Transmembrane helix (TMH) topology prediction is becoming a focal problem in bioinformatics because the structure of TM proteins is difficult to determine using experimental methods. Therefore, methods that can computationally predict the topology of helical membrane proteins are highly desirable. In this paper we introduce TMHindex, a method for detecting TMH segments using only the amino acid sequence information. Each amino acid in a protein sequence is represented by a Compositional Index, which is deduced from a combination of the difference in amino acid occurrences in TMH and non-TMH segments in training protein sequences and the amino acid composition information. Furthermore, a genetic algorithm was employed to find the optimal thr...
Background An important subfamily of membrane proteins are the transmembrane α-helical proteins, in ...
Predicting the transmembrane regions is an important aspect of understanding the struc-tures and arc...
An inherent problem in transmembrane protein topology prediction and signal peptide prediction is th...
Previously, we introduced a neural network system predicting locations of transmembrane helices (HTM...
Prediction of transmembrane (TM) helices by statistical methods suffers from lack of sufficient trai...
Membrane proteins fulfil a number of tasks in cells, including signalling, cell-cell interaction, an...
We describe a neural network system that predicts the locations of transmembrane helices in integral...
The prediction of transmembrane helical segments (TMHs) in membrane proteins is an important field i...
Transmembrane helical segments (TMs) can be classified into two groups of so-called ‘simple’ and ‘co...
Transmembrane helical segments (TMs) can be classified into two groups of so-called ‘simple ’ and ‘c...
Membrane proteins comprise around 20-30% of a typical proteome and play crucial roles in a wide vari...
<div><p>Predicting the transmembrane regions is an important aspect of understanding the structures ...
α-helical transmembrane (TM) proteins play important and diverse functional roles in cells. The abil...
AbstractAlpha helix transmembrane proteins (αTMPs) represent roughly 30% of all open reading frames ...
Membrane proteins are key elements of the cell since they are associated with a variety of very impo...
Background An important subfamily of membrane proteins are the transmembrane α-helical proteins, in ...
Predicting the transmembrane regions is an important aspect of understanding the struc-tures and arc...
An inherent problem in transmembrane protein topology prediction and signal peptide prediction is th...
Previously, we introduced a neural network system predicting locations of transmembrane helices (HTM...
Prediction of transmembrane (TM) helices by statistical methods suffers from lack of sufficient trai...
Membrane proteins fulfil a number of tasks in cells, including signalling, cell-cell interaction, an...
We describe a neural network system that predicts the locations of transmembrane helices in integral...
The prediction of transmembrane helical segments (TMHs) in membrane proteins is an important field i...
Transmembrane helical segments (TMs) can be classified into two groups of so-called ‘simple’ and ‘co...
Transmembrane helical segments (TMs) can be classified into two groups of so-called ‘simple ’ and ‘c...
Membrane proteins comprise around 20-30% of a typical proteome and play crucial roles in a wide vari...
<div><p>Predicting the transmembrane regions is an important aspect of understanding the structures ...
α-helical transmembrane (TM) proteins play important and diverse functional roles in cells. The abil...
AbstractAlpha helix transmembrane proteins (αTMPs) represent roughly 30% of all open reading frames ...
Membrane proteins are key elements of the cell since they are associated with a variety of very impo...
Background An important subfamily of membrane proteins are the transmembrane α-helical proteins, in ...
Predicting the transmembrane regions is an important aspect of understanding the struc-tures and arc...
An inherent problem in transmembrane protein topology prediction and signal peptide prediction is th...