α-helical transmembrane (TM) proteins play important and diverse functional roles in cells. The ability to predict the topology of these proteins is important for identifying functional sites and inferring function of membrane proteins. This paper presents a Hidden Markov Model (referred to as HMM_RA) that can predict the topology of α-helical transmembrane proteins with improved performance. HMM_RA adopts the same structure as the HMMTOP method, which has five modules: inside loop, inside helix tail, membrane helix, outside helix tail and outside loop. Each module consists of one or multiple states. HMM_RA allows using reduced alphabets to encode protein sequences. Thus, each state of HMM_RA is associated with n emission probabilities, whe...
Abstract Background Prediction of the transmembrane strands and topology of β-barrel outer membrane ...
Abstract Motivation: Membrane proteins are an abundant and functionally relevant subs...
Motivation: Transmembrane β barrel proteins (TMBs) are found in the outer membrane of Gram-negative ...
α-helical transmembrane (TM) proteins play important and diverse functional roles in cells. The abil...
Transmembrane proteins make up a large and important class of proteins. About 20% of all genes encod...
Membrane proteins fulfil a number of tasks in cells, including signalling, cell-cell interaction, an...
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...
This paper describes a new modeling method for the prediction of transmembrane protein topology. The...
During the last two decades a large number of Computational methods have been developed for predicti...
Predicting the topology of transmembrane helical proteins using mean burial propensity and
Membrane proteins, which constitute approximately 20% of most genomes, are poorly tractable targets ...
Membrane proteins are of broad interest since they constitute a large fraction of the proteome in al...
MOTIVATION: Transmembrane β barrel proteins (TMBs) are found in the outer membrane of Gram-negative ...
Transmembrane helix (TMH) topology prediction is becoming a focal problem in bioinformatics because ...
Abstract Background Prediction of the transmembrane strands and topology of β-barrel outer membrane ...
Abstract Motivation: Membrane proteins are an abundant and functionally relevant subs...
Motivation: Transmembrane β barrel proteins (TMBs) are found in the outer membrane of Gram-negative ...
α-helical transmembrane (TM) proteins play important and diverse functional roles in cells. The abil...
Transmembrane proteins make up a large and important class of proteins. About 20% of all genes encod...
Membrane proteins fulfil a number of tasks in cells, including signalling, cell-cell interaction, an...
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...
This paper describes a new modeling method for the prediction of transmembrane protein topology. The...
During the last two decades a large number of Computational methods have been developed for predicti...
Predicting the topology of transmembrane helical proteins using mean burial propensity and
Membrane proteins, which constitute approximately 20% of most genomes, are poorly tractable targets ...
Membrane proteins are of broad interest since they constitute a large fraction of the proteome in al...
MOTIVATION: Transmembrane β barrel proteins (TMBs) are found in the outer membrane of Gram-negative ...
Transmembrane helix (TMH) topology prediction is becoming a focal problem in bioinformatics because ...
Abstract Background Prediction of the transmembrane strands and topology of β-barrel outer membrane ...
Abstract Motivation: Membrane proteins are an abundant and functionally relevant subs...
Motivation: Transmembrane β barrel proteins (TMBs) are found in the outer membrane of Gram-negative ...