Shugoshin is essential for meiotic prophase checkpoints inC. elegans

Abstract: 21 22The conserved factor Shugoshin is dispensable in C. elegans for the two-step loss of sister 23 chromatid cohesion that directs the proper segregation of meiotic chromosomes. We show that 24 the C. elegans ortholog of Shugoshin, SGO-1, is required for checkpoint activity in meiotic 25prophase. This role in checkpoint function is similar to that of the meiotic chromosomal protein, 26 HTP-3. Null sgo-1 mutants exhibit additional phenotypes similar to that of a partial loss of 27 function allele of HTP-3: pre… Show more

“…htp-3(vc75) is a missense mutation that replaces histidine 96 with a tyrosine in the HORMA domain (H96Y) (Figure 2A). HTP-3 H96Y properly localizes to meiotic chromosomes [42] and does not affect pairing, synapsis and crossover recombination [42,43]. However, we and others previously showed that this mutation in htp-3 abolished meiotic checkpoint responses in C. elegans [42,43].…”

“…HTP-3 H96Y properly localizes to meiotic chromosomes [42] and does not affect pairing, synapsis and crossover recombination [42,43]. However, we and others previously showed that this mutation in htp-3 abolished meiotic checkpoint responses in C. elegans [42,43]. Because of this phenotype, we analyzed HTP-3's relationship with PCH-2 in regulating pairing, synapsis, recombination, and meiotic progression.…”

“…We previously showed that htp-3 H96Y mutants abolishes both the DNA damage response and the synapsis checkpoint [43], similar to null mutations in htp-3 and him-3 [55]. A null mutation in htp-1 only affects the synapsis checkpoint [55].…”

“…Altogether, our analysis of pairing, synapsis and crossover recombination indicate that PCH-2 and HTP-3 act together to regulate pairing and synapsis but independently to regulate DNA repair and crossover formation. Since htp-3 H96Y single mutants also show defects in the DNA damage response [43] while pch-2 mutants do not [48], this separation of function is not necessarily surprising. However, more importantly these data strongly support a model in which PCH-2 acts through HTP-3's HORMA domain to control the rate of pairing and synapsis but not the process of meiotic recombination.…”

“…him-3 R93Y mutants showed wildtype levels of apoptosis while htp-1 G97T mutants exhibited germline apoptosis similar to that of syp-1 single mutants (Figure S6, p value < 0.0001 by student t-test), likely as a consequence of the asynapsis and defects in recombination we observe (Figure 5). Both syp-1;him-3 R93Y and syp-1;htp-1 G97T double mutants showed similar levels of germline apoptosis as syp-1 single mutants (Figure S6), indicating that both him-3 R93Y or htp-1 G97T mutants are competent for meiotic checkpoint activation, unlike htp-3 H96Y mutants [43].…”

The conserved AAA-ATPase PCH-2 distributes its regulation of meiotic prophase events by remodeling multiple meiotic HORMADs inC. elegans

“…htp-3(vc75) is a missense mutation that replaces histidine 96 with a tyrosine in the HORMA domain (H96Y) (Figure 2A). HTP-3 H96Y properly localizes to meiotic chromosomes [42] and does not affect pairing, synapsis and crossover recombination [42,43]. However, we and others previously showed that this mutation in htp-3 abolished meiotic checkpoint responses in C. elegans [42,43].…”

“…HTP-3 H96Y properly localizes to meiotic chromosomes [42] and does not affect pairing, synapsis and crossover recombination [42,43]. However, we and others previously showed that this mutation in htp-3 abolished meiotic checkpoint responses in C. elegans [42,43]. Because of this phenotype, we analyzed HTP-3's relationship with PCH-2 in regulating pairing, synapsis, recombination, and meiotic progression.…”

“…We previously showed that htp-3 H96Y mutants abolishes both the DNA damage response and the synapsis checkpoint [43], similar to null mutations in htp-3 and him-3 [55]. A null mutation in htp-1 only affects the synapsis checkpoint [55].…”

“…Altogether, our analysis of pairing, synapsis and crossover recombination indicate that PCH-2 and HTP-3 act together to regulate pairing and synapsis but independently to regulate DNA repair and crossover formation. Since htp-3 H96Y single mutants also show defects in the DNA damage response [43] while pch-2 mutants do not [48], this separation of function is not necessarily surprising. However, more importantly these data strongly support a model in which PCH-2 acts through HTP-3's HORMA domain to control the rate of pairing and synapsis but not the process of meiotic recombination.…”

“…him-3 R93Y mutants showed wildtype levels of apoptosis while htp-1 G97T mutants exhibited germline apoptosis similar to that of syp-1 single mutants (Figure S6, p value < 0.0001 by student t-test), likely as a consequence of the asynapsis and defects in recombination we observe (Figure 5). Both syp-1;him-3 R93Y and syp-1;htp-1 G97T double mutants showed similar levels of germline apoptosis as syp-1 single mutants (Figure S6), indicating that both him-3 R93Y or htp-1 G97T mutants are competent for meiotic checkpoint activation, unlike htp-3 H96Y mutants [43].…”

The conserved AAA-ATPase PCH-2 distributes its regulation of meiotic prophase events by remodeling multiple meiotic HORMADs inC. elegans