An RNAi Screen for Genes Required for Growth of<i>Drosophila</i>Wing Tissue

Rotelli, Michael D.; Bolling, Anna M.; Killion, Andrew W.; Weinberg, Abraham J.; Dixon, Michael J.; Calvi, Brian R.

doi:10.1534/g3.119.400581

Cited by 10 publications

(7 citation statements)

References 132 publications

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“…At last, to assess the impact of cholinergic transmission on hemocytes, we monitored the number of larval hemocytes after inhibiting the expression of the choline-acetyltransferase ChAT in neurons. To inhibit ChAT, we used a UAS-ChAT-RNAi (53) and a ChAT-Gal4 to drive ChAT-RNAi in the cholinergic neurons (54), which led to a strong increase in the number of hemocytes ( Figure 3J ), indicating that cholinergic neurons modulate hemocyte homeostasis through secretion of acetylcholine. As controls, we used OK6-Gal4 for type 1 motoneurons (55), which mostly secrete glutamate (56, 57), 21-7-Gal4 and 109(2) 80-Gal4 drivers for multidendritic neurons, which are cholinergic (54) and regulate hemocyte localisation and proliferation at the dorsal stripes through activin signaling (58).…”

Section: Resultsmentioning

confidence: 99%

Gcm alleviates the inflammatory phenotype induced by Toll activation inDrosophilahemocytes

Bazzi,

Monticelli,

Delaporte

et al. 2023

Preprint

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Hemocytes, the myeloid-like immune cells of Drosophila, fulfil a variety of functions that are not completely understood, ranging from phagocytosis to transduction of inflammatory signals. We here show that downregulating the hemocyte-specific Glide/Gcm transcription factor enhances the inflammatory response to the constitutive activation of the Toll pathway. This correlates with lower levels of glutathione S transferase, suggesting an implication of Glide/Gcm in ROS signaling and calling for a widespread anti-inflammatory potential of Glide/Gcm. We show the expression of neurotransmitter receptors in hemocytes and that Toll activation affects their expressions, disclosing a novel aspect of the inflammatory response mediated by neurotransmitters. Finally, we provide evidence for acetylcholine receptor nAchRalpha6 regulating hemocyte proliferation. Altogether, this study provides new insights on the molecular pathways involved in the inflammatory response.

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Section: Resultsmentioning

confidence: 99%

Gcm alleviates the inflammatory phenotype induced by Toll activation inDrosophilahemocytes

Bazzi,

Monticelli,

Delaporte

et al. 2023

Preprint

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“…In vivo RNAi-based genetic screens have proved very successful in identifying novel genes involved in developmental and pathologic processes in a variety of Drosophila somatic tissues when expressed using tissue-specific Gal4 driver lines (Graca et al , 2021; Lesch et al , 2010; Neely et al , 2010; Pletcher et al , 2019; Port et al , 2011; Rotelli et al , 2019; Rylee et al , 2022; Saj et al , 2010; Zeng et al , 2015; Zhou et al , 2019). Hence, we embarked on a candidate genetic screen aimed at identifying factors controlling genome stability.…”

Section: Resultsmentioning

confidence: 99%

DrosophilapVALIUM10 TRiP RNAi lines cause undesired silencing of Gateway-based transgenes

Stanković

Csordás

Uhlířová

2022

Preprint

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SUMMARYPost-transcriptional gene silencing using double-stranded RNA has revolutionized the field of functional genetics, allowing fast and easy disruption of gene function in various organisms. In Drosophila, many transgenic RNAi lines have been generated in large-scale efforts, including the Drosophila Transgenic RNAi Project (TRiP), to facilitate in vivo knockdown of virtually any Drosophila gene with spatial and temporal resolution. The available transgenic RNAi lines represent a fundamental resource for the fly community, providing an unprecedented opportunity to address a vast range of biological questions relevant to basic and biomedical research fields. However, caution should be applied regarding the efficiency and specificity of the RNAi approach. Here, we demonstrate that pVALIUM10-based RNAi lines, representing ∼11% of the total TRiP collection, cause unintended silencing of transgenes expressed from Gateway destination vectors generated via site-specific recombination. The silencing is mediated by targeting attB1 and attB2 sequences generated in the recombination reaction and included in the transcribed mRNA. Deleting these attB sites from the Gateway expression vector prevents silencing and restores expected transgene expression.

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“…Unexpected, off-target silencing of the RNase H1::GFP reporter by multiple pVALIUM10 RNAi lines In vivo RNAi-based genetic screens have proved very successful in identifying novel genes involved in developmental and pathologic processes in a variety of Drosophila somatic tissues when expressed using tissue-specific Gal4 driver lines (Lesch et al, 2010;Neely et al, 2010;Saj et al, 2010;Port et al, 2011;Zeng et al, 2015;Pletcher et al, 2019;Rotelli et al, 2019;Zhou et al, 2019;Graca et al, 2021;Rylee et al, 2022). Hence, we embarked on a candidate genetic screen aimed at identifying factors controlling genome stability.…”

Section: Resultsmentioning

confidence: 99%

DrosophilapVALIUM10 TRiP RNAi lines cause undesired silencing of Gateway-based transgenes

2022

View full text Add to dashboard Cite

Post-transcriptional gene silencing using double-stranded RNA has revolutionized the field of functional genetics, allowing fast and easy disruption of gene function in various organisms. InDrosophila, many transgenic RNAi lines have been generated in large-scale efforts, including theDrosophilaTransgenic RNAi Project (TRiP), to facilitate in vivo knockdown of virtually anyDrosophilagene with spatial and temporal resolution. The available transgenic RNAi lines represent a fundamental resource for the fly community, providing an unprecedented opportunity to address a vast range of biological questions relevant to basic and biomedical research fields. However, caution should be applied regarding the efficiency and specificity of the RNAi approach. Here, we demonstrate that pVALIUM10-based RNAi lines, representing ∼13% of the total TRiP collection (1,808 of 13,410 pVALIUM TRiP–based RNAi lines), cause unintended off-target silencing of transgenes expressed from Gateway destination vectors. The silencing is mediated by targeting attB1 and attB2 sequences generated via site-specific recombination and included in the transcribed mRNA. Deleting these attB sites from the Gateway expression vector prevents silencing and restores expected transgene expression.

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An RNAi Screen for Genes Required for Growth ofDrosophilaWing Tissue

Cited by 10 publications

References 132 publications

Gcm alleviates the inflammatory phenotype induced by Toll activation inDrosophilahemocytes

Gcm alleviates the inflammatory phenotype induced by Toll activation inDrosophilahemocytes

DrosophilapVALIUM10 TRiP RNAi lines cause undesired silencing of Gateway-based transgenes

DrosophilapVALIUM10 TRiP RNAi lines cause undesired silencing of Gateway-based transgenes

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