A Comparison of Mutual Information, Linear Models and Deep Learning Networks for Protein Secondary Structure Prediction

Abstract: Background: Over the last several decades, predicting protein structures from amino acid sequences has been a core task in bioinformatics. Nowadays, the most successful methods employ multiple sequence alignments and can predict the structure with excellent performance. These predictions take advantage of all the amino acids at a given position and their frequencies. However, the effect of single amino acid substitutions in a specific protein tends to be hidden by the alignment profile. For this reason, single… Show more

“…Even though many protein subcellular location prediction systems have been introduced recently, modern state-of-the-art solutions based on machine learning algorithms that could support large amounts of protein data in a reasonable time, cost, and good prediction accuracy are still lacking [9]. There are few recent surveys that extensively cover protein subcellular localization prediction tools and methods [1][2][3][9][10][11][12][13]. However, there are very few ab initio predictors available so far; we have covered a few relevant and state-of-the-art tools and methods in this section to cover the relevant literature.…”

SCLpred-ECL: Subcellular Localization Prediction by Deep N-to-1 Convolutional Neural Networks

“…Even though many protein subcellular location prediction systems have been introduced recently, modern state-of-the-art solutions based on machine learning algorithms that could support large amounts of protein data in a reasonable time, cost, and good prediction accuracy are still lacking [9]. There are few recent surveys that extensively cover protein subcellular localization prediction tools and methods [1][2][3][9][10][11][12][13]. However, there are very few ab initio predictors available so far; we have covered a few relevant and state-of-the-art tools and methods in this section to cover the relevant literature.…”

SCLpred-ECL: Subcellular Localization Prediction by Deep N-to-1 Convolutional Neural Networks

Deep dependence in hydroclimatological variables

Protein subcellular localization prediction tools