Plant regeneration occurs when plants repair or replace damaged structures based on the
totipotency and pluripotency of their cells. Tissue culture is one of the most widely used …

Unpredicted variability in temperature is associated with frequent extreme low-temperature
events. Wheat is a leading crop in fulfilling global food requirements. Climate-driven …

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

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

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 …

Plants generally have the highest regenerative ability because they show a high degree of
developmental plasticity. Although the basic principles of plant regeneration date back many …

Plant genetic transformation is a crucial step for applying biotechnology such as genome
editing to basic and applied plant science research. Its success primarily relies on the …

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 …

Plant cells are totipotent and competent to regenerate from differentiated organs. It has been
known for six decades that cytokinin-rich medium induces shoot regeneration from callus …

Plants are known for their capacity to regenerate the whole body through de novo formation
of apical meristems from a mass of proliferating cells named callus. Exogenous cytokinin …