Néli José da Fonseca scite author profile

Public archiving in structural biology is well established with the Protein Data Bank (PDB; wwPDB.org) catering for atomic models and the Electron Microscopy Data Bank (EMDB; emdb-empiar.org) for 3D reconstructions from cryo-EM experiments. Even before the recent rapid growth in cryo-EM, there was an expressed community need for a public archive of image data from cryo-EM experiments for validation, software development, testing and training. Concomitantly, the proliferation of 3D imaging techniques for cells, tissues and organisms using volume EM (vEM) and X-ray tomography (XT) led to calls from these communities to publicly archive such data as well. EMPIAR (empiar.org) was developed as a public archive for raw cryo-EM image data and for 3D reconstructions from vEM and XT experiments and now comprises over a thousand entries totalling over 2 petabytes of data. EMPIAR resources include a deposition system, entry pages, facilities to search, visualize and download datasets, and a REST API for programmatic access to entry metadata. The success of EMPIAR also poses significant challenges for the future in dealing with the very fast growth in the volume of data and in enhancing its reusability.

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Dense optical flow software to quantify cellular contractility

Scalzo

Afonso

Fonseca

et al. 2021

Cell Reports Methods

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Sequence, structure and function relationships in flaviviruses as assessed by evolutive aspects of its conserved non-structural protein domains

Fonseca

Afonso

Pedersolli

et al. 2017

Biochemical and Biophysical Research Communications

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Flaviviruses are responsible for serious diseases such as dengue, yellow fever, and zika fever. Their genomes encode a polyprotein which, after cleavage, results in three structural and seven non-structural proteins. Homologous proteins can be studied by conservation and coevolution analysis as detected in multiple sequence alignments, usually reporting positions which are strictly necessary for the structure and/or function of all members in a protein family or which are involved in a specific sub-class feature requiring the coevolution of residue sets. This study provides a complete conservation and coevolution analysis on all flaviviruses non-structural proteins, with results mapped on all well-annotated available sequences. A literature review on the residues found in the analysis enabled us to compile available information on their roles and distribution among different flaviviruses. Also, we provide the mapping of conserved and coevolved residues for all sequences currently in SwissProt as a supplementary material, so that particularities in different viruses can be easily analyzed.

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Coevolved Positions Represent Key Functional Properties in the Trypsin-Like Serine Proteases Protein Family

Afonso

Fonseca

Oliveira

et al. 2020

J. Chem. Inf. Model.

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Trypsin-like serine proteases are a group of homologous enzymes which exert multiple roles in both vertebrate and invertebrate organisms. Key properties of these enzymes include their activation from an inactive zymogen form to their active form by cleavage of residues in their N-terminus, the presence of a conserved catalytic triad of residues, and the existence of different patterns of substrate selectivity for residue cleavage between the various members of this protein family. In this article, we apply the decomposition of residue coevolution networks computational method to find sets of residues related to some of these key properties, especially to zymogen activation. Positive selection detection, normal modes analysis, and the calculation of thermal couplings between the bovine trypsinogen and bovine trypsin structures residues yielded further information for understanding the zymogen activation process and highlighted the importance of some of the coevolved set residues during these transitions.

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