We have developed a method for temporal and regional gene expression targeting (TARGET) in Drosophila and show the simultaneous spatial and temporal rescue of a memory defect. The transient expression of the rutabaga-encoded adenylyl cyclase in the mushroom bodies of the adult brain was necessary and sufficient to rescue the rutabaga memory deficit, which rules out a developmental brain defect in the etiology of this deficit and demonstrates an acute role for rutabaga in memory formation in these neurons. The TARGET system offers general utility in simultaneously addressing issues of when and where gene products are required.
Cells experiencing DNA replication stress activate a response pathway that delays entry into mitosis and promotes DNA repair and completion of DNA replication. The protein kinases ScRad53 and SpCds1 (in baker's and fission yeast, respectively) are central to this pathway. We describe a conserved protein Mrc1, mediator of the replication checkpoint, required for activation of ScRad53 and SpCds1 during replication stress. mrc1 mutants are sensitive to hydroxyurea and have a checkpoint defect similar to rad53 and cds1 mutants. Mrc1 may be the replicative counterpart of Rad9 and Crb2, which are required for activating ScRad53 and Chk1 in response to DNA damage.
When DNA replication is stalled, a signal transduction pathway is activated that promotes the stability of stalled forks and resumption of DNA synthesis. In budding yeast, this pathway includes the kinases Mec1 and Rad53. Here we report that the Mediator protein Mrc1, which is required for normal DNA replication and for activation of Rad53, is present at replication forks. Mrc1 initially binds early-replicating sequences and moves along chromatin with the replication fork. Blocking initiation of DNA replication blocks Mrc1 loading onto origins, providing an explanation for why so many mutants in DNA replication show checkpoint defects. In the presence of replication blocks, we find that Mec1 is recruited to regions of stalled replication, where it encounters and presumably phosphorylates Mrc1. Mutation of the canonical Mec1 phosphorylation sites on Mrc1 prevents Mrc1 phosphorylation and blocks Rad53 activation, but does not alter Mrc1's role in DNA replication. Our results suggest a model whereby in response to DNA replication interference, the Mec1 kinase is recruited to sites of replication blocks and phosphorylates a component of the DNA replication complex, Mrc1, thereby setting up a solid-state Rad53 activation platform to initiate the checkpoint response.
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