Your search keyword '"Tinti, Michele"' showing total 5 results

1. 14-3-3-Pred: improved methods to predict 14-3-3-binding phosphopeptides.

Author

Madeira, Fábio, Tinti, Michele, Murugesan, Gavuthami, Berrett, Emily, Stafford, Margaret, Toth, Rachel, Cole, Christian, MacKintosh, Carol, and Barton, Geoffrey J.

Subjects

*14-3-3 proteins, *PHOSPHOPEPTIDES, *PHOSPHOPROTEINS, *SERINE, *THREONINE, *SUPPORT vector machines, *ARTIFICIAL neural networks

Abstract

Motivation: The 14-3-3 family of phosphoprotein-binding proteins regulates many cellular processes by docking onto pairs of phosphorylated Ser and Thr residues in a constellation of intracellular targets. Therefore, there is a pressing need to develop new prediction methods that use an updated set of 14-3-3-binding motifs for the identification of new 14-3-3 targets and to prioritize the downstream analysis of >2000 potential interactors identified in high-throughput experiments. Results: Here, a comprehensive set of 14-3-3-binding targets from the literature was used to develop 14-3-3-binding phosphosite predictors. Position-specific scoring matrix, support vector machines (SVM) and artificial neural network (ANN) classification methods were trained to discriminate experimentally determined 14-3-3-binding motifs from non-binding phosphopeptides. ANN, position-specific scoring matrix and SVM methods showed best performance for a motif window spanning from 6 to þ4 around the binding phosphosite, achieving Matthews correlation coefficient of up to 0.60. Blind prediction showed that all three methods outperform two popular 14-3-3-binding site predictors, Scansite and ELM. The new methods were used for prediction of 14-3-3-binding phosphosites in the human proteome. Experimental analysis of high-scoring predictions in the FAM122A and FAM122B proteins confirms the predictions and suggests the new 14-3- 3-predictors will be generally useful. [ABSTRACT FROM AUTHOR]

Published

2015

2. Oligo targeting for profiling drug resistance mutations in the parasitic trypanosomatids.

Author

Altmann, Simone, Rico, Eva, Carvalho, Sandra, Ridgway, Melanie, Trenaman, Anna, Donnelly, Hannah, Tinti, Michele, Wyllie, Susan, and Horn, David

Published

2022

3. ANIA: ANnotation and Integrated Analysis of the 14-3-3 interactome.

Author

Tinti, Michele, Madeira, Fábio, Murugesan, Gavuthami, Hoxhaj, Gerta, Toth, Rachel, and MacKintosh, Carol

Subjects

*ANNOTATIONS, *DIMERS, *PHOSPHORYLATION, *CYTOLOGY, *PROTEOMICS

Abstract

The dimeric 14-3-3 proteins dock onto pairs of phosphorylated Ser and Thr residues on hundreds of proteins, and thereby regulate many events in mammalian cells. To facilitate global analyses of these interactions, we developed a web resource named ANIA: ANnotation and Integrated Analysis of the 14-3-3 interactome, which integrates multiple data sets on 14-3-3- binding phosphoproteins. ANIA also pinpoints candidate 14-3-3-binding phosphosites using predictor algorithms, assisted by our recent discovery that the human 14-3-3-interactome is highly enriched in 2R-ohnologues. 2R-ohnologues are proteins in families of two to four, generated by two rounds of whole genome duplication at the origin of the vertebrate animals. ANIA identifies candidate 'lynchpins', which are 14-3-3-binding phosphosites that are conserved across members of a given 2R-ohnologue protein family. Other features of ANIA include a link to the catalogue of somatic mutations in cancer database to find cancer polymorphisms that map to 14-3-3-binding phosphosites, which would be expected to interfere with 14-3-3 interactions. We used ANIA to map known and candidate 14-3-3-binding enzymes within the 2R-ohnologue complement of the human kinome. Our projections indicate that 14-3-3s dock onto many more human kinases than has been realized. Guided by ANIA, PAK4, 6 and 7 (p21-activated kinases 4, 6 and 7) were experimentally validated as a 2Rohnologue family of 14-3-3-binding phosphoproteins. PAK4 binding to 14-3-3 is stimulated by phorbol ester, and involves the 'lynchpin' site phosphoSer99 and a major contribution from Ser181. In contrast, PAK6 and PAK7 display strong phorbol ester-independent binding to 14-3-3, with Ser113 critical for the interaction with PAK6. These data point to differential 14- 3-3 regulation of PAKs in control of cell morphology. [ABSTRACT FROM AUTHOR]

Published

2014

4. Diverse driving forces underlie the invariant occurrence of the T42A, E139D, I282V and T468M SHP2 amino acid substitutions causing Noonan and LEOPARD syndromes.

Author

Martinelli, Simone, Torreri, Paola, Tinti, Michele, Stella, Lorenzo, Bocchinfuso, Gianfranco, Flex, Elisabetta, Grottesi, Alessandro, Ceccarini, Marina, Palleschi, Antonio, Cesareni, Gianni, Castagnoli, Luisa, Petrucci, Tamara C., Gelb, Bruce D., and Tartaglia, Marco

Published

2008

5. VirusMINT: a viral protein interaction database.

Author

Chatr-aryamontri, Andrew, Ceol, Arnaud, Peluso, Daniele, Nardozza, Aurelio, Panni, Simona, Sacco, Francesca, Tinti, Michele, Smolyar, Alex, Castagnoli, Luisa, Vidal, Marc, Cusick, Michael E., and Cesareni, Gianni

Published

2009