Uas atg1 rnai

Manufactured by Bloomington Drosophila Stock Center

The UAS-atg1-RNAi product is a genetic tool used for RNA interference (RNAi)-mediated knockdown of the atg1 gene in Drosophila. The atg1 gene is involved in the regulation of autophagy, a cellular process that recycles damaged or unwanted components. This product can be used to study the functional role of atg1 in various biological processes in Drosophila.

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Lab products found in correlation

Uas dn s6k, by Bloomington Drosophila Stock Center (1 mentions) Uas atg1, by Bloomington Drosophila Stock Center (1 mentions) Uas rheb, by Bloomington Drosophila Stock Center (1 mentions) Uas rhebrnai, by Bloomington Drosophila Stock Center (1 mentions) Uas atg9rnai, by Bloomington Drosophila Stock Center (1 mentions) Uas atg7rnai, by Bloomington Drosophila Stock Center (1 mentions)

2 protocols using uas atg1 rnai

Outcrossing Drosophila Genetic Strains

Cited 2 times

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w¹¹¹⁸Canton-S (CS) were used as a “wild-type” strain throughout this manuscript. UAS-DN-S6K (6911), UAS-CA-S6K (6914), UAS-DN-AMPK (32112), UAS-CA-AMPK (32110), UAS-atg1-RNAi (44034), UAS-atg8a-RNAi (34340), and UAS-atg1 (51654) were obtained from the Bloomington Stock Center and outcrossed to w¹¹¹⁸Canton-S (CS) for at least 10 generations. tubulin-GAL4 flies were obtained from John Carlson, UAS-mCh-atg8a and UAS-GFP-Atg8a from Eric Baehrecke, and daughterless-Gene-Switch (daGS) from David W. Walker; all were outcrossed to w¹¹¹⁸Canton-S (CS) for at least 10 generations. period (per⁰¹) mutants, timeless-GAL4, and period-GAL4 were obtained from Jaga Giebultowicz and, because they were last outcrossed many years ago, were outcrossed to w¹¹¹⁸Canton-S (CS) for 12 generations in the last 2 years. UAS-gRNA, UAS-CAS9 lines were those utilized in our previous papers and were outcrossed to w¹¹¹⁸Canton-S (CS) for five generations.^{22 (link),39 (link)} Previously outcrossed cycle (cyc⁰¹) mutants were obtained from Sheyum Syed with a CS control strain. All experiments with multiple transgenes used flies that have undergone 12 generations of out-crossing into a w¹¹¹⁸Canton-S (CS) control and/or per⁰¹, w¹¹¹⁸Canton-S (CS) mutant background.

Ulgherait M., Midoun A.M., Park S.J., Gatto J., Tener S.J., Siewert J., Klickstein N., Canman J.C., Ja W.W, & Shirasu-Hiza M. (2021). Circadian Autophagy Drives iTRF-mediated Longevity. Nature, 598(7880), 353-358.

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Autophagy regulation in Drosophila

Cited 1 time

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Flies were raised at 25°C following standard procedures unless otherwise noted. The following Drosophila strains were used: Atg7^d14, Atg7^d77 (Juhász et al., 2007 (link)), UAS-Atg1 (Scott et al., 2007 (link)), Dl-Gal4, Su(H)GBE-Gal4, (Zeng et al., 2010 (link)), How-Gal4^ts (gift from Bruno Lemaitre, EPFL), NP1-Gal4, UAS-TSC1, UAS-TSC2 (Tang et al., 2013 (link)), UAS-Rheb (RRID:BDSC_9688), UAS-S6K^KQ (RRID:BDSC_6911), UAS-Tor^TED (RRID:BDSC_7013), UAS-Atg1^RNAi (RRID:BDSC_44034), UAS-Rheb^RNAi (RRID:BDSC_33966), UAS-Atg7^RNAi (RRID:BDSC_34369), UAS-Atg9^RNAi (RRID:BDSC_34901), UAS-Atg12^RNAi (RRID:BDSC_34675), and Df(2R)Exel7142 (RRID:BDSC_7886) flies were obtained from the Bloomington Stock Center; UAS-Patj^RNAi (RRID:FlyBase_FBst0473750), UAS-Atg13^RNAi (RRID:FlyBase_FBst0475239), UAS-Atg16^RNAi (RRID:FlyBase_FBst0477819), UAS-Atg17^RNAi (RRID:FlyBase_FBst0476692), UAS-Atg18^RNAi (RRID:FlyBase_FBst0477193), UAS-Vps34^RNAi (RRID:FlyBase_FBst0472170), UAS-TSC1^RNAi (RRID:FlyBase_FBst0454493), and UAS-TSC2^RNAi (RRID:FlyBase_FBst0470276) were obtained from the Vienna Drosophila Resource Center.

Wen J.K., Wang Y.T., Chan C.C., Hsieh C.W., Liao H.M., Hung C.C, & Chen G.C. (2017). Atg9 antagonizes TOR signaling to regulate intestinal cell growth and epithelial homeostasis in Drosophila. eLife, 6, e29338.

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