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Depletion of H2A-H2B Dimers in Saccharomyces cerevisiae Triggers Meiotic Arrest by Reducing IME1 Expression and Activating the BUB2-Dependent Branch of the Spindle Checkpoint
Sean E. Hanlona, David N. Norrisa, and Andrew K. Vershonaa Waksman Institute of Microbiology and The Department of Molecular Biology and Biochemistry, Rutgers, The State University of New Jersey, Piscataway, New Jersey 08854
Corresponding author: Andrew K. Vershon, 190 Frelinghuysen Rd., Piscataway, NJ 08854., vershon{at}waksman.rutgers.edu (E-mail)
Communicating editor: A. P. MITCHELL
mutations express histone H2A-H2B dimers at a lower level than do wild-type cells. Although this mutation has only minor effects on mitotic growth, it causes an arrest in sporulation prior to the first meiotic division. In this report, we show that the hta1-htb1 mutant exhibits reduced expression of early and middle-sporulation-specific genes and that the meiotic arrest of the hta1-htb1 mutant can be partially bypassed by overexpression of IME1. Additionally, deletions of BUB2 or BFA1, components of one branch of the spindle checkpoint pathway, bypass the meiotic arrest. Mutations in the other branch of the pathway or in the pachytene checkpoint are unable to suppress the meiotic block. These observations indicate that depletion of the H2A-H2B dimer blocks sporulation by at least two mechanisms: disruption of the expression of meiotic regulatory genes and activation of the spindle checkpoint. Our results show that the failure to progress through the meiotic pathway is not the result of global chromosomal alterations but that specific aspects of meiosis are sensitive to depletion of the H2A-H2B dimer.
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