Feiyang Diao scite author profile

Summary Genetically encoded effectors are important tools for probing cellular function in living animals, but improved methods for directing their expression to specific cell types are required. Here we introduce a simple, versatile method for achieving cell type-specific expression of transgenes that leverages the untapped potential of “coding introns” (i.e. introns between coding exons). Our method couples the expression of a transgene to that of a native gene expressed in the cells of interest using intronically inserted “plug-and-play” cassettes (called “Trojan exons”) that carry a splice acceptor site followed by the coding sequences of T2A peptide and an effector transgene. We demonstrate the efficacy of this approach in Drosophila using lines containing suitable MiMIC transposons and a palette of Trojan exons capable of expressing a range of commonly used transcription factors. We also introduce an exchangeable, MiMIC-like Trojan exon construct that can be targeted to coding introns using the Crispr/Cas system.

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Absence of 2019 novel coronavirus in semen and testes of COVID-19 patients†

Song

Wang

et al. 2020

268

240

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A Hard-Wired Glutamatergic Circuit Pools and Relays UV Signals to Mediate Spectral Preference in Drosophila

Karuppudurai

Lin

Ting

et al. 2014

Neuron

115

202

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SUMMARY Many visual animals have innate preferences for particular wavelengths of light, which can be modified by learning. Drosophila’s preference for UV over visible light requires UV-sensing R7 photoreceptors and specific wide-field amacrine neurons, called Dm8. Here we identify three types of medulla projection neurons downstream of R7 and Dm8, and show that selectively inactivating one of them (Tm5c) abolishes UV preference. Using a modified GRASP method to probe synaptic connections at the single-cell level, we reveal that each Dm8 neuron forms multiple synaptic contacts with Tm5c in the center of Dm8’s dendritic field, but sparse connections in the periphery. By single-cell transcript profiling and RNAi-mediated knockdown, we determine that Tm5c uses the kainate receptor Clumsy to receive excitatory glutamate input from Dm8. We conclude that R7s->Dm8->Tm5c form a hard-wired glutamatergic circuit that mediates UV preference by pooling ~16 R7 signals for transfer to the lobula, a higher visual center.

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Feiyang Diao

Plug-and-Play Genetic Access to Drosophila Cell Types using Exchangeable Exon Cassettes

Absence of 2019 novel coronavirus in semen and testes of COVID-19 patients†

A Hard-Wired Glutamatergic Circuit Pools and Relays UV Signals to Mediate Spectral Preference in Drosophila

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