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The recently characterized opsin group of xenopsins is likely a major player in animal eye evolution and may have been present in an ancient, highly plastic eye photoreceptor cell type.

Single cell RNA sequencing reveals that mouse embryonic stem cells can be differentiated into the same terminal motor neuron state via distinct differentiation paths, one of which includes a surprising intermediate state not found in embryos.

Serotonergic signaling regulates sleep homeostasis through 5HT2b receptor in a small subset of neurons in the dorsal fan-shaped body in drosophila.

Radiotelemetric and genetic studies of peripheral tissue response show that a peripheral tissue can dynamically alter cardiovascular adaptation to changes in environmental oxygen.

The DNA-bridging efficiency of H-NS, a genome organising and transcription regulatory protein, is modulated by changes in environmental conditions of the cell, which drive a structural rearrangement of the protein.

Treatment with precision nanomedicine in combination with an anti-angiogenic peptide enhance anti-tumor efficacy while minimizing toxicities in a pre-clinical glioblastoma model, making this approach a promising and important therapeutic alternative for patients.

Identification of tissue-specific RNA editing using a robust, publicly-available platform (SAILOR) reveals noncoding A-to-I editing events required for proper gene expression and neurological function, significantly advancing the understanding of how ADARs function in neural cells.

Cryo-electron microscopy and genetics show how Staphylococcus aureus pathogenicity island 1 hijacks the assembly pathway of a helper phage for its own propagation.