International Conference on Genome Stability, DNA Repair and Cell Cycle Control (ICGSDRCCC - 26)

This session will explore the various molecular mechanisms underlying DNA repair pathways, emphasizing the critical roles of specific proteins and enzymes. Discussions will focus on recent advances in understanding how these pathways maintain genomic integrity.

This track will delve into the intricate regulation of the cell cycle, highlighting the molecular checkpoints that ensure proper cell division. Presentations will address how dysregulation of these checkpoints can lead to genomic instability.

This session will examine the relationship between genomic integrity and tumor suppression mechanisms, focusing on how cells prevent the accumulation of genetic damage. Key insights into the roles of tumor suppressor genes will be discussed.

This track will investigate the causes and consequences of replication stress, including its impact on DNA damage response and genomic stability. Researchers will present findings on how cells cope with and repair replication-induced damage.

This session will focus on the mechanisms that ensure chromosomal stability during cell division, including the roles of cohesins and condensins. The implications of chromosomal instability in cancer and other diseases will also be discussed.

This track will highlight the various genomic surveillance mechanisms that monitor and maintain genomic fidelity. Presentations will cover the roles of DNA damage sensors and repair factors in preserving cellular health.

This session will showcase cutting-edge research on innovative DNA repair mechanisms, including novel therapeutic approaches to enhance repair efficiency. Discussions will include the potential for targeting these pathways in cancer treatment.

This track will explore the relationship between cell division processes and genomic fidelity, emphasizing the importance of accurate chromosome segregation. Researchers will present findings on how errors in cell division contribute to genomic instability.

This session will focus on the role of molecular checkpoints in cancer biology, examining how their dysfunction contributes to tumorigenesis. Insights into potential therapeutic targets within these pathways will be discussed.

This track will investigate how environmental factors, such as radiation and chemical exposure, affect genome stability and DNA repair mechanisms. Researchers will present data on the interplay between environmental stressors and cellular responses.

This session will highlight emerging technologies that are revolutionizing genomic research, including CRISPR and next-generation sequencing. Presentations will focus on how these tools enhance our understanding of DNA repair and cell cycle control.