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Junjie Guo, PhD

Associate Professor of Neuroscience
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Additional Titles

Co-Director of Graduate Studies, Interdepartmental Neuroscience Program

Education

PhD
Johns Hopkins University School of Medicine, Neuroscience (2011)


BA
Peking University, Biology (2006)


About

Titles

Associate Professor of Neuroscience

Co-Director of Graduate Studies, Interdepartmental Neuroscience Program

Biography

Junjie Guo received his B.A. in Biology from Peking University and completed his Ph.D. thesis in the Solomon H. Snyder Department of Neuroscience at Johns Hopkins University School of Medicine, working on neuronal DNA methylation. During his postdoctoral training at the Whitehead Institute/MIT, he developed a series of high-throughput computational and experimental methods to investigate circular RNAs and intracellular RNA folding. He joined the Department of Neuroscience at Yale School of Medicine in Fall 2017.

The Guo lab is broadly interested in questions at the intersection of RNA biology and Neuroscience, with a focus on understanding the mechanisms and functions of mRNA translation control in the nervous system as well as its dysregulation in neurological disorders caused by nucleotide repeat expansions.

Appointments

  • Neuroscience

    Associate Professor on Term
    Primary

Other Departments & Organizations

Education & Training

Postdoctoral Fellow
Whitehead Institute/MIT/HHMI (2017)
Postdoctoral Associate
Johns Hopkins University School of Medicine (2012)
PhD
Johns Hopkins University School of Medicine, Neuroscience (2011)
BA
Peking University, Biology (2006)

Research

Overview

1. RNA dysregulation in nucleotide repeat expansion-associated neurodegeneration

An increasing number of neurodegenerative diseases including amyotrophic lateral sclerosis (ALS) and frontotemporal dementia (FTD) have been linked to the instability and expansion of nucleotide repeats in the genome, involving a variety of disease mechanisms. For example, some repeat sequences interfere with transcription and pre-mRNA processing. Some repeat RNAs form aggregates and sequester RNA-binding proteins. Others are translated into toxic polypeptides. We aim to determine the causes of these distinctive properties and how they impact disease, with the goal of developing new therapeutics.

2. Noncanonical translation mechanisms

Deviations from canonical translation can occur during each step of mRNA translation (initiation, elongation, and termination). For example, initiation at non-AUG codons plays important roles in regulating canonical translation in normal cells, but also causes the production of toxic peptide from repeat RNAs in neurological disorders. Many RNA viruses employ ribosomal frameshifting to regulate translation of essential viral proteins. We are investigating both physiological and pathological roles of these noncanonical translation mechanisms.

3. Neuronal mRNA transport and local translation

In polarized cells like neurons, newly transcribed mRNAs are often trafficked to distinct subcellular locations (e.g., dendrites and axon), where they can be locally translated in response to external stimuli. We are developing novel technologies that can help better understand the spatial and temporal regulation of mRNA transport and local translation.

Medical Research Interests

Amyotrophic Lateral Sclerosis; Computational Biology; Frontotemporal Dementia; Genomics; High-Throughput Nucleotide Sequencing; Motor Neuron Disease; Neurodegenerative Diseases; Neurons; RNA; RNA Transport; RNA-Binding Proteins

Research at a Glance

Yale Co-Authors

Frequent collaborators of Junjie Guo's published research.

Publications

2024

2023

2022

2021

2020

2016

Academic Achievements & Community Involvement

  • activity

    Society for Neuroscience

  • activity

    American Society for Cell Biology

  • activity

    RNA Society

  • activity

    Neuroscience Research-In-Progress Seminar Series

  • activity

    American Society for Biochemistry and Molecular Biology

Teaching & Mentoring

Teaching

  • Didactic

    INP 701: Principles of Neuroscience

    Co-InstructorLecture Setting

Get In Touch

Contacts

Academic Office Number

Locations

Events

Mar 202524Monday