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 …

The phytohormones auxin and cytokinin interact to regulate many plant growth and
developmental processes. Elements involved in the biosynthesis, inactivation, transport …

In vitro cell and tissue-based systems have tremendous potential in fundamental research
and for commercial applications such as clonal propagation, genetic engineering and …

Shoot regeneration can be achieved in vitro through a two‐step process involving the
acquisition of pluripotency on callus‐induction media (CIM) and the formation of shoots on …

In vitro shoot organogenesis and plant regeneration are crucial for both plant biotechnology
and the fundamental study of plant biology. Although the importance of auxin and cytokinin …

Background Stone cells in fruits of pear (Pyrus pyrifolia) negatively influence fruit quality
because their lignified cell walls impart a coarse and granular texture to the fruit flesh …

Plant regeneration through de novo shoot organogenesis in tissue culture is a critical step in
most plant transformation and micropropagation procedures. Establishing an efficient …

Highlights•Loss of cell–cell communication might trigger regeneration.•Developmental fates
and stages of the cells are important for regenerative competency.•Acquisition of …

Plant roots and root systems are indispensable for water and nutrient foraging, and are a
major evolutionary achievement for plants to cope with dry land conditions. The ability of …

To understand how the identity of an organ can be switched, we studied the transformation
of lateral root primordia (LRP) into shoot meristems in Arabidopsis root segments. In this …