A novel reverse two-hybrid method for the identification of missense mutations that disrupt protein–protein binding

Vincent, Olivier; Gutiérrez-Nogués, Ángel; Trejo-Herrero, Adrían; Navas, María-Ángeles

doi:10.1038/s41598-020-77992-1

Cited by 3 publications

(8 citation statements)

References 38 publications

(46 reference statements)

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“…This result indicates that our screen was not saturating, although some mutations in blade 2 were isolated repeatedly. It is likely due to the mutational bias associated with error-prone PCR methods, which has already been observed with the Taq polymerase in a previous work [ 48 ].…”

Section: Discussionmentioning

confidence: 90%

“…Previous studies have shown that Atg21 interacts with Atg16 and mediates the recruitment of the E3 complex Atg12-Atg5-Atg16 to the phagophore membrane [ 19 ]. In order to determine which residues in Atg21 are critical for binding Atg16, we performed a reverse double two-hybrid screen (RD2H) [ 48 ] to identify missense mutations in Atg21 that disrupt the interaction with Atg16. This method is based on generating random mutations in a fusion of Atg21 with the Gal4 transcriptional activation domain (GAD) and a PTAP motif-containing peptide at the N-terminal and C-terminal ends, respectively.…”

Section: Resultsmentioning

confidence: 99%

“…Plasmids used in this work are described in electronic supplementary material, table S2 and were constructed for the current study except pRS316-GFP-AUT7 [ 57 ] and pLexA-TSG101 [ 48 ]. Two-hybrid plasmids encoding Gal4 Binding Domain (GBD) or Gal4 Activation Domain (GAD) fusions to Atg5, Atg16, Atg21 and human WIPI2b were constructed by cloning the corresponding coding sequences in the BamH1 site of pGBKT7, pACT2 or pGAD424 (Clontech).…”

Section: Methodsmentioning

confidence: 99%

“…The aim of this work was to identify the amino acid residues in Atg21 and Atg16 that play a critical role in protein–protein interaction by using the recently developed reverse double two-hybrid method (RD2H) [ 48 ]. Overall, our findings are in agreement with the recently reported crystal structure of Atg21 bound to Atg16 CCD [ 19 ], but unexpectedly our results also indicate that CCD-mediated dimerization of Atg16 is required for its interaction with Atg21.…”

Section: Introductionmentioning

confidence: 99%

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Coiled-coil-mediated dimerization of Atg16 is required for binding to the PROPPIN Atg21

Bueno-Arribas,

Cruz-Cuevas,

Navas

et al. 2023

Open Biol.

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PROPPINs/WIPIs are β-propeller proteins that bind phosphoinositides and contribute to the recruitment of protein complexes involved in membrane remodelling processes such as autophagosome formation and endosomal trafficking. Yeast Atg21 and mammalian WIPI2 interact with Atg16/ATG16L1 to mediate recruitment of the lipidation machinery to the autophagosomal membrane. Here, we used the reverse double two-hybrid method (RD2H) to identify residues in Atg21 and Atg16 critical for protein–protein binding. Although our results are generally consistent with the crystal structure of the Atg21-Atg16 complex reported previously, they also reveal that dimerization of the Atg16 coiled-coil domain is required for Atg21 binding. Furthermore, most of the residues identified in Atg21 are conserved in WIPI2 and we showed that these residues also mediate ATG16L1 binding. Strikingly, these residues occupy the same position in the β-propeller structure as residues in PROPPINs/WIPIs Hsv2 and WIPI4 that mediate Atg2/ATG2A binding, supporting the idea that these proteins use different amino acids at the same position to interact with different autophagic proteins. Finally, our findings demonstrate the effectiveness of the RD2H system to identify critical residues for protein–protein interactions and the utility of this method to generate combinatory mutants with a complete loss of binding capacity.

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Section: Discussionmentioning

confidence: 90%

Section: Resultsmentioning

confidence: 99%

Section: Methodsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Coiled-coil-mediated dimerization of Atg16 is required for binding to the PROPPIN Atg21

Bueno-Arribas,

Cruz-Cuevas,

Navas

et al. 2023

Open Biol.

Self Cite

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“…As the sequence of a protein dictates its structure and function, mutagenesis can aid in understanding different functional properties such as stability, interactions, and enzymatic activity, as well as mechanisms underlying disease and evolution. Mutagenesis studies of proteins have, for example, aided in the identification of protein-protein interaction (PPI) interfaces 1 , 2 , 3 , 4 and contributed to the study of ion channel functioning. 5 Technologies collectively referred to as deep mutational scanning (DMS) have advanced this field by allowing the simultaneous and unbiased evaluation of large protein variant libraries, 6 reflected in the recent expansion of this research field.…”

Section: Introductionmentioning

confidence: 99%

Deep mutational scanning of proteins in mammalian cells

Maes,

Deploey,

Peelman

et al. 2023

Cell Reports Methods

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The Use of Yeast in Biosensing

Dhakal

Macreadie

2022

Microorganisms

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Yeast has been used as a model for several diseases as it is the simplest unicellular eukaryote, safe and easy to culture and harbors most of the fundamental processes that are present in almost all higher eukaryotes, including humans. From understanding the pathogenesis of disease to drug discovery studies, yeast has served as an important biosensor. It is not only due to the conservation of genetics, amenable modification of its genome and easily accessible analytical methods, but also some characteristic features such as its ability to survive with defective mitochondria, making it a highly flexible microbe for designing whole-cell biosensing systems. The aim of this review is to report on how yeasts have been utilized as biosensors, reporting on responses to various stimuli.

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A novel reverse two-hybrid method for the identification of missense mutations that disrupt protein–protein binding

Cited by 3 publications

References 38 publications

Coiled-coil-mediated dimerization of Atg16 is required for binding to the PROPPIN Atg21

Coiled-coil-mediated dimerization of Atg16 is required for binding to the PROPPIN Atg21

Deep mutational scanning of proteins in mammalian cells

The Use of Yeast in Biosensing

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