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

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 …

Buckwheat is a member of a genus of 23 species, where the two most common species are
Fagopyrum esculentum (common buckwheat) and Fagopyrum tataricum (Tartary …

Postembryonic organogenesis is critical for plant development. Underground, lateral roots
(LRs) form the bulk of mature root systems, yet the ontogeny of the LR primordium (LRP) is …

Detached Arabidopsis thaliana leaves can regenerate adventitious roots, providing a
platform for studying de novo root regeneration (DNRR). However, the comprehensive …

Old trees are remarkable for their ability to endure for centuries or even millennia, acting as
recordkeepers of historical climate and custodians of genetic diversity. The secret to their …

Many plant species are able to regenerate adventitious roots either directly from aerial
organs such as leaves or stems, in particularly after detachment (cutting), or indirectly, from …

Plant growth and development involve the specification and regeneration of stem cell niches
(SCNs). Although plants are exposed to disparate environmental conditions, how …

Agrobacterium-mediated genetic transformation is the leading technology for plant genetic
engineering and gene functional analysis. Recently, various tissue culture-independent …

At present, most precious compounds are still obtained by plant cultivation such as
ginsenosides, glycyrrhizic acid, and paclitaxel, which cannot be easily obtained by artificial …