flDPnn: Accurate intrinsic disorder prediction with putative propensities of disorder functions

Hu, Gang; Katuwawala, Akila; Wang, Kui; Wu, Zhonghua; Ghadermarzi, Sina; Gao, Jianzhao; Kurgan, Lukasz

doi:10.1038/s41467-021-24773-7

Cited by 164 publications

(201 citation statements)

References 65 publications

(78 reference statements)

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“…Recently, it has received a boost with the establishment of the Critical Assessment of Protein Intrinsic Disorder prediction (CAID) experiment as a community-wide blind test to compare state-of-the-art approaches to predict disorder ( 4 ). As new disorder prediction methods keep emerging ( 5–7 ), CAID takes on monitoring the field in real time, aiming to establish dependable standards. This ambition has a special caveat, as predicting and identifying regions in IDPs/IDRs that engage in functional interactions remains a significant challenge ( 6 , 8 ).…”

Section: Introductionmentioning

confidence: 99%

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

Quaglia

Mészáros

Salladini

et al. 2021

Nucleic Acids Research

138

149

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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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Section: Introductionmentioning

confidence: 99%

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

Quaglia

Mészáros

Salladini

et al. 2021

Nucleic Acids Research

138

149

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“…This disordered nature and potency to fold may demonstrate that interacting macromolecules such as anionic membrane lipids and acidic interacting proteins may be required for the folding of BP180, suggesting that the ICD might be relatively unstable even as a part of the HD complex. This hypothesis is supported by a new model incorporating a recently published flDPnn algorithm [37] which predicts protein and/or nucleic acid interactions with disordered regions of the ICD of BP180 (Figure 3c). It seems that the under-investigated field of intrinsic disorder in keratinocyte proteomes is gathering pace [38].…”

Section: Structure Of Bp180mentioning

confidence: 71%

BP180/Collagen XVII: A Molecular View

Tuusa

Kokkonen

Tasanen

2021

IJMS

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BP180 is a type II collagenous transmembrane protein and is best known as the major autoantigen in the blistering skin disease bullous pemphigoid (BP). The BP180 trimer is a central component in type I hemidesmosomes (HD), which cause the adhesion between epidermal keratinocytes and the basal lamina, but BP180 is also expressed in several non-HD locations, where its functions are poorly characterized. The immunological roles of intact and proteolytically processed BP180, relevant in BP, have been subject to intensive research, but novel functions in cell proliferation, differentiation, and aging have also recently been described. To better understand the multiple physiological functions of BP180, the focus should return to the protein itself. Here, we comprehensively review the properties of the BP180 molecule, present new data on the biochemical features of its intracellular domain, and discuss their significance with regard to BP180 folding and protein–protein interactions.

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“…We used two methods, flDPnn 18 and SPOT-Disorder-Single 17 . flDPnn uses profile information computed by three other methods, which is processed by a deep learning architecture to output residue-wise disorder prediction.…”

Section: Disorder Region Prediction Methodsmentioning

confidence: 99%

“…Particularly, we analyzed correlation between the low-confidence regions (pLDDT 0.5 and 0.7) from AlphaFold2 models and disorder predictions. We used two disorder prediction methods, SPOT-Disorder-Single 17 and flDPnn 18 . According to the two methods, about 14% to 18% of residues are disordered (Fig.…”

mentioning

confidence: 99%

Real-Time Structure Search and Structure Classification for AlphaFold Protein Models

Aderinwale

Bharadwaj

Christoffer

et al. 2021

Preprint

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AlphaFold2 showed a substantial improvement in the accuracy of protein structure prediction. Following the release of the software, whole-proteome protein structure predictions by AlphaFold2 for 21 organisms were made publicly available. Here, we developed the infrastructure, 3D-AF-Surfer, to enable real-time structure-based search for the AlphaFold2 models by combining molecular surface representation with 3D Zernike descriptors and deep neural networks.

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flDPnn: Accurate intrinsic disorder prediction with putative propensities of disorder functions

Cited by 164 publications

References 65 publications

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

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

BP180/Collagen XVII: A Molecular View

Real-Time Structure Search and Structure Classification for AlphaFold Protein Models

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