To respond to auxin, the chief orchestrator of their multicellularity, plants evolved multiple
receptor systems and signal transduction cascades. Despite decades of research, however …

The root system architecture in plants is a result of multiple evolutionary innovations over
time in response to changing environmental cues. Dichotomy and endogenous lateral …

Extracellular perception of auxin, an essential phytohormone in plants, has been debated for
decades. Auxin-binding protein 1 (ABP1) physically interacts with quintessential …

The plant hormone auxin and its directional transport across tissues mediate much of the
remarkably adaptive and plastic development of higher plants. Positive feedback between …

As a graduate student, I would root a supermarket-bought basil plant in water to propagate it
in order to satisfy my herbcraving needs. In fact, many plants are capable of rooting in water …

Plants adjust their growth rapidly in response to various stimuli, thus improving their fitness
to ever-changing environments. In most cases, including plasma membrane (PM) …

Recently, we identified Phosducin-like2 (AtPhLP2) in Arabidopsis as a possible regulator of
growth and development that could be involved in the non-transcriptional auxin response in …