Marta Lovino scite author profile

Marta Lovino

4Publications

36Citation Statements Received

104Citation Statements Given

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Affiliations

Ferrari (Italy), Polytechnic University of Turin, University of Modena and Reggio Emilia

Publications

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DEEPrior: a deep learning tool for the prioritization of gene fusions

Lovino¹,

Ciaburri²,

Urgese

et al. 2020

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Summary In the last decade, increasing attention has been paid to the study of gene fusions. However, the problem of determining whether a gene fusion is a cancer driver or just a passenger mutation is still an open issue. Here we present DEEPrior, an inherently flexible deep learning tool with two modes (Inference and Retraining). Inference mode predicts the probability of a gene fusion being involved in an oncogenic process, by directly exploiting the amino acid sequence of the fused protein. Retraining mode allows to obtain a custom prediction model including new data provided by the user. Availability and implementation Both DEEPrior and the protein fusions dataset are freely available from GitHub at (https://github.com/bioinformatics-polito/DEEPrior). The tool was designed to operate in Python 3.7, with minimal additional libraries. Supplementary information Supplementary data are available at Bioinformatics online.

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Circular RNA profiling distinguishes medulloblastoma groups and shows aberrant RMST overexpression in WNT medulloblastoma

et al. 2021

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A Deep Learning Approach to the Screening of Oncogenic Gene Fusions in Humans

Lovino

Urgese

Macii

et al. 2019

IJMS

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Gene fusions have a very important role in the study of cancer development. In this regard, predicting the probability of protein fusion transcripts of developing into a cancer is a very challenging and yet not fully explored research problem. To this date, all the available approaches in literature try to explain the oncogenic potential of gene fusions based on protein domain analysis, that is cancer-specific and not easy to adapt to newly developed information. In our work, we choose the raw protein sequences as the input baseline, and propose the use of deep learning, and more specifically Convolutional Neural Networks, to infer the oncogenity probability score of gene fusion transcripts and to group them into a number of categories (e.g., oncogenic/not oncogenic). This is an inherently flexible methodology that, unlike previous approaches, can be re-trained with very less efforts on newly available data (for example, from a different cancer). Based on experimental results on a large dataset of pre-annotated gene fusions, our method is able to predict the oncogenity potential of gene fusion transcripts with accuracy of about 72%, which increases to 86% if we consider the only instances that are classified with a high confidence level.

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Predicting gene expression levels from DNA sequences and post-transcriptional information with transformers

Pipoli

Cappelli²,

Palladini³

et al. 2022

Computer Methods and Programs in Biomedicine

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Marta Lovino

DEEPrior: a deep learning tool for the prioritization of gene fusions

Circular RNA profiling distinguishes medulloblastoma groups and shows aberrant RMST overexpression in WNT medulloblastoma

A Deep Learning Approach to the Screening of Oncogenic Gene Fusions in Humans

Predicting gene expression levels from DNA sequences and post-transcriptional information with transformers

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