Small G proteins in cellular signalling and disease 2025
Scientific meeting
15 Jun 2025 - 29 Jun 2025
UK
Small G proteins of the Ras superfamily regulate a plethora of cell signalling pathways and impact on most biological processes. Deregulation of these proteins and their pathways often results in disease, such as cancer and genetic disorders, and plays a role in infection by pathogenic organisms. The founding member of this superfamily of proteins, Ras, drives ~20% of human cancers and its inhibition is a goal of global importance.
In this meeting we will discuss research covering all five families of small G proteins, to generate new ideas, collaborations and scientific strategies from diverse inputs. This will include the Ras family, involved in cell growth, the Rho family, which drive cytoskeletal rearrangements, the Arf and Rab families, which play a role in vesicle trafficking and Ran, which is responsible for nuclear transport.
This conference will gather renowned experts to highlight recent advances in understanding the molecular mechanisms of small G protein function. The programme is designed to bring together leaders in the field and younger scientists, providing a platform for early stage investigators to present their latest research while accommodating ample opportunities for networking.
Sessions at the meeting will cover the most exciting, cutting edge topics in small G protein signalling:
- Small G proteins in disease: challenges and progress
- Post translational modifications & systems analysis of G protein networks.
- Small G protein signalling and function in context
- Therapeutics and molecular medicine targeting small G protein networks.
Join us in Manchester for #SGP25 #Gproteins25
(Exact dates TBC)
Key event details
Share this page!
Small G proteins in cellular signalling and disease 2025
In this meeting we will discuss research covering all five families of small G proteins, to generate new ideas, collaborations and scientific strategies from diverse inputs. This will include the Ras family, involved in cell growth, the Rho family, which drive cytoskeletal rearrangements, the Arf and Rab families, which play a role in vesicle trafficking and Ran, which is responsible for nuclear transport.