In vivo proteomic mapping through GFP-directed proximity-dependent biotin labelling in zebrafish

Xiong, Zherui; Lo, Harriet P.; McMahon, Kerrie‐Ann; Martel, Nick; Jones, Alun; Hill, Michelle M.; Parton, Robert G.; Hall, Thomas

doi:10.7554/elife.64631

Cited by 40 publications

(33 citation statements)

References 56 publications

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“…Following the sample preparation method of Xiong et al, 2021 , peptide extracts were analysed by nanoHPLC/MS MS/MS on an Eksigent ekspert nanoLC 400 system (SCIEX) coupled to a Triple TOF 6600 mass spectrometer (SCIEX) equipped with a PicoView nanoflow (New Objective) ion source. Full scan TOFMS data were acquired over the mass range 350–1800 and for product ion ms/ms 100–1500.…”

Section: Methodsmentioning

confidence: 99%

ADRAM is an experience-dependent long noncoding RNA that drives fear extinction through a direct interaction with the chaperone protein 14-3-3

et al. 2022

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Section: Methodsmentioning

confidence: 99%

ADRAM is an experience-dependent long noncoding RNA that drives fear extinction through a direct interaction with the chaperone protein 14-3-3

et al. 2022

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“…Importantly, SSX2IP has been detected by targeting BirA-GBP to GFP-WtipN and by the direct fusion protein WtipN-BirA, increasing our confidence in the result. Based on our results and a similar study using zebrafish embryos [ 32 ], we propose that TPB is a versatile general technique that is applicable for protein interaction studies of GFP-tagged proteins. However, lack of biotinylation of Flag-GFP in our experiments suggests possible sterical hindrance of the epitope or lack of lysine residues needed for biotinylation, indicating that not all proteins are suitable targets for this approach.…”

Section: Discussionmentioning

confidence: 69%

Identification of the centrosomal maturation factor SSX2IP as a Wtip-binding partner by targeted proximity biotinylation

et al. 2021

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Wilms tumor-1-interacting protein (Wtip) is a LIM-domain-containing adaptor that links cell junctions with actomyosin complexes and modulates actomyosin contractility and ciliogenesis in Xenopus embryos. The Wtip C-terminus with three LIM domains associates with the actin-binding protein Shroom3 and modulates Shroom3-induced apical constriction in ectoderm cells. By contrast, the N-terminal domain localizes to apical junctions in the ectoderm and basal bodies in skin multiciliated cells, but its interacting partners remain largely unknown. Targeted proximity biotinylation (TPB) using anti-GFP antibody fused to the biotin ligase BirA identified SSX2IP as a candidate protein that binds GFP-WtipN. SSX2IP, also known as Msd1 or ADIP, is a component of cell junctions, centriolar satellite protein and a targeting factor for ciliary membrane proteins. WtipN physically associated with SSX2IP and the two proteins readily formed mixed aggregates in overexpressing cells. By contrast, we observed only partial colocalization of full length Wtip and SSX2IP, suggesting that Wtip adopts a ‘closed’ conformation in the cell. Furthermore, the double depletion of Wtip and SSX2IP in early embryos uncovered the functional interaction of the two proteins during neural tube closure. Our results suggest that the association of SSX2IP and Wtip is essential for cell junction remodeling and morphogenetic processes that accompany neurulation. We propose that TPB can be a general approach that is applicable to other GFP-tagged proteins.

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“…The same GFP nanobody-TurboID promoter construct can then be used for multiple different target proteins by crossing it into the relevant GFP strain background and, when expressed alone, serves as an expression-matched control for mass spectrometry sample normalization. It should be noted that a similar strategy was recently developed for use in zebrafish [ 42 ], albeit employing a conditionally stabilised GFP-binding nanobody, with implications for sample normalization as discussed below.…”

Section: Resultsmentioning

confidence: 99%

A modified TurboID approach identifies tissue-specific centriolar components in C. elegans

et al. 2022

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Proximity-dependent labeling approaches such as BioID have been a great boon to studies of protein-protein interactions in the context of cytoskeletal structures such as centrosomes which are poorly amenable to traditional biochemical approaches like immunoprecipitation and tandem affinity purification. Yet, these methods have so far not been applied extensively to invertebrate experimental models such as C. elegans given the long labeling times required for the original promiscuous biotin ligase variant BirA*. Here, we show that the recently developed variant TurboID successfully probes the interactomes of both stably associated (SPD-5) and dynamically localized (PLK-1) centrosomal components. We further develop an indirect proximity labeling method employing a GFP nanobody-TurboID fusion, which allows the identification of protein interactors in a tissue-specific manner in the context of the whole animal. Critically, this approach utilizes available endogenous GFP fusions, avoiding the need to generate multiple additional strains for each target protein and the potential complications associated with overexpressing the protein from transgenes. Using this method, we identify homologs of two highly conserved centriolar components, Cep97 and BLD10/Cep135, which are present in various somatic tissues of the worm. Surprisingly, neither protein is expressed in early embryos, likely explaining why these proteins have escaped attention until now. Our work expands the experimental repertoire for C. elegans and opens the door for further studies of tissue-specific variation in centrosome architecture.

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In vivo proteomic mapping through GFP-directed proximity-dependent biotin labelling in zebrafish

Cited by 40 publications

References 56 publications

ADRAM is an experience-dependent long noncoding RNA that drives fear extinction through a direct interaction with the chaperone protein 14-3-3

ADRAM is an experience-dependent long noncoding RNA that drives fear extinction through a direct interaction with the chaperone protein 14-3-3

Identification of the centrosomal maturation factor SSX2IP as a Wtip-binding partner by targeted proximity biotinylation

A modified TurboID approach identifies tissue-specific centriolar components in C. elegans

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