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Last Name |
First Name |
Research/Clinical Interest Title |
Keywords |
 |
HSU |
HUI-CHEN |
The BXD2 autoimmune mouse model of lupus and erosive arthritis |
BXD2, lupus, arthritis, IL-17, type I IFN, apoptotic cells |
| |
HSU |
HUI-CHEN |
The BXD2 autoimmune mouse model of lupus and erosive arthritis |
BXD2, lupus, arthritis, IL-17, type I IFN, apoptotic cells |
| |
HSU |
HUI-CHEN |
The BXD2 autoimmune mouse model of lupus and erosive arthritis |
BXD2, lupus, arthritis, IL-17, type I IFN, apoptotic cells |
 |
HYNDMAN |
KELLY |
Novel mechanisms of HDAC1 regulation of collecting duct function. |
nitric oxide, endothelin, collecting duct, histone deacetylase, Aquaporin-2 |
| |
HYNDMAN |
KELLY |
Novel mechanisms of HDAC1 regulation of collecting duct function. |
nitric oxide, endothelin, collecting duct, histone deacetylase, Aquaporin-2 |
| |
HYNDMAN |
KELLY |
Novel mechanisms of HDAC1 regulation of collecting duct function. |
nitric oxide, endothelin, collecting duct, histone deacetylase, Aquaporin-2 |
| |
HYNDMAN |
KELLY |
Novel mechanisms of HDAC1 regulation of collecting duct function. |
nitric oxide, endothelin, collecting duct, histone deacetylase, Aquaporin-2 |
| |
HYNDMAN |
KELLY |
Novel mechanisms of HDAC1 regulation of collecting duct function. |
nitric oxide, endothelin, collecting duct, histone deacetylase, Aquaporin-2 |
| |
HYNDMAN |
KELLY |
Novel mechanisms of HDAC1 regulation of collecting duct function. |
nitric oxide, endothelin, collecting duct, histone deacetylase, Aquaporin-2 |
 |
IDEKER |
RAYMOND |
Sudden Cardiac Death and Methods for the Prevention |
|
 |
JAVED |
AMJAD |
Genetic and Molecular Signaling for Cellular Differentiation and Skeletogenesis |
Osteoblast, Bone Development, Gene Regulation, Osteoporosis |
| |
JAVED |
AMJAD |
Genetic and Molecular Signaling for Cellular Differentiation and Skeletogenesis |
Osteoblast, Bone Development, Gene Regulation, Osteoporosis |
| |
JAVED |
AMJAD |
Genetic and Molecular Signaling for Cellular Differentiation and Skeletogenesis |
Osteoblast, Bone Development, Gene Regulation, Osteoporosis |
| |
JAVED |
AMJAD |
Genetic and Molecular Signaling for Cellular Differentiation and Skeletogenesis |
Osteoblast, Bone Development, Gene Regulation, Osteoporosis |
| |
JAVED |
AMJAD |
Genetic and Molecular Signaling for Cellular Differentiation and Skeletogenesis |
Osteoblast, Bone Development, Gene Regulation, Osteoporosis |
| |
JAVED |
AMJAD |
Genetic and Molecular Signaling for Cellular Differentiation and Skeletogenesis |
Osteoblast, Bone Development, Gene Regulation, Osteoporosis |
| |
JAVED |
AMJAD |
Genetic and Molecular Signaling for Cellular Differentiation and Skeletogenesis |
Osteoblast, Bone Development, Gene Regulation, Osteoporosis |
| |
JAVED |
AMJAD |
Genetic and Molecular Signaling for Cellular Differentiation and Skeletogenesis |
Osteoblast, Bone Development, Gene Regulation, Osteoporosis |
| |
JAVED |
AMJAD |
Genetic and Molecular Signaling for Cellular Differentiation and Skeletogenesis |
Osteoblast, Bone Development, Gene Regulation, Osteoporosis |
| |
JAVED |
AMJAD |
Genetic and Molecular Signaling for Cellular Differentiation and Skeletogenesis |
Osteoblast, Bone Development, Gene Regulation, Osteoporosis |
| |
JAVED |
AMJAD |
Genetic and Molecular Signaling for Cellular Differentiation and Skeletogenesis |
Osteoblast, Bone Development, Gene Regulation, Osteoporosis |
| |
JAVED |
AMJAD |
Genetic and Molecular Signaling for Cellular Differentiation and Skeletogenesis |
Osteoblast, Bone Development, Gene Regulation, Osteoporosis |
| |
JAVED |
AMJAD |
Genetic and Molecular Signaling for Cellular Differentiation and Skeletogenesis |
Osteoblast, Bone Development, Gene Regulation, Osteoporosis |
| |
JAVED |
AMJAD |
Genetic and Molecular Signaling for Cellular Differentiation and Skeletogenesis |
Osteoblast, Bone Development, Gene Regulation, Osteoporosis |
| |
JAVED |
AMJAD |
Genetic and Molecular Signaling for Cellular Differentiation and Skeletogenesis |
Osteoblast, Bone Development, Gene Regulation, Osteoporosis |
| |
JAVED |
AMJAD |
Genetic and Molecular Signaling for Cellular Differentiation and Skeletogenesis |
Osteoblast, Bone Development, Gene Regulation, Osteoporosis |
| |
JAVED |
AMJAD |
Genetic and Molecular Signaling for Cellular Differentiation and Skeletogenesis |
Osteoblast, Bone Development, Gene Regulation, Osteoporosis |
| |
JAVED |
AMJAD |
Genetic and Molecular Signaling for Cellular Differentiation and Skeletogenesis |
Osteoblast, Bone Development, Gene Regulation, Osteoporosis |
| |
JAVED |
AMJAD |
Genetic and Molecular Signaling for Cellular Differentiation and Skeletogenesis |
Osteoblast, Bone Development, Gene Regulation, Osteoporosis |
| |
JAVED |
AMJAD |
Genetic and Molecular Signaling for Cellular Differentiation and Skeletogenesis |
Osteoblast, Bone Development, Gene Regulation, Osteoporosis |
| |
JAVED |
AMJAD |
Genetic and Molecular Signaling for Cellular Differentiation and Skeletogenesis |
Osteoblast, Bone Development, Gene Regulation, Osteoporosis |
| |
JAVED |
AMJAD |
Genetic and Molecular Signaling for Cellular Differentiation and Skeletogenesis |
Osteoblast, Bone Development, Gene Regulation, Osteoporosis |
| |
JAVED |
AMJAD |
Genetic and Molecular Signaling for Cellular Differentiation and Skeletogenesis |
Osteoblast, Bone Development, Gene Regulation, Osteoporosis |
| |
JAVED |
AMJAD |
Genetic and Molecular Signaling for Cellular Differentiation and Skeletogenesis |
Osteoblast, Bone Development, Gene Regulation, Osteoporosis |
| |
JAVED |
AMJAD |
Genetic and Molecular Signaling for Cellular Differentiation and Skeletogenesis |
Osteoblast, Bone Development, Gene Regulation, Osteoporosis |
| |
JAVED |
AMJAD |
Genetic and Molecular Signaling for Cellular Differentiation and Skeletogenesis |
Osteoblast, Bone Development, Gene Regulation, Osteoporosis |
| |
JAVED |
AMJAD |
Genetic and Molecular Signaling for Cellular Differentiation and Skeletogenesis |
Osteoblast, Bone Development, Gene Regulation, Osteoporosis |
| |
JAVED |
AMJAD |
Genetic and Molecular Signaling for Cellular Differentiation and Skeletogenesis |
Osteoblast, Bone Development, Gene Regulation, Osteoporosis |
| |
JAVED |
AMJAD |
Genetic and Molecular Signaling for Cellular Differentiation and Skeletogenesis |
Osteoblast, Bone Development, Gene Regulation, Osteoporosis |
| |
JAVED |
AMJAD |
Genetic and Molecular Signaling for Cellular Differentiation and Skeletogenesis |
Osteoblast, Bone Development, Gene Regulation, Osteoporosis |
| |
JAVED |
AMJAD |
Genetic and Molecular Signaling for Cellular Differentiation and Skeletogenesis |
Osteoblast, Bone Development, Gene Regulation, Osteoporosis |
| |
JAVED |
AMJAD |
Genetic and Molecular Signaling for Cellular Differentiation and Skeletogenesis |
Osteoblast, Bone Development, Gene Regulation, Osteoporosis |
| |
JAVED |
AMJAD |
Genetic and Molecular Signaling for Cellular Differentiation and Skeletogenesis |
Osteoblast, Bone Development, Gene Regulation, Osteoporosis |
| |
JAVED |
AMJAD |
Genetic and Molecular Signaling for Cellular Differentiation and Skeletogenesis |
Osteoblast, Bone Development, Gene Regulation, Osteoporosis |
| |
JAVED |
AMJAD |
Genetic and Molecular Signaling for Cellular Differentiation and Skeletogenesis |
Osteoblast, Bone Development, Gene Regulation, Osteoporosis |
| |
JAVED |
AMJAD |
Genetic and Molecular Signaling for Cellular Differentiation and Skeletogenesis |
Osteoblast, Bone Development, Gene Regulation, Osteoporosis |
| |
JAVED |
AMJAD |
Genetic and Molecular Signaling for Cellular Differentiation and Skeletogenesis |
Osteoblast, Bone Development, Gene Regulation, Osteoporosis |
| |
JAVED |
AMJAD |
Genetic and Molecular Signaling for Cellular Differentiation and Skeletogenesis |
Osteoblast, Bone Development, Gene Regulation, Osteoporosis |
| |
JAVED |
AMJAD |
Genetic and Molecular Signaling for Cellular Differentiation and Skeletogenesis |
Osteoblast, Bone Development, Gene Regulation, Osteoporosis |
| |
JAVED |
AMJAD |
Genetic and Molecular Signaling for Cellular Differentiation and Skeletogenesis |
Osteoblast, Bone Development, Gene Regulation, Osteoporosis |
 |
JOINER |
CYNTHIA |
|
|
 |
JUN |
HO-WOOK |
Nanostructured Biomaterials, Stem Cells, Tissue Engineering, |
tissue engineering, nanotechnology, biomaterials, stem cells, |
| |
JUN |
HO-WOOK |
Nanostructured Biomaterials, Stem Cells, Tissue Engineering, |
tissue engineering, nanotechnology, biomaterials, stem cells, |
| |
JUN |
HO-WOOK |
Nanostructured Biomaterials, Stem Cells, Tissue Engineering, |
tissue engineering, nanotechnology, biomaterials, stem cells, |
 |
JUSTEMENT |
LOUIS |
Elucidation of molecular mechanisms that control B cell class switching and terminal differentiation |
Lymphocyte Biology, Signal Transduction, B cell differentiation, Adaptor Proteins, Innate immunity, Neutrophil biology, |
| |
JUSTEMENT |
LOUIS |
Elucidation of molecular mechanisms that control B cell class switching and terminal differentiation |
Lymphocyte Biology, Signal Transduction, B cell differentiation, Adaptor Proteins, Innate immunity, Neutrophil biology, |
| |
JUSTEMENT |
LOUIS |
Elucidation of molecular mechanisms that control B cell class switching and terminal differentiation |
Lymphocyte Biology, Signal Transduction, B cell differentiation, Adaptor Proteins, Innate immunity, Neutrophil biology, |
| |
JUSTEMENT |
LOUIS |
Elucidation of molecular mechanisms that control B cell class switching and terminal differentiation |
Lymphocyte Biology, Signal Transduction, B cell differentiation, Adaptor Proteins, Innate immunity, Neutrophil biology, |
| |
JUSTEMENT |
LOUIS |
Elucidation of molecular mechanisms that control B cell class switching and terminal differentiation |
Lymphocyte Biology, Signal Transduction, B cell differentiation, Adaptor Proteins, Innate immunity, Neutrophil biology, |
| |
JUSTEMENT |
LOUIS |
Elucidation of molecular mechanisms that control B cell class switching and terminal differentiation |
Lymphocyte Biology, Signal Transduction, B cell differentiation, Adaptor Proteins, Innate immunity, Neutrophil biology, |
| |
JUSTEMENT |
LOUIS |
Elucidation of molecular mechanisms that control B cell class switching and terminal differentiation |
Lymphocyte Biology, Signal Transduction, B cell differentiation, Adaptor Proteins, Innate immunity, Neutrophil biology, |
| |
JUSTEMENT |
LOUIS |
Elucidation of molecular mechanisms that control B cell class switching and terminal differentiation |
Lymphocyte Biology, Signal Transduction, B cell differentiation, Adaptor Proteins, Innate immunity, Neutrophil biology, |
| |
JUSTEMENT |
LOUIS |
Elucidation of molecular mechanisms that control B cell class switching and terminal differentiation |
Lymphocyte Biology, Signal Transduction, B cell differentiation, Adaptor Proteins, Innate immunity, Neutrophil biology, |
| |
JUSTEMENT |
LOUIS |
Elucidation of molecular mechanisms that control B cell class switching and terminal differentiation |
Lymphocyte Biology, Signal Transduction, B cell differentiation, Adaptor Proteins, Innate immunity, Neutrophil biology, |
| |
JUSTEMENT |
LOUIS |
Elucidation of molecular mechanisms that control B cell class switching and terminal differentiation |
Lymphocyte Biology, Signal Transduction, B cell differentiation, Adaptor Proteins, Innate immunity, Neutrophil biology, |
| |
JUSTEMENT |
LOUIS |
Elucidation of molecular mechanisms that control B cell class switching and terminal differentiation |
Lymphocyte Biology, Signal Transduction, B cell differentiation, Adaptor Proteins, Innate immunity, Neutrophil biology, |
| |
JUSTEMENT |
LOUIS |
Elucidation of molecular mechanisms that control B cell class switching and terminal differentiation |
Lymphocyte Biology, Signal Transduction, B cell differentiation, Adaptor Proteins, Innate immunity, Neutrophil biology, |
| |
JUSTEMENT |
LOUIS |
Elucidation of molecular mechanisms that control B cell class switching and terminal differentiation |
Lymphocyte Biology, Signal Transduction, B cell differentiation, Adaptor Proteins, Innate immunity, Neutrophil biology, |
| |
JUSTEMENT |
LOUIS |
Elucidation of molecular mechanisms that control B cell class switching and terminal differentiation |
Lymphocyte Biology, Signal Transduction, B cell differentiation, Adaptor Proteins, Innate immunity, Neutrophil biology, |
| |
JUSTEMENT |
LOUIS |
Elucidation of molecular mechanisms that control B cell class switching and terminal differentiation |
Lymphocyte Biology, Signal Transduction, B cell differentiation, Adaptor Proteins, Innate immunity, Neutrophil biology, |
 |
KAPP |
JUDITH |
Immune regulation and transplantation |
immunity; immune tolerance; immune regulation; transplantation; autoimmunity |
| |
KAPP |
JUDITH |
Immune regulation and transplantation |
immunity; immune tolerance; immune regulation; transplantation; autoimmunity |
| |
KAPP |
JUDITH |
Immune regulation and transplantation |
immunity; immune tolerance; immune regulation; transplantation; autoimmunity |
| |
KAPP |
JUDITH |
Immune regulation and transplantation |
immunity; immune tolerance; immune regulation; transplantation; autoimmunity |
 |
KAPPES |
JOHN |
HIV; molecular virology and pathogenesis |
|
| |
KATZ |
JANNET |
Vaccine delivery systems; inflammation; innate immunity |
Periodontal disease, gingivalis, immune responses, mucosal vaccines |
| |
KATZ |
JANNET |
Vaccine delivery systems; inflammation; innate immunity |
Periodontal disease, gingivalis, immune responses, mucosal vaccines |
| |
KATZ |
JANNET |
Vaccine delivery systems; inflammation; innate immunity |
Periodontal disease, gingivalis, immune responses, mucosal vaccines |
| |
KATZ |
JANNET |
Vaccine delivery systems; inflammation; innate immunity |
Periodontal disease, gingivalis, immune responses, mucosal vaccines |
| |
KATZ |
JANNET |
Vaccine delivery systems; inflammation; innate immunity |
Periodontal disease, gingivalis, immune responses, mucosal vaccines |
| |
KATZ |
JANNET |
Vaccine delivery systems; inflammation; innate immunity |
Periodontal disease, gingivalis, immune responses, mucosal vaccines |
| |
KATZ |
JANNET |
Vaccine delivery systems; inflammation; innate immunity |
Periodontal disease, gingivalis, immune responses, mucosal vaccines |
| |
KATZ |
JANNET |
Vaccine delivery systems; inflammation; innate immunity |
Periodontal disease, gingivalis, immune responses, mucosal vaccines |
 |
KEARNEY |
JOHN |
Focus on fundamental cellular and molecular mechanisms involved in the development of a diverse B cell repertoire |
B Cells, B Cell Development, Hybridomas, Transgenic and Knockout Mice, Immunoregulation, B. anthracis |
| |
KEARNEY |
JOHN |
Focus on fundamental cellular and molecular mechanisms involved in the development of a diverse B cell repertoire |
B Cells, B Cell Development, Hybridomas, Transgenic and Knockout Mice, Immunoregulation, B. anthracis |
| |
KEARNEY |
JOHN |
Focus on fundamental cellular and molecular mechanisms involved in the development of a diverse B cell repertoire |
B Cells, B Cell Development, Hybridomas, Transgenic and Knockout Mice, Immunoregulation, B. anthracis |
| |
KEARNEY |
JOHN |
Focus on fundamental cellular and molecular mechanisms involved in the development of a diverse B cell repertoire |
B Cells, B Cell Development, Hybridomas, Transgenic and Knockout Mice, Immunoregulation, B. anthracis |
| |
KEARNEY |
JOHN |
Focus on fundamental cellular and molecular mechanisms involved in the development of a diverse B cell repertoire |
B Cells, B Cell Development, Hybridomas, Transgenic and Knockout Mice, Immunoregulation, B. anthracis |
| |
KEARNEY |
JOHN |
Focus on fundamental cellular and molecular mechanisms involved in the development of a diverse B cell repertoire |
B Cells, B Cell Development, Hybridomas, Transgenic and Knockout Mice, Immunoregulation, B. anthracis |
| |
KEARNEY |
JOHN |
Focus on fundamental cellular and molecular mechanisms involved in the development of a diverse B cell repertoire |
B Cells, B Cell Development, Hybridomas, Transgenic and Knockout Mice, Immunoregulation, B. anthracis |
| |
KEARNEY |
JOHN |
Focus on fundamental cellular and molecular mechanisms involved in the development of a diverse B cell repertoire |
B Cells, B Cell Development, Hybridomas, Transgenic and Knockout Mice, Immunoregulation, B. anthracis |
| |
KEARNEY |
JOHN |
Focus on fundamental cellular and molecular mechanisms involved in the development of a diverse B cell repertoire |
B Cells, B Cell Development, Hybridomas, Transgenic and Knockout Mice, Immunoregulation, B. anthracis |
| |
KEARNEY |
JOHN |
Focus on fundamental cellular and molecular mechanisms involved in the development of a diverse B cell repertoire |
B Cells, B Cell Development, Hybridomas, Transgenic and Knockout Mice, Immunoregulation, B. anthracis |
| |
KEARNEY |
JOHN |
Focus on fundamental cellular and molecular mechanisms involved in the development of a diverse B cell repertoire |
B Cells, B Cell Development, Hybridomas, Transgenic and Knockout Mice, Immunoregulation, B. anthracis |
| |
KEARNEY |
JOHN |
Focus on fundamental cellular and molecular mechanisms involved in the development of a diverse B cell repertoire |
B Cells, B Cell Development, Hybridomas, Transgenic and Knockout Mice, Immunoregulation, B. anthracis |
| |
KEARNEY |
JOHN |
Focus on fundamental cellular and molecular mechanisms involved in the development of a diverse B cell repertoire |
B Cells, B Cell Development, Hybridomas, Transgenic and Knockout Mice, Immunoregulation, B. anthracis |
| |
KEARNEY |
JOHN |
Focus on fundamental cellular and molecular mechanisms involved in the development of a diverse B cell repertoire |
B Cells, B Cell Development, Hybridomas, Transgenic and Knockout Mice, Immunoregulation, B. anthracis |
| |
KEARNEY |
JOHN |
Focus on fundamental cellular and molecular mechanisms involved in the development of a diverse B cell repertoire |
B Cells, B Cell Development, Hybridomas, Transgenic and Knockout Mice, Immunoregulation, B. anthracis |
| |
KEARNEY |
JOHN |
Focus on fundamental cellular and molecular mechanisms involved in the development of a diverse B cell repertoire |
B Cells, B Cell Development, Hybridomas, Transgenic and Knockout Mice, Immunoregulation, B. anthracis |
 |
KEDISHVILI |
NATALIA |
Discovery and characterization of novel enzymes that regulate the conversion of vitamin A to bioactive retinoic acid |
vitamin A, retinoic acid, oxidoreductases, development, differentiation |