Aligned with
This conference contributes to global sustainability by aligning its research discussions and academic sessions with key United Nations Sustainable Development Goals. It fosters knowledge exchange, innovation, and collaborative engagement.
SDG 3 — Good Health and Well-being
SDG 4 — Quality Education
SDG 9 — Industry, Innovation and Infrastructure
SDG 11 — Sustainable Cities and Communities
This session will explore the intricate molecular pathways involved in DNA repair, focusing on mechanisms such as homologous recombination and non-homologous end joining. Participants will discuss recent advancements in understanding how these processes maintain genomic stability.
This track will delve into the cellular responses to DNA damage, highlighting the signaling pathways that activate repair mechanisms. Emphasis will be placed on the interplay between DNA damage response and cell cycle regulation.
This session will address the critical role of DNA repair in maintaining genomic stability and preventing mutations. Researchers will present findings on how defects in repair pathways contribute to genomic instability and disease.
This track will focus on innovative therapeutic strategies that target DNA repair pathways in cancer treatment. Discussions will include the potential of exploiting repair deficiencies in tumors for enhanced therapeutic efficacy.
This session will highlight the development and application of functional assays to study DNA repair mechanisms. Participants will share insights into how these assays can elucidate the roles of specific genes and proteins in repair processes.
This track will explore the role of molecular diagnostics in identifying DNA repair disorders. Presentations will cover advancements in genetic testing and the implications for patient management and treatment strategies.
This session will examine the relationship between chromosomal stability and the function of repair enzymes. Researchers will discuss how enzyme activity influences genomic integrity and the consequences of their dysfunction.
This track will focus on the mechanisms that monitor genomic integrity and detect DNA damage. Presentations will cover the roles of various proteins and complexes in maintaining genome stability.
This session will explore the dynamic interactions between DNA replication and repair processes. Researchers will discuss how replication stress can lead to DNA damage and the subsequent repair mechanisms that are activated.
This track will present cutting-edge research on newly discovered DNA repair pathways and their implications for genetic integrity. Participants will discuss how these insights can inform future therapeutic approaches.
This session will investigate the links between genetic integrity, DNA repair mechanisms, and various diseases. Researchers will present findings on how deficiencies in repair processes contribute to the pathogenesis of genetic disorders.