Skip to content Skip to search Skip to footer
WashU Medicine

Cell Biology & Physiology

Menu
  • About Our Department
    • Our Culture
    • Our History
    • Diversity, Equity, & Inclusion
    • Make an Impact
    • Why We Love St. Louis
    • Contact Us
  • Education
    • Graduate Education
    • Become a Trainee
    • RISE Fellows Program
    • Rotations
    • Postbaccalaureate Program
    • Medical Education
  • News & Events
    • News
    • Department Calendar
    • Department Newsletter
    • Seminar Series
    • CBP/MCB Joint Retreat
    • CBP/MCB Work-In-Progress (WIP) Series
    • Social Hour
    • Robert P. Mecham Distinguished Lectureship
    • Erlanger-Gasser Lecture
  • People
    • Faculty
    • Graduate Students
    • Postdoctoral Researchers
    • Research Staff
    • Administrative
    • Emeritus Faculty
    • Alumni
  • Research
    • Publications
    • Laboratories
    • Centers
    • Entrepreneurship
    • Resources

Category: You Z

TCAF1 promotes TRPV2-mediated Ca2+ release in response to cytosolic DNA to protect stressed replication forks (Links to an external site)

May 30, 2024October 8, 2024

Kong L, Cheng C, Cheruiyot A, Yuan J, Yang Y, Hwang S, Foust D, Tsao N, Wilkerson E, Mosammaparast N, Major MB, Piston DW, Li S, You Z.

Clinical evidence for a role of E2F1-induced replication stress in modulating tumor mutational burden and immune microenvironment (Links to an external site)

June 30, 2023July 6, 2023

Tan K, Song Y, Xu M, and You Z

Cytosolic DNA sensing by cGAS/STING promotes TRPV2-mediated Ca2+ release to protect stressed replication forks (Links to an external site)

February 16, 2023February 27, 2023

Li S, Kong L, Meng Y, Cheng C, Lemacon DS, Yang Z, Tan K, Cheruiyot A, Lu Z, and You Z

Context-dependent pro- and anti-resection roles of ZKSCAN3 in the regulation of fork processing during replication stress (Links to an external site)

August 1, 2022February 27, 2023

Yang Z, Lemacon DS, Li S, Cheruiyot A, Kong L, Tan K, Cheng C, Turkay E, He D, and You Z

Nonsense-mediated RNA decay is a unique vulnerability of cancer cells harboring SF3B1 or U2AF1 mutations (Links to an external site)

September 1, 2021February 27, 2023

Cheruiyot A, Li S, Srivatsan SN, Ahmed T, Chen Y, Lemacon DS, Li Y, Yang Z, Wadugu BA, Warner WA, Pruett-Miller SM, Obeng EA, Link DC, He D, Xiao F, Wang X, Bailis JM, Walter MJ, and You Z

Department of Cell Biology & Physiology

Washington University School of Medicine

660 S. Euclid Ave.

MSC-8228-03-04

St. Louis, MO 63110

314-273-8536

  • Instagram

©2025 Washington University in St. Louis