Plant intra-individual and inter-individual variation can be determined by the epigenome, a
set of covalent modifications of DNA and chromatin that can alter genome structure and …

Recent findings call for the critical overview of some incorrectly used plant cell and tissue
culture terminology such as dedifferentiation, callus, totipotency, and somatic …

Somatic embryogenesis (SE) is a means by which plants can regenerate bipolar structures
from a somatic cell. During the process of cell differentiation, the explant responds to …

Plants reprogram somatic cells following injury and regenerate new tissues and organs.
Upon perception of inductive cues, somatic cells often dedifferentiate, proliferate, and …

Compared with animals, plants generally possess a high degree of developmental plasticity
and display various types of tissue or organ regeneration. This regenerative capacity can be …

Successful regeneration of genetically modified plants from cell culture is highly dependent
on the species, genotype, and tissue-type being targeted for transformation. Studies in some …

Wounding is a primary trigger of organ regeneration, but how wound stress reactivates cell
proliferation and promotes cellular reprogramming remains elusive. In this study, we …

Highly efficient tissue repair is pivotal for surviving damage-associated stress. Plants
generate callus upon injury to heal wound sites, yet regulatory mechanisms of tissue repair …

Somatic embryogenesis is a form of induced plant cell totipotency where embryos develop
from somatic or vegetative cells in the absence of fertilization. Somatic embryogenesis can …

Plant roots can regenerate after excision of their tip, including the stem cell niche. To
determine which developmental program mediates such repair, we applied a combination of …