Serena Dudek

Serena M. Dudek (born 1964; Anaheim, California), is an American neuroscientist known for her work on long-term depression[2][3] and synaptic plasticity in the CA2 region of the hippocampus.[4]

Serena Dudek
Dr. Serena Dudek
Born
Anaheim, California
NationalityAmerican
EducationSavanna High School
Alma materUniversity of California, Irvine (BA)
Brown University (Ph.D.)
SpouseMarc Sommer
AwardsA.E. Bennett Research Award (2009)[1]

Education

Early years

Dudek's father was an English professor and Fullerton College and her mother was a clinical cytologist and medical technologist.[5] In High school, she worked at Knott's Berry Farm selling ice cream and popcorn. She was also on the drill team at Savanna High School.[5]

Undergraduate

In 1982 Serena Dudek matriculated into the University of California, Irvine.[6] Dudek worked as an undergraduate researcher in the lab of Gary Lynch studying the degradation of brain spectrin, also known as fodrin, by calpains.[5][6]

Graduate

Serena Dudek enrolled a Ph.D. program at Brown University where she joined Mark Bear's lab to study long-term depression in a collaboration with Leon Cooper.[5] Her work was used to support the BCM theory.[7] She finished her Ph.D. studies in 1992.[1]

Media

Publications

On August 26, 2007 with the Duke University Medical Center, Dudek et al published a paper on their research on brain proteins in mice related to Obsessive-compulsive disorder (OCD). The SAPAP3 protein plays a crucial role in nerve signals traveling to another across the synapse within the striatum. Additional gene mutations that are mirrored in humans are hypothesized to play a role within OCD in humans too.[8] On September 19, 2010 Dudek et al published a paper titled "Gene limits learning and memory in mice" which studied the effect of a specific gene deletion on cognitive performance in mice.[9]

News articles

In a Newsweek article called "Buff Your Brain" Serena Dudek and her colleagues' 2011 research on the effects of caffeine in lab rodents was highlighted.[10] Serena Dudek's research found that rats that were given an equivalent shot of two cups of coffee had stronger electrical activity between neurons in their hippocampus area called CA2.[10][11]

In Laboratory News article named "Doh! Losing ‘Homer Simpson’ gene makes mice smart," Dudek was cited for her study on electrical currents on mice. The article highlights how mice with the disabled "Homer Simpson" gene were able to have stronger neuron connections in the hippocampus area called CA2.

In Scientific American Article titled "Knocking Out a 'Dumb' Gene Boosts Memory in Mice",[12] Dudek rationalizes why we would have a "dumb" gene, explaining that, "If the gene is conserved by natural selection, there must be some reason. Intuitively, it seems there should be a downside to having this gene knocked out, but we haven’t found it so far. It may be that these mice are hallucinating, and you just can’t tell."

In an article titled "Coffee for your thoughts: New study suggests caffeine can help learning, memory"[13] from the Columbia Chronicle, Dudek discussed her work on the CA2 region of the hippocampus. She discusses her work in which she observed the CA2 region in rats after administering caffeine. Her team then removed and observed the rat brains and found that caffeine improved synaptic strength in the CA2 region of the brain.

An article from The Pilot entitled, "UNC Pembroke Professor, Biotech Center Team Identify Dementia-Related Brain Alterations due to Military Blasts",[14] Dudek and other researchers are cited on their work concerning the neurological effects from explosive blasts.

In 2012, Dudek's work on caffeine's effect on neuronal connection was highlighted in ChildUp.com, supporting the research of electrical activity of neurons on cognitive functioning.[15]

Activities

Ever since 1987, Serena Dudek has been a part of the Society for Neuroscience: Washington, DC, US. From October, 2019 to October 2020, she served as the treasurer of the society.[16]

References

  1. "Serena Dudek, PhD". NIH: Serena Dudek. Retrieved 2021-04-28.
  2. Murphy, Geoffrey (2015-03-10). "Starting from the Ground State Up: Factors Influencing Synaptic Plasticity". Biophysical Journal. 108 (5): 997–998. Bibcode:2015BpJ...108..997M. doi:10.1016/j.bpj.2014.12.049. ISSN 0006-3495. PMC 4375374. PMID 25762311.
  3. "Neuroplasticity | Encyclopedia.com". www.encyclopedia.com. Retrieved 2021-05-05.
  4. "Coffee drinkers smarter? Maybe, says NIEHS researcher". Triangle Business Journal. Retrieved 2021-05-03.
  5. "Episode 10: Serena Dudek, PhD". Conjugate: Illustration and Science Blog. Retrieved 2021-04-28.
  6. "Insights Into Hippocampal Circuitry and Function From Studies of Synaptic Plasticity". neuronline-uat.sfn.org. Retrieved 2021-05-05.
  7. Cooper, Leon N. (1995). How we learn, how we remember : toward an understanding of brain and neural systems : selected papers of Leon N. Cooper. Singapore: World Scientific. ISBN 981-02-1814-1. OCLC 32968745.
  8. "Mice Provide Important Clues To Obsessive-compulsive Disorder". ScienceDaily. Retrieved 2021-05-05.
  9. "Gene limits learning and memory in mice". ScienceDaily. Retrieved 2021-05-05.
  10. EST, Sharon Begley On 1/1/12 at 10:00 AM (2012-01-01). "Buff Your Brain". Newsweek. Retrieved 2021-04-28.
  11. "Rats' caffeine brain boost". Science News for Students. 2011-12-08. Retrieved 2021-05-05.
  12. Jabr, Ferris. "Knocking Out a "Dumb" Gene Boosts Memory in Mice". Scientific American. Retrieved 2021-05-05.
  13. Woods, Lindsey (2011-12-05). "Coffee for your thoughts: New study suggests caffeine can help learning, memory". The Columbia Chronicle. Retrieved 2021-05-05.
  14. "UNC Pembroke Professor, Biotech Center Team Identify Dementia-Related Brain Alterations due to Military Blasts". The Pilot Newspaper. Retrieved 2021-05-05.
  15. blogadmin2. "Want to Be Smarter in Work, Love, and Life?". www.childup.com. Retrieved 2021-05-05.
  16. "About NQ". www.sfn.org. Retrieved 2021-04-28.
This article is issued from Wikipedia. The text is licensed under Creative Commons - Attribution - Sharealike. Additional terms may apply for the media files.