Explanipedia

Large-Scale Transgenic Drosophila Resource Collections for Loss- and Gain-of-Function Studies Open

Jonathan Zirin, Yanhui Hu, Luping Liu, Donghui Yang‐Zhou, Ryan Colbeth , et al. · 2020

Biology

The Transgenic RNAi Project (TRiP), a Drosophila melanogaster functional genomics platform at Harvard Medical School, was initiated in 2008 to generate and distribute a genome-scale collection of RNA interference (RNAi) fly stocks. To date…

Large-scale transgenicDrosophilaresource collections for loss- and gain-of-function studies Open

Jonathan Zirin, Yanhui Hu, Luping Liu, Donghui Yang‐Zhou, Ryan Colbeth , et al. · 2019

Biology

The Transgenic RNAi Project (TRiP), a Drosophila functional genomics platform at Harvard Medical School, was initiated in 2008 to generate and distribute a genome-scale collection of RNAi fly stocks. To date, the TRiP has generated >15,000…

Gene Knock-Ins in Drosophila Using Homology-Independent Insertion of Universal Donor Plasmids Open

Justin A. Bosch, Ryan Colbeth, Jonathan Zirin, Norbert Perrimon · 2019

Biology Engineering

Targeted genomic knock-ins are a valuable tool to probe gene function. However, knock-in methods involving homology-directed repair (HDR) can be laborious. Here, we adapt the mammalian CRISPaint [clustered regularly interspaced short palin…

Gene knock-ins inDrosophilausing homology-independent insertion of universal donor plasmids Open

Justin A. Bosch, Ryan Colbeth, Jonathan Zirin, Norbert Perrimon · 2019

Biology Engineering

Targeted genomic knock-ins are a valuable tool to probe gene function. However, knock-in methods involving homology-directed repair (HDR) can be laborious. Here, we adapt the mammalian CRISPaint homology-independent knock-in method for Dro…

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