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Last Name |
First Name |
Research/Clinical Interest Title |
Keywords |
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CHILDERS |
NOEL |
Development Of A Vaccine For The Prevention Of Dental Caries |
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CHILDERS |
NOEL |
Development Of A Vaccine For The Prevention Of Dental Caries |
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| |
CHILDERS |
NOEL |
Development Of A Vaccine For The Prevention Of Dental Caries |
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| |
CHILDERS |
NOEL |
Development Of A Vaccine For The Prevention Of Dental Caries |
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| |
CHILDERS |
NOEL |
Development Of A Vaccine For The Prevention Of Dental Caries |
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| |
CHILDERS |
NOEL |
Development Of A Vaccine For The Prevention Of Dental Caries |
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| |
CHILDERS |
NOEL |
Development Of A Vaccine For The Prevention Of Dental Caries |
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| |
CHILDERS |
NOEL |
Development Of A Vaccine For The Prevention Of Dental Caries |
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| |
CHILDERS |
NOEL |
Development Of A Vaccine For The Prevention Of Dental Caries |
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CHOW |
LOUISE |
Human papillomavirus DNA replication and pathogenesis |
HPV infections and cancers |
| |
CHOW |
LOUISE |
Human papillomavirus DNA replication and pathogenesis |
HPV infections and cancers |
| |
CHOW |
LOUISE |
Human papillomavirus DNA replication and pathogenesis |
HPV infections and cancers |
| |
CHOW |
LOUISE |
Human papillomavirus DNA replication and pathogenesis |
HPV infections and cancers |
| |
CHOW |
LOUISE |
Human papillomavirus DNA replication and pathogenesis |
HPV infections and cancers |
| |
CHOW |
LOUISE |
Human papillomavirus DNA replication and pathogenesis |
HPV infections and cancers |
| |
CHOW |
LOUISE |
Human papillomavirus DNA replication and pathogenesis |
HPV infections and cancers |
| |
CHOW |
LOUISE |
Human papillomavirus DNA replication and pathogenesis |
HPV infections and cancers |
| |
CHOW |
LOUISE |
Human papillomavirus DNA replication and pathogenesis |
HPV infections and cancers |
| |
CHOW |
LOUISE |
Human papillomavirus DNA replication and pathogenesis |
HPV infections and cancers |
| |
CHOW |
LOUISE |
Human papillomavirus DNA replication and pathogenesis |
HPV infections and cancers |
| |
CHOW |
LOUISE |
Human papillomavirus DNA replication and pathogenesis |
HPV infections and cancers |
| |
CHOW |
LOUISE |
Human papillomavirus DNA replication and pathogenesis |
HPV infections and cancers |
| |
CHOW |
LOUISE |
Human papillomavirus DNA replication and pathogenesis |
HPV infections and cancers |
| |
CHOW |
LOUISE |
Human papillomavirus DNA replication and pathogenesis |
HPV infections and cancers |
| |
CHOW |
LOUISE |
Human papillomavirus DNA replication and pathogenesis |
HPV infections and cancers |
| |
CHOW |
LOUISE |
Human papillomavirus DNA replication and pathogenesis |
HPV infections and cancers |
| |
CHOW |
LOUISE |
Human papillomavirus DNA replication and pathogenesis |
HPV infections and cancers |
| |
CHOW |
LOUISE |
Human papillomavirus DNA replication and pathogenesis |
HPV infections and cancers |
| |
CHOW |
LOUISE |
Human papillomavirus DNA replication and pathogenesis |
HPV infections and cancers |
| |
CHOW |
LOUISE |
Human papillomavirus DNA replication and pathogenesis |
HPV infections and cancers |
| |
CHOW |
LOUISE |
Human papillomavirus DNA replication and pathogenesis |
HPV infections and cancers |
| |
CHOW |
LOUISE |
Human papillomavirus DNA replication and pathogenesis |
HPV infections and cancers |
| |
CHOW |
LOUISE |
Human papillomavirus DNA replication and pathogenesis |
HPV infections and cancers |
| |
CHOW |
LOUISE |
Human papillomavirus DNA replication and pathogenesis |
HPV infections and cancers |
| |
CHOW |
LOUISE |
Human papillomavirus DNA replication and pathogenesis |
HPV infections and cancers |
| |
CHOW |
LOUISE |
Human papillomavirus DNA replication and pathogenesis |
HPV infections and cancers |
| |
CHOW |
LOUISE |
Human papillomavirus DNA replication and pathogenesis |
HPV infections and cancers |
| |
CHOW |
LOUISE |
Human papillomavirus DNA replication and pathogenesis |
HPV infections and cancers |
| |
CHOW |
LOUISE |
Human papillomavirus DNA replication and pathogenesis |
HPV infections and cancers |
| |
CHOW |
LOUISE |
Human papillomavirus DNA replication and pathogenesis |
HPV infections and cancers |
| |
CHOW |
LOUISE |
Human papillomavirus DNA replication and pathogenesis |
HPV infections and cancers |
| |
CHOW |
LOUISE |
Human papillomavirus DNA replication and pathogenesis |
HPV infections and cancers |
| |
CHOW |
LOUISE |
Human papillomavirus DNA replication and pathogenesis |
HPV infections and cancers |
| |
CHOW |
LOUISE |
Human papillomavirus DNA replication and pathogenesis |
HPV infections and cancers |
| |
CHOW |
LOUISE |
Human papillomavirus DNA replication and pathogenesis |
HPV infections and cancers |
| |
CHOW |
LOUISE |
Human papillomavirus DNA replication and pathogenesis |
HPV infections and cancers |
| |
CHOW |
LOUISE |
Human papillomavirus DNA replication and pathogenesis |
HPV infections and cancers |
| |
CHOW |
LOUISE |
Human papillomavirus DNA replication and pathogenesis |
HPV infections and cancers |
| |
CHOW |
LOUISE |
Human papillomavirus DNA replication and pathogenesis |
HPV infections and cancers |
| |
CHOW |
LOUISE |
Human papillomavirus DNA replication and pathogenesis |
HPV infections and cancers |
| |
CHOW |
LOUISE |
Human papillomavirus DNA replication and pathogenesis |
HPV infections and cancers |
| |
CHOW |
LOUISE |
Human papillomavirus DNA replication and pathogenesis |
HPV infections and cancers |
| |
CHOW |
LOUISE |
Human papillomavirus DNA replication and pathogenesis |
HPV infections and cancers |
| |
CHOW |
LOUISE |
Human papillomavirus DNA replication and pathogenesis |
HPV infections and cancers |
| |
CHOW |
LOUISE |
Human papillomavirus DNA replication and pathogenesis |
HPV infections and cancers |
| |
CHOW |
LOUISE |
Human papillomavirus DNA replication and pathogenesis |
HPV infections and cancers |
| |
CHOW |
LOUISE |
Human papillomavirus DNA replication and pathogenesis |
HPV infections and cancers |
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COWELL |
RITA |
Cellular Vulnerability in Development and Aging: Using the Molecular Phenotype of Neurons to Elucidate Mechanisms of Disease and Identify Targets for Intervention |
Transcription, Parkinson Disease, ALS, frontotemporal dementia, movement disorders, Neuroanatomy, Metabolism, Mitochondria, Neurobiology, Mouse models |
| |
COWELL |
RITA |
Cellular Vulnerability in Development and Aging: Using the Molecular Phenotype of Neurons to Elucidate Mechanisms of Disease and Identify Targets for Intervention |
Transcription, Parkinson Disease, ALS, frontotemporal dementia, movement disorders, Neuroanatomy, Metabolism, Mitochondria, Neurobiology, Mouse models |
| |
COWELL |
RITA |
Cellular Vulnerability in Development and Aging: Using the Molecular Phenotype of Neurons to Elucidate Mechanisms of Disease and Identify Targets for Intervention |
Transcription, Parkinson Disease, ALS, frontotemporal dementia, movement disorders, Neuroanatomy, Metabolism, Mitochondria, Neurobiology, Mouse models |
| |
COWELL |
RITA |
Cellular Vulnerability in Development and Aging: Using the Molecular Phenotype of Neurons to Elucidate Mechanisms of Disease and Identify Targets for Intervention |
Transcription, Parkinson Disease, ALS, frontotemporal dementia, movement disorders, Neuroanatomy, Metabolism, Mitochondria, Neurobiology, Mouse models |
| |
COWELL |
RITA |
Cellular Vulnerability in Development and Aging: Using the Molecular Phenotype of Neurons to Elucidate Mechanisms of Disease and Identify Targets for Intervention |
Transcription, Parkinson Disease, ALS, frontotemporal dementia, movement disorders, Neuroanatomy, Metabolism, Mitochondria, Neurobiology, Mouse models |
| |
COWELL |
RITA |
Cellular Vulnerability in Development and Aging: Using the Molecular Phenotype of Neurons to Elucidate Mechanisms of Disease and Identify Targets for Intervention |
Transcription, Parkinson Disease, ALS, frontotemporal dementia, movement disorders, Neuroanatomy, Metabolism, Mitochondria, Neurobiology, Mouse models |
| |
COWELL |
RITA |
Cellular Vulnerability in Development and Aging: Using the Molecular Phenotype of Neurons to Elucidate Mechanisms of Disease and Identify Targets for Intervention |
Transcription, Parkinson Disease, ALS, frontotemporal dementia, movement disorders, Neuroanatomy, Metabolism, Mitochondria, Neurobiology, Mouse models |
| |
COWELL |
RITA |
Cellular Vulnerability in Development and Aging: Using the Molecular Phenotype of Neurons to Elucidate Mechanisms of Disease and Identify Targets for Intervention |
Transcription, Parkinson Disease, ALS, frontotemporal dementia, movement disorders, Neuroanatomy, Metabolism, Mitochondria, Neurobiology, Mouse models |
| |
COWELL |
RITA |
Cellular Vulnerability in Development and Aging: Using the Molecular Phenotype of Neurons to Elucidate Mechanisms of Disease and Identify Targets for Intervention |
Transcription, Parkinson Disease, ALS, frontotemporal dementia, movement disorders, Neuroanatomy, Metabolism, Mitochondria, Neurobiology, Mouse models |
| |
COWELL |
RITA |
Cellular Vulnerability in Development and Aging: Using the Molecular Phenotype of Neurons to Elucidate Mechanisms of Disease and Identify Targets for Intervention |
Transcription, Parkinson Disease, ALS, frontotemporal dementia, movement disorders, Neuroanatomy, Metabolism, Mitochondria, Neurobiology, Mouse models |
| |
COWELL |
RITA |
Cellular Vulnerability in Development and Aging: Using the Molecular Phenotype of Neurons to Elucidate Mechanisms of Disease and Identify Targets for Intervention |
Transcription, Parkinson Disease, ALS, frontotemporal dementia, movement disorders, Neuroanatomy, Metabolism, Mitochondria, Neurobiology, Mouse models |
| |
COWELL |
RITA |
Cellular Vulnerability in Development and Aging: Using the Molecular Phenotype of Neurons to Elucidate Mechanisms of Disease and Identify Targets for Intervention |
Transcription, Parkinson Disease, ALS, frontotemporal dementia, movement disorders, Neuroanatomy, Metabolism, Mitochondria, Neurobiology, Mouse models |
| |
COWELL |
RITA |
Cellular Vulnerability in Development and Aging: Using the Molecular Phenotype of Neurons to Elucidate Mechanisms of Disease and Identify Targets for Intervention |
Transcription, Parkinson Disease, ALS, frontotemporal dementia, movement disorders, Neuroanatomy, Metabolism, Mitochondria, Neurobiology, Mouse models |
| |
COWELL |
RITA |
Cellular Vulnerability in Development and Aging: Using the Molecular Phenotype of Neurons to Elucidate Mechanisms of Disease and Identify Targets for Intervention |
Transcription, Parkinson Disease, ALS, frontotemporal dementia, movement disorders, Neuroanatomy, Metabolism, Mitochondria, Neurobiology, Mouse models |
| |
COWELL |
RITA |
Cellular Vulnerability in Development and Aging: Using the Molecular Phenotype of Neurons to Elucidate Mechanisms of Disease and Identify Targets for Intervention |
Transcription, Parkinson Disease, ALS, frontotemporal dementia, movement disorders, Neuroanatomy, Metabolism, Mitochondria, Neurobiology, Mouse models |
| |
COWELL |
RITA |
Cellular Vulnerability in Development and Aging: Using the Molecular Phenotype of Neurons to Elucidate Mechanisms of Disease and Identify Targets for Intervention |
Transcription, Parkinson Disease, ALS, frontotemporal dementia, movement disorders, Neuroanatomy, Metabolism, Mitochondria, Neurobiology, Mouse models |
| |
COWELL |
RITA |
Cellular Vulnerability in Development and Aging: Using the Molecular Phenotype of Neurons to Elucidate Mechanisms of Disease and Identify Targets for Intervention |
Transcription, Parkinson Disease, ALS, frontotemporal dementia, movement disorders, Neuroanatomy, Metabolism, Mitochondria, Neurobiology, Mouse models |
| |
COWELL |
RITA |
Cellular Vulnerability in Development and Aging: Using the Molecular Phenotype of Neurons to Elucidate Mechanisms of Disease and Identify Targets for Intervention |
Transcription, Parkinson Disease, ALS, frontotemporal dementia, movement disorders, Neuroanatomy, Metabolism, Mitochondria, Neurobiology, Mouse models |
| |
COWELL |
RITA |
Cellular Vulnerability in Development and Aging: Using the Molecular Phenotype of Neurons to Elucidate Mechanisms of Disease and Identify Targets for Intervention |
Transcription, Parkinson Disease, ALS, frontotemporal dementia, movement disorders, Neuroanatomy, Metabolism, Mitochondria, Neurobiology, Mouse models |
| |
COWELL |
RITA |
Cellular Vulnerability in Development and Aging: Using the Molecular Phenotype of Neurons to Elucidate Mechanisms of Disease and Identify Targets for Intervention |
Transcription, Parkinson Disease, ALS, frontotemporal dementia, movement disorders, Neuroanatomy, Metabolism, Mitochondria, Neurobiology, Mouse models |
| |
COWELL |
RITA |
Cellular Vulnerability in Development and Aging: Using the Molecular Phenotype of Neurons to Elucidate Mechanisms of Disease and Identify Targets for Intervention |
Transcription, Parkinson Disease, ALS, frontotemporal dementia, movement disorders, Neuroanatomy, Metabolism, Mitochondria, Neurobiology, Mouse models |
| |
COWELL |
RITA |
Cellular Vulnerability in Development and Aging: Using the Molecular Phenotype of Neurons to Elucidate Mechanisms of Disease and Identify Targets for Intervention |
Transcription, Parkinson Disease, ALS, frontotemporal dementia, movement disorders, Neuroanatomy, Metabolism, Mitochondria, Neurobiology, Mouse models |
| |
COWELL |
RITA |
Cellular Vulnerability in Development and Aging: Using the Molecular Phenotype of Neurons to Elucidate Mechanisms of Disease and Identify Targets for Intervention |
Transcription, Parkinson Disease, ALS, frontotemporal dementia, movement disorders, Neuroanatomy, Metabolism, Mitochondria, Neurobiology, Mouse models |
| |
COWELL |
RITA |
Cellular Vulnerability in Development and Aging: Using the Molecular Phenotype of Neurons to Elucidate Mechanisms of Disease and Identify Targets for Intervention |
Transcription, Parkinson Disease, ALS, frontotemporal dementia, movement disorders, Neuroanatomy, Metabolism, Mitochondria, Neurobiology, Mouse models |
| |
COWELL |
RITA |
Cellular Vulnerability in Development and Aging: Using the Molecular Phenotype of Neurons to Elucidate Mechanisms of Disease and Identify Targets for Intervention |
Transcription, Parkinson Disease, ALS, frontotemporal dementia, movement disorders, Neuroanatomy, Metabolism, Mitochondria, Neurobiology, Mouse models |
| |
COWELL |
RITA |
Cellular Vulnerability in Development and Aging: Using the Molecular Phenotype of Neurons to Elucidate Mechanisms of Disease and Identify Targets for Intervention |
Transcription, Parkinson Disease, ALS, frontotemporal dementia, movement disorders, Neuroanatomy, Metabolism, Mitochondria, Neurobiology, Mouse models |
| |
COWELL |
RITA |
Cellular Vulnerability in Development and Aging: Using the Molecular Phenotype of Neurons to Elucidate Mechanisms of Disease and Identify Targets for Intervention |
Transcription, Parkinson Disease, ALS, frontotemporal dementia, movement disorders, Neuroanatomy, Metabolism, Mitochondria, Neurobiology, Mouse models |
| |
COWELL |
RITA |
Cellular Vulnerability in Development and Aging: Using the Molecular Phenotype of Neurons to Elucidate Mechanisms of Disease and Identify Targets for Intervention |
Transcription, Parkinson Disease, ALS, frontotemporal dementia, movement disorders, Neuroanatomy, Metabolism, Mitochondria, Neurobiology, Mouse models |
| |
COWELL |
RITA |
Cellular Vulnerability in Development and Aging: Using the Molecular Phenotype of Neurons to Elucidate Mechanisms of Disease and Identify Targets for Intervention |
Transcription, Parkinson Disease, ALS, frontotemporal dementia, movement disorders, Neuroanatomy, Metabolism, Mitochondria, Neurobiology, Mouse models |
| |
COWELL |
RITA |
Cellular Vulnerability in Development and Aging: Using the Molecular Phenotype of Neurons to Elucidate Mechanisms of Disease and Identify Targets for Intervention |
Transcription, Parkinson Disease, ALS, frontotemporal dementia, movement disorders, Neuroanatomy, Metabolism, Mitochondria, Neurobiology, Mouse models |
| |
COWELL |
RITA |
Cellular Vulnerability in Development and Aging: Using the Molecular Phenotype of Neurons to Elucidate Mechanisms of Disease and Identify Targets for Intervention |
Transcription, Parkinson Disease, ALS, frontotemporal dementia, movement disorders, Neuroanatomy, Metabolism, Mitochondria, Neurobiology, Mouse models |
| |
COWELL |
RITA |
Cellular Vulnerability in Development and Aging: Using the Molecular Phenotype of Neurons to Elucidate Mechanisms of Disease and Identify Targets for Intervention |
Transcription, Parkinson Disease, ALS, frontotemporal dementia, movement disorders, Neuroanatomy, Metabolism, Mitochondria, Neurobiology, Mouse models |
| |
COWELL |
RITA |
Cellular Vulnerability in Development and Aging: Using the Molecular Phenotype of Neurons to Elucidate Mechanisms of Disease and Identify Targets for Intervention |
Transcription, Parkinson Disease, ALS, frontotemporal dementia, movement disorders, Neuroanatomy, Metabolism, Mitochondria, Neurobiology, Mouse models |
| |
COWELL |
RITA |
Cellular Vulnerability in Development and Aging: Using the Molecular Phenotype of Neurons to Elucidate Mechanisms of Disease and Identify Targets for Intervention |
Transcription, Parkinson Disease, ALS, frontotemporal dementia, movement disorders, Neuroanatomy, Metabolism, Mitochondria, Neurobiology, Mouse models |
| |
COWELL |
RITA |
Cellular Vulnerability in Development and Aging: Using the Molecular Phenotype of Neurons to Elucidate Mechanisms of Disease and Identify Targets for Intervention |
Transcription, Parkinson Disease, ALS, frontotemporal dementia, movement disorders, Neuroanatomy, Metabolism, Mitochondria, Neurobiology, Mouse models |
| |
COWELL |
RITA |
Cellular Vulnerability in Development and Aging: Using the Molecular Phenotype of Neurons to Elucidate Mechanisms of Disease and Identify Targets for Intervention |
Transcription, Parkinson Disease, ALS, frontotemporal dementia, movement disorders, Neuroanatomy, Metabolism, Mitochondria, Neurobiology, Mouse models |
| |
COWELL |
RITA |
Cellular Vulnerability in Development and Aging: Using the Molecular Phenotype of Neurons to Elucidate Mechanisms of Disease and Identify Targets for Intervention |
Transcription, Parkinson Disease, ALS, frontotemporal dementia, movement disorders, Neuroanatomy, Metabolism, Mitochondria, Neurobiology, Mouse models |
| |
COWELL |
RITA |
Cellular Vulnerability in Development and Aging: Using the Molecular Phenotype of Neurons to Elucidate Mechanisms of Disease and Identify Targets for Intervention |
Transcription, Parkinson Disease, ALS, frontotemporal dementia, movement disorders, Neuroanatomy, Metabolism, Mitochondria, Neurobiology, Mouse models |
| |
COWELL |
RITA |
Cellular Vulnerability in Development and Aging: Using the Molecular Phenotype of Neurons to Elucidate Mechanisms of Disease and Identify Targets for Intervention |
Transcription, Parkinson Disease, ALS, frontotemporal dementia, movement disorders, Neuroanatomy, Metabolism, Mitochondria, Neurobiology, Mouse models |
| |
COWELL |
RITA |
Cellular Vulnerability in Development and Aging: Using the Molecular Phenotype of Neurons to Elucidate Mechanisms of Disease and Identify Targets for Intervention |
Transcription, Parkinson Disease, ALS, frontotemporal dementia, movement disorders, Neuroanatomy, Metabolism, Mitochondria, Neurobiology, Mouse models |
| |
COWELL |
RITA |
Cellular Vulnerability in Development and Aging: Using the Molecular Phenotype of Neurons to Elucidate Mechanisms of Disease and Identify Targets for Intervention |
Transcription, Parkinson Disease, ALS, frontotemporal dementia, movement disorders, Neuroanatomy, Metabolism, Mitochondria, Neurobiology, Mouse models |
| |
COWELL |
RITA |
Cellular Vulnerability in Development and Aging: Using the Molecular Phenotype of Neurons to Elucidate Mechanisms of Disease and Identify Targets for Intervention |
Transcription, Parkinson Disease, ALS, frontotemporal dementia, movement disorders, Neuroanatomy, Metabolism, Mitochondria, Neurobiology, Mouse models |
 |
CRON |
RANDALL |
CD4 T Lymphocyte Transcriptional Regulation |
Lupus, HIV-1, CD4 T Cell, Transcription, Nuclear Factor of Activated T Cells, Macrophage Activation Syndrome, Temporomandibular Joint (TMJ) |