Claudio Bassot scite author profile

The Database of Protein Disorder (DisProt, URL: https://disprot.org) provides manually curated annotations of intrinsically disordered proteins from the literature. Here we report recent developments with DisProt (version 8), including the doubling of protein entries, a new disorder ontology, improvements of the annotation format and a completely new website. The website includes a redesigned graphical interface, a better search engine, a clearer API for programmatic access and a new annotation interface that integrates text mining technologies. The new entry format provides a greater flexibility, simplifies maintenance and allows the capture of more information from the literature. The new disorder ontology has been formalized and made interoperable by adopting the OWL format, as well as its structure and term definitions have been improved. The new annotation interface has made the curation process faster and more effective. We recently showed that new DisProt annotations can be effectively used to train and validate disorder predictors. We believe the growth of DisProt will accelerate, contributing to the improvement of function and disorder predictors and therefore to illuminate the ‘dark’ proteome.

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Ca²⁺ binding to F‐ATP synthase β subunit triggers the mitochondrial permeability transition

Giorgio

et al. 2017

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F-ATP synthases convert the electrochemical energy of the H gradient into the chemical energy of ATP with remarkable efficiency. Mitochondrial F-ATP synthases can also undergo a Ca-dependent transformation to form channels with properties matching those of the permeability transition pore (PTP), a key player in cell death. The Ca binding site and the mechanism(s) through which Ca can transform the energy-conserving enzyme into a dissipative structure promoting cell death remain unknown. Through , and studies we (i) pinpoint the "Ca-trigger site" of the PTP to the catalytic site of the F-ATP synthase β subunit and (ii) define a conformational change that propagates from the catalytic site through OSCP and the lateral stalk to the inner membrane. T163S mutants of the β subunit, which show a selective decrease in Ca-ATP hydrolysis, confer resistance to Ca-induced, PTP-dependent death in cells and developing zebrafish embryos. These findings are a major advance in the molecular definition of the transition of F-ATP synthase to a channel and of its role in cell death.

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DisProt in 2022: improved quality and accessibility of protein intrinsic disorder annotation

et al. 2021

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The Database of Intrinsically Disordered Proteins (DisProt, URL: https://disprot.org) is the major repository of manually curated annotations of intrinsically disordered proteins and regions from the literature. We report here recent updates of DisProt version 9, including a restyled web interface, refactored Intrinsically Disordered Proteins Ontology (IDPO), improvements in the curation process and significant content growth of around 30%. Higher quality and consistency of annotations is provided by a newly implemented reviewing process and training of curators. The increased curation capacity is fostered by the integration of DisProt with APICURON, a dedicated resource for the proper attribution and recognition of biocuration efforts. Better interoperability is provided through the adoption of the Minimum Information About Disorder (MIADE) standard, an active collaboration with the Gene Ontology (GO) and Evidence and Conclusion Ontology (ECO) consortia and the support of the ELIXIR infrastructure.

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Claudio Bassot

DisProt: intrinsic protein disorder annotation in 2020

Ca²⁺ binding to F‐ATP synthase β subunit triggers the mitochondrial permeability transition

DisProt in 2022: improved quality and accessibility of protein intrinsic disorder annotation

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Claudio Bassot

DisProt: intrinsic protein disorder annotation in 2020

Ca2+ binding to F‐ATP synthase β subunit triggers the mitochondrial permeability transition

DisProt in 2022: improved quality and accessibility of protein intrinsic disorder annotation

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Ca²⁺ binding to F‐ATP synthase β subunit triggers the mitochondrial permeability transition