Paul A. Yates

Affiliations: 
Ophthalmology University of Virginia, Charlottesville, VA 
Area:
Retina
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"Paul Yates"
Mean distance: 15.9 (cluster 6)
 
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Dennis DM O'Leary grad student Salk Institute

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Publications

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Corliss BA, Ray HC, Doty RW, et al. (2020) Pericyte Bridges in Homeostasis and Hyperglycemia. Diabetes
Mendel TA, Clabough EB, Kao DS, et al. (2013) Pericytes derived from adipose-derived stem cells protect against retinal vasculopathy. Plos One. 8: e65691
Taylor AC, Mendel TA, Mason KE, et al. (2012) Attenuation of ephrinB2 reverse signaling decreases vascularized area and preretinal vascular tuft formation in the murine model of oxygen-induced retinopathy. Investigative Ophthalmology & Visual Science. 53: 5462-70
Taylor AC, Seltz LM, Yates PA, et al. (2010) Chronic whole-body hypoxia induces intussusceptive angiogenesis and microvascular remodeling in the mouse retina. Microvascular Research. 79: 93-101
Yates PA, Holub AD, McLaughlin T, et al. (2004) Computational modeling of retinotopic map development to define contributions of EphA-ephrinA gradients, axon-axon interactions, and patterned activity. Journal of Neurobiology. 59: 95-113
McLaughlin T, Hindges R, Yates PA, et al. (2003) Bifunctional action of ephrin-B1 as a repellent and attractant to control bidirectional branch extension in dorsal-ventral retinotopic mapping. Development (Cambridge, England). 130: 2407-18
Yates PA, Roskies AL, McLaughlin T, et al. (2001) Topographic-specific axon branching controlled by ephrin-As is the critical event in retinotectal map development. The Journal of Neuroscience : the Official Journal of the Society For Neuroscience. 21: 8548-63
Erkman L, Yates PA, McLaughlin T, et al. (2000) A POU domain transcription factor-dependent program regulates axon pathfinding in the vertebrate visual system. Neuron. 28: 779-92
Brown A, Yates PA, Burrola P, et al. (2000) Topographic mapping from the retina to the midbrain is controlled by relative but not absolute levels of EphA receptor signaling. Cell. 102: 77-88
O'Leary DD, Yates PA, McLaughlin T. (1999) Molecular development of sensory maps: representing sights and smells in the brain. Cell. 96: 255-69
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