B. Alexander Yi scite author profile

PDZ domains are multifunctional protein-interaction motifs that often bind to the C-terminus of protein targets. Nitric oxide (NO), an endogenous signaling molecule, plays critical roles in nervous, immune, and cardiovascular function. Although there are numerous physiological functions for neuron-derived NO, produced primarily by the neuronal NO synthase (nNOS), excess nNOS activity mediates brain injury in cerebral ischemia and in animal models of Parkinson's disease. Subcellular localization of nNOS activity must therefore be tightly regulated. To determine ligands for the PDZ domain of nNOS, we screened 13 billion distinct peptides and found that the nNOS-PDZ domain binds tightly to peptides ending Asp-X-Val. This differs from the only known (Thr/Ser)-X-Val consensus that interacts with PDZ domains from PSD-95. Preference for Asp at the -2 peptide position is mediated by Tyr-77 of nNOS. A Y77D78 to H77E78 substitution changes the binding specificity from Asp-X-Val to Thr-X-Val. Guided by the Asp-X-Val consensus, candidate nNOS interacting proteins have been identified including glutamate and melatonin receptors. Our results demonstrate that PDZ domains have distinct peptide binding specificity.

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The Conserved Immunoglobulin Superfamily Member SAX-3/Robo Directs Multiple Aspects of Axon Guidance in C. elegans

Zallen

Bargmann

1998

Cell

267

191

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The C. elegans sax-3 gene encodes a predicted transmembrane protein with five immunoglobulin domains and three fibronectin type III repeats that is closely related to Drosophila Robo. Mutations in sax-3 lead to repeated midline crossing by ventral cord axons that normally do not cross the midline after they join the ventral cord, a phenotype similar to that of robo mutants. sax-3 is also required for guidance of some axons to the ventral cord, implicating this gene in two different types of guidance events. A sax-3::GFP fusion gene is expressed in developing neurons during axon outgrowth, and sax-3 function is required at the time of axon guidance, suggesting that this gene mediates cell interactions during guidance decisions.

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Yeast Screen for Constitutively Active Mutant G Protein–Activated Potassium Channels

Lin

Jan

2001

Neuron

132

152

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B. Alexander Yi

PDZ domain of neuronal nitric oxide synthase recognizes novel C-terminal peptide sequences

The Conserved Immunoglobulin Superfamily Member SAX-3/Robo Directs Multiple Aspects of Axon Guidance in C. elegans

Yeast Screen for Constitutively Active Mutant G Protein–Activated Potassium Channels

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