| Total Records: 4504 |
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Last Name |
First Name |
Research/Clinical Interest Title |
Keywords |
| BAKER |
MICHAEL |
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| BAKER |
SABRIA |
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| BAKER |
SAMANTHA |
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| BAKER |
WILLIAM |
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| BAKITAS |
MARIE |
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| BAKRADZE |
EKATERINA |
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| BAL |
SUSAN |
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| BALASINKAM |
SABESAN |
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| BALDWIN |
JON |
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| BALKOVETZ |
DANIEL |
Epithelial Cell Biology; Epithelial Cell Signal Regulation; Regulation of paracellular transport across epithelial cell tight junctions |
epithelial cells, claudins, tight junctions, E-cadherin, hepatocyte growth factor, ERK, MDCK |
| BALKOVETZ |
DANIEL |
Epithelial Cell Biology; Epithelial Cell Signal Regulation; Regulation of paracellular transport across epithelial cell tight junctions |
epithelial cells, claudins, tight junctions, E-cadherin, hepatocyte growth factor, ERK, MDCK |
| BALKOVETZ |
DANIEL |
Epithelial Cell Biology; Epithelial Cell Signal Regulation; Regulation of paracellular transport across epithelial cell tight junctions |
epithelial cells, claudins, tight junctions, E-cadherin, hepatocyte growth factor, ERK, MDCK |
| BALKOVETZ |
DANIEL |
Epithelial Cell Biology; Epithelial Cell Signal Regulation; Regulation of paracellular transport across epithelial cell tight junctions |
epithelial cells, claudins, tight junctions, E-cadherin, hepatocyte growth factor, ERK, MDCK |
| BALKOVETZ |
DANIEL |
Epithelial Cell Biology; Epithelial Cell Signal Regulation; Regulation of paracellular transport across epithelial cell tight junctions |
epithelial cells, claudins, tight junctions, E-cadherin, hepatocyte growth factor, ERK, MDCK |
| BALKOVETZ |
DANIEL |
Epithelial Cell Biology; Epithelial Cell Signal Regulation; Regulation of paracellular transport across epithelial cell tight junctions |
epithelial cells, claudins, tight junctions, E-cadherin, hepatocyte growth factor, ERK, MDCK |
| BALL |
ANDREW |
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| BALL |
KARLENE |
Director, UAB Roybal Center for Translational Research on Aging and Mobility |
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| BALLARD-MONTGOMERY |
KAREN |
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| BALLINGER |
CAROL |
Mechanisms of lung injury from environmental oxidant exposures |
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| BALLINGER |
SCOTT |
Environmental cardiology, free radical biology, mitochondrial function, mitochondrial - nuclear interactions |
mitochondria, oxidative stress, evolutionary medicine, cardiovascular disease, cancer, metabolism |
| BALLINGER |
SCOTT |
Environmental cardiology, free radical biology, mitochondrial function, mitochondrial - nuclear interactions |
mitochondria, oxidative stress, evolutionary medicine, cardiovascular disease, cancer, metabolism |
| BALLINGER |
SCOTT |
Environmental cardiology, free radical biology, mitochondrial function, mitochondrial - nuclear interactions |
mitochondria, oxidative stress, evolutionary medicine, cardiovascular disease, cancer, metabolism |
| BALLINGER |
SCOTT |
Environmental cardiology, free radical biology, mitochondrial function, mitochondrial - nuclear interactions |
mitochondria, oxidative stress, evolutionary medicine, cardiovascular disease, cancer, metabolism |
| BALLINGER |
SCOTT |
Environmental cardiology, free radical biology, mitochondrial function, mitochondrial - nuclear interactions |
mitochondria, oxidative stress, evolutionary medicine, cardiovascular disease, cancer, metabolism |
| BALLINGER |
SCOTT |
Environmental cardiology, free radical biology, mitochondrial function, mitochondrial - nuclear interactions |
mitochondria, oxidative stress, evolutionary medicine, cardiovascular disease, cancer, metabolism |
| BALLINGER |
SCOTT |
Environmental cardiology, free radical biology, mitochondrial function, mitochondrial - nuclear interactions |
mitochondria, oxidative stress, evolutionary medicine, cardiovascular disease, cancer, metabolism |
| BALLMANN |
CHRISTOPHER |
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| BAMMAN |
MARCAS |
Exercise as a discovery tool and treatment in regenerative medicine and medical rehabilitation. |
exercise medicine, medical rehabilitation, regenerative medicine, clinical trial, muscle biology |
| BAMMAN |
MARCAS |
Exercise as a discovery tool and treatment in regenerative medicine and medical rehabilitation. |
exercise medicine, medical rehabilitation, regenerative medicine, clinical trial, muscle biology |
| BAMMAN |
MARCAS |
Exercise as a discovery tool and treatment in regenerative medicine and medical rehabilitation. |
exercise medicine, medical rehabilitation, regenerative medicine, clinical trial, muscle biology |
| BANASZAK HOLL |
MARK |
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| BANASZAK-HOLL |
JANE |
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| BANERJEE |
NILAM |
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| BANKS |
JASON |
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| BANKSTON |
CHRISTINA |
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| BANOS |
JAMES |
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| BANSAL |
ANJU |
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| BARBER |
JUDSON |
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| BARGER |
JOHN |
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| BARKER |
ANDREW |
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| BARLOTTA |
KEVIN |
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| BARNES |
GARY |
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| BARNES |
HELEN |
Proteomics of neuroprotective and chemopreventive actions of dietary phytochemicals |
neuroprotection, proteomics, protein modifications, antioxidant dietary supplements, menopause, neurogenesis |
| BARNES |
HELEN |
Proteomics of neuroprotective and chemopreventive actions of dietary phytochemicals |
neuroprotection, proteomics, protein modifications, antioxidant dietary supplements, menopause, neurogenesis |
| BARNES |
HELEN |
Proteomics of neuroprotective and chemopreventive actions of dietary phytochemicals |
neuroprotection, proteomics, protein modifications, antioxidant dietary supplements, menopause, neurogenesis |
| BARNES |
HELEN |
Proteomics of neuroprotective and chemopreventive actions of dietary phytochemicals |
neuroprotection, proteomics, protein modifications, antioxidant dietary supplements, menopause, neurogenesis |
| BARNES |
HELEN |
Proteomics of neuroprotective and chemopreventive actions of dietary phytochemicals |
neuroprotection, proteomics, protein modifications, antioxidant dietary supplements, menopause, neurogenesis |
| BARNES |
JARROD |
Mechanisms of metabolic dysregulation and aberrant glycosylation in pulmonary disease |
glycosylation, pulmonary vascular disease, metabolism |
| BARNES |
NICOLE |
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| BARNES |
STEPHEN |
Bile acids, polyphenols and metabolism, and their effects on protein expression and function in chronic disease |
bile acids, isoflavonoids and polyphenols, metabolomics, proteomics, mass spectrometry |
| BARNES |
STEPHEN |
Bile acids, polyphenols and metabolism, and their effects on protein expression and function in chronic disease |
bile acids, isoflavonoids and polyphenols, metabolomics, proteomics, mass spectrometry |
| BARNES |
STEPHEN |
Bile acids, polyphenols and metabolism, and their effects on protein expression and function in chronic disease |
bile acids, isoflavonoids and polyphenols, metabolomics, proteomics, mass spectrometry |
| BARNES |
STEPHEN |
Bile acids, polyphenols and metabolism, and their effects on protein expression and function in chronic disease |
bile acids, isoflavonoids and polyphenols, metabolomics, proteomics, mass spectrometry |
| BARNES |
STEPHEN |
Bile acids, polyphenols and metabolism, and their effects on protein expression and function in chronic disease |
bile acids, isoflavonoids and polyphenols, metabolomics, proteomics, mass spectrometry |
| BARNETT |
MICHAEL |
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| BARNEY |
JOSEPH |
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| BARSTOW |
ELIZABETH |
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| BARTLETT |
JENNIFER |
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| BARTOLUCCI |
ALFRED |
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| BASHAM |
MARY |
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academic hospitalist |
| BASHIR |
KHURRAM |
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Multiple Sclerosis; Neuromyelitis Optica; Transverse Myelitis; Optic Neuritis; Vasculitis |
| BASKIN |
MONICA |
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| BASMA |
HUSSEIN |
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| BASS |
RACHEL |
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| BASU |
ANANDA |
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| BASU |
RITA |
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| BATEMAN |
LORI |
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| BATENI |
SARAH |
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| BATRA |
HITESH |
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| BATTARBEE |
ASHLEY |
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| BAUMANN |
MATTHEW |
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| BAUMBACH |
JEFFREY |
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| BAUMGARTEN |
ADAM |
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| BAXLEY |
COURTNEY |
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| BAXTER |
CARY |
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| BEARDEN |
DONNA |
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| BEAS |
SOFIA |
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| BEASLEY |
TIMOTHY |
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| BEASON |
HILARY |
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| BEAUCHAMP |
GIOVANNA |
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| BEAUCHAMP |
LYNN |
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| BEBIN |
MARTINA |
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| BECK |
ADAM |
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| BECKEDORF |
JOSHUA |
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| BECKER |
BRYAN |
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| BEDWELL |
DAVID |
Translation Termination; Post-Transcriptional Control of Gene Regulation; Suppression of Nonsense Mutations to Treat Genetic Diseases |
Translation Termination, mRNA Turnover, Suppression of Nonsense Mutations to Treat Genetic Diseases |
| BEDWELL |
DAVID |
Translation Termination; Post-Transcriptional Control of Gene Regulation; Suppression of Nonsense Mutations to Treat Genetic Diseases |
Translation Termination, mRNA Turnover, Suppression of Nonsense Mutations to Treat Genetic Diseases |
| BEDWELL |
DAVID |
Translation Termination; Post-Transcriptional Control of Gene Regulation; Suppression of Nonsense Mutations to Treat Genetic Diseases |
Translation Termination, mRNA Turnover, Suppression of Nonsense Mutations to Treat Genetic Diseases |
| BEHRING |
MICHAEL |
|
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| BEIERLE CHEN |
ELIZABETH |
(1) Signal transduction pathways in pediatric solid tumors (2) oHSV treatment of pediatric solid tumors |
neuroblastoma, hepatoblastoma, FAK, p53, MYCN, MDM2, oHSV, retinoids, malignant rhabdoid kidney tumor |
| BELAID |
SIRINE |
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| BELIAEVA |
OLGA |
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| BELL |
CAMILLA |
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| BELL |
EMMY |
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| BELL |
PHILLIP |
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| BELL |
STEPHEN |
|
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| BELL |
WALTER |
|
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| BELLAM |
NARESH |
|
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| BELLIS |
SUSAN |
Role of glycosylation in tumor progression and metastasis |
tumorigenesis, metastasis, cancer stem cell, cell invasion, apoptosis, tumor immunology, |
| BELLIS |
SUSAN |
Role of glycosylation in tumor progression and metastasis |
tumorigenesis, metastasis, cancer stem cell, cell invasion, apoptosis, tumor immunology, |
