Temporally dynamic antagonism between transcription and chromatin compaction controls stochastic photoreceptor specification in flies.

Stochastic mechanisms diversify cell fates during development. How cells randomly choose between two or more fates remains poorly understood. In the Drosophila eye, the random mosaic of two R7 photoreceptor subtypes is determined by expression of the transcription factor Spineless (Ss).

Transcriptional repression in stochastic gene expression, patterning, and cell fate specification.

Development is often driven by signaling and lineage-specific cues, yielding highly uniform and reproducible outcomes. Development also involves mechanisms that generate noise in gene expression and random patterns across tissues. Cells sometimes randomly choose between two or more cell fates in a mechanism called stochastic cell fate specification.

SMaSh: A Streptavidin Mass Shift Assay for Rapidly Quantifying Target Occupancy by Irreversible Inhibitors.

The streptavidin mass shift (SMaSh) assay is a robust and fast approach for quantifying target protein occupancy by a covalent inhibitor or ligand. It exploits the biotin-streptavidin bond using the Simple Western platform. One measurement on a single sample determines both total and occupied target protein simultaneously and is, therefore, self-normalizing.

A Chemoproteomics Approach to Determine the Mechanism of Testicular Toxicity for the Bruton's Tyrosine Kinase Inhibitor CC-292.

During drug development, potential safety issues can occur at any time. Understanding the cause of a toxicity can help with deciding on how to advance the drug development program. Chemoproteomics provides a way to help understand the cause of a toxicity wherein the affected tissue is accessible and can be probed with a covalently binding compound that is analogous to the offending drug.

Characterization of Button Loci that Promote Homologous Chromosome Pairing and Cell-Type-Specific Interchromosomal Gene Regulation.

Homologous chromosomes colocalize to regulate gene expression in processes including genomic imprinting, X-inactivation, and transvection. In Drosophila, homologous chromosomes pair throughout development, promoting transvection. The "button" model of pairing proposes that specific regions along chromosomes pair with high affinity.

Polymerase manager protein UmuD directly regulates Escherichia coli DNA polymerase III α binding to ssDNA.

Replication by Escherichia coli DNA polymerase III is disrupted on encountering DNA damage. Consequently, specialized Y-family DNA polymerases are used to bypass DNA damage. The protein UmuD is extensively involved in modulating cellular responses to DNA damage and may play a role in DNA polymerase exchange for damage tolerance.