Specific presynaptic functions require distinct Drosophila Ca<sub>v</sub>2 splice isoforms

Bell, Christopher; Kilo, Lukas; Gottschalk, Daniel; Arian, Jashar; Deneke, Lea; Kern, Hanna; Rickert, Christof; Kobler, Oliver; Strauß, Julia; Heine, Martin; Duch, Carsten; Ryglewski, Stefanie

doi:10.1101/2024.06.14.598978

2024

DOI: 10.1101/2024.06.14.598978

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Specific presynaptic functions require distinct Drosophila Ca_v2 splice isoforms

Christopher Bell,

Lukas Kilo,

Daniel Gottschalk

et al.

Abstract: The multiplicity of neural circuits that accommodate the sheer infinite number of computations conducted by brains requires diverse synapse and neuron types. At the vertebrate presynaptic active zone functional diversity can be achieved by the expression of different voltage gated calcium channels of the Cav2 family. In fact, release probability and other aspects of presynaptic function are tuned by different combinations of Cav2.1, Cav2.2, and Cav2.3 channels. By contrast, most invertebrate genomes contain on… Show more

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References 70 publications

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Bichromatic exon-reporters reveal voltage-gated Ca²⁺-channel splice-isoform diversity acrossDrosophilaneuronsin vivo

Feghhi,

Hernandez,

Mahneva

et al. 2024

Preprint

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Every neuron contains the same genomic information but its complement of proteins is the product of countless neuron–specific steps including pre–mRNA splicing. Despite advances in RNA sequencing techniques, pre–mRNA splicing biases that favor one isoform over another are largely inscrutable in live neuronsin situ. Here, inDrosophila, we developed bichromatic fluorescent reporters to investigate alternate splicing ofcacophony– a gene that codes the pore-forming α1-subunit of the primary neuronal voltage-gated Ca2+channel (VGCC). These reporters reveal a neuron-specific pattern of exon biases, including stereotypical differences between neurons of the same neurotransmitter type and ostensibly the same function. Information about exon splicing biases of individual neurons in vivo provides clues to the role of VGCC motifs and the role of those neurons in the context of local circuits. The application of this technology to a large gene such as cacophony provides a precedence for effective exon-reporter design for otherDrosophilagenes.

show abstract

Bichromatic exon-reporters reveal voltage-gated Ca²⁺-channel splice-isoform diversity acrossDrosophilaneuronsin vivo

Feghhi,

Hernandez,

Mahneva

et al. 2024

Preprint

View full text Add to dashboard Cite

show abstract

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Specific presynaptic functions require distinct Drosophila Ca_v2 splice isoforms

Cited by 1 publication

References 70 publications

Bichromatic exon-reporters reveal voltage-gated Ca²⁺-channel splice-isoform diversity acrossDrosophilaneuronsin vivo

Bichromatic exon-reporters reveal voltage-gated Ca²⁺-channel splice-isoform diversity acrossDrosophilaneuronsin vivo

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Specific presynaptic functions require distinct Drosophila Cav2 splice isoforms

Cited by 1 publication

References 70 publications

Bichromatic exon-reporters reveal voltage-gated Ca2+-channel splice-isoform diversity acrossDrosophilaneuronsin vivo

Bichromatic exon-reporters reveal voltage-gated Ca2+-channel splice-isoform diversity acrossDrosophilaneuronsin vivo

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Product

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Specific presynaptic functions require distinct Drosophila Ca_v2 splice isoforms

Bichromatic exon-reporters reveal voltage-gated Ca²⁺-channel splice-isoform diversity acrossDrosophilaneuronsin vivo

Bichromatic exon-reporters reveal voltage-gated Ca²⁺-channel splice-isoform diversity acrossDrosophilaneuronsin vivo