| |
Last Name |
First Name |
Research/Clinical Interest Title |
Keywords |
 |
PARANT |
JOHN |
Animal Models of Genomic Instability, p53 Regulation, Cancer and Mitotic Dysfunction |
Zebrafish, Mouse, Li Fraumeni Syndrome, Roberts syndrome, Birth Defects, Tumor Suppressor, Genomic Instability, Aneuploidy, Mitosis, DNA damage, Cancer, and Apoptosis. |
| |
PARANT |
JOHN |
Animal Models of Genomic Instability, p53 Regulation, Cancer and Mitotic Dysfunction |
Zebrafish, Mouse, Li Fraumeni Syndrome, Roberts syndrome, Birth Defects, Tumor Suppressor, Genomic Instability, Aneuploidy, Mitosis, DNA damage, Cancer, and Apoptosis. |
| |
PARANT |
JOHN |
Animal Models of Genomic Instability, p53 Regulation, Cancer and Mitotic Dysfunction |
Zebrafish, Mouse, Li Fraumeni Syndrome, Roberts syndrome, Birth Defects, Tumor Suppressor, Genomic Instability, Aneuploidy, Mitosis, DNA damage, Cancer, and Apoptosis. |
| |
PARANT |
JOHN |
Animal Models of Genomic Instability, p53 Regulation, Cancer and Mitotic Dysfunction |
Zebrafish, Mouse, Li Fraumeni Syndrome, Roberts syndrome, Birth Defects, Tumor Suppressor, Genomic Instability, Aneuploidy, Mitosis, DNA damage, Cancer, and Apoptosis. |
| |
PARANT |
JOHN |
Animal Models of Genomic Instability, p53 Regulation, Cancer and Mitotic Dysfunction |
Zebrafish, Mouse, Li Fraumeni Syndrome, Roberts syndrome, Birth Defects, Tumor Suppressor, Genomic Instability, Aneuploidy, Mitosis, DNA damage, Cancer, and Apoptosis. |
 |
PARKS |
DALE |
Reactive Oxygen and Nitrogen Species in Cardiovascular Disease |
Free Radical Biology, ischemia, liver, transplantation, nitric oxide |
| |
PARKS |
DALE |
Reactive Oxygen and Nitrogen Species in Cardiovascular Disease |
Free Radical Biology, ischemia, liver, transplantation, nitric oxide |
| |
PARKS |
DALE |
Reactive Oxygen and Nitrogen Species in Cardiovascular Disease |
Free Radical Biology, ischemia, liver, transplantation, nitric oxide |
| |
PARKS |
DALE |
Reactive Oxygen and Nitrogen Species in Cardiovascular Disease |
Free Radical Biology, ischemia, liver, transplantation, nitric oxide |
| |
PARKS |
DALE |
Reactive Oxygen and Nitrogen Species in Cardiovascular Disease |
Free Radical Biology, ischemia, liver, transplantation, nitric oxide |
| |
PARKS |
DALE |
Reactive Oxygen and Nitrogen Species in Cardiovascular Disease |
Free Radical Biology, ischemia, liver, transplantation, nitric oxide |
| |
PARKS |
DALE |
Reactive Oxygen and Nitrogen Species in Cardiovascular Disease |
Free Radical Biology, ischemia, liver, transplantation, nitric oxide |
 |
PARPURA |
VLADIMIR |
The role of glial cells in physiology of nervous system. |
astrocyte, autism spectrum disorder, carbon nanotubes, glial biology, gliomas, enteric glia, exocytosis, glutamate, glial-neuronal signaling, intellectual disability, nanotechnology, neural prosthesis, optogenetics, physiology, pathology |
| |
PARPURA |
VLADIMIR |
The role of glial cells in physiology of nervous system. |
astrocyte, autism spectrum disorder, carbon nanotubes, glial biology, gliomas, enteric glia, exocytosis, glutamate, glial-neuronal signaling, intellectual disability, nanotechnology, neural prosthesis, optogenetics, physiology, pathology |
| |
PARPURA |
VLADIMIR |
The role of glial cells in physiology of nervous system. |
astrocyte, autism spectrum disorder, carbon nanotubes, glial biology, gliomas, enteric glia, exocytosis, glutamate, glial-neuronal signaling, intellectual disability, nanotechnology, neural prosthesis, optogenetics, physiology, pathology |
| |
PARPURA |
VLADIMIR |
The role of glial cells in physiology of nervous system. |
astrocyte, autism spectrum disorder, carbon nanotubes, glial biology, gliomas, enteric glia, exocytosis, glutamate, glial-neuronal signaling, intellectual disability, nanotechnology, neural prosthesis, optogenetics, physiology, pathology |
| |
PARPURA |
VLADIMIR |
The role of glial cells in physiology of nervous system. |
astrocyte, autism spectrum disorder, carbon nanotubes, glial biology, gliomas, enteric glia, exocytosis, glutamate, glial-neuronal signaling, intellectual disability, nanotechnology, neural prosthesis, optogenetics, physiology, pathology |
| |
PARPURA |
VLADIMIR |
The role of glial cells in physiology of nervous system. |
astrocyte, autism spectrum disorder, carbon nanotubes, glial biology, gliomas, enteric glia, exocytosis, glutamate, glial-neuronal signaling, intellectual disability, nanotechnology, neural prosthesis, optogenetics, physiology, pathology |
| |
PARPURA |
VLADIMIR |
The role of glial cells in physiology of nervous system. |
astrocyte, autism spectrum disorder, carbon nanotubes, glial biology, gliomas, enteric glia, exocytosis, glutamate, glial-neuronal signaling, intellectual disability, nanotechnology, neural prosthesis, optogenetics, physiology, pathology |
| |
PARPURA |
VLADIMIR |
The role of glial cells in physiology of nervous system. |
astrocyte, autism spectrum disorder, carbon nanotubes, glial biology, gliomas, enteric glia, exocytosis, glutamate, glial-neuronal signaling, intellectual disability, nanotechnology, neural prosthesis, optogenetics, physiology, pathology |
| |
PARPURA |
VLADIMIR |
The role of glial cells in physiology of nervous system. |
astrocyte, autism spectrum disorder, carbon nanotubes, glial biology, gliomas, enteric glia, exocytosis, glutamate, glial-neuronal signaling, intellectual disability, nanotechnology, neural prosthesis, optogenetics, physiology, pathology |
| |
PARPURA |
VLADIMIR |
The role of glial cells in physiology of nervous system. |
astrocyte, autism spectrum disorder, carbon nanotubes, glial biology, gliomas, enteric glia, exocytosis, glutamate, glial-neuronal signaling, intellectual disability, nanotechnology, neural prosthesis, optogenetics, physiology, pathology |
| |
PARPURA |
VLADIMIR |
The role of glial cells in physiology of nervous system. |
astrocyte, autism spectrum disorder, carbon nanotubes, glial biology, gliomas, enteric glia, exocytosis, glutamate, glial-neuronal signaling, intellectual disability, nanotechnology, neural prosthesis, optogenetics, physiology, pathology |
| |
PARPURA |
VLADIMIR |
The role of glial cells in physiology of nervous system. |
astrocyte, autism spectrum disorder, carbon nanotubes, glial biology, gliomas, enteric glia, exocytosis, glutamate, glial-neuronal signaling, intellectual disability, nanotechnology, neural prosthesis, optogenetics, physiology, pathology |
| |
PARPURA |
VLADIMIR |
The role of glial cells in physiology of nervous system. |
astrocyte, autism spectrum disorder, carbon nanotubes, glial biology, gliomas, enteric glia, exocytosis, glutamate, glial-neuronal signaling, intellectual disability, nanotechnology, neural prosthesis, optogenetics, physiology, pathology |
| |
PARPURA |
VLADIMIR |
The role of glial cells in physiology of nervous system. |
astrocyte, autism spectrum disorder, carbon nanotubes, glial biology, gliomas, enteric glia, exocytosis, glutamate, glial-neuronal signaling, intellectual disability, nanotechnology, neural prosthesis, optogenetics, physiology, pathology |
| |
PARPURA |
VLADIMIR |
The role of glial cells in physiology of nervous system. |
astrocyte, autism spectrum disorder, carbon nanotubes, glial biology, gliomas, enteric glia, exocytosis, glutamate, glial-neuronal signaling, intellectual disability, nanotechnology, neural prosthesis, optogenetics, physiology, pathology |
| |
PARPURA |
VLADIMIR |
The role of glial cells in physiology of nervous system. |
astrocyte, autism spectrum disorder, carbon nanotubes, glial biology, gliomas, enteric glia, exocytosis, glutamate, glial-neuronal signaling, intellectual disability, nanotechnology, neural prosthesis, optogenetics, physiology, pathology |
| |
PARPURA |
VLADIMIR |
The role of glial cells in physiology of nervous system. |
astrocyte, autism spectrum disorder, carbon nanotubes, glial biology, gliomas, enteric glia, exocytosis, glutamate, glial-neuronal signaling, intellectual disability, nanotechnology, neural prosthesis, optogenetics, physiology, pathology |
| |
PARPURA |
VLADIMIR |
The role of glial cells in physiology of nervous system. |
astrocyte, autism spectrum disorder, carbon nanotubes, glial biology, gliomas, enteric glia, exocytosis, glutamate, glial-neuronal signaling, intellectual disability, nanotechnology, neural prosthesis, optogenetics, physiology, pathology |
| |
PARPURA |
VLADIMIR |
The role of glial cells in physiology of nervous system. |
astrocyte, autism spectrum disorder, carbon nanotubes, glial biology, gliomas, enteric glia, exocytosis, glutamate, glial-neuronal signaling, intellectual disability, nanotechnology, neural prosthesis, optogenetics, physiology, pathology |
| |
PARPURA |
VLADIMIR |
The role of glial cells in physiology of nervous system. |
astrocyte, autism spectrum disorder, carbon nanotubes, glial biology, gliomas, enteric glia, exocytosis, glutamate, glial-neuronal signaling, intellectual disability, nanotechnology, neural prosthesis, optogenetics, physiology, pathology |
| |
PARPURA |
VLADIMIR |
The role of glial cells in physiology of nervous system. |
astrocyte, autism spectrum disorder, carbon nanotubes, glial biology, gliomas, enteric glia, exocytosis, glutamate, glial-neuronal signaling, intellectual disability, nanotechnology, neural prosthesis, optogenetics, physiology, pathology |
| |
PARPURA |
VLADIMIR |
The role of glial cells in physiology of nervous system. |
astrocyte, autism spectrum disorder, carbon nanotubes, glial biology, gliomas, enteric glia, exocytosis, glutamate, glial-neuronal signaling, intellectual disability, nanotechnology, neural prosthesis, optogenetics, physiology, pathology |
| |
PARPURA |
VLADIMIR |
The role of glial cells in physiology of nervous system. |
astrocyte, autism spectrum disorder, carbon nanotubes, glial biology, gliomas, enteric glia, exocytosis, glutamate, glial-neuronal signaling, intellectual disability, nanotechnology, neural prosthesis, optogenetics, physiology, pathology |
| |
PARPURA |
VLADIMIR |
The role of glial cells in physiology of nervous system. |
astrocyte, autism spectrum disorder, carbon nanotubes, glial biology, gliomas, enteric glia, exocytosis, glutamate, glial-neuronal signaling, intellectual disability, nanotechnology, neural prosthesis, optogenetics, physiology, pathology |
 |
PATEL |
RAKESH |
Modulation of Inflammation by Reactive Species and N-glycans |
vascular, hemoglobin, red cells, Inflammation, isoflavones, Nitric oxide, nitrite, N-glycan, matrikine |
| |
PATEL |
RAKESH |
Modulation of Inflammation by Reactive Species and N-glycans |
vascular, hemoglobin, red cells, Inflammation, isoflavones, Nitric oxide, nitrite, N-glycan, matrikine |
| |
PATEL |
RAKESH |
Modulation of Inflammation by Reactive Species and N-glycans |
vascular, hemoglobin, red cells, Inflammation, isoflavones, Nitric oxide, nitrite, N-glycan, matrikine |
| |
PATEL |
RAKESH |
Modulation of Inflammation by Reactive Species and N-glycans |
vascular, hemoglobin, red cells, Inflammation, isoflavones, Nitric oxide, nitrite, N-glycan, matrikine |
| |
PATEL |
RAKESH |
Modulation of Inflammation by Reactive Species and N-glycans |
vascular, hemoglobin, red cells, Inflammation, isoflavones, Nitric oxide, nitrite, N-glycan, matrikine |
| |
PATEL |
RAKESH |
Modulation of Inflammation by Reactive Species and N-glycans |
vascular, hemoglobin, red cells, Inflammation, isoflavones, Nitric oxide, nitrite, N-glycan, matrikine |
| |
PATEL |
RAKESH |
Modulation of Inflammation by Reactive Species and N-glycans |
vascular, hemoglobin, red cells, Inflammation, isoflavones, Nitric oxide, nitrite, N-glycan, matrikine |
| |
PATEL |
RAKESH |
Modulation of Inflammation by Reactive Species and N-glycans |
vascular, hemoglobin, red cells, Inflammation, isoflavones, Nitric oxide, nitrite, N-glycan, matrikine |
| |
PATEL |
RAKESH |
Modulation of Inflammation by Reactive Species and N-glycans |
vascular, hemoglobin, red cells, Inflammation, isoflavones, Nitric oxide, nitrite, N-glycan, matrikine |
| |
PATEL |
RAKESH |
Modulation of Inflammation by Reactive Species and N-glycans |
vascular, hemoglobin, red cells, Inflammation, isoflavones, Nitric oxide, nitrite, N-glycan, matrikine |
| |
PATEL |
RAKESH |
Modulation of Inflammation by Reactive Species and N-glycans |
vascular, hemoglobin, red cells, Inflammation, isoflavones, Nitric oxide, nitrite, N-glycan, matrikine |
| |
PATEL |
RAKESH |
Modulation of Inflammation by Reactive Species and N-glycans |
vascular, hemoglobin, red cells, Inflammation, isoflavones, Nitric oxide, nitrite, N-glycan, matrikine |
| |
PATEL |
RAKESH |
Modulation of Inflammation by Reactive Species and N-glycans |
vascular, hemoglobin, red cells, Inflammation, isoflavones, Nitric oxide, nitrite, N-glycan, matrikine |
| |
PATEL |
RAKESH |
Modulation of Inflammation by Reactive Species and N-glycans |
vascular, hemoglobin, red cells, Inflammation, isoflavones, Nitric oxide, nitrite, N-glycan, matrikine |
| |
PATEL |
RAKESH |
Modulation of Inflammation by Reactive Species and N-glycans |
vascular, hemoglobin, red cells, Inflammation, isoflavones, Nitric oxide, nitrite, N-glycan, matrikine |
| |
PATEL |
RAKESH |
Modulation of Inflammation by Reactive Species and N-glycans |
vascular, hemoglobin, red cells, Inflammation, isoflavones, Nitric oxide, nitrite, N-glycan, matrikine |
| |
PATEL |
RAKESH |
Modulation of Inflammation by Reactive Species and N-glycans |
vascular, hemoglobin, red cells, Inflammation, isoflavones, Nitric oxide, nitrite, N-glycan, matrikine |
| |
PATEL |
RAKESH |
Modulation of Inflammation by Reactive Species and N-glycans |
vascular, hemoglobin, red cells, Inflammation, isoflavones, Nitric oxide, nitrite, N-glycan, matrikine |
| |
PATEL |
RAKESH |
Modulation of Inflammation by Reactive Species and N-glycans |
vascular, hemoglobin, red cells, Inflammation, isoflavones, Nitric oxide, nitrite, N-glycan, matrikine |
| |
PATEL |
RAKESH |
Modulation of Inflammation by Reactive Species and N-glycans |
vascular, hemoglobin, red cells, Inflammation, isoflavones, Nitric oxide, nitrite, N-glycan, matrikine |
| |
PATEL |
RAKESH |
Modulation of Inflammation by Reactive Species and N-glycans |
vascular, hemoglobin, red cells, Inflammation, isoflavones, Nitric oxide, nitrite, N-glycan, matrikine |
| |
PATEL |
RAKESH |
Modulation of Inflammation by Reactive Species and N-glycans |
vascular, hemoglobin, red cells, Inflammation, isoflavones, Nitric oxide, nitrite, N-glycan, matrikine |
| |
PATEL |
RAKESH |
Modulation of Inflammation by Reactive Species and N-glycans |
vascular, hemoglobin, red cells, Inflammation, isoflavones, Nitric oxide, nitrite, N-glycan, matrikine |
| |
PATEL |
RAKESH |
Modulation of Inflammation by Reactive Species and N-glycans |
vascular, hemoglobin, red cells, Inflammation, isoflavones, Nitric oxide, nitrite, N-glycan, matrikine |
| |
PATEL |
RAKESH |
Modulation of Inflammation by Reactive Species and N-glycans |
vascular, hemoglobin, red cells, Inflammation, isoflavones, Nitric oxide, nitrite, N-glycan, matrikine |
| |
PATEL |
RAKESH |
Modulation of Inflammation by Reactive Species and N-glycans |
vascular, hemoglobin, red cells, Inflammation, isoflavones, Nitric oxide, nitrite, N-glycan, matrikine |
| |
PATEL |
RAKESH |
Modulation of Inflammation by Reactive Species and N-glycans |
vascular, hemoglobin, red cells, Inflammation, isoflavones, Nitric oxide, nitrite, N-glycan, matrikine |
| |
PATEL |
RAKESH |
Modulation of Inflammation by Reactive Species and N-glycans |
vascular, hemoglobin, red cells, Inflammation, isoflavones, Nitric oxide, nitrite, N-glycan, matrikine |
| |
PATEL |
RAKESH |
Modulation of Inflammation by Reactive Species and N-glycans |
vascular, hemoglobin, red cells, Inflammation, isoflavones, Nitric oxide, nitrite, N-glycan, matrikine |
| |
PATEL |
RAKESH |
Modulation of Inflammation by Reactive Species and N-glycans |
vascular, hemoglobin, red cells, Inflammation, isoflavones, Nitric oxide, nitrite, N-glycan, matrikine |
| |
PATEL |
RAKESH |
Modulation of Inflammation by Reactive Species and N-glycans |
vascular, hemoglobin, red cells, Inflammation, isoflavones, Nitric oxide, nitrite, N-glycan, matrikine |
| |
PATEL |
RAKESH |
Modulation of Inflammation by Reactive Species and N-glycans |
vascular, hemoglobin, red cells, Inflammation, isoflavones, Nitric oxide, nitrite, N-glycan, matrikine |
| |
PATEL |
RAKESH |
Modulation of Inflammation by Reactive Species and N-glycans |
vascular, hemoglobin, red cells, Inflammation, isoflavones, Nitric oxide, nitrite, N-glycan, matrikine |
| |
PATEL |
RAKESH |
Modulation of Inflammation by Reactive Species and N-glycans |
vascular, hemoglobin, red cells, Inflammation, isoflavones, Nitric oxide, nitrite, N-glycan, matrikine |
| |
PATEL |
RAKESH |
Modulation of Inflammation by Reactive Species and N-glycans |
vascular, hemoglobin, red cells, Inflammation, isoflavones, Nitric oxide, nitrite, N-glycan, matrikine |
| |
PATEL |
RAKESH |
Modulation of Inflammation by Reactive Species and N-glycans |
vascular, hemoglobin, red cells, Inflammation, isoflavones, Nitric oxide, nitrite, N-glycan, matrikine |
 |
PATERSON |
ANDREW |
Role of O-Glycosylation in Gene Regulation, Cell Growth, and Differentiation. |
Transcription factors, gene regulation, proteasome, glycosylation, O-GlcNAc, development, transgenic mice |
 |
PATTERSON |
MARK |
|
|
 |
PEARCE |
BENJAMIN |
|
|
 |
PENG |
JI-BIN |
Calcium transport proteins and their roles in health and disease |
Calcium transport, absorption, reabsorption, hyercalciuria, hypertension, TRPV6, TRPV5, WNK4 |
| |
PENG |
JI-BIN |
Calcium transport proteins and their roles in health and disease |
Calcium transport, absorption, reabsorption, hyercalciuria, hypertension, TRPV6, TRPV5, WNK4 |
| |
PENG |
JI-BIN |
Calcium transport proteins and their roles in health and disease |
Calcium transport, absorption, reabsorption, hyercalciuria, hypertension, TRPV6, TRPV5, WNK4 |
 |
PERCY |
ALAN |
Rare Disease CRC for New Therapies and New Diagnostics |
Rett syndrome, MECP2, phenotype, genotype, natural history, longevity |
| |
PERCY |
ALAN |
Rare Disease CRC for New Therapies and New Diagnostics |
Rett syndrome, MECP2, phenotype, genotype, natural history, longevity |
| |
PERCY |
ALAN |
Rare Disease CRC for New Therapies and New Diagnostics |
Rett syndrome, MECP2, phenotype, genotype, natural history, longevity |
| |
PERCY |
ALAN |
Rare Disease CRC for New Therapies and New Diagnostics |
Rett syndrome, MECP2, phenotype, genotype, natural history, longevity |
| |
PERCY |
ALAN |
Rare Disease CRC for New Therapies and New Diagnostics |
Rett syndrome, MECP2, phenotype, genotype, natural history, longevity |
| |
PERCY |
ALAN |
Rare Disease CRC for New Therapies and New Diagnostics |
Rett syndrome, MECP2, phenotype, genotype, natural history, longevity |
| |
PERCY |
ALAN |
Rare Disease CRC for New Therapies and New Diagnostics |
Rett syndrome, MECP2, phenotype, genotype, natural history, longevity |
| |
PERCY |
ALAN |
Rare Disease CRC for New Therapies and New Diagnostics |
Rett syndrome, MECP2, phenotype, genotype, natural history, longevity |
| |
PERCY |
ALAN |
Rare Disease CRC for New Therapies and New Diagnostics |
Rett syndrome, MECP2, phenotype, genotype, natural history, longevity |
 |
PERRY |
GILBERT |
|
heart failure, angiotensin, natriuretic peptides, echocardiography, transgenic mouse |
 |
PETIT |
CHAD |
Strain Dependent Structure and Function of the Influenza NS1 Protein |
influenza, nmr, ns1, structural biology, virology |
| |
PETIT |
CHAD |
Strain Dependent Structure and Function of the Influenza NS1 Protein |
influenza, nmr, ns1, structural biology, virology |
| |
PETIT |
CHAD |
Strain Dependent Structure and Function of the Influenza NS1 Protein |
influenza, nmr, ns1, structural biology, virology |
| |
PETIT |
CHAD |
Strain Dependent Structure and Function of the Influenza NS1 Protein |
influenza, nmr, ns1, structural biology, virology |
 |
PHILIPS |
JOSEPH |
|
Persistent Pulmonary Hypertension of the Newborn, Group B Streptococcus. |
 |
PILLION |
DENNIS |
Diabetes mellitus treatment; nasal insulin delivery |
|
 |
PITTLER |
STEVEN |
Basic and Translational Studies of Photoreceptor Metabolism and Retinal Degeneration |
retinitis pigmentosa, phosphodiesterase, cGMP-gated cation channel, photoreceptor, phototransduction |
| |
PITTLER |
STEVEN |
Basic and Translational Studies of Photoreceptor Metabolism and Retinal Degeneration |
retinitis pigmentosa, phosphodiesterase, cGMP-gated cation channel, photoreceptor, phototransduction |
| |
PITTLER |
STEVEN |
Basic and Translational Studies of Photoreceptor Metabolism and Retinal Degeneration |
retinitis pigmentosa, phosphodiesterase, cGMP-gated cation channel, photoreceptor, phototransduction |
| |
PITTLER |
STEVEN |
Basic and Translational Studies of Photoreceptor Metabolism and Retinal Degeneration |
retinitis pigmentosa, phosphodiesterase, cGMP-gated cation channel, photoreceptor, phototransduction |
| |
PITTLER |
STEVEN |
Basic and Translational Studies of Photoreceptor Metabolism and Retinal Degeneration |
retinitis pigmentosa, phosphodiesterase, cGMP-gated cation channel, photoreceptor, phototransduction |
| |
PITTLER |
STEVEN |
Basic and Translational Studies of Photoreceptor Metabolism and Retinal Degeneration |
retinitis pigmentosa, phosphodiesterase, cGMP-gated cation channel, photoreceptor, phototransduction |
|