvements, but the low efficiency and …
accelerating functional genomics and crop trait improvements, but the low efficiency and …
Use of auxin and cytokinin for somatic embryogenesis in plant: a story from competence towards completion
Plant growth regulators (PGRs) enhance plants regeneration ability to form various organs
and tissues by determining embryonic fate in vivo and boosting regeneration efficiency in …
and tissues by determining embryonic fate in vivo and boosting regeneration efficiency in …
Towards a hierarchical gene regulatory network underlying somatic embryogenesis
FX Wang, GD Shang, JW Wang - Trends in Plant Science, 2022 - cell.com
Genome-editing technologies have advanced in recent years but designing future crops
remains limited by current methods of improving somatic embryogenesis (SE) capacity. In …
remains limited by current methods of improving somatic embryogenesis (SE) capacity. In …
Somatic embryo initiation by rice BABY BOOM1 involves activation of zygote‐expressed auxin biosynthesis genes
I Khanday, C Santos‐Medellín… - New Phytologist, 2023 - Wiley Online Library
Plant embryogenesis results from the fusion of male and female gametes but can also be
induced in somatic cells. The molecular pathways for embryo initiation are poorly …
induced in somatic cells. The molecular pathways for embryo initiation are poorly …
Epigenomic reprogramming in plant regeneration: Locate before you modify
Y Chen, FY Hung, K Sugimoto - Current opinion in plant biology, 2023 - Elsevier
Plants possess remarkable abilities for regeneration, and this developmental capability is
strongly influenced by environmental conditions. Previous research has highlighted the …
strongly influenced by environmental conditions. Previous research has highlighted the …
[HTML][HTML] Tissue culture—A sustainable approach to explore plant stresses
A Wijerathna-Yapa, J Hiti-Bandaralage - Life, 2023 - mdpi.com
Plants are constantly faced with biotic or abiotic stress, which affects their growth and
development. Yield reduction due to biotic and abiotic stresses on economically important …
development. Yield reduction due to biotic and abiotic stresses on economically important …
[HTML][HTML] Advances in the regulation of epidermal cell development by C2H2 zinc finger proteins in plants
G Han, Y Li, Z Qiao, C Wang, Y Zhao, J Guo… - Frontiers in plant …, 2021 - frontiersin.org
Plant epidermal cells, such as trichomes, root hairs, salt glands, and stomata, play pivotal
roles in the growth, development, and environmental adaptation of terrestrial plants. Cell fate …
roles in the growth, development, and environmental adaptation of terrestrial plants. Cell fate …