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| Total Records: 4504 |
|
Last Name |
First Name |
Research/Clinical Interest Title |
Keywords |
| HALE |
MATTHEW |
|
|
| HALL |
ALLYSON |
|
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| HALL |
LAURIE |
|
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| HALL |
TYLER |
|
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| HALLI-TIERNEY |
ANNE |
|
|
| HALLMAN |
MADHURA |
|
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| HALSEY |
JAMES |
|
|
| HAMEED |
ANAM |
|
|
| HAMILTON |
JILLIAN |
|
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| HAMILTON |
JOELLE |
|
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| HAMMOND |
KATHERINE |
|
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| HAMPTON |
ZACCHAEUS |
|
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| HAN |
XIAOSI |
Epigenetic Regulation in Glioblastoma |
glioblastoma, protein argine methyltransferase-5, glioma stem cell, epigenetics |
| HAN |
XIAOSI |
|
|
| HAN |
XIAOSI |
Epigenetic Regulation in Glioblastoma |
glioblastoma, protein argine methyltransferase-5, glioma stem cell, epigenetics |
| HANAWAY |
MICHAEL |
|
Renal transplantation, living donor kidney, pancreas transplant, immunosuppression, induction agents |
| HANCOCK |
JACQUELINE |
|
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| HANDATTU |
SHAILA |
|
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| HANNA |
ALEX |
|
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| HANNA |
SAMANTHA |
|
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| HANNAH |
JOANNA |
|
|
| HANNON |
LONNIE |
|
|
| HANSON |
ASHLEY |
Assistant Professor (Clinican-Educator) |
|
| HAPNER |
EDIE |
|
|
| HAQ |
EHTSHAM |
|
|
| HARADA |
CAROLINE |
|
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| HARADA |
SHUKO |
Molecular Profiling of Breast ductal carcinoma in situ; Implementation of next generation sequencing into precision medicine |
molecular pathology, breast pathology, precision medicine |
| HARDAWAY |
JAMES |
|
|
| HARDIMAN |
KARIN |
|
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| HARDIN |
JAMES |
|
|
| HARDWICK |
WILLIAM |
|
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| HARMON |
DANIEL |
|
|
| HARMON |
PHILLIP |
|
|
| HARMS |
ASHLEY |
Neuroimmunology of Alpha-Synucleinopathy Disorders |
Neuroimmunology, Neuroscience, Immunology, Neurodegeneration, Aging, Glia |
| HARMS |
ASHLEY |
Neuroimmunology of Alpha-Synucleinopathy Disorders |
Neuroimmunology, Neuroscience, Immunology, Neurodegeneration, Aging, Glia |
| HARMS |
ASHLEY |
Neuroimmunology of Alpha-Synucleinopathy Disorders |
Neuroimmunology, Neuroscience, Immunology, Neurodegeneration, Aging, Glia |
| HARMS |
ASHLEY |
Neuroimmunology of Alpha-Synucleinopathy Disorders |
Neuroimmunology, Neuroscience, Immunology, Neurodegeneration, Aging, Glia |
| HARPER |
CHRISTIAN |
|
|
| HARPER |
JONATHAN |
|
|
| HARPER |
SCOTT |
|
|
| HARPOOL |
JOSHUA |
|
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| HARRELL |
ANDREW |
|
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| HARRELL |
LINDY |
|
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| HARRELL |
LINDY |
|
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| HARRELL |
LINDY |
|
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| HARRIGAN |
MARK |
|
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| HARRINGTON |
KATHLEEN |
|
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| HARRINGTON |
LAURIE |
Protective and Pathogenic CD4 T Cell Responses |
CD4 T cells, autoimmunity, immunological memory, cytokines |
| HARRINGTON |
LAURIE |
Protective and Pathogenic CD4 T Cell Responses |
CD4 T cells, autoimmunity, immunological memory, cytokines |
| HARRINGTON |
LAURIE |
Protective and Pathogenic CD4 T Cell Responses |
CD4 T cells, autoimmunity, immunological memory, cytokines |
| HARRINGTON |
LAURIE |
Protective and Pathogenic CD4 T Cell Responses |
CD4 T cells, autoimmunity, immunological memory, cytokines |
| HARRINGTON |
LAURIE |
Protective and Pathogenic CD4 T Cell Responses |
CD4 T cells, autoimmunity, immunological memory, cytokines |
| HARRIS |
ERIKA |
|
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| HARRIS |
LESLIE |
|
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| HARRIS |
MELISSA |
Gene regulatory networks and transcriptional regulation of stem cell maintenance, stem cells and aging, melanocyte stem cells and hair graying, mouse models of hair graying |
stem cells, aging, gene networks, transcriptional regulation, bioinformatics, melanocytes, gray hair |
| HARRIS |
MELISSA |
Gene regulatory networks and transcriptional regulation of stem cell maintenance, stem cells and aging, melanocyte stem cells and hair graying, mouse models of hair graying |
stem cells, aging, gene networks, transcriptional regulation, bioinformatics, melanocytes, gray hair |
| HARRIS |
RICHARD |
|
|
| HARRIS |
WILLIAM |
|
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| HARRISON |
MEGHAN |
|
|
| HARRISON |
RUDOLPH |
|
|
| HARROD |
KEVIN |
|
|
| HART |
AUDRA |
|
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| HART |
ILGIZAR |
|
|
| HARTIG |
JASON |
|
Medical Education, Graduate Medical Education, Education Outcomes, Patient Safety, Patient Sign-Out, Patient Check-Out |
| HARTMAN |
COREY |
|
|
| HARTMAN |
JOHN |
Experimental models of gene interaction networks that buffer human disease using cell array phenotyping of yeast gene knockout libraries |
yeast genetics, quantitative high throughput cell array phenotyping (Q-HTCP), gene interaction networks, cellular quiescence, aging, cystic fibrosis, chemotherapy response, systems biology, drug discovery, lab automation |
| HARTMAN |
JOHN |
Experimental models of gene interaction networks that buffer human disease using cell array phenotyping of yeast gene knockout libraries |
yeast genetics, quantitative high throughput cell array phenotyping (Q-HTCP), gene interaction networks, cellular quiescence, aging, cystic fibrosis, chemotherapy response, systems biology, drug discovery, lab automation |
| HARTMAN |
JOHN |
Experimental models of gene interaction networks that buffer human disease using cell array phenotyping of yeast gene knockout libraries |
yeast genetics, quantitative high throughput cell array phenotyping (Q-HTCP), gene interaction networks, cellular quiescence, aging, cystic fibrosis, chemotherapy response, systems biology, drug discovery, lab automation |
| HARTMAN |
JOHN |
Experimental models of gene interaction networks that buffer human disease using cell array phenotyping of yeast gene knockout libraries |
yeast genetics, quantitative high throughput cell array phenotyping (Q-HTCP), gene interaction networks, cellular quiescence, aging, cystic fibrosis, chemotherapy response, systems biology, drug discovery, lab automation |
| HARTMAN |
JOHN |
Experimental models of gene interaction networks that buffer human disease using cell array phenotyping of yeast gene knockout libraries |
yeast genetics, quantitative high throughput cell array phenotyping (Q-HTCP), gene interaction networks, cellular quiescence, aging, cystic fibrosis, chemotherapy response, systems biology, drug discovery, lab automation |
| HARTMAN |
JOHN |
Experimental models of gene interaction networks that buffer human disease using cell array phenotyping of yeast gene knockout libraries |
yeast genetics, quantitative high throughput cell array phenotyping (Q-HTCP), gene interaction networks, cellular quiescence, aging, cystic fibrosis, chemotherapy response, systems biology, drug discovery, lab automation |
| HARTMAN |
JOHN |
Experimental models of gene interaction networks that buffer human disease using cell array phenotyping of yeast gene knockout libraries |
yeast genetics, quantitative high throughput cell array phenotyping (Q-HTCP), gene interaction networks, cellular quiescence, aging, cystic fibrosis, chemotherapy response, systems biology, drug discovery, lab automation |
| HARTMAN |
JOHN |
Experimental models of gene interaction networks that buffer human disease using cell array phenotyping of yeast gene knockout libraries |
yeast genetics, quantitative high throughput cell array phenotyping (Q-HTCP), gene interaction networks, cellular quiescence, aging, cystic fibrosis, chemotherapy response, systems biology, drug discovery, lab automation |
| HARTMAN |
JOHN |
Experimental models of gene interaction networks that buffer human disease using cell array phenotyping of yeast gene knockout libraries |
yeast genetics, quantitative high throughput cell array phenotyping (Q-HTCP), gene interaction networks, cellular quiescence, aging, cystic fibrosis, chemotherapy response, systems biology, drug discovery, lab automation |
| HARTZES |
ANASTASIA |
|
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| HASAN |
RAGIB |
|
|
| HASHIZUME |
RINTARO |
|
|
| HASHMI |
MOHAMMAD |
|
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| HASSAN |
HESHAM |
|
|
| HASSAN |
QUAMARUL |
Gene Regulation by Non-coding RNA, Chromatin Remodeling and Modifications |
MicroRNA, Epigenetics, Bone, Tooth, Osteoblast Gene Expression, Odontoblast Gene Regulation |
| HASSAN |
QUAMARUL |
Gene Regulation by Non-coding RNA, Chromatin Remodeling and Modifications |
MicroRNA, Epigenetics, Bone, Tooth, Osteoblast Gene Expression, Odontoblast Gene Regulation |
| HASSAN |
QUAMARUL |
Gene Regulation by Non-coding RNA, Chromatin Remodeling and Modifications |
MicroRNA, Epigenetics, Bone, Tooth, Osteoblast Gene Expression, Odontoblast Gene Regulation |
| HASSAN |
QUAMARUL |
Gene Regulation by Non-coding RNA, Chromatin Remodeling and Modifications |
MicroRNA, Epigenetics, Bone, Tooth, Osteoblast Gene Expression, Odontoblast Gene Regulation |
| HASSAN |
QUAMARUL |
Gene Regulation by Non-coding RNA, Chromatin Remodeling and Modifications |
MicroRNA, Epigenetics, Bone, Tooth, Osteoblast Gene Expression, Odontoblast Gene Regulation |
| HASSON |
JACK |
|
|
| HASSOUN |
ALI |
|
|
| HATAWAY |
FELICIA |
|
|
| HATCHETT |
JEREMY |
|
|
| HATHORNE |
HEATHER |
|
|
| HATTON |
ROBIN |
Molecular Mechanism of T Effector and Regulatory Cell Development |
Th1/Th2/Th17, Treg, CD4 T cells, IL-10, IBD |
| HATTON |
SEAN |
|
|
| HAUTH |
JOHN |
|
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| HAVERSTOCK |
BRENT |
|
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| HAWI |
RIEM |
|
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| HAWKINS |
AARON |
|
|
| HAWKINS |
JEFFREY |
|
|
| HAWKINS |
KRYSTAL |
|
|
| HAWKINS |
SUSAN |
|
|
| HAYDEN |
MARGARET |
|
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| HAYES |
LESLIE |
|
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