Development

Plants, like animals, grow from a single, fertilized cell into a complex, mature organism with many distinctive cell types. The goal of the field of developmental biology is to understand how this occurs. Development encompasses the study of a wide range of processes occurring simultaneously: coordinated cell division, cell growth, cell differentiation, morphogenesis, pattern formation, and establishment of the overall body plan or architecture. Unlike animals, however, plants are stationary and must adapt to their initial environment. One consequence is that most plants have a flexible body plan: while humans establish two arms and two legs very early in development, plants determine their body plan dynamically, initiating new branches in numbers and patterns appropriate for the conditions. Thus, a solitary tree will have a multitude of branches and leaves to maximize exposure to light, while a single tree in a dense forest will have very few branches in order to reach the top of the canopy.

Studies of developmental biology have important consequences for agriculture. Understanding the process of plant development will allow us to manipulate morphogenesis and plant architecture to coax plants into making more structures that will benefit us: more kernels in an ear of corn, more pods on soybean plants, or more biomass in plant biofuel crops.

Labs conducting research in this area include:

Roger Beachy Lab
James C Carrington Lab
Todd Mockler Lab
Sona Pandey Lab
James Umen Lab
Oliver Yu Lab
Integrated Microscopy Facility

Technologies available for license: