Bioinformatics analysis of disordered proteins in prokaryotes

Pavlović-Lažetić, Gordana; Mitić, Nenad S.; Kovačević, Jovana; Obradović, Zoran; Malkov, Saša N.; Beljanski, Miloš V.

doi:10.1186/1471-2105-12-66

Cited by 43 publications

(44 citation statements)

References 47 publications

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“…The fact that no IDRs were found in mitochondrial proteins [67][68][69] supports our hypothesis that certain, crucial TRs were generated before endosymbiosis of Prokaryotes and persisted within the proteins. If initially disordered regions were accumulated in proteins through alternative splicing or exonization, and by duplication established a stable tertiary structure, they might have been missed by the disorder detection methods.…”

Section: Tandem Repeats Originate Through Duplicationsupporting

confidence: 72%

A New Census of Protein Tandem Repeats and Their Relationship with Intrinsic Disorder

Delucchi

Schaper

Sachenkova

et al. 2020

Genes

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Protein tandem repeats (TRs) are often associated with immunity-related functions and diseases. Since that last census of protein TRs in 1999, the number of curated proteins increased more than seven-fold and new TR prediction methods were published. TRs appear to be enriched with intrinsic disorder and vice versa. The significance and the biological reasons for this association are unknown. Here, we characterize protein TRs across all kingdoms of life and their overlap with intrinsic disorder in unprecedented detail. Using state-of-the-art prediction methods, we estimate that 50.9% of proteins contain at least one TR, often located at the sequence flanks. Positive linear correlation between the proportion of TRs and the protein length was observed universally, with Eukaryotes in general having more TRs, but when the difference in length is taken into account the difference is quite small. TRs were enriched with disorder-promoting amino acids and were inside intrinsically disordered regions. Many such TRs were homorepeats. Our results support that TRs mostly originate by duplication and are involved in essential functions such as transcription processes, structural organization, electron transport and iron-binding. In viruses, TRs are found in proteins essential for virulence.

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Section: Tandem Repeats Originate Through Duplicationsupporting

confidence: 72%

A New Census of Protein Tandem Repeats and Their Relationship with Intrinsic Disorder

Delucchi

Schaper

Sachenkova

et al. 2020

Genes

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“…161 A computational analysis of disorder in prokaryotes has corroborated the higher abundance of disorder in Bacteria as compared to Archaea. 274 Moreover, in agreement with the low abundance of disorder in prokaryotes, none of the 13 mitochondrial-encoded proteins are disordered. 161 Systematic analysis of IDP occurrence in 53 archaeal species showed that disorder content is highly species-dependent.…”

Section: Evolutionmentioning

confidence: 81%

Classification of Intrinsically Disordered Regions and Proteins

et al. 2014

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“…2,3 Lacking of a well-defined three-dimensional structure, IDPs have posed a serious challenge for structural biologists as their function is directly related to their conformational dynamics in solution.…”

Section: Introductionmentioning

confidence: 99%

Kirkwood–Buff Approach Rescues Overcollapse of a Disordered Protein in Canonical Protein Force Fields

et al. 2015

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Understanding the function of intrinsically disordered proteins is intimately related to our capacity to correctly sample their conformational dynamics. So far, a gap between experimentally and computationally derived ensembles exists, as simulations show overcompacted conformers. Increasing evidence suggests that the solvent plays a crucial role in shaping the ensembles of intrinsically disordered proteins and has led to several attempts to modify water parameters and thereby favor protein-water over protein-protein interactions. This study tackles the problem from a different perspective, which is the use of the Kirkwood-Buff theory of solutions to reproduce the correct conformational ensemble of intrinsically disordered proteins (IDPs). A protein force field recently developed on such a basis was found to be highly effective in reproducing ensembles for a fragment from the FG-rich nucleoporin 153, with dimensions matching experimental values obtained from small-angle X-ray scattering and single molecule FRET experiments. Kirkwood-Buff theory presents a complementary and fundamentally different approach to the recently developed four-site TIP4P-D water model, both of which can rescue the overcollapse observed in IDPs with canonical protein force fields. As such, our study provides a new route for tackling the deficiencies of current protein force fields in describing protein solvation.

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Bioinformatics analysis of disordered proteins in prokaryotes

Cited by 43 publications

References 47 publications

A New Census of Protein Tandem Repeats and Their Relationship with Intrinsic Disorder

A New Census of Protein Tandem Repeats and Their Relationship with Intrinsic Disorder

Classification of Intrinsically Disordered Regions and Proteins

Kirkwood–Buff Approach Rescues Overcollapse of a Disordered Protein in Canonical Protein Force Fields

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