Technique monitors thousands of molecules simultaneously

David Kilper/WUSTL PhotoKevin Moeller’s group is pioneering new methods for building libraries of small molecules on addressable electrode arrays.A chemist at Washington University in St. Louis is making molecules the new-fashioned way — selectively harnessing thousands of minuscule electrodes on a tiny computer chip that do chemical reactions and yield molecules that bind to receptor sites. Kevin Moeller, Ph.D., Washington University professor of chemistry in Arts & Sciences, is doing this so that the electrodes on the chip can be used to monitor the biological behavior of up to 12,000 molecules at the same time.

Nervous system ‘ears’ line up across from ‘mouths’

Neurons communicate at a synapseAs the nervous system develops early in life, it must create millions of synapses—small spaces between nerve cells across which the cells can communicate. Scientists have long speculated that these synapses are deliberately organized to place the structures that send messages on one cell directly across from the structures on another nearby nerve cell that receive those messages. School of Medicine researchers have provided the first experimental proof of this theory at the level of the nervous systems’ most fundamental unit: individual clusters of structures that send and receive signals.