Universidad de Chile in Santiago, Universidad Autonoma in Madrid, Washington University School of Medicine in St. Louis
Known for
Gene-environment interactions in CNS development
Awards
NIH Brain Initiative, NARSAD Young Investigator, Daniel X. Freedman Award
Scientific career
Fields
Neuroscience, biochemistry
Institutions
Salk Institute for Biological Studies
Margarita Behrens is a neuroscientist and biochemist.[1] She is currently an associate professor at the
Salk Institute for Biological Studies where her lab studies the impact of oxidative stress on the post-natal brain through probing the biology of fast-spiking parvalbumin interneurons in models of schizophrenia.[1]
Early life and education
Behrens completed her master's degree at the
University of Chile in biochemistry and then continued to the
Autonoma University in Madrid to conduct a PhD in molecular biology and biochemistry.[1] Behrens then completed her post-doctoral work at
Washington University in St. Louis.[2] In 2009, Behrens began working as a staff scientist as the
Salk Institute where she led a group of researchers within
Terry Sejnowski's computational neuroscience laboratory studying the circuitry implicated in schizophrenia in rodent models.[1]
Career and research
In 2018, the Salk Institute appointed Behrens as Research Professor, where she remains the first and only faculty member to hold this title.[2] Her lab currently explores how environmental influences shape prefrontal cortical circuit development as a means to understand why some individuals might progress towards psychiatric illness while others do not.[3] In an effort to dissect prefrontal cortical neurons in development, Behrens' lab uncovers novel subtypes of neurons through probing their unique DNA methylation patterns.[4] Using single-nucleus sequencing technologies, Behrens has helped produce a novel dataset mapping the methylomes of both rodent and human prefrontal cortical neurons.[5] This work has increased our knowledge of the diversity of cell types which provides an important platform for other neuroscientists to ask deeper questions about neural development in both health and disease.[3] Behrens is now using the methylome dataset to ask translational question about how maternal environment may impact methylation in certain subtypes of neurons and how this may give rise to disease.[6]
Universidad de Chile in Santiago, Universidad Autonoma in Madrid, Washington University School of Medicine in St. Louis
Known for
Gene-environment interactions in CNS development
Awards
NIH Brain Initiative, NARSAD Young Investigator, Daniel X. Freedman Award
Scientific career
Fields
Neuroscience, biochemistry
Institutions
Salk Institute for Biological Studies
Margarita Behrens is a neuroscientist and biochemist.[1] She is currently an associate professor at the
Salk Institute for Biological Studies where her lab studies the impact of oxidative stress on the post-natal brain through probing the biology of fast-spiking parvalbumin interneurons in models of schizophrenia.[1]
Early life and education
Behrens completed her master's degree at the
University of Chile in biochemistry and then continued to the
Autonoma University in Madrid to conduct a PhD in molecular biology and biochemistry.[1] Behrens then completed her post-doctoral work at
Washington University in St. Louis.[2] In 2009, Behrens began working as a staff scientist as the
Salk Institute where she led a group of researchers within
Terry Sejnowski's computational neuroscience laboratory studying the circuitry implicated in schizophrenia in rodent models.[1]
Career and research
In 2018, the Salk Institute appointed Behrens as Research Professor, where she remains the first and only faculty member to hold this title.[2] Her lab currently explores how environmental influences shape prefrontal cortical circuit development as a means to understand why some individuals might progress towards psychiatric illness while others do not.[3] In an effort to dissect prefrontal cortical neurons in development, Behrens' lab uncovers novel subtypes of neurons through probing their unique DNA methylation patterns.[4] Using single-nucleus sequencing technologies, Behrens has helped produce a novel dataset mapping the methylomes of both rodent and human prefrontal cortical neurons.[5] This work has increased our knowledge of the diversity of cell types which provides an important platform for other neuroscientists to ask deeper questions about neural development in both health and disease.[3] Behrens is now using the methylome dataset to ask translational question about how maternal environment may impact methylation in certain subtypes of neurons and how this may give rise to disease.[6]