Gibberellin research has its origins in Japan in the 19th century, when a disease of rice was
shown to be due to a fungal infection. The symptoms of the disease including overgrowth of …

Auxin participates in a multitude of developmental processes, as well as responses to
environmental cues. Compared with other plant hormones, auxin exhibits a unique property …

Plant phenotypic plasticity is controlled by diverse hormone pathways, which integrate and
convey information from multiple developmental and environmental signals. Moreover, in …

The global agricultural system has been badly affected by adverse environmental changes
in the past few years. These changes, including the rise of abiotic and biotic stressors …

Plants exhibit a unique developmental flexibility to ever-changing environmental conditions.
To achieve their profound adaptability, plants are able to maintain permanent stem cell …

Shoot branching patterns result from the spatio-temporal regulation of axillary bud
outgrowth. Numerous endogenous, developmental and environmental factors are integrated …

The demand for increased crop productivity and the predicted challenges related to plant
survival under adverse environmental conditions have renewed the interest in research in …

Vascular cambium contains bifacial stem cells, which produce secondary xylem to one side
and secondary phloem to the other. However, how these fate decisions are regulated is …

Gibberellins (GAs) are a class of phytohormones, important for plant growth, and very
difficult to distinguish because of their similarity in chemical structures. Herein, we develop …

Gibberellins (GAs) are growth-promoting phytohormones that were crucial in breeding
improved semi-dwarf varieties during the green revolution. However, the molecular basis for …