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Cm, Phillips C, Wong Needhi Bhalla Pm, Carlton P, Weiser Pm, Meneely Af, Dernburg
Published in
Cell
The him-8 gene is essential for proper meiotic segregation of the X chromosomes in C. elegans. Here we show that loss of him-8 function causes profound X chromosome-specific defects in homolog pairing and synapsis. him-8 encodes a C2H2 zinc-finger protein that is expressed during meiosis and concentrates at a site on the X chromosome known as the m...
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Needhi Bhalla Dj, Wynne V, Jantsch Af, Dernburg
Published in
PLoS Genetics
Crossover recombination and the formation of chiasmata normally ensure the proper segregation of homologous chromosomes during the first meiotic division. zhp-3, the Caenorhabditis elegans ortholog of the budding yeast ZIP3 gene, is required for crossover recombination. We show that ZHP-3 protein localization is highly dynamic. At a key transition ...
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Aj, Macqueen Cm, Phillips Needhi Bhalla P, Weiser Am, Villeneuve Af, Dernburg
Published in
Cell
We have investigated the role of pairing centers (PCs), cis-acting sites required for accurate segregation of homologous chromosomes during meiosis in C. elegans. We find that these sites play two distinct roles that contribute to proper segregation. Chromosomes lacking PCs usually fail to synapse and also lack a synapsis-independent stabilization ...
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P, Lamelza Needhi Bhalla
Published in
PLoS Genetics
Chromosomes that fail to synapse during meiosis become enriched for chromatin marks associated with heterochromatin assembly. This response, called meiotic silencing of unsynapsed or unpaired chromatin (MSUC), is conserved from fungi to mammals. In Caenorhabditis elegans, unsynapsed chromosomes also activate a meiotic checkpoint that monitors synap...
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Needhi Bhalla Af, Dernburg
Published in
Annual Review of Cell and Developmental Biology
Accurate segregation of chromosomes during meiosis requires physical links between homologs. These links are usually established through chromosome pairing, synapsis, and recombination, which occur during meiotic prophase. How chromosomes pair with their homologous partners is one of the outstanding mysteries of meiosis. Surprisingly, experimental ...
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S, Biggins Ff, Severin Needhi Bhalla I, Sassoon Aa, Hyman Aw, Murray
Published in
Genes & Development
Chromosome segregation depends on kinetochores, the structures that mediate chromosome attachment to the mitotic spindle. We isolated mutants in IPL1, which encodes a protein kinase, in a screen for budding yeast mutants that have defects in sister chromatid separation and segregation. Cytological tests show that ipl1 mutants can separate sister ch...
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Cr, Nelson T, Hwang Ph, Chen Needhi Bhalla
Published in
The Journal of Cell Biology
The spindle checkpoint acts during cell division to prevent aneuploidy, a hallmark of cancer. During checkpoint activation, Mad1 recruits Mad2 to kinetochores to generate a signal that delays anaphase onset. Yet, whether additional factors contribute to Mad2 s kinetochore localization remains unclear. Here, we report that the conserved AAA+ ATPase ...
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Needhi Bhalla S, Biggins Aw, Murray
Published in
Molecular Biology of the Cell
The budding yeast YCS4 gene encodes a conserved regulatory subunit of the condensin complex. We isolated an allele of this gene in a screen for mutants defective in sister chromatid separation or segregation. The phenotype of the ycs4-1 mutant is similar to topoisomerase II mutants and distinct from the esp1-1 mutant: the topological resolution of ...
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T, Bohr Cr, Nelson E, Klee Needhi Bhalla
Published in
The Journal of Cell Biology
Homologue synapsis is required for meiotic chromosome segregation, but how synapsis is initiated between chromosomes is poorly understood. In Caenorhabditis elegans, synapsis and a checkpoint that monitors synapsis depend on pairing centers (PCs), cis-acting loci that interact with nuclear envelope proteins, such as SUN-1, to access cytoplasmic mic...
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Aj, Deshong Al, Ye P, Lamelza Needhi Bhalla
Published in
PLoS Genetics
Meiotic chromosome segregation relies on homologous chromosomes being linked by at least one crossover, the obligate crossover. Homolog pairing, synapsis and meiosis specific DNA repair mechanisms are required for crossovers but how they are coordinated to promote the obligate crossover is not well understood. PCH-2 is a highly conserved meiotic AA...
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S, Biggins Needhi Bhalla A, Chang Don Smith Aw, Murray
Published in
Genetics
Accurate chromosome segregation requires the precise coordination of events during the cell cycle. Replicated sister chromatids are held together while they are properly attached to and aligned by the mitotic spindle at metaphase. At anaphase, the links between sisters must be promptly dissolved to allow the mitotic spindle to rapidly separate them...
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Needhi Bhalla Af, Dernburg
Published in
Science
We report the discovery of a checkpoint that monitors synapsis between homologous chromosomes to ensure accurate meiotic segregation. Oocytes containing unsynapsed chromosomes selectively undergo apoptosis even if a germline DNA damage checkpoint is inactivated. This culling mechanism is specifically activated by unsynapsed pairing centers, cis-act...
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Nc, Harper R, Rillo S, Jover-Gil Zj, Assaf Needhi Bhalla Af, Dernburg
Published in
Developmental Cell
Faithful segregation of homologous chromosomes during meiosis requires pairing, synapsis, and crossing-over. In C. elegans, homolog pairing and synapsis depend on pairing centers (PCs), special regions near one end of each chromosome that interact with the nuclear envelope (NE) and cytoplasmic microtubules. Here, we report that PCs are required for...