Identification of Split-GAL4 Drivers and Enhancers That Allow Regional Cell Type Manipulations of the <i>Drosophila melanogaster</i> Intestine

Ariyapala, Ishara S; Holsopple, Jessica M; Popodi, Ellen; Hartwick, Dalton G; Kahsai, Lily; Cook, Kevin R.; Sokol, Nicholas S.

doi:10.1534/genetics.120.303625

Cited by 15 publications

(8 citation statements)

References 41 publications

(57 reference statements)

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“…In summary, combined with the large collections of Gal4 and split-Gal4 lines that have been established in Drosophila that enable precise targeting of a high proportion of cell types (Ariyapala et al, 2020;Aso et al, 2014;Davis et al, 2020;Gohl et al, 2011;Namiki et al, 2018;Pfeiffer et al, 2010Pfeiffer et al, , 2008Venken et al, 2011), TaG-EM provides a means to target and label cells in vivo for subsequent detection in single-cell sequencing. Moreover, these genetic barcodes can be used to multiplex behavioral or other phenotypic measurements.…”

Section: Discussionmentioning

confidence: 99%

“…To test whether we could detect TaG-EM barcodes in single-cell sequencing data, we crossed three TaG-EM barcode lines to two different gut Gal4 driver lines (Ariyapala et al, 2020), one expressing in the enterocytes (EC-Gal4) and the other in intestinal precursor cells (PC-Gal4), including stem cells and enteroblasts (EBs). Due to weak GFP expression with the EC-Gal4 driver, we did not see visible GFP positive cells for this driver line.…”

Section: Correlation Between Expression Of Tag-em Barcodes and Intest...mentioning

confidence: 99%

“…Thus, most of these cell classifications relied upon inference as opposed to direct positive labeling. Recently, a large collection of split-Gal4 lines were screened for expression in the adult and larval gut (Ariyapala et al, 2020). These include pan-midgut driver lines, split-Gal4 lines specific for the EBs, ECs, EECs, and ISC/EBs, as well as driver lines with regionalized gene expression.…”

Section: Correlation Between Expression Of Tag-em Barcodes and Intest...mentioning

confidence: 99%

“…These include pan-midgut driver lines, split-Gal4 lines specific for the EBs, ECs, EECs, and ISC/EBs, as well as driver lines with regionalized gene expression. We crossed four different TaG-EM barcode lines with the pan-midgut driver (PMG-Gal4), and one barcode line to each of the precursor cell (PC-Gal4), enterocyte (EC-Gal4), enteroblast (EB-Gal4) and enteroendocrine (EE-Gal4) drivers (Ariyapala et al, 2020). Larval guts were dissected from these lines and cells were dissociated, flow sorted as described above to select live, GFP positive cells, and approximately 30,000 cells were loaded into a 10x Genomics droplet generator for single-cell sequencing.…”

Section: Correlation Between Expression Of Tag-em Barcodes and Intest...mentioning

confidence: 99%

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Deterministic Genetic Barcoding for Multiplexed Behavioral and Single-Cell Transcriptomic Studies

Mendana

Donovan

Gengelbach

et al. 2023

Preprint

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Advances in single-cell sequencing technologies have provided novel insights into the dynamics of gene expression throughout development, been used to characterize somatic variation and heterogeneity within tissues, and are currently enabling the construction of transcriptomic cell atlases. However, despite these remarkable advances, linking anatomical information to transcriptomic data and positively identifying the cell types that correspond to gene expression clusters in single-cell sequencing data sets remains a challenge. We describe a straightforward genetic barcoding approach that takes advantage of the powerful genetic tools available in Drosophila to allow in vivo tagging of defined cell populations. This method, called Targeted Genetically-Encoded Multiplexing (TaG-EM), involves inserting a DNA barcode just upstream of the polyadenylation site in a Gal4-inducible UAS-GFP construct so that the barcode sequence can be read out during single-cell sequencing, labeling a cell population of interest. By creating many such independently barcoded fly strains, TaG-EM will enable a number of potential applications that will improve the quality and information content of single-cell transcriptomic data including positive identification of cell types in cell atlas projects, identification of multiplet droplets, and barcoding of experimental timepoints, conditions, and replicates. Furthermore, we demonstrate that the barcodes from TaG-EM fly lines can be read out using next-generation sequencing to facilitate population-scale behavioral measurements. Thus, TaG-EM has the potential to enable large-scale behavioral screens in addition to improving the ability to reliably annotate cell atlas data, expanding the scope, and improving the robustness of single-cell transcriptomic experiments.

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Section: Discussionmentioning

confidence: 99%

Section: Correlation Between Expression Of Tag-em Barcodes and Intest...mentioning

confidence: 99%

Section: Correlation Between Expression Of Tag-em Barcodes and Intest...mentioning

confidence: 99%

Section: Correlation Between Expression Of Tag-em Barcodes and Intest...mentioning

confidence: 99%

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Deterministic Genetic Barcoding for Multiplexed Behavioral and Single-Cell Transcriptomic Studies

Mendana

Donovan

Gengelbach

et al. 2023

Preprint

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“…amino acids 2-93), split intein GeneSwitch constructs were generated using as the splice junction the same C 21 cysteine residue. The split intein Gal4 and split intein GeneSwitch constructs thus share the same N-terminal Gal4 [1][2][3][4][5][6][7][8][9][10][11][12][13][14][15][16][17][18][19][20] component.…”

Section: Discussionmentioning

confidence: 99%

split-intein Gal4 provides intersectional genetic labeling that is fully repressible by Gal80

Ewen-Campen

Luan

et al. 2023

Preprint

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The split-Gal4 system allows for intersectional genetic labeling of highly specific cell-types and tissues in Drosophila. However, the existing split-Gal4 system, unlike the standard Gal4 system, cannot be repressed by Gal80, and therefore cannot be controlled temporally. This lack of temporal control precludes split-Gal4 experiments in which a genetic manipulation must be restricted to specific timepoints. Here, we describe a new split-Gal4 system based on a self-excising split-intein, which drives transgene expression as strongly as the current split-Gal4 system and Gal4 reagents, yet which is fully repressible by Gal80. We demonstrate the potent inducibility of split-intein Gal4 in vivo using both fluorescent reporters and via reversible tumor induction in the gut. Further, we show that our split-intein Gal4 can be extended to the drug-inducible GeneSwitch system, providing an independent method for intersectional labeling with inducible control. We also show that the split-intein Gal4 system can be used to generate highly cell-type specific genetic drivers based on in silico predictions generated by single cell RNAseq (scRNAseq) datasets, and we describe a new algorithm (Two Against Background or TAB) to predict cluster-specific gene pairs across multiple tissue-specific scRNA datasets. We provide a plasmid toolkit to efficiently create split-intein Gal4 drivers based on either CRISPR knock-ins to target genes or using enhancer fragments. Altogether, the split-intein Gal4 system allows for the creation of highly specific intersectional genetic drivers that are inducible/repressible.

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Resources and Methods for the Analysis of MicroRNA Function in Drosophila

Mukherjee

Sokol

2022

Methods in Molecular Biology

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Identification of Split-GAL4 Drivers and Enhancers That Allow Regional Cell Type Manipulations of the Drosophila melanogaster Intestine

Cited by 15 publications

References 41 publications

Deterministic Genetic Barcoding for Multiplexed Behavioral and Single-Cell Transcriptomic Studies

Deterministic Genetic Barcoding for Multiplexed Behavioral and Single-Cell Transcriptomic Studies

split-intein Gal4 provides intersectional genetic labeling that is fully repressible by Gal80

Resources and Methods for the Analysis of MicroRNA Function in Drosophila

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