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Establishing Bioinformatics Research In The Asia Pacific, Shoba Ranganathan, Martti Tammi, Michael Gribskov, Tin Wee Tan
Establishing Bioinformatics Research In The Asia Pacific, Shoba Ranganathan, Martti Tammi, Michael Gribskov, Tin Wee Tan
Department of Biological Sciences Faculty Publications
In 1998, the Asia Pacific Bioinformatics Network (APBioNet), Asia's oldest bioinformatics organisation was set up to champion the advancement of bioinformatics in the Asia Pacific. By 2002, APBioNet was able to gain sufficient critical mass to initiate the first International Conference on Bioinformatics (InCoB) bringing together scientists working in the field of bioinformatics in the region. This year, the InCoB2006 Conference was organized as the 5th annual conference of the Asia-Pacific Bioinformatics Network, on Dec. 18–20, 2006 in New Delhi, India, following a series of successful events in Bangkok (Thailand), Penang (Malaysia), Auckland (New Zealand) and Busan (South Korea). …
Ab Initio Modeling Of The Herpesvirus Vp26 Core Domain Assessed By Cryoem Density., Matthew L. Baker, Wen Jiang, William J. Wedemeyer, Frazer J. Rixon, David Baker, Wah Chiu
Ab Initio Modeling Of The Herpesvirus Vp26 Core Domain Assessed By Cryoem Density., Matthew L. Baker, Wen Jiang, William J. Wedemeyer, Frazer J. Rixon, David Baker, Wah Chiu
Department of Biological Sciences Faculty Publications
Efforts in structural biology have targeted the systematic determination of all protein structures through experimental determination or modeling. In recent years, 3-D electron cryomicroscopy (cryoEM) has assumed an increasingly important role in determining the structures of these large macromolecular assemblies to intermediate resolutions (6–10 Å). While these structures provide a snapshot of the assembly and its components in well-defined functional states, the resolution limits the ability to build accurate structural models. In contrast, sequence-based modeling techniques are capable of producing relatively robust structural models for isolated proteins or domains. In this work, we developed and applied a hybrid modeling approach, …
Wiggle—Predicting Functionally Flexible Regions From Primary Sequence., Jenny Gu, Michael R. Gribskov, Philip E. Bourne
Wiggle—Predicting Functionally Flexible Regions From Primary Sequence., Jenny Gu, Michael R. Gribskov, Philip E. Bourne
Department of Biological Sciences Faculty Publications
The Wiggle series are support vector machine–based predictors that identify regions of functional flexibility using only protein sequence information. Functionally flexible regions are defined as regions that can adopt different conformational states and are assumed to be necessary for bioactivity. Many advances have been made in understanding the relationship between protein sequence and structure. This work contributes to those efforts by making strides to understand the relationship between protein sequence and flexibility. A coarse-grained protein dynamic modeling approach was used to generate the dataset required for support vector machine training. We define our regions of interest based on the participation …
Emd: An Ensemble Algorithm For Discovering Regulatory Motifs In Dna Sequences., Jianjun Hu, Yifeng D. Yang, Daisuke Kihara
Emd: An Ensemble Algorithm For Discovering Regulatory Motifs In Dna Sequences., Jianjun Hu, Yifeng D. Yang, Daisuke Kihara
Department of Biological Sciences Faculty Publications
Background
Understanding gene regulatory networks has become one of the central research problems in bioinformatics. More than thirty algorithms have been proposed to identify DNA regulatory sites during the past thirty years. However, the prediction accuracy of these algorithms is still quite low. Ensemble algorithms have emerged as an effective strategy in bioinformatics for improving the prediction accuracy by exploiting the synergetic prediction capability of multiple algorithms.
Results
We proposed a novel clustering-based ensemble algorithm named EMD for de novo motif discovery by combining multiple predictions from multiple runs of one or more base component algorithms. The ensemble approach is …
Emd: An Ensemble Algorithm For Discovering Regulatory Motifs In Dna Sequences, Jianjun Hu, Yifeng D. Yang, Daisuke Kihara
Emd: An Ensemble Algorithm For Discovering Regulatory Motifs In Dna Sequences, Jianjun Hu, Yifeng D. Yang, Daisuke Kihara
Department of Biological Sciences Faculty Publications
Background
Understanding gene regulatory networks has become one of the central research problems in bioinformatics. More than thirty algorithms have been proposed to identify DNA regulatory sites during the past thirty years. However, the prediction accuracy of these algorithms is still quite low. Ensemble algorithms have emerged as an effective strategy in bioinformatics for improving the prediction accuracy by exploiting the synergetic prediction capability of multiple algorithms.
Results
We proposed a novel clustering-based ensemble algorithm named EMD for de novo motif discovery by combining multiple predictions from multiple runs of one or more base component algorithms. The ensemble approach is …