Datasets

subject: Drosophila type: dataset

Total is 19 Results
Supporting data for Ma and Weake 2014 JoVE publication

10.4231/R7TD9V91

Jingqun Ma , Vikki Marie Weake ORCID logo

02/06/2017

Supporting and raw data for Figures 1, 2, 3 and Table 1 from: Ma, J. and Weake, V.M. (2014). Affinity-based isolation of tagged nuclei from Drosophila tissues for gene expression analysis. Journal of Visualized Experiments 85. PMID:24686501.

Biochemistry cell-type specific Drosophila Gene Expression nuclei affinity purification nuclei isolation

Supporting data for Ma et al. 2016 G3 publication

10.4231/R7PG1PQR

Jingqun Ma , Pete E Pascuzzi , Vikki Marie Weake ORCID logo

02/20/2017

Supporting and raw data for Figures 1 - 5 and Figure S1 from: Ma et al. (2016) Transcriptome Profiling Identifies Multiplexin as a target of SAGA Deubiquitinase Activity in Glia.... G3 (Bethesda). PMID: 27261002.

axon guidance Biochemistry Drosophila glia Neuroscience nonstop RNA_seq SAGA sgf11 Transcriptome

Proper splicing contributes to visual function in the aging Drosophila eye - Supporting data for Stegeman et al. (2018)

10.4231/R7ZG6QGD

Hana Hall , Henry Chang , Rachel Stegeman ORCID logo , Spencer Escobedo , Vikki Weake ORCID logo

06/07/2018

Supporting data and protocols for for Stegeman et al. (2018). Proper splicing contributes to visual function in the aging Drosophila eye. Aging Cell.

Aging Biochemistry Drosophila Eye Gene Expression Profiling Splicing Transcriptome Vision

The Spliceosomal Protein SF3B5 is a Novel Component of Drosophila SAGA that Functions in Gene Expression Independent of Splicing - Supporting data for Stegeman et al. (2016)

10.4231/R74Q7S5J

Rachel Stegeman , Vikki Weake ORCID logo

11/03/2017

Supporting and raw data for Figures 1 - 5 from Stegeman R. et al. (2016). The Spliceosomal Protein SF3B5 is a Novel Component of Drosophila SAGA that Functions in Gene Expression Independent of Splicing. Journal of Molecular Biology. PMID: 27185460.

Biochemistry Drosophila Gene Expression SAGA Splicing Transcription

Cytochrome b5 protects photoreceptors from light stress-induced lipid peroxidation and retinal degeneration - Supporting data for Fig 4 from Chen et al. (2017)

10.4231/R7X34VNF

Donald Ready , Hana Hall , Jeffrey Simpson ORCID logo , Vikki Weake ORCID logo , Walter Leon-Salas , Xinping Chen ORCID logo

10/30/2017

Supporting confocal and electron microscopy images for Fig 4 from Chen et al. (2017). "Cytochrome b5 protects photoreceptors from light stress-induced lipid peroxidation and retinal degeneration"

Biochemistry Drosophila Lipid Peroxidation Phototoxicity Retinal Degeneration

Cytochrome b5 protects photoreceptors from light stress-induced lipid peroxidation and retinal degeneration - Supporting data for Fig 1 from Chen et al. (2017)

10.4231/R7JS9NMW

Donald Ready , Hana Hall , Jeffrey Simpson ORCID logo , Vikki Weake ORCID logo , Walter Leon-Salas , Xinping Chen ORCID logo

10/30/2017

Supporting microscopy images for Fig 1 from Chen et al. (2017). "Cytochrome b5 protects photoreceptors from light stress-induced lipid peroxidation and retinal degeneration"

Biochemistry Drosophila Lipid Peroxidation Phototoxicity Retinal Degeneration

Cytochrome b5 protects photoreceptors from light stress-induced lipid peroxidation and retinal degeneration - Supporting data for Fig 2 and Fig 5 from Chen et al. (2017)

10.4231/R7F18WWG

Donald Ready , Hana Hall , Jeffrey Simpson ORCID logo , Vikki Weake ORCID logo , Walter Leon-Salas , Xinping Chen ORCID logo

10/30/2017

Supporting confocal microscopy images for Fig 2 and Fig 5 from Chen et al. (2017). "Cytochrome b5 protects photoreceptors from light stress-induced lipid peroxidation and retinal degeneration"

Biochemistry Drosophila Lipid Peroxidation Phototoxicity Retinal Degeneration

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