Centromeric repeat diversity underlies non-Mendelian segregation pattern in hop ( Humulus lupulus )

Aberrant meiosis in plants often leads to aneuploidy, genetic instability, and sterility. This can occur due to several factors, including chromosome misalignment, defective synapsis or environmental factors that may result in unusual genetic combinations in the offsprings. Unusual chromosome behavior during male meiosis in Humulus lupulus is linked to irregular chromosome segregation and genome instability. However, the origin of meiotic instability remains unclear.

We analyzed the centromeric landscape of H . lup ulus to determine its role in aberrant chromosomal segregation during cell division. Using a combination of bioinformatic, molecular and cytogenetic approaches, we identified new centromeric repeats and revealed two types of centromeric organizations. Cytogenetic localization on metaphase chromosomes confirmed the genomic distribution of major repeat arrays and revealed unique features that contribute to aberrant segregation.

Two centromeric types are composed of the major repeats SaazCEN and SaazCRM1 which are further accompanied by chromosome-specific centromeric satellites, Saaz40, Saaz293, Saaz85, and HuluTR120. Chromosome 2 displays unbalanced segregation during the cell division, implicating an important role for its centromere structure in segregation patterns. Moreover, Saaz293 is a new marker for studying aneuploidy in hop.

Our findings provide new insights on chromosome segregation in hop and highlight the diversity and complexity of the centromere organization in H . lupulus .