GelsolinanddCryABact downstream of muscle identity genes and contribute to preventing muscle splitting and branching inDrosophila

Bertin, Benjamin; Renaud, Yoan; Jagla, Teresa; Lavergne, Guillaume; Dondi, Cristiana; Ponte, Jean Philippe Da; Junion, Guillaume; Jagla, Krzysztof

doi:10.1101/784546

Cited by 1 publication

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References 42 publications

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“…We used TRAP data generated earlier for two somatic muscle subsets expressing distinct iTFs, one expressing Slouch (Slou/S59) (S. Knirr, Azpiazu, et Frasch 1999) and the other expressing Lateral muscles scarcer (Lms) (Müller et al 2010;Bertin et al 2015Bertin et al , 2021 as well for the global muscle population expressing Duf. We also generated transcriptomic data for the entire embryo.…”

Section: Ssdp Mrna Under Translation Is Differentially Expressed In Muscle Subsetsmentioning

confidence: 99%

Ssdp influences Wg expression and embryonic somatic muscle identity inDrosophila melanogaster

Poovathumkadavil

Jagla

2021

Preprint

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The somatic muscles of the Drosophila embryo and larvae share structural and functional similarities with vertebrate skeletal muscles and serve as a powerful model for studying muscle development. Here we show that the evolutionarily conserved Ssdp protein is required for the correct patterning of somatic muscles. Ssdp is part of the conserved Chi/LDB-Ssdp (ChiLS) complex that is a core component of the conserved Wg/Wnt enhanceosome, which responds to Wg signals to regulate gene transcription. Ssdp shows isoform specific expression in developing somatic muscles and its loss of function leads to an aberrant somatic muscle pattern due to a deregulated muscle identity program. Ssdp mutant embryos fail to maintain adequate expression levels of muscle identity transcription factors and this results in aberrant muscle morphology, innervation, attachment and fusion. We also show that the epidermal expression of Wg is downregulated in Ssdp mutants and that Ssdp interacts with Wg to regulate the properties of a subset of ventral muscles. Thus, our data unveil the dual contribution of Ssdp to muscle diversification by regulating the expression of muscle-intrinsic identity genes and by interacting with the extrinsic factor, Wg. The knowledge gained here about Ssdp and its interaction with Wg could be relevant to vertebrate muscle development.

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Section: Ssdp Mrna Under Translation Is Differentially Expressed In Muscle Subsetsmentioning

confidence: 99%

Ssdp influences Wg expression and embryonic somatic muscle identity inDrosophila melanogaster

Poovathumkadavil

Jagla

2021

Preprint

Self Cite

View full text Add to dashboard Cite

show abstract

GelsolinanddCryABact downstream of muscle identity genes and contribute to preventing muscle splitting and branching inDrosophila

Cited by 1 publication

References 42 publications

Ssdp influences Wg expression and embryonic somatic muscle identity inDrosophila melanogaster

Ssdp influences Wg expression and embryonic somatic muscle identity inDrosophila melanogaster

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