Pharmacology | PhD Programs

Name	Email	PhD Program	Research Interest	Publications
Calabrese, J. Mauro WEBSITE EMAIL PUBLICATIONS	PHD PROGRAM Bioinformatics & Computational Biology, Genetics & Molecular Biology, Pharmacology RESEARCH INTEREST Bioinformatics, Cell Biology, Computational Biology, Genetics, Genomics, Molecular Biology, Pharmacology, Stem Cells	Our lab is trying to understand the mechanisms by which long noncoding RNAs orchestrate the epigenetic control of gene expression. Relevant examples of this type of gene regulation occur in the case of X-chromosome inactivation and autosomal imprinting. We specialize in genomics, but rely a combination of techniques — including genetics, proteomics, and molecular, cell and computational biology — to study these processes in both mouse and human stem and somatic cell systems.
Song, Juan WEBSITE EMAIL PUBLICATIONS	PHD PROGRAM Cell Biology & Physiology, Neuroscience, Pharmacology RESEARCH INTEREST Behavior, Developmental Biology, Neurobiology	Our primary research interest is to identify the mechanisms that regulate neural circuit organization and function at distinct stages of adult neurogenesis, and to understand how circuit-level information-processing properties are remodeled by the integration of new neurons into existing circuits and how disregulation of this process may contribute to various neurological and mental disorders. Our long-range goals are to translate general principles governing neural network function into directions relevant for understanding neurological and psychiatric diseases. We are addressing these questions using a combination of cutting-edge technologies and approaches, including optogenetics, high-resolution microscopy, in vitro and in vivo electrophysiology, genetic lineage tracing and molecular biology.
Schisler, Jonathan C. WEBSITE EMAIL PUBLICATIONS	PHD PROGRAM Pathobiology & Translational Science, Pharmacology RESEARCH INTEREST Cardiovascular Biology, Genomics, Metabolism, Neurobiology, Translational Medicine	The Schisler Lab is geared towards understanding and designing therapies for diseases involving proteinopathies- pathologies stemming from protein misfolding, aggregation, and disruption of protein quality control pathways. We focus on cardiovascular diseases including the now more appreciated overlap with neurological diseases such as CHIPopathy (or SCAR16, discovered here in our lab) and polyQ diseases. We use molecular, cellular, and animal-based models often in combination with clinical datasets to help drive our understanding of disease in translation to new therapies.

Name

PhD Program

Research Interest

Publications

Calabrese, J. Mauro
WEBSITE
EMAIL
PUBLICATIONS

PHD PROGRAM
Bioinformatics & Computational Biology, Genetics & Molecular Biology, Pharmacology

RESEARCH INTEREST
Bioinformatics, Cell Biology, Computational Biology, Genetics, Genomics, Molecular Biology, Pharmacology, Stem Cells

Our lab is trying to understand the mechanisms by which long noncoding RNAs orchestrate the epigenetic control of gene expression. Relevant examples of this type of gene regulation occur in the case of X-chromosome inactivation and autosomal imprinting. We specialize in genomics, but rely a combination of techniques — including genetics, proteomics, and molecular, cell and computational biology — to study these processes in both mouse and human stem and somatic cell systems.

Song, Juan
WEBSITE
EMAIL
PUBLICATIONS

PHD PROGRAM
Cell Biology & Physiology, Neuroscience, Pharmacology

RESEARCH INTEREST
Behavior, Developmental Biology, Neurobiology

Our primary research interest is to identify the mechanisms that regulate neural circuit organization and function at distinct stages of adult neurogenesis, and to understand how circuit-level information-processing properties are remodeled by the integration of new neurons into existing circuits and how disregulation of this process may contribute to various neurological and mental disorders. Our long-range goals are to translate general principles governing neural network function into directions relevant for understanding neurological and psychiatric diseases. We are addressing these questions using a combination of cutting-edge technologies and approaches, including optogenetics, high-resolution microscopy, in vitro and in vivo electrophysiology, genetic lineage tracing and molecular biology.

Schisler, Jonathan C.
WEBSITE
EMAIL
PUBLICATIONS

PHD PROGRAM
Pathobiology & Translational Science, Pharmacology

RESEARCH INTEREST
Cardiovascular Biology, Genomics, Metabolism, Neurobiology, Translational Medicine

The Schisler Lab is geared towards understanding and designing therapies for diseases involving proteinopathies- pathologies stemming from protein misfolding, aggregation, and disruption of protein quality control pathways. We focus on cardiovascular diseases including the now more appreciated overlap with neurological diseases such as CHIPopathy (or SCAR16, discovered here in our lab) and polyQ diseases. We use molecular, cellular, and animal-based models often in combination with clinical datasets to help drive our understanding of disease in translation to new therapies.

PhD Program: Pharmacology