The BioPlex Network: A Systematic Exploration of the Human Interactome

Huttlin, Edward L.; Ting, Lily; Bruckner, Raphael J.; Gebreab, Fana; Gygi, Melanie P.; Szpyt, John; Tam, Stanley; Zarraga, Gabriela; Colby, Greg; Baltier, Kurt; Dong, Rui; Guarani, Virgínia; Vaites, Laura Pontano; Ordureau, Alban; Rad, Ramin; Erickson, Brian K.; Wühr, Martin; Chick, Joel M.; Zhai, Bo; Kolippakkam, Deepak; Mintseris, Julian; Obar, Robert A.; Harris, Tim; Artavanis‐Tsakonas, Spyros; Sowa, Mathew E.; Camilli, Pietro De; Paulo, João A.; Harper, J. Wade; Gygi, Steven P.

doi:10.1016/j.cell.2015.06.043

Cited by 1,336 publications

(1,410 citation statements)

References 41 publications

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“…For MIRO1, PEX19 binding was shown by immunoprecipitation after co‐expression of Myc‐MIRO1 and HA‐PEX19 in COS‐7 cells (Figure 1B) suggesting a role for PEX19 in the targeting of MIRO1 to peroxisomes. Additionally, in a high‐throughput interaction study, MIRO1 was identified as a PEX19 interaction partner 37. These findings are also consistent with the known organelle targeting signals: MIRO1 possesses a transmembrane domain (TMD) with relatively low hydrophobicity (GRAVY, 1.3) and a moderate net charge in the tail region (1.9), which based on our previous work would be indicative of a TA protein that localises predominantly to mitochondria but has a potential for peroxisomal targeting 34.…”

Section: Resultsmentioning

confidence: 99%

A role for Mitochondrial Rho GTPase 1 (MIRO1) in motility and membrane dynamics of peroxisomes

Castro

Richards

Metz

et al. 2018

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Peroxisomes are dynamic organelles which fulfil essential roles in lipid and ROS metabolism. Peroxisome movement and positioning allows interaction with other organelles and is crucial for their cellular function. In mammalian cells, such movement is microtubule‐dependent and mediated by kinesin and dynein motors. The mechanisms of motor recruitment to peroxisomes are largely unknown, as well as the role this plays in peroxisome membrane dynamics and proliferation. Here, using a combination of microscopy, live‐cell imaging analysis and mathematical modelling, we identify a role for Mitochondrial Rho GTPase 1 (MIRO1) as an adaptor for microtubule‐dependent peroxisome motility in mammalian cells. We show that MIRO1 is targeted to peroxisomes and alters their distribution and motility. Using a peroxisome‐targeted MIRO1 fusion protein, we demonstrate that MIRO1‐mediated pulling forces contribute to peroxisome membrane elongation and proliferation in cellular models of peroxisome disease. Our findings reveal a molecular mechanism for establishing peroxisome‐motor protein associations in mammalian cells and provide new insights into peroxisome membrane dynamics in health and disease.

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Section: Resultsmentioning

confidence: 99%

A role for Mitochondrial Rho GTPase 1 (MIRO1) in motility and membrane dynamics of peroxisomes

Castro

Richards

Metz

et al. 2018

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“…The central finding of this study, that epitope spreading is a common feature of autoimmune responses, suggests that these genome-wide antigen discovery methods can be significantly improved by merging them computationally with proteomic approaches aimed at discovering protein complexes (14,15). Further studies using large, welldefined patient cohorts are warranted to understand the full Each row shows data corresponding to the candidate autoantigen gene listed in the first column.…”

Section: Discussionmentioning

confidence: 99%

Systematic autoantigen analysis identifies a distinct subtype of scleroderma with coincident cancer

Shah

et al. 2016

Proc. Natl. Acad. Sci. U.S.A.

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Scleroderma is a chronic autoimmune rheumatic disease associated with widespread tissue fibrosis and vasculopathy. Approximately two-thirds of all patients with scleroderma present with three dominant autoantibody subsets. Here, we used a pair of complementary high-throughput methods for antibody epitope discovery to examine patients with scleroderma with or without known autoantibody specificities. We identified a specificity for the minor spliceosome complex containing RNA Binding Region (RNP1, RNA recognition motif) Containing 3 (RNPC3) that is found in patients with scleroderma without known specificities and is absent in unrelated autoimmune diseases. We found strong evidence for both intra- and intermolecular epitope spreading in patients with RNA polymerase III (POLR3) and the minor spliceosome specificities. Our results demonstrate the utility of these technologies in rapidly identifying antibodies that can serve as biomarkers of disease subsets in the evolving precision medicine era.

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“…1; for DNA sequences, see supplementary materials). Of the 9 candidates, TMEM30A was demonstrated to bind APP by affinity capture-MS [14]. Although RAB13 has not been demonstrated to bind with APP, 19 other RAB family proteins (RAB1B, RAB2B, RAB3A, RAB3D, RAB5C, RAB7B, RAB8B, RAB10, RAB11B, RAB14, RAB26, RAB27A, RAB28, RAB35, RAB38, RAB39A, RAB40B, RAB43, and RABL3) all interact with amyloid b [15].…”

Section: Results and Discussion Cdna Library Screening By Yeast Matingmentioning

confidence: 99%

Yeast Two-Hybrid Screening for Proteins that Interact with the Extracellular Domain of Amyloid Precursor Protein

Zhang

2016

Neurosci. Bull.

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Alzheimer's disease (AD) is a neurodegenerative disorder in which amyloid b plaques are a pathological characteristic. Little is known about the physiological functions of amyloid b precursor protein (APP). Based on its structure as a type I transmembrane protein, it has been proposed that APP might be a receptor, but so far, no ligand has been reported. In the present study, 9 proteins binding to the extracellular domain of APP were identified using a yeast two-hybrid system. After confirming the interactions in the mammalian system, mutated PLP1, members of the FLRT protein family, and KCTD16 were shown to interact with APP. These proteins have been reported to be involved in Pelizaeus-Merzbacher disease (PMD) and axon guidance. Therefore, our results shed light on the mechanisms of physiological function of APP in AD, PMD, and axon guidance.

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The BioPlex Network: A Systematic Exploration of the Human Interactome

Cited by 1,336 publications

References 41 publications

A role for Mitochondrial Rho GTPase 1 (MIRO1) in motility and membrane dynamics of peroxisomes

A role for Mitochondrial Rho GTPase 1 (MIRO1) in motility and membrane dynamics of peroxisomes

Systematic autoantigen analysis identifies a distinct subtype of scleroderma with coincident cancer

Yeast Two-Hybrid Screening for Proteins that Interact with the Extracellular Domain of Amyloid Precursor Protein

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