Siegel Lab
@siegel-lab.bsky.social
We use T. brucei to study the role of chromatin and genome architecture in antigenic variation.
https://www.vetmed.lmu.de/molpara/en/
https://www.vetmed.lmu.de/molpara/en/
Welcome to Munich. Wir excited to have you join our group.🎉
October 13, 2025 at 11:05 AM
Welcome to Munich. Wir excited to have you join our group.🎉
This work was a great collaboration with the Colomé-Tatché and Mugnier labs.
@bmc-lmu.bsky.social
@www.helmholtz-munich.de
@johnshopkinssph.bsky.social
@uoe-eid.bsky.social
@bmc-lmu.bsky.social
@www.helmholtz-munich.de
@johnshopkinssph.bsky.social
@uoe-eid.bsky.social
March 12, 2025 at 4:31 PM
This work was a great collaboration with the Colomé-Tatché and Mugnier labs.
@bmc-lmu.bsky.social
@www.helmholtz-munich.de
@johnshopkinssph.bsky.social
@uoe-eid.bsky.social
@bmc-lmu.bsky.social
@www.helmholtz-munich.de
@johnshopkinssph.bsky.social
@uoe-eid.bsky.social
To evade the host immune response, many pathogens use antigenic variation, a strategy that involves periodic, semi-predictable switching of antigen expression.
Using a highly sensitive scRNA-seq approach, we have now discovered genomic features that control antigen selection mechanisms in T. brucei
Using a highly sensitive scRNA-seq approach, we have now discovered genomic features that control antigen selection mechanisms in T. brucei
March 12, 2025 at 4:31 PM
To evade the host immune response, many pathogens use antigenic variation, a strategy that involves periodic, semi-predictable switching of antigen expression.
Using a highly sensitive scRNA-seq approach, we have now discovered genomic features that control antigen selection mechanisms in T. brucei
Using a highly sensitive scRNA-seq approach, we have now discovered genomic features that control antigen selection mechanisms in T. brucei
these are beautiful images!
February 5, 2025 at 4:32 PM
these are beautiful images!