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Stephanie A. White

From Wikipedia, the free encyclopedia
Stephanie Ann White
Alma materConnecticut College
Stanford University
Scientific career
InstitutionsDuke University
University of California, Los Angeles
ThesisSocial control of gonadotropin-releasing hormone gene expression (1997)
WebsiteWhite Lab

Stephanie Ann White is an American neuroscientist who is a professor at the University of California, Los Angeles. Her research looks to understand how social interactions impact the brain. She serves as Director of the Neural Systems and Behavior programme at the Marine Biological Laboratory.

Early life and education

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White was an undergraduate student at Connecticut College, where she majored in biopsychology.[1] She was a graduate student at Stanford University, where she studied neuroscience.[1] Her research considered social control of the expression of gonadotropin-releasing hormones.[2] She became interested in neuropathological approaches to study how socialising impacts the shape of the brain. She moved to Duke University as a postdoctoral scholar where she remained from 1997 until 2000.[3]

Research and career

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White joined University of California, Los Angeles in 2000[4] and holds the William Scheibel Endowed Chair in Neuroscience.[5]

She has used songbirds to better understand how the environment influences creativity and learning. During a critical developmental period, the songbirds develop a suitable song for courtship, primarily via trial and error.[6] In particular, she considers the zebra finch, whose behavior and neural circuitry are sexually dimorphic.[7][8]

White has studied FOXP2, a gene related to speech, in the learning of both humans and songbirds. White has investigated the role of FOXP2 during birdsong as well as its prevalence in neural synapses.[1] She has shown that disruption to the FOXP2 gene can cause difficulties in speech and birdsong.[4] In zebra finches she identified that the FOXP1 gene is at elevated in parts of the brain associated with birdsong.[4] White identified several genes associated with difficulties in human development in the basal ganglia of the zebra finch, and has since used songbirds as a model for human speech disorders.[6][9] She has argued that this understanding will help to identify therapeutic candidates for communication-related conditions such as autism.[6]

Selected publications

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References

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  1. ^ a b c Andrewtran. "Stephanie White". Integrative Biology and Physiology. Retrieved 2021-06-20.
  2. ^ White, Stephanie Ann (1997). Social control of gonadotropin-releasing hormone gene expression (Thesis). OCLC 80935553.
  3. ^ "ORCID: Stephanie White". orcid.org. Retrieved 2021-09-30.
  4. ^ a b c "Bird's song may be linked to speech disorders". EurekAlert!. Retrieved 2021-06-20.
  5. ^ Andrewtran. "Stephanie White". Integrative Biology and Physiology. Retrieved 2021-09-30.
  6. ^ a b c "CART pilot grant recipient to study songbird model for disorders of communication | Semel Institute for Neuroscience and Human Behavior". www.semel.ucla.edu. Retrieved 2021-06-20.
  7. ^ "Stephanie White – UCLA Graduate Programs in Bioscience (GPB)". Retrieved 2021-06-20.
  8. ^ "Scientists ID 2,000 genes in zebra finch brain linked to singing: May teach us about human speech disorders". ScienceDaily. Retrieved 2021-06-20.
  9. ^ "A bird's song may teach us about human speech disorders". phys.org. Retrieved 2021-06-20.
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