Elizabeth Glater

Associate Professor of Neuroscience

elizabeth.glater@shandongzhongyu.com

Office:

Seaver South

217

(909) 607-0880

Research Page

With Pomona Since: 2014

Expertise
Expertise

Elizabeth Glater’s research examines the ways the nervous system allows animals to generate behavioral responses to their environment. Her laboratory uses the nematode Caenorhabditis elegans to investigate the genetic and neuronal basis of food choice behavior. Working with C. elegans, which has many genes that are similar to humans and a simple, well-characterized nervous system of only 302 neurons, she and a team of undergraduate researchers are seeking to understand how genes and environment modify the nervous system to produce different food preferences.

Research Interests

How genes affect cell function and modify neural circuits to produce different behaviors
Areas of Expertise

NEUROSCIENCE
Genetics
Genetics and behavior
Work

Work

*ChaiVZ, *Farajzadeh T, *MengY, *LoSB, *AsaedTA, Taylor CJ, and Glater EE. 2024. Chemical basis of microbiome preference in the nematode C. elegans. 2024. Scientific Reports. doi:10.1038/s41598-024-51533-6
Katzen A, Chung HK, Harbaugh WT, Della Iacono C, Jackson N, Glater EE, Taylor CJ, Yu SK, Flavell SW, Glimcher P, Andreoni J, and Lockery SR. 2023. The nematode worm C. elegans chooses between bacterial foods as if maximizing economic utility. Elife. 2023 Apr 25;12:e69779. doi: 10.7554/eLife.69779. PMID: 37096663
Glater, EE. 2022. The Basics of Setting up Successful Teaching Labs and Short-term Projects with C. elegans. In C. elegans Methods and Applications. 3rd edition; Eds: Haspel G, Hart AC; Pub. Springer/Nature; New York. DOI: 10.1007/978-1-0716-2180-6_2.
Gourgou E, Willis AR, Giunti S, Rosa MJD, Charlesworth AG, Lima MH, Glater E, Soo S, Pereira B, Akbaş K, Deb A, Kamak M, Moyle MW, Traa A, Singhvi A, Sural S, Ji EJ. A journey to ‘tame a small metazoan organism’, as seen through the artistic eyes of C. elegans researchers. Journal of Neurogenetics, 1–12 (2020).
Worthy S.E., Haynes L., Chambers M., Bethune D., Kan E., Chung K., Ota R., Taylor C.J. and Glater E.E. Identification of attractive odorants released by preferred bacterial food found in the natural habitats of C. elegans. PLoS ONE. 13:e0201158 (2018).
Pokala N and Glater EE. Using optogenetics to understand neuronal mechanisms underlying behavior in C. elegans. Journal of Undergraduate Neuroscience Education. 162(2): A152-A158 (2018).
Worthy, S., Rojas, G., Taylor, C., and Glater, E.E. Identification of odor blend used by Caenorhabditis elegans for pathogen recognition. Chemical Senses. 43(3): 169-180 (2018).
Glater, E.E., Rockman, M.V., and Bargmann, C.I. Multigenic natural variation underlies Caenorhabditis elegans olfactory preference for the bacterial pathogen Serratia marcescens. G3 Genes Genomes Genetics 4, 265–276 (2014).
Glater EE and Schwarz TL. Organization and transport of mitochondria in neurons in Encyclopedia of Neuroscience (Editor-in-chief, Larry Squire, Academic Press, Oxford) (2009).
Glater EE, Megeath LJ, Stowers RS, Schwarz TL. Axonal transport of mitochondria requires milton to recruit kinesin heavy chain and is light chain independent. J Cell Biol 173:545–557 (2006).
Education
Education

Postdoctoral Fellow
The Rockefeller University
Ph.D.
Harvard University
Master of Arts
Brown University
Bachelor of Arts with High Honors
Swarthmore College
Recent Courses Taught

Genes and Behavior with Laboratory
Introduction to Neuroscience with Laboratory
Senior Experimental Thesis
Awards & Honors

Awards & Honors

National Science Foundation, Research Starter Grant, $50,000, "Genetic and neuronal mechanisms of food preference in C. elegans, 2012-13

Research Interests

Areas of Expertise

Recent Courses Taught

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Elizabeth Glater

Expertise

Research Interests

Areas of Expertise

Work

Education

Recent Courses Taught

Awards & Honors

Mailing Address

Get in touch

Connect

Give back to Pomona

Give back to

Pomona