|
Secondary Faculty
|
 |
| Peter
S. Aronson |
|
Molecular mechanisms
of ion transport in the kidney
|
|
Angelique
Bordey
|
|
Glial cell function
on postnatal neurogenesis
|
|
| Thomas
H. Brown |
|
Synaptic transmission,
neuronal plasticity and mechanisms of memory
|
|
Lloyd
G. Cantley
|
|
Epithelial morphogenesis |
|
| Marie
E. Egan |
|
Regulation of ion
transport across the airway epithelia
|
|
| Barbara
E. Ehrlich |
|
Mechanisms of intracellular
calcium release
|
|
| John
P. Geibel |
|
Optical monitoring
of ion transport mechanisms in epithelia
|
|
Leonard
K. Kaczmarek |
|
Long-lasting changes
in neural activity
|
|
| Richard G. Kibbey |
|
Diabetes Mellitus Type 1 and
Type 2 |
|
Patricia A. Priesig
|
|
Acid-activated signaling pathway that mediates the
physiological response of the renal proximal tubule to the kidney's
need to excrete acid |
|
George B. Richerson |
|
Role of serotonergic raphe neurons in pH homeostasis; Nonvesicular
GABA release via reversal of the GABA transporter
|
|
W.
Mark Saltzman
|
|
CNS drug delivery
and tissue engineering |
|
| Joseph
Santos-Sacchi |
|
Mammalian
inner ear |
|
Gerald I. Shulman |
|
Intermediary metabolism in humans
|
|
Carolyn W. Slayman
|
|
Molecular genetics of cation transporters
|
|
| Xiaoyong Yang |
|
Endocrinology
and metabolism |
|
Lawrence H. Young |
|
Cellular and molecular
mechanisms of metabolic adaptation to myocardial ischemia |
|
Fred S. Wright |
|
Ion tranport in single renal tubules
|
|
| Z. Jimmy Zhou |
|
Development and function of
the mammalian retina under both normal and pathological conditions
|
|