International Conference on Yeast Chromosome Structure and Dynamics (ICYCSD - 26)

This track will explore the intricate architecture of yeast chromosomes and their functional implications. Discussions will focus on the relationship between chromosome structure and gene expression in yeast models.

This session will delve into the mechanisms governing chromatin organization in yeast, including the roles of histone modifications and chromatin remodeling complexes. Participants will present their findings on how these dynamics influence cellular processes.

This track will address the principles of genome architecture in yeast and its impact on chromosome stability. Research on the interplay between structural elements and genomic integrity will be highlighted.

This session will focus on the biology of centromeres and telomeres in yeast, emphasizing their roles in chromosome segregation and stability. Presentations will cover recent advancements in understanding their molecular mechanisms.

This track will investigate the molecular pathways involved in chromosome segregation during yeast cell division. Participants will discuss novel findings related to spindle assembly and checkpoint regulation.

This session will explore the role of epigenetic modifications in regulating chromosome dynamics in yeast. Research will highlight how these modifications influence chromatin accessibility and gene expression.

This track will examine the spatial organization of chromosomes within the yeast nucleus and its implications for gene regulation. Presentations will focus on techniques used to study chromosomal interactions and their biological significance.

This session will cover the mechanisms of chromosome remodeling and DNA repair in yeast. Discussions will focus on the interplay between chromatin structure and DNA damage response pathways.

This track will highlight advancements in structural genomics as applied to yeast chromosomes. Participants will present data on high-resolution mapping techniques and their implications for understanding chromosome function.

This session will explore the evolutionary aspects of yeast chromosomes, focusing on chromosomal rearrangements and their impact on species diversity. Research will discuss how evolutionary pressures shape chromosome structure and function.

This track will focus on computational models used to simulate chromosome dynamics in yeast. Presentations will cover the development of models that integrate experimental data to predict chromosomal behavior.