Physical Biology of the Cell is a textbook for a first course in physical biology or biophysics
for undergraduate or graduate students. It maps the huge and complex landscape of cell …

A key innovation in leaf evolution is the acquisition of a flat lamina with adaxial–abaxial
polarity, which optimizes the primary function of photosynthesis. The developmental …

Petals can be simple or elaborate, depending on whether they have complex basic
structures and/or highly specialized epidermal modifications. It has been proposed that the …

Peltate organs, such as the prey-capturing traps of carnivorous plants and nectary-bearing
petals of ranunculaceous species, are widespread in nature and have intrigued and …

Members of the YABBY gene family have a general role that promotes abaxial cell fate in a
model eudicot, Arabidopsis thaliana. To understand the function of YABBY genes in …

Lateral organ growth in seed plants is controlled in part by members of the YABBY (YAB)
and class III homeodomain/leucine zipper (HD‐ZIPIII) families of transcription factors. HD …

Petals can be simple or elaborate, depending on whether they have lobes, teeth, fringes, or
appendages along their margins, or possess spurs, scales, or other types of modifications …

YABBY genes are seed plant‐specific transcriptional regulators that are involved in diverse
aspects of leaf, shoot and flower development. A series of duplications gave rise to five gene …

Leaves of flowering plants are diverse in shape. Part of this morphological diversity can be
attributed to differences in spatiotemporal regulation of polarity in the upper (adaxial) and …

Planar structures dramatically increase the surface‐area‐to‐volume ratio, which is critically
important for multicellular organisms. In this study, we utilize naturally occurring phenotypic …