Prediction of transmembrane (TM) helices by statistical methods suffers from lack of sufficient training data. Current best methods use hundreds or even thousands of free parameters in their models which are tuned to fit the little data available for training. Further, they are often restricted to the generally accepted topology "cytoplasmic-transmembrane-extracellular" and cannot adapt to membrane proteins that do not conform to this topology. Recent crystal structures of channel proteins have revealed novel architectures showing that the above topology may not be as universal as previously believed. Thus, there is a need for methods that can better predict TM helices even in novel topologies and families
Mapping of transmembrane (TM) helices in integral membrane proteins, e.g. transporters, is an import...
An inherent problem in transmembrane protein topology prediction and signal peptide prediction is th...
<div><p>Predicting the transmembrane regions is an important aspect of understanding the structures ...
Prediction of transmembrane (TM) helices by statistical methods suffers from lack of sufficient trai...
Transmembrane helix (TMH) topology prediction is becoming a focal problem in bioinformatics because ...
Previously, we introduced a neural network system predicting locations of transmembrane helices (HTM...
Membrane proteins fulfil a number of tasks in cells, including signalling, cell-cell interaction, an...
International audienceα-Helical transmembrane proteins (TMPα) are composed of a series of helices em...
Transmembrane proteins make up a large and important class of proteins. About 20% of all genes encod...
We describe a neural network system that predicts the locations of transmembrane helices in integral...
Membrane proteins comprise around 20-30% of a typical proteome and play crucial roles in a wide vari...
Abstract Background About 30% of genes code for membrane proteins, which are involved in a wide vari...
Transmembrane (TM) proteins are proteins that span a biological membrane one or more times. As their...
AbstractAlpha helix transmembrane proteins (αTMPs) represent roughly 30% of all open reading frames ...
α-helical transmembrane (TM) proteins play important and diverse functional roles in cells. The abil...
Mapping of transmembrane (TM) helices in integral membrane proteins, e.g. transporters, is an import...
An inherent problem in transmembrane protein topology prediction and signal peptide prediction is th...
<div><p>Predicting the transmembrane regions is an important aspect of understanding the structures ...
Prediction of transmembrane (TM) helices by statistical methods suffers from lack of sufficient trai...
Transmembrane helix (TMH) topology prediction is becoming a focal problem in bioinformatics because ...
Previously, we introduced a neural network system predicting locations of transmembrane helices (HTM...
Membrane proteins fulfil a number of tasks in cells, including signalling, cell-cell interaction, an...
International audienceα-Helical transmembrane proteins (TMPα) are composed of a series of helices em...
Transmembrane proteins make up a large and important class of proteins. About 20% of all genes encod...
We describe a neural network system that predicts the locations of transmembrane helices in integral...
Membrane proteins comprise around 20-30% of a typical proteome and play crucial roles in a wide vari...
Abstract Background About 30% of genes code for membrane proteins, which are involved in a wide vari...
Transmembrane (TM) proteins are proteins that span a biological membrane one or more times. As their...
AbstractAlpha helix transmembrane proteins (αTMPs) represent roughly 30% of all open reading frames ...
α-helical transmembrane (TM) proteins play important and diverse functional roles in cells. The abil...
Mapping of transmembrane (TM) helices in integral membrane proteins, e.g. transporters, is an import...
An inherent problem in transmembrane protein topology prediction and signal peptide prediction is th...
<div><p>Predicting the transmembrane regions is an important aspect of understanding the structures ...