Abstract Background Due to their role of receptors or transporters, membrane proteins play a key role in many important biological functions. In our work we used Grammatical Inference (GI) to localize transmembrane segments. Our GI process is based specifically on the inference of Even Linear Languages. Results We obtained values close to 80% in both specificity and sensitivity. Six datasets have been used for the experiments, considering different encodings for the input sequences. An encoding that includes the topology changes in the sequence (from inside and outside the membrane to it and vice versa) allowed us to obtain the best results. This software is publicly available at: http://www.dsic.upv.es/users/tlcc/bio/bio.html Conclusion We...
We describe a neural network system that predicts the locations of transmembrane helices in integral...
2To whom correspondence should be addressed The number of transmembrane segments often corresponds t...
This paper describes a new modeling method for the prediction of transmembrane protein topology. The...
Transmembrane proteins are proteins that are inserted into the membranes of the cell and its organel...
Membrane proteins constitute a large and important class of proteins. They are responsible for many ...
The prediction of transmembrane helical segments (TMHs) in membrane proteins is an important field i...
Membrane proteins are key elements of the cell since they are associated with a variety of very impo...
Transmembrane (TM) proteins are proteins that span a biological membrane one or more times. As their...
Motivation: Recent research underlines the importance of fine-grained knowledge on protein localizat...
Previously, we introduced a neural network system predicting locations of transmembrane helices (HTM...
Membrane proteins are of broad interest since they constitute a large fraction of the proteome in al...
There are today several systems for predicting transmembrane domains in membrane protein sequences...
There are today several systems for predicting transmembrane domains in membrane protein sequences. ...
Transmembrane proteins make up a large and important class of proteins. About 20% of all genes encod...
Background An important subfamily of membrane proteins are the transmembrane α-helical proteins, in ...
We describe a neural network system that predicts the locations of transmembrane helices in integral...
2To whom correspondence should be addressed The number of transmembrane segments often corresponds t...
This paper describes a new modeling method for the prediction of transmembrane protein topology. The...
Transmembrane proteins are proteins that are inserted into the membranes of the cell and its organel...
Membrane proteins constitute a large and important class of proteins. They are responsible for many ...
The prediction of transmembrane helical segments (TMHs) in membrane proteins is an important field i...
Membrane proteins are key elements of the cell since they are associated with a variety of very impo...
Transmembrane (TM) proteins are proteins that span a biological membrane one or more times. As their...
Motivation: Recent research underlines the importance of fine-grained knowledge on protein localizat...
Previously, we introduced a neural network system predicting locations of transmembrane helices (HTM...
Membrane proteins are of broad interest since they constitute a large fraction of the proteome in al...
There are today several systems for predicting transmembrane domains in membrane protein sequences...
There are today several systems for predicting transmembrane domains in membrane protein sequences. ...
Transmembrane proteins make up a large and important class of proteins. About 20% of all genes encod...
Background An important subfamily of membrane proteins are the transmembrane α-helical proteins, in ...
We describe a neural network system that predicts the locations of transmembrane helices in integral...
2To whom correspondence should be addressed The number of transmembrane segments often corresponds t...
This paper describes a new modeling method for the prediction of transmembrane protein topology. The...