Absence of the Drosophila jump muscle actin Act79B is compensated by up‐regulation of <i>Act88F</i>

Dohn, Tracy E.; Cripps, Richard M.

doi:10.1002/dvdy.24616

Cited by 16 publications

(14 citation statements)

References 38 publications

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“…4 ). In addition, one of the 11 genes is orthologous to the D. melanogaster actin gene, Act79B , which localizes to the actin cytoskeleton and is often expressed in muscle tissue ( Dohn and Cripps 2018 ). Conversely, only one gene—an fRT-biased, textilinin-like protease inhibitor—shows higher abundance in the heterospecific sample compared to the conspecific sample.…”

Section: Resultsmentioning

confidence: 99%

Differences in Postmating Transcriptional Responses between Conspecific and Heterospecific Matings inDrosophila

Ahmed-Braimah

Wolfner

Clark

2020

Molecular Biology and Evolution

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In many animal species, females undergo physiological and behavioral changes after mating. Some of these changes are driven by male-derived seminal fluid proteins, and are critical for fertilization success. Unfortunately, our understanding of the molecular interplay between female and male reproductive proteins remains inadequate. Here we analyze the post-mating response in a Drosophila species that has evolved strong gametic incompatibility with its sister species; D. novamexicana females produce only ~1% fertilized eggs in crosses with D. americana males, compared to ~98% produced in within-species crosses. This incompatibility is likely caused by mismatched male and female reproductive molecules. In this study we use short-read RNA sequencing to examine the evolutionary dynamics of female reproductive genes and the post-mating transcriptome response in crosses within and between species. First, we found that most female reproductive tract genes are slow-evolving compared to the genome average. Second, post-mating responses in con- and heterospecific matings are largely congruent, but heterospecific matings induce expression of additional stress-response genes. Some of those are immunity genes that are activated by the Imd pathway. We also identify several genes in the JAK/STAT signaling pathway that are induced in heterospecific, but not conspecific mating. While this immune response was most pronounced in the female reproductive tract, we also detect it in the female head and ovaries. These results show that the female’s post-mating transcriptome-level response is determined in part by the genotype of the male, and that divergence in male reproductive genes and/or traits can have immunogenic effects on females.

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Section: Resultsmentioning

confidence: 99%

Differences in Postmating Transcriptional Responses between Conspecific and Heterospecific Matings inDrosophila

Ahmed-Braimah

Wolfner

Clark

2020

Molecular Biology and Evolution

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“…sgRNA sequences and homology arm primers are listed in Supplemental Table 2. Gal4 drivers used were: Mef2-Gal4 (Ranganayakulu et al, 1996) which drives in all muscle (maintained at 27 °C or 29 °C); UAS-Dcr2, Mef2-Gal4 which enhances RNAi efficiency (maintained at 22°C); Act5c-Gal4 which drives in all cells (maintained at 27°C and 25°C); Mhc-Gal4 (Davis et al, 1996); UH3-Gal4 (Singh et al, 2014) is a driver with IFM specific expression after 36-40h APF (maintained at 27°C); Act88F-Gal4 (Bryantsev et al, 2012a) is a driver with IFM specific expression after 24h APF (maintained at 25°C) and Act79B-Gal4 (Dohn and Cripps, 2018) is a driver with TDT specific expression (maintained at 27°C). Temperature sensitive Tubulin-Gal80 ts , as noted in figure panels and legends, was used to restrict some knockdown experiments to adult muscle development by a temperature shift of late third instar larvae from 18 ºC to ºC.…”

Section: Fly Stocks and Crossesmentioning

confidence: 99%

Rbfox1 is required for myofibril development and maintaining fiber-type specific isoform expression inDrosophilamuscles

Nikonova

Kamble

Mukherjee

et al. 2021

Preprint

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Protein isoform transitions confer distinct properties on muscle fibers and are regulated predominantly by differential transcription and alternative splicing. RNA-binding Fox protein 1 (Rbfox1) can affect both transcript levels and splicing, and is known to control skeletal muscle function. However, the detailed mechanisms by which Rbfox1 contributes to normal muscle development and physiology remain obscure. In this study, we report that Rbfox1 contributes to the generation of adult muscle diversity in Drosophila. Rbfox1 is differentially expressed in tubular and fibrillar muscle fiber types. RNAi knockdown of Rbfox1 leads to a loss of flight, climbing and jumping ability, as well as eclosion defects. Myofibers in knockdown muscle are frequently torn, and sarcomeres are hypercontracted. These defects arise from mis-regulation of fiber-type specific gene and splice isoform expression, notably loss of an IFM-specific isoform of Troponin-I that is critical for regulating myosin activity. We find that Rbfox1 influences mRNA transcript levels through 1) direct binding of 3'-UTRs of target transcripts as well as 2) through regulation of myogenic transcription factors, including Mef2, Exd and Salm. Moreover, Rbfox1 modulates splice isoform expression through 1) direct regulation of target splice events in structural genes and 2) regulation of the CELF-family RNA-binding protein Bruno1. Our data indicate that cross-regulatory interactions observed between FOX and CELF family RNA-binding proteins in vertebrates are conserved between their counterparts, Rbfox1 and Bruno1 in flies. Rbfox1 thus affects muscle development by regulation of both fiber-type specific gene and gene isoform expression dynamics of identity genes and structural proteins.

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“…3A, respectively), and Act88F is not actively expressed in the mature jump muscles (Fig. 3C), although Act88F is transiently expressed in the small cells of the TDT during pupal development (Dohn and Cripps, 2018). To investigate this experimentally, we ectopically expressed the Exd/Hth complex in developing jump muscles, to study whether it is sufficient to activate Act88F .…”

Section: Resultsmentioning

confidence: 97%

Regulation of fiber-specific actin expression by the Drosophila SRF ortholog Blistered

et al. 2019

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Serum response factor (SRF) has an established role in controlling actin homeostasis in mammalian cells, yet its role in non-vertebrate muscle development has remained enigmatic. Here, we demonstrate that the single Drosophila SRF ortholog, termed Blistered (Bs), is expressed in all adult muscles, but Bs is required for muscle organization only in the adult indirect flight muscles. Bs is a direct activator of the flight muscle actin gene Act88F , via a conserved promoter-proximal binding site. However, Bs only activates Act88F expression in the context of the flight muscle regulatory program provided by the Pbx and Meis orthologs Extradenticle and Homothorax, and appears to function in a similar manner to mammalian SRF in muscle maturation. These studies place Bs in a regulatory framework where it functions to sustain the flight muscle phenotype in Drosophila . Our studies uncover an evolutionarily ancient role for SRF in regulating muscle actin expression, and provide a model for how SRF might function to sustain muscle fate downstream of pioneer factors.

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Absence of the Drosophila jump muscle actin Act79B is compensated by up‐regulation of Act88F

Cited by 16 publications

References 38 publications

Differences in Postmating Transcriptional Responses between Conspecific and Heterospecific Matings inDrosophila

Differences in Postmating Transcriptional Responses between Conspecific and Heterospecific Matings inDrosophila

Rbfox1 is required for myofibril development and maintaining fiber-type specific isoform expression inDrosophilamuscles

Regulation of fiber-specific actin expression by the Drosophila SRF ortholog Blistered

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