Harvard Medical School, Harvard University, P.O.Box 400888, Cambridge, Massachusetts 02115 USA
National Human Genome Research Institute, National Institutes of Health, Bethesda, MD 20852 USA
Department of Computer Science, University of Georgia, Athens, Georgia, 30602, USA
Department of Biological Science, University of Southern Mississippi, Hattiesburg, 39406, USA
Abstract
Supported by National Science Foundation (NSF), International Society of Intelligent Biological Medicine (ISIBM), International Journal of Computational Biology and Drug Design and International Journal of Functional Informatics and Personalized Medicine, IEEE 7th Bioinformatics and Bioengineering attracted more than 600 papers and 500 researchers and medical doctors. It was the only synergistic inter/multidisciplinary IEEE conference with 24 Keynote Lectures, 7 Tutorials, 5 Cutting-Edge Research Workshops and 32 Scientific Sessions including 11 Special Research Interest Sessions that were designed dynamically at Harvard in response to the current research trends and advances. The committee was very grateful for the IEEE Plenary Keynote Lectures given by: Dr. A. Keith Dunker (Indiana), Dr. Jun Liu (Harvard), Dr. Brian Athey (Michigan), Dr. Mark Borodovsky (Georgia Tech and President of ISIBM), Dr. Hamid Arabnia (Georgia and Vice-President of ISIBM), Dr. Ruzena Bajcsy (Berkeley and Member of United States National Academy of Engineering and Member of United States Institute of Medicine of the National Academies), Dr. Mary Yang (United States National Institutes of Health and Oak Ridge, DOE), Dr. Chih-Ming Ho (UCLA and Member of United States National Academy of Engineering and Academician of Academia Sinica), Dr. Andy Baxevanis (United States National Institutes of Health), Dr. Arif Ghafoor (Purdue), Dr. John Quackenbush (Harvard), Dr. Eric Jakobsson (UIUC), Dr. Vladimir Uversky (Indiana), Dr. Laura Elnitski (United States National Institutes of Health) and other world-class scientific leaders. The Harvard meeting was a large academic event 100% full-sponsored by IEEE financially and academically. After a rigorous peer-review process, the committee selected 27 high-quality research papers from 600 submissions. The committee is grateful for contributions from keynote speakers Dr. Russ Altman (IEEE BIBM conference keynote lecturer on combining simulation and machine learning to recognize function in 4D), Dr. Mary Qu Yang (IEEE BIBM workshop keynote lecturer on new initiatives of detecting microscopic disease using machine learning and molecular biology, http://ieeexplore.ieee.org/servlet/opac?punumber=4425386) and Dr. Jack Y. Yang (IEEE BIBM workshop keynote lecturer on data mining and knowledge discovery in translational medicine) from the first IEEE Computer Society BioInformatics and BioMedicine (IEEE BIBM) international conference and workshops, November 2-4, 2007, Silicon Valley, California, USA.
Introduction
Advent of high-throughput sequencing and advanced molecular imaging technologies marked the beginning of a new era for modern translational and personalized medicine. The impact of sequencing human and comparative genomes along with modern digital images in hand has also created the fast development of high performance computing and bioinformatics research, which will obviously have a profound effect on how biomedical research will be conducted toward the improvement of human health and prolonging of human life in the future. Supported by the United States National Science Foundation (NSF), the International Society of Intelligent Biological Medicine (ISIBM, http://www.ISIBM.org), the ISIBM's official journals: the International Journal of Computational Biology and Drug Design (IJCBDD, http://www.inderscience.com/IJCBDD), and the International Journal of Functional Informatics and Personalized Medicine (IJFIPM, http://www.inderscience.com/IJFIPM), the IEEE 7th Bioinformatics and Bioengineering at Harvard Medical School was designed to touch future by promoting today's synergistic cutting edge research and education. It was the only synergistic inter/multidisciplinary IEEE flagship conference in the field fully sponsored (100%) by the Institute of Electrical and Electronics Engineers (IEEE) both financially and academically. IEEE 7th Bioinformatics and Bioengineering received more than 600 research papers and attracted 500 scientists, engineers, medical doctors, faculty and students world-wide gathered at the conference center of Harvard Medical School during October 14–17, 2007 in Boston, Massachusetts USA. All 600 submitted papers were carefully reviewed and evaluated by the program and scientific review committee consisting 273 professors, medical doctors and scientists. The 273 professors, medical doctors and scientists spent great amount of time and efforts in reviewing all submitted papers, tutorials, special interest research and workshop proposals. After the rigorous peer-review process, 27 high-quality research papers were selected from the 7th and 6th IEEE Bioinformatics and Bioengineering, keynote lectures and invited papers from world leading scientists for this BMC Genomics issue. The acceptances of the 27 papers out of 600 papers were based on peer-reviews. The committee is grateful for the contributions from the keynote speakers Dr. Russ B. Altman (IEEE BIBM conference keynote lecturer on combining simulation and machine learning to recognize function in 4D), Dr. Mary Yang (IEEE BIBM workshop keynote lecturer on New initiatives of detecting microscopic disease using machine learning and molecular biology, http://ieeexplore.ieee.org/servlet/opac?punumber=4425386) and Dr. Jack Yang (IEEE BIBM workshop keynote lecturer on data mining and knowledge discovery in translational medicine) from the first IEEE Computer Society BioInformatics and BioMedicine (IEEE BIBM) international conference and workshops, November 2-4, 2007, Silicon Valley, California, USA. The IEEE conference at Harvard has provided a forum for researchers and medical doctors presenting their latest work, sharing and exchanging research ideas, stimulating the potential collaboration and promoting the inter/multi-disciplinary research and education. The 27 cutting-edge research papers presented in this BMC Genomics issue addressed a wide range of research topics in gene regulation, gene network, gene structure prediction, DNA microarray data and ChIP-on-Chip data analysis, protein disorder, protein structure and function, disease prediction, genomics and bioinformatics tools. This BMC Genomics issue resonates the theme of the Harvard meeting: Genomics, Molecular Imaging, Bioinformatics, and Bio-Nano-Info Integration are Synergistic Components of Translational Medicine and Personalized Healthcare.
Scientific themes
This BMC genomics supplement consists of 27 research papers. Those papers can be grouped into following categories based on their contents.
Protein structure and function prediction
More and more experimental evidences showed that many protein functions depend on the unstructured rather than structured state. Despite extensive data on many important examples, including disease-associated proteins, the importance of disorder for protein function has been largely ignored. As a pioneer in this research field, Dunker's group
It is challenge to annotate the function of new proteins lacking of structure and sequence similarity with the known proteins for the traditional approaches. Altman's group
Protein interactions, which are mediated by domains, are important for most cellular functions. Ren et al.
Gene regulation and network
Bidirectional promoters were abundance in human genome and essential for many tumor suppressor genes. The functional mechanisms underlying the activation of bidirectional promoters are currently uncharacterized. Yang et al.
Chen et al
Feng et al
Gene structure and function
Wu
It is essential to align ontologies from different parties due to a great amount of variety of ontologies constructed under the auspices of the Open Biomedical Ontologies (OBO). Huang et al.
Comparative genomics
When transpositions are dominant, it turns to be very difficult to analyze genome rearrangement using existing approaches. Yue et al
Array-based comparative genomic hybridization (array CGH) is a highly efficient technique that can simultaneously measure DNA copy number at hundreds or thousands of loci. Huang et al
Gene expression and microarray data
There are two papers described their novel techniques of improving the quality of the microarray data. Yang et al.
The clinical application of microarray data is been limited due to requirement to access detailed patient records. Harris et al.
Gene expression data extracted from microarray experiments could generate high-dimensional feature space for discriminating between different classes when thousands of genes are measured simultaneously. Yana et al
Xu et al
Genomics and bioinformatics in disease study
Goh et al.
Sudden death syndrome of soybean is an ec onomically important disease. Yuan et al
Yang et al.
Hewett et al.
When the prostate cancer cell transfer from androgen-dependent to androgen-independent, androgen ablation, the most commonly-used therapy for progressive prostate cancer, is ineffective. Wang et al
Wu et al.
Bio-informatics tool
Extracting information from batch BLAST can be consuming, insufficient, and inaccurate for large dataset. Mehdi et al.
Lieutaud et al.
Promoting emerging cutting-edge research fields
Genomics, bioinformatics and personalized medicine are upcoming emerging fields, and the resonance and synergy of these fields are enormous, which will have profound influence on the advances of science and medicine. In cooperation with International Society of Intelligent Biological Medicine
The conference brought together top researchers from the United States and around the world to exchange research results and address open issues in all aspects of bioinformatics and bioengineering. The IEEE conference hosted a number of cutting-edge research workshops and special interest research sessions in collaboration with leading scientists from the National Human Genome Research Institute (NHGRI) and National Cancer Institute (NCI), National Institutes of Health (NIH), U.S. Department of Health and Human Services, Oak Ridge National Laboratory, U.S. Department of Energy, Indiana University, Purdue University, Georgia Institute of Technology, Southern Illinois University, University of Illinois, University of Michigan, University of California, University of Massachusetts, Harvard Medical School, Harvard University and a number of other national laboratories and major research universities.
Built on the great success of Biocomp – Worldcomp, the aim of the IEEE 7th Bioinformatics and Bioengineering was to assemble a spectrum of affiliated research workshops, distinguished keynote and tutorial lectures and special interest research sessions into a coordinated research meeting. Due to the broad knowledge and scopes that IEEE 7th Bioinformatics and Bioengineering encompassed, the conference received more than 600 high-quality research papers. The traditional IEEE Computer Society 6th Bioinformatics and Bioengineering received 100+ high-quality papers. A significant expansion has been achieved and the acceptance rate for regular research papers was less than 12%. The papers covered broad range of research fields including genomics, bioinformatics and bioengineering that created the theme of the IEEE flagship conference: genomics, molecular imaging, bioinformatics, and bio-nano-info integration are synergistic components of translational and personalized medicine research.
Major organizers of the IEEE 7th Bioinformatics and Bioengineering who hold formal degrees in the fields of both engineering and biophysical/biomedical sciences with many years of research, teaching and engineering practice experiences realized the power and needs of synergistic engineering and biomedical research based on their professional experience. They and all other organizers are dedicated to promote such inter/multidisciplinary research and education. Therefore, the IEEE 7th Bioinformatics and Bioengineering has been designed to be responsive to the need for synergistic inter/multidisciplinary research and education. For that reason, it is the only meeting whose components are also defined dynamically in response to specific needs of largest number of keynote lectures, cutting-edge research tutorial lectures, special interest research workshops and special sessions with academic supports and contributions from leading scientists at NIH, national laboratories and research universities. Each proposal and nomination has been reviewed and voted by the IEEE 7th Bioinformatics and Bioengineering committee to ensure that participants would be benefited significantly from the academic event. We are very grateful for the IEEE Bioinformatics and Bioengineering Plenary Keynote Lectures given by:
1. Dr. A. Keith Dunker (Indiana University and Purdue University),
2. Dr. Jun S. Liu (Harvard University and Massachusetts Institute of Technology),
3. Dr. Andy Baxevanis (National Human Genome Research Institute, National Institutes of Health, United States Department of Health and Human Services),
4. Dr. Mark Borodovsky (International Society of Intelligent Biological Medicine and Georgia Institute of Technology),
5. Dr. Brian D. Athey (University Michigan and the National Center for Integrative Biomedical Informatics),
6. Dr. Hamid R. Arabnia (International Society of Intelligent Biological Medicine and University of Georgia)
7. Dr. Ruzena Bajcsy (University of California at Berkeley and Member of United States National Academy of Engineering and, Member of United States Institute of Medicine of the National Academies).
8. Dr. Ferenc A. Jolesz (Harvard University and Member of United States Institute of Medicine of the National Academies).
9. Dr. Mary Qu Yang (National Human Genome Research Institute, National Institutes of Health, U.S. Department of Health and Human Services and Oak Ridge, DOE),
10. Dr. Chih-Ming Ho (University of California at Los Angles and Member of United States National Academy of Engineering and Academician of Academia Sinica).
11. Dr. John Quackenbush (Harvard School of Public Health & Dana-Farber Cancer Institute),
12. Dr. Arif Ghafoor (Purdue University, West Lafayette),
13. Dr. Laura L. Elnitski (National Human Genome Research Institute, National Institutes of Health (NIH), U. S. Department of Health and Human Services),
14. Dr. Eric Jakobsson (University of Illinois at Urbana-Champaign and the National Center for Design of Biomimetic Nanoconductors)
15. Dr. Tony Xiaohua Hu (Drexel University and the IEEE Computer Society),
16. Dr. Patrick S. P. Wang (Northeastern University and Massachusetts Institute of Technology),
17. Dr. Steven E. Seltzer (Harvard Medical School & Brigham & Women's Hospital),
18. Dr. Yi Pan (Georgia State University),
19. Dr. Jay Steve Loeffler (Harvard Medical School and Massachusetts General Hospital),
20. Dr. Yuehui Chen (University of Jinan)
21. Dr. Linda Molnar (National Cancer Institute, National Institutes of Health (NIH), United States Department of Health and Human Services),
22. Dr. Vladimir N. Uversky (Indiana University School of Medicine),
23. Dr. Gary Gottlieb (Harvard Medical School and Brigham & Women's Hospital),
24. Dr. Larry O. Hall (University of South Florida and the IEEE/SMC).
And the Advanced Cutting-Edge Research and Education Tutorial Lectures given by:
1. Dr. David Lightfoot (Southern Illinois University, Carbondale),
2. Dr. Igor B. Zhulin (Oak Ridge National Laboratory, DOE and University of Tennessee),
3. Dr. May D. Wang (Georgia Institute of Technology and Emory University),
4. Dr. Yehuda Braiman (Oak Ridge National Laboratory, U.S. Department of Energy),
5. Dr. Craig A. Stewart (Indiana University, Bloomington),
6. Dr. Tian Zheng (Columbia University),
7. Dr. Michelle M. Zhu (International Society of Intelligent Biological Medicine, and Oak Ridge National Laboratory and the Southern Illinois University)
Obviously, the conference would not have achieved such a great success without the hard work and voluntary efforts by many contributors. Organizing such a major academic event in the fields is not possible without contributions from members of program and scientific review committee. Thanks must be given to them for their professionalisms. We must express our sincere gratitude to Mary Qu Yang, Vladimir N. Uversky, Yunlong Liu and the program and scientific review committee members for their high-quality timely evaluation of more than 600 full-length regular research papers, as well as an additional large set of poster submissions. We must extend our sincere thanks to all chairs, organizers and committee members (names and affiliations are listed below) for their dedications and professional services. In particular, Hamid R. Arabnia, Walker Land, Jr., Homayoun Valafar and the award committee members dedicated themselves to the unbiased evaluation and selection of the best papers, and the NSF student travel fellowships; Yanqing Zhang and Michelle M. Zhu managed the paper submission system and handled various important organizing and academic affairs; Youping Deng handled not only registration and finance but also reviewed a large number of papers; Jonathan Jesneck and Pengyu Hong helped local arrangements; Qingzhong Liu, Mehdi Pirooznia, Zejin Jason Ding, and Bingxin Shen maintained the website. Walker Land, Jr., Guo-Zheng Li, Hamid R. Arabnia, Youping Deng, Michelle M. Zhu and Jack Y. Yang helped Scientific Review Committee Co-Chairs in the overall systematic evalutions of all reviewers' comments and ranks. Michelle M. Zhu, Heng Huang, Nikolaos G. Bourbakis and Jun Ni helped in the overall organization of the conference and Michelle M. Zhu arranged the scientific presentations and program schedules; Jack Y. Yang initiated the organization of the IEEE 7th Bioinformatics and Bioengineering and guided the committees as well as managed the overall infrastructure of the IEEE conference. Mary Qu Yang and Jack Y. Yang initiated not only the journal issues but also the NSF proposals that provided funds to support students' travel; this is the first time that IEEE Bioinformatics and Bioengineering is now not only offering leading scientific journal issues such as
The theme of the IEEE 7th Bioinformatics and Bioengineering at Harvard Medical School was to promote the genomics, molecular imaging, bioinformatics, and bio-nano-info integration research that are important components of translational and personalized medicine. Intellectual Merits include:
(1) Maximize learning outcomes (a lot of internationally recognized experts delivered keynotes and tutorials with large audience. The great learning outcomes have achieved, and
(2) Maximize research outcomes (because students and young investigators are major future research experts and next-generation scientists to develop new techniques in bioinformatics, genomics and bioengineering, now it is necessary to provide them with the best chances to improve themselves. So the more students and scientists attended, the more benefits in research knowledge they would obtain. The conference has achieved above goal using the model of World Congress on Computer Science, Computer Engineering and Applied Computing.
Broader impacts include
(1) Benefits in education: students and researchers who were really needed helps do have chances to attend IEEE 7th Bioinformatics and Bioengineering to meet experts and listen to research presentations with a travel fellowship program, and
(2) Benefits in research: students and scientists had opportunities to discuss research ideas with experts and have future collaborative projects with other researchers.
The NSF student travel fellowship and best paper awards
To increase participation of underrepresented groups such as minorities, women, and disabled individuals, Drs. Jack Y. Yang, Yanqing Zhang, and Youping Deng submitted a grant proposal to the United States National Science Foundation, which led to a successfully funding of IEEE 7th Bioinformatics and Bioengineering by the NSF. A committee chaired by Prof. Hamid R. Arabnia, and Co-Chaired by Prof. Walker Land, Jr., Prof. Homayoun Valafar, Prof. Yunlong Liu, Prof. Michelle M. Zhu, Prof. Jonathan Jesneck, Prof. Yuehui Chen, Prof. Yufang Jin, Prof. Alex Zelikovsky, Prof. Chung-Kuan Cheng and Prof. Anu Bourgeois was formed to select the NSF student travel fellowships, best papers and best posters. IEEE Bioinformatics and Bioengineering Best Paper Awards were conferred to the authors of (1) the best research papers (2) the best application papers (3) the best inter/multidisciplinary papers (4) the best student papers. Foundational and original results were considered for the best research paper awards; application-oriented submissions were considered for the best application paper awards; original research papers that significantly promote synergistic inter/multidisciplinary research were considered for the best inter/multidisciplinary papers and papers first authored by students (graduate or undergraduate full-time students) were considered for the best student paper awards. The winners determined by the committee are listed below:
NSF student travel fellowship awards
Alessandro Abate, University of California at Berkeley
Benard Chen, Georgia State University
Stephanie Jimenez Irausquin, University of South Carolina
Vidya Kamath, University of South Florida
Majid Masso, George Mason University
John Jiazheng Yuan, Southern Illinois University
Arun Rawat, University of Southern Mississippi
Qiong Chen, Georgia State University
Best Research – Best Paper Awards:
First Runner-Up Best Student Research
Bernard Chen, Stephen Pellicer, Phang C. Tai, Robert Harrison and Yi Pan.
Super Granular SVM Feature Elimination (Super GSVM-FE) Model for Protein Sequence Motif Information Extraction
Georgia State University
Best Student Research
Alessandro Abate, Yu Bai, Nathalie Sznajder, Carolyn Talcott and Ashish Tiwari.
Quantitative and Probabilistic Modeling in Pathway Logic
University of California at Berkeley Stanford University
First Runner-Up Best Application Research
Stephanie Jimenez Irausquin and Liangjiang Wang.
A Machine Learning Approach for Prediction of Lipid-Interacting Residues in Amino Acid Sequences.
Clemson University
University of South Carolina
Best Application Research
Jeffrey Tilson, Gloria Rendon, Mao-Feng Ger and Eric Jakobsson.
MotifNetwork: A Grid-enabled Workflow for High-throughput Domain Analysis of Biological Sequences
University of Illinois at Urbana-Champaign
First Runner-Up Best Inter/Multidisciplinary Research Shibin Qiu and Terran Lane.
The RNA String Kernel for siRNA Efficacy Prediction.
University of New Mexico
Best Inter/Multidisciplinary Research
Guo-Zheng Li, Xue-Qiang Zeng, Jack Y. Yang and Mary Qu Yang
Partial Least Squares Based Dimension Reduction with Gene Selection for Tumor Classification.
Shanghai University
Harvard University
National Institutes of Health (NIH).
First Runner-Up Best Original Research
Yunfeng Yang, Mengxia (Michelle) Zhu, Liyou Wu and Jizhong Zhou.
Biostatistical Considerations of the Use of Genomic DNA Reference in Microarrays.
Oak Ridge National Laboratory, United States Department of Energy.
Southern Illinois University.
Best Original Research
Keith Dunker, Christopher J. Oldfield, Jingwei Meng, Pedro Romero, Jack Y. Yang, Zoran Obradovic and Vladimir N. Uversky.
Intrinsically Disordered Proteins: An Update.
Indiana University
Indiana University Purdue University
The IEEE 7th Bioinformatics and Bioengineering as a large IEEE flagship international conference with 7 years of tradition and leading reputation provided an important platform at the conference center of Harvard Medical School for scientific discussions and collaborations. Because the IEEE 7th Bioinformatics and Bioengineering received more than 600 papers in more diverse fields, the committee had decided to review and rank the papers in different categories in accordance to the enormous expansion of the conference. For example, the Best Inter/Multidisciplinary research category was newly created by the committee. Comparably, the IEEE 6th Bioinformatics and Bioengineering was a traditional IEEE Computer Society flagship conference held in Washington, DC – Arlington Virginia on October 15–18, 2006, the IEEE Computer Society conference received more than 100 high-quality papers in more traditional bioinformatics field. The IEEE 6th Bioinformatics and Bioengineering committee chaired by Prof. Nik Bourbakis, Prof. Michael Raymer and Prof. George Karypis determined the following Outstanding Achievement Awards:
Best Original Research Paper Award (also Best Student Paper Award),
Sridhar Ramachandran, Travis Doom, Michael L. Raymer and Dan Krane
Parsimony based Approach to Test the Evolving Master Gene Hypothesis for Human Alu Repeats
Wright State University, Dayton, Ohio, USA
Best Software Tool and Application Research Paper Award
Mary Qu Yang and Jack Y. Yang
IUP : Intrinsic Unstructured Protein Prediction – A Software Tool for Analyzing Polypeptide Structures
National Human Genome Research Institute, National Institutes of Health (NIH), U.S. Department of Health of Human Services.
Harvard Medical School, Harvard University
Educational Service Award
Cathy H. Wu
Genomic and Proteomic Bioinformatics at the Protein Information Resource.
Georgetown Medical Center, Georgetown University
The role of inter/multidisciplinary research and education
Bioinformatics, genomics and bioengineering play fundamental roles in our understanding and designs of biological systems and therapy medicine at all levels of organization, from molecular biology, life sciences to engineering and computer sciences. Bioinformatics is a "bourgeoning out" field that studies the development of algorithms, computational and statistical techniques, and theories to solve formal and practical biomedical problems. It also refers to hypothesis-driven investigations of specific biological problems using computer simulations that carry out with experimental or simulated data, with the primary goal of discovery and the advancement of biological knowledge. Bioinformatics deals with the information and hypotheses. It is a technique-driven research that utilizes many engineering and computer science methods. Bioinformatics focus on the developments of mathematical and computational tools to extract useful information from data produced by high-throughput biological techniques such as genome sequencing, protein sequences, gene regulation, gene networks, ChIP-on-chip and DNA microarrays data as well as mass spectrometry and MRI. Bioinformatics broadly includes systems biology and computational biology.
Bioengineering is a broad-based engineering discipline that studies engineering biological processes involving product design, sustainability and analysis of biological systems. Bioengineering deals with all the biological, medical, pharmaceutical the agricultural fields using engineering methods and approaches. Bioengineering thus deals with living organism and biological products and broadly includes food engineering and biotechnology. It is an engineering field because it deals with practical designs to create usable tangible products. In general, bioengineering attempts to solve the following biomedical problems: 1) mimic biological systems in order to create products; 2) modify and control biological systems so that they can replace, augment, or sustain chemical and mechanical processes; 3) design and developments of medical devices and medical physics technologies.
In order to understand the life, studies of living organisms must be carried out at multiple levels. Bioinformatics deals with problems more at the microscopic level such as genomic, proteomic and molecular biology data analysis, while bioengineering focuses more on macroscopic level such as tissue engineering, cell engineering, medical image analysis and biological and medical devices. However, bioinformatics and bioengineering often exploit the same or similar engineering and computational approaches to solve practical or potentially practical biomedical problems, despite of their different focuses and different studying objects. Because any life is an integrated living organism, studies and research on living organisms must be carried out at global level in order understand the mechanism of living organisms and in order to design effective therapy methods to treat human diseases and promote human health. Up until now research on these two important engineering related fields have been carried out in separate silos, but the synergy of the research on both bioinformatics and bioengineering will prove beneficial.
It is evidently that bioinformatics, genomics and bioengineering all study living organisms from different angles and levels with different focuses but often with same or similar engineering and computer science methods. Since any living organisms are integrated life form and baring this in mind, understanding the mechanisms of living organism and breaking through advances in biological, medical and agricultural sciences etc. require comprehensive studies and research of living organisms at multiple levels and require the combination and integration of knowledge acquired from multiple levels. Using World Congress on Computer Science, Computer Engineering and Applied Computing (Wordcomp) as a model, the IEEE 7th Bioinformatics and Bioengineering was aimed to bridge the gaps of biomedical researches at different levels of studies on living organisms and fosters interdisciplinary and multidisciplinary research and education.
High throughput sequencing and modern imaging technologies foster the development of translational and personalized medicine which use of information and data from genotype, patient's phenotype, level of gene expression and protein interaction to discover biological mechanism, stratify disease, select a medication, plan a therapy, or initiate a preventative measure that is particularly suited to that patient at the time of administration. In addition to genetic information, other factors, including protein disorder, protein aggregation, protein misfolding, medical imaging, and clinical information also play important roles. The 2007 International Conference on Bioinformatics and Computational Biology (Biocomp) was designed in response to the fast development of above inter/multidisciplinary fields
The IEEE 7th Bioinformatics and Bioengineering Organization
Jack Y. Yang
General Chair and Coordinator of Committees on the IEEE 7th Bioinformatics and Bioengineering, Harvard University, Harvard Medical School, USA
Mary Qu Yang
Scientific Review, Advisory, and Steering Committee Chair
National Human Genome Research Institute, National Institutes of Health (NIH), U.S. Department of Health and Human Services, and Oak Ridge, DOE, USA
Michelle M. Zhu
Program Chair
Secretary-General of the International
Hamid R. Arabnia
Program Co-Chair and Award Committee Chair, Vice-President of the
Youping Deng
Program Co-Chair and Registration/Budget Committee Chair, Bioinformatics Associate Editor of the
Yanqing Zhang
Program Co-Chair and Bioinformatics Track Chair, Georgia State University, USA
George T. Y. Chen
Program Co-Chair and Bioengineering Track Chair, Harvard University, Harvard Medical School and Massachusetts General Hospital, USA
Lawrence O. Hall
President of IEEE/SMC, University of South Florida, USA
Zhi-Pei Liang
Co-Chair of Advisory Committee, IEEE/EMBS Vice-President for Conferences, University of Illinois at Urbana Champaign, USA
A. Keith Dunker
Chair of Workshop Proposal Committee, Indiana University, USA
Ying Xu, Co-Chair of Workshop Proposal Committee, University of Georgia and Oak Ridge National Laboratory, DOE, USA
Nikolaos G. Bourbakis, Chair of Founding Steering Committee, Wright State University, USA
Heng Huang, Organizing Chair, Deputy Secretary-General of the
Organizers of Workshop on Bio-Nano-Info Integration for Personalized Medicine
May D. Wang, Georgia Institute of Technology and Emory University School of Medicine.
Linda Molnar, National Cancer Institute, NIH, U.S. Dept. of Health and Human Services, USA.
Eric Jakobsson, National Center for Design of Biomimetic Nanoconductors, and National Center for Supercomputing Applications, University of Illinois at Urbana-Champaign, USA
Organizer of Workshop on Progress toward Petascale Applications in Bioinformatics and Computational Biology
Craig A. Stewart and Malinda Lingwall, Indiana University, Bloomington, USA David Bader, Georgia Institute of Technology
Organizers of Workshop on Joint Research in the Southern Illinois University, University of Illinois, and Oak Ridge National Laboratory, U.S. Department of Energy, U.S.A.
Michelle M. Zhu and William P. Osborne, Southern Illinois University, USA
Laura L. Elnitski, National Human Genome Research Institute, NIH, U.S. Department of Health
Zhi-Pei Liang, IEEE/EMBS Vice-President for Conferences, University of Illinois, USA Igor B. Zhulin, University of Tennessee and Oak Ridge National Laboratory, DOE, USA Yehuda Braiman, Oak Ridge National Lab, DOE, USA
Organizers of IEEE 7th Bioinformatics and Bioengineering Special Workshop – The 4th Annual University of Massachusetts Bioinformatics Conference (folded into main conference)
Georges Grinstein and Ken Marx, University of Massachusetts Lowell, USA
Organizers of Pacific Bioinformatics and Biomedical Engineering Research Workshop (folded into main conference)
Ron Kikinis, Harvard University, Harvard Medical School and BWH, USA
Yuehui Chen, University of Jinan, China
J. Paul Robinson, Purdue University, West Lafayette, USA
Andrew H. Sung, New Mexico Tech., USA
Guo-Zheng Li, Shanghai University, China
Organizer of Special Session on Sequence Alignment and Phylogenetic Analysis. Mark Clement, Brigham Young University, USA
Organizers of Special Session on DNA Microarray Data Analysis.
Chris Ding, Lawrence Berkeley National Laboratory and University of California, USA
Heng Huang, University of Texas at Arlington, USA
Organizers of Special Session on Bio-Medical Soft Computing
Qingzhong Liu, Srinivas Mukkamala and Andrew H. Sung, New Mexico Tech., USA
Organizers of Special Session on Research in Bioinformatics, Neuroinformatics, and Systems Biology in East Asia.
Hyunsoo Kim, Georgia Institute of Technology, USA
Sun Kim, Indiana University, Bloomington, USA
Doheon Lee, Korea Advanced Institute of Science and Technology, Korea
Organizers of Special Session: Developing Algorithms for Solving Problems in Molecular Biology and Bio-Medicine.
Guo-Zheng Li, Shanghai University, China
Saurabh Sinha, University of Illinois at Urbana-Champaign, USA
Organizer of Special Session on High-throughput Data Analysis for Genomics and Proteomics.
Jean Gao, University of Texas at Arlington, USA.
Organizers of Special Session on Computational Intelligence in Medical Informatics.
Jianlin Cheng, University of Missouri, USA
Jijun Tang, University of South Carolina, USA
Organizers of Special Session on Bio-Complexity.
Matthias Dehmer, Max F. Perutz Laboratories, Vienna Bio Center, Austria
Frank Emmert-Streib, Washington University, USA
Organizers of Special Session on Evolutionary Systems Biology.
Xun Gu, Iowa State University, USA
Yufeng Wang, University of Texas at San Antonio, USA
Organizer of Special Session on Pattern Recognition and Gene Discovery in Molecular Genetics.
Sridhar Ramachandran, Indiana University, Southeast, USA
Organizer of Special Session on Machine Learning Methods in Structural/Functional Genomics.
Rui Kuang, University of Minnesota, USA
Organizers of Special Session on Biomedical Engineering for Handicapped Individuals
Nikolaos G. Bourbakis, Wright State University, USA
Jack Y. Yang, Harvard University, Harvard Medical School, USA
Inter/Multidisciplinary Chair
Mary Qu Yang, National Human Genome Research Institute, NIH, and Oak Ridge, DOE, USA
Co-Chairs of Publication Committee
Yuehui Chen, University of Jinan, China
Yufang Jin, University of Texas at San Antonio, USA
Alex Zelikovsky, Georgia State University, USA
Co-Chairs of Award Committee
Hamid R. Arabnia, University of Georgia, USA
Walker Land, Jr., Binghamton University, USA
Homayoun Valafar, University of South Carolina, Columbia, USA
Head of Panel on Best Papers and NSF Travel Fellowships
Hamid R. Arabnia, University of Georgia, USA
Co-Chairs of Tutorial Proposal Committee
Joydeep Ghosh, University of Texas at Austin, USA
Vasile Palade, Oxford University, United Kingdom
My Tra Thai, University of Florida, USA
Poster Chairs
Chung-Kuan Cheng, University of California at San Diego, USA
Jonathan Jesneck, Broad Institute of Massachusetts Institute of Technology and Harvard, USA
Michael L. Raymer, Wright State University, USA
Publicity Chairs
Okan K. Ersoy, Purdue University, West Lafayette, USA
Lihua Li, Hangzhou Dianzi University, China
Yingshu Li, Georgia State University, USA
Liqiang Zhang, Indiana University, South Bend USA
Web Chairs
Zejin Jason Ding, Georgia State University, USA
Qingzhong Liu, New Mexico Tech, USA
Mehdi Pirooznia, University of Southern Mississippi, USA
Bingxin Shen, Brookhaven National Lab and Stony Brook University, USA
Industry Chairs
Kevin Daimi, University of Detroit Mercy, USA
Deanne Taylor, Harvard School of Public Health, Harvard University, USA
Joe Zhou, Monash University, Australia and Hong Kong Polytechnic University, Hong Kong
International Chair (Visa Request Chair)
Anu Bourgeois, Georgia State University, USA
Local Chairs
Gil Alterovitz, Harvard Medical School and Massachusetts Institute of Technology, USA
Marek Ancukiewicz, Harvard Medical School and Massachusetts General Hospital, USA
Jonathan Jesneck, Harvard Medical School and Massachusetts Institute of Technology, USA
Pengyu Hong, Brandeis University and National Center of Behavioral Genomics, USA
Marco Ramoni, Harvard Medical School and Massachusetts Institute of Technology, USA
Program Vice-Chairs
Yuehui Chen, University of Jinan, USA
Jun Ni, University of Iowa USA
Vladimir N. Uversky, Indiana University School of Medicine, USA
Patrick S. Wang, Northeastern University, USA
Co-Chairs of Scientific Review Committee
Yunlong Liu, Indiana University Purdue University, USA
Vladimir Uversky, Indiana University School of Medicine, USA
Mary Qu Yang, National Human Genome Research Institute, NIH, & Oak Ridge, DOE. USA
Co-Chairs of Advisory Committee
Zhi-Pei Liang, IEEE/EMBS Vice-President for Conferences, University of Illinois, USA.
Mary Qu Yang, National Human Genome Research Institute, NIH, and Oak Ridge, DOE, USA
Members of program and scientific review committee
1. Purang Abolmaesumi, Queen's University, Canada
2. Ajith Abraham, Chung-Ang University, South Korea
3. Osman Abul, TOBB University of Economics and Technology, Turkey
4. R. Acharya, Pennsylvania State University, USA
5. Reda Alhajj, University of Calgary, Canada
6. Gil Alterovitz, Massachusetts Institute of Technology and Harvard University, USA
7. Sergio A. Alvarez, Boston College, USA
8. Marek Ancukiewicz, Harvard University, Harvard Medical School and MGH, USA
9. Neculai Archip, Harvard University, USA
10. Babak Akhgar, Sheffield Hallam University, UK
11. Hisham Al-Mubaid, University of Houston – Clear Lake, USA
12. Hamid R. Arabnia, University of Georgia, USA
13. Brain D. Athey, University of Michigan, USA
14. Fred Azar, University of Pennsylvania, USA
15. David Bader, Georgia Tech, USA
16. Ruzena Bajcsy, University of California-Berkeley, USA
17. Chengpeng Bi, University of Missouri Kansas City & Children's Mercy Hospitals, USA
18. Emad Boctor, Johns Hopkins University, USA
19. Nazeih Botros, Southern Illinois University, Carbondale, USA
20. Nikolaos G. Bourbakis, Wright State University, USA
21. Anu Bourgeois, Georgia State University, USA
22. Yehuda Braiman, Oak Ridge National Lab, DOE, USA
23. Hong Cai, University of Texas at San Antonio, USA
24. Liming Cai, University of Georgia, USA
25. Rui Camacho, LIACC/FEUP University of Porto, Portugal
26. Ada Chen, Southern Illinois University, USA
27. Bin Chen, Duke University, USA
28. George T. Y. Chen, Harvard University, Harvard Medical School and MGH, USA
29. Jianer Chen, Texas A&M University, USA
30. Luonan Chen, Osaka Sangyo University, Japan
31. Yuehui Chen, University of Jinan, USA
32. Chao Cheng, University of Southern California, USA
33. Jianlin Cheng, University of Missouri, USA
34. Chung-Kuan, Cheng, University of California (UCSD), USA
35. Qiang Cheng, Wayne State University and Southern Illinois University, USA
36. Sheng Cheng, Shanghai Jiaotong University, China
37. Annie Chiang, Stanford University, USA
38. Sung-Bae Cho, Yonsei University, Korea
39. Albert C. S. Chung, Hong Kong University of Science and Technology, Hong Kong
40. Mark Clement, Brigham Young University, USA
41. Craig W. Codrington, Purdue University, USA
42. Jason Corso, University at Buffalo, USA
43. Jessica Crouch, Old Dominion University, USA
44. Kevin Daimi, University of Detroit Mercy, USA
45. Phuongan Dam, University of Georgia, USA
46. Karen Daniels, University of Massachusetts Lowell, USA
47. Matthias Dehmer, Vienna Bio Center, Austria
48. Youping Deng, University of Southern Mississippi, USA
49. Chris Ding, Lawrence Berkeley National Lab. – University of California, USA
50. Zejin Ding, Georgia State University, USA
51. Karin Dorman, Iowa State University, USA
52. Cheng Du, Chinese Academy of Science, China
53. Ye Duan, University of Missouri, USA
54. Zhong-Hui Duan, University of Akron, USA
55. Werner Dubitzky, University of Ulster, Coleraine, UK
56. A. Keith Dunker, Indiana University Purdue University, USA
57. Mark Ebbert, Brigham Young University, USA
58. Laura L. Elnitski, National Human Genome Research Institute, NIH, USA
59. Frank Emmert-Streib, University of Washington, USA
60. Okan K. Ersoy, Purdue University, West Lafayette, USA
61. Michael Folkert, Massachusetts Institute of Technology and Harvard University, USA
62. Jean Gao, University of Texas at Arlington, USA
63. Jane Geisler-Lee, Southern Illinois University, USA
64. Arif Ghafoor, Purdue University, West Lafayette, USA
65. Joydeep Ghosh, University of Texas at Austin, USA
66. Vicente Grau, University of Oxford, UK
67. Georges Grinstein, University of Massachusetts Lowell, USA
68. Jianying Gu, City University of New York, USA
69. Juntao Guo, University of Georgia, USA
70. Aili Han, Shandong University at Weihai, China
71. Cliff S. Han, Los Alamos National Laboratory, DOE. USA
72. Robert Harrison, Georgia State University, USA
73. Aristotelis Hatzioannou, the National Science Foundation of Greece, Greece
74. Haibo He, Stevens Institute of Technology, USA
75. Rattikorn Hewett, Texas Tech University, USA
76. Vasant Honavar, Iowa State University, USA
77. Pengyu Hong, Brandeis University and National Center for Behavior Genomics, USA
78. David Hsu, National University of Singapore, Singapore
79. Wen-Lian Hsu, Academia Sinica, Taiwan
80. Tony Xiaohua Hu, Drexel University, USA
81. Yuh-Jyh Hu, National Chiao Tung University, Taiwan
82. Heng Huang, University of Texas at Arlington, USA
83. Xudong Huang, Harvard University and Massachusetts Institute of Technology, USA
84. Yalou Huang, Naikai University, China
85. Eric Jakobsson, University of Illinois at Urbana-Champaign, USA
86. Jonathan Jesneck, Harvard University, Harvard Medical School and DFCI, USA
87. Tao Jiang, University of California-Riverside, USA
88. Tianzi Jiang, Chinese Academy of Science, China
89. Yuan Jiang, Nanjing University, China
90. Bo Jin, Medical University of South Carolina, USA
91. Yufang Jin, University of Texas at San Antonio, USA
92. Mehmed Kantardzic, University of Louisville, USA
93. George Karypis, University of Minnesota, USA
94. Paul Keall, Stanford University, USA
95. Arpad Kelemen, Niagara University, USA
96. Daisuke Kihara, Purdue University, West Lafayette, USA
97. Ron Kikinis, Harvard University, Harvard Medical School and BWH, USA
98. Hyunsoo Kim, Georgia Institute of Technology, USA
99. Sun Kim, Indiana University, USA
100. Meena Kishore Sakharkar, Nanyang Technological University, Singapore
101. Thomas Knudsen, University of Louisville, USA
102. Shawn Konecni, University of Massachusetts Lowell, USA
103. Stefan C. Kremer, University of Guelph, Canada
104. Rui Kuang, University of Minnesota, USA
105. Vipin Kumar, University of Minnesota, USA
106. Michael Kwok-Po Ng, Hong Kong Baptist University, Hong Kong
107. Walter Land, Jr., Binghamton University, USA
108. Chang-Shing Lee, National University of Taiwan, Taiwan
109. Doheon Lee, KIST, Korea
110. Haim Levkowitz, University of Massachusetts Lowell, USA
111. Christina M. Li, Duke University, USA
112. Guo-Zheng Li, Shanghai University, China
113. Guoliang Li, National University of Singapore, Singapore
114. Jinyan Li, Institute for Infocomm Research, Singapore
115. Lihua Li, Hangzhou Dianzi University, China
116. Yingshu Li, Georgia State University, USA
117. Hongen Liao, University of Tokyo, Japan
118. Li Liao, University of Delaware, USA
119. Lily Liang, University of the District of Columbia, USA
120. Yanchun Liang, Jilin University, China
121. Yulan Liang, University at Buffalo, USA
122. Zhi-Pei Liang, University of Illinois at Urbana-Champaign, USA
123. David Lightfoot, Southern Illinois University, USA
124. Timothy G. Lilburn, ATCC, USA
125. Guohui Lin, University of Alberta, Canada
126. Malinda Lingwall, Indiana University, Bloomington, USA
127. Qingzhong Liu, New Mexico Tech, USA
128. Tianming Liu, Harvard University, USA
129. Wei Liu, Hangzhou Dianzi University, China
130. Ying Liu, University of Texas at Dallas, USA
131. Yunlong Liu, Indiana University School of Medicine, USA
132. Xiaole Shirley Liu, Harvard University, Harvard School of Public Health, USA
133. Gary Livingston, University of Massachusetts Lowell, USA
134. Marco Loog, University of Copenhagen, Denmark
135. Shiyong Lu, Wayne State University, USA
136. Xiaochun Lu, Duke University, USA
137. Xinghua Lu, Medical University of South Carolina, USA
138. Yi Lu, University of Maryland East Shore, USA
139. Dijun Luo, University of Texas at Arlington, USA
140. Tiejian Luo, Chinese Academy of Science, China
141. Zuojie Luo, Guangxi Medical University, China
142. Carol Lushbough, University of South Dakota, USA
143. Yan Ma, Guangxi Medical University, China
144. Anant Madabhushi, Rutgers University, USA
145. Man-Wai Mak, Hong Kong Polytechnic University, Hong Kong
146. Ion Mandoiu, University of Connecticut, USA
147. Ilias Maglogiannis, University of Aegean, Greece
148. Kezhi Mao, Nanyang Technological University, Singapore
149. Marcos Martin-Fernandez, Harvard University, USA
150. Osamu Maruyama, Kyushu University, Japan
151. Kenneth Marx, University of Massachusetts Lowell, USA
152. Vasilis Megalooikonomou, Temple University, USA
153. Linda Molnar, National Cancer Institute, NIH, US Dept. of Health, USA
154. Jason H. Moore, Dartmouth College, Hitchcock Medical Center, USA
155. Shahriar Movafaghi, University of Southern New Hampshire, USA
156. Palaniswami Mprof, Melbourne University, Australia
157. Srinivas Mukkamala, New Mexico Tech, USA
158. Kayvan Najarian, University of North Carolina at Charlotte, USA
159. Giri Narasimhan, Florida International University, USA
160. Jennifer Neary, University of Texas at San Antonio, USA
161. Kathleen Neumann, Western Illinois University, USA
162. See-Kiong Ng, Institute for Infocomm Research, Singapore
163. Jun Ni, University of Iowa, USA
164. Juan J. Nieto, Universidad de Santiago de Compostela, Spain
165. Zoran Obradovic, Temple University, USA
166. Christopher Oldfield, Indiana University – Purdue University, USA
167. William Osborne, Southern Illinois University Carbondale, USA
168. Vasile Palade, Oxford University, UK
169. Haesun Park, Georgia Institute of Technology, USA
170. Minseo Park, University of Massachusetts Lowell, USA
171. Peter Park, Harvard University, USA
172. Srinivasan Parthasarathy, Ohio State University, USA
173. William Perrizo, North Dakota State University, USA
174. Vinhthuy Phan, Univerisity of Memphis, USA
175. Aleksandar Poleksic, University of Northern Iowa, USA
176. David Pollack, University of Colorado Health Science Center, USA
177. Jun Qin, Duke University, USA
178. Yifeng Qin, Guangxi Medical University, China
179. Sridhar Ramachandran, Indiana University Southeast, USA
180. Marco Ramoni, Massachusetts Institute of Technology and Harvard University, USA
181. Michael L. Raymer, Wright State University, USA
182. Arun Rawat, University of Southern Mississippi, USA
183. Chandan Reddy, Wayne State University, USA
184. J. Paul Robinson, Purdue University, USA
185. Usman W. Roshan, New Jersey Institute of Technology, USA
186. Hagit Shatkay, Queen's University, Canada
187. John Sharko, University of Massachusetts Lowell, USA
188. Bingxin Shen, Brookhaven National Lab. – Stony Brook University (SUNY), USA
189. Hong-Bin Shen, Harvard University, USA
190. Li Shen, Indiana University, USA
191. Prawal Sinha, Indian Institute of Technology Kanpur, India
192. Saurabh Sinha, University of Illinois at Urbana-Champaign, USA
193. Scott Smith, Boise State University, USA
194. Craig A. Stewart, Indiana University, Bloomington, USA
195. Yijun Sun, University of Florida, USA
196. Andrew Sung, New Mexico Tech, USA
197. Wing-Kin Sung, National University of Singapore, USA
198. Jack Szostak, Harvard University, USA
199. David Taniar, Monash University, Australia
200. Jijun Tang, University of South Carolina, USA
201. Yuchun Tang, Georgia State University, USA
202. Rahman Tashakkori, Appalachian State University, USA
203. Jeff Thai, University of Illinois, USA
204. My T. Thai, University of Florida, USA
205. Homayoun Valafar, University of South Carolina (Columbia), USA
206. Thanos Vasilakos, University of Western Macedonia, Greece
207. Vladimir N. Uversky, Indiana University School of Medicine, USA
208. Jason T.L. Wang, New Jersey Institute of Technology, USA
209. Jianzhong Wang, Northeast Normal University, China
210. Li-San Wang, University of Pennsylvania, USA
211. Liangjiang Wang, Clemson University and Greenwood Genetic Center, USA
212. Lipo Wang, Nanyang Technological University, Singapore
213. May D. Wang, Georgia Institute of Technology, USA
214. Partrick Wang, Northeastern University, USA
215. Wei Wang, University of North Carolina at Chapel Hill, USA
216. Xiangyun Wang, Amgen Inc., USA
217. Yufeng Wang, University of Texas at San Antonio, USA
218. Yuhang Wang, Southern Methodist University, USA
219. Zhengyuan Wang, Washington University, USA
220. Lonnie R. Welch, Ohio University, USA
221. Limsoon Wong, National University of Singapore, Singapore
222. Stephen Wong, Harvard University, Harvard Medical School and BWH, USA
223. Hongwei Wu, University of Georgia, USA
224. Qishi Wu, University of Memphis, USA
225. Eric P. Xing, Carnegie Mellon University, USA
226. Fei Xiong, Dartmouth College, USA
227. Dong Xu, University of Missouri-Columbia, USA
228. Jinbo Xu, Toyota Technological Institute at Chicago, USA
229. Min Xu, University of Southern California, USA
230. Ying Xu, University of Georgia and Oak Ridge National Lab., USA
231. Changhui Yan, Utah State University, USA
232. Hong Yan, City University of Hong Kong, Hong Kong
233. Xiting Yan, University of Southern California, USA
234. Jie Yang, Shanghai Jiaotong University, China
235. Laurence T. Yang, St. Francis Xavier University, Canada
236. Luge Yang, University of California at Los Angeles, USA
237. Jack Y. Yang, Harvard University, Harvard Medical School, USA
238. Mary Qu Yang, National Human Genome Research Inst., NIH; & Oak Ridge, DOE, USA
239. Mohammed Yeasin, University of Memphis, USA
240. Tulay Yildirim, Yildiz Technical University, Turkey
241. Illhoi Yoo, University of Missouri, USA
242. Jingkai Yu, Wayne State University, USA
243. John Jiazheng Yuan, Southern Illinois University, USA
244. P. Yuan, IBM, USA
245. Feng Yue, University of South Carolina, USA
246. Mehdi Zagerham, Southern Illinois University, USA
247. Mohammed Zaki, Rensselaer Polytechnic Institute, USA
248. Leonid Zaslavsky, NCBI, NLM, National Institutes of Health, USA
249. Alex Zelikovsky, Georiga State University, USA
250. Jianyang Zeng, Duke University, USA
251. Aidong Zhang, University at Buffalo (SUNY), USA
252. Byoung-Tak Zhang, Seoul National University, South Korea
253. Kangyu Zhang, University of Southern California, USA
254. Liqiang Zhang, Indiana University South Bend, USA
255. Meng Zhang, Jilin University, China
256. Michael Q. Zhang, Cold Spring Harbor Laboratory, USA
257. Qing Zhang, Pharmaceutical Industry, USA
258. Yanqing Zhang, Georgia State University, USA
259. Weixiong Zhang, Washington University (St. Louis), USA
260. Xiang-Sun Zhang, Chinese Academy of Sciences, China
261. Mingyuan Zhao, University of Electronic Science and Technology of China, China
262. Ying Zhao, Tsinghua University, China
263. Jim Zheng, Medical University of South Carolina, USA
264. Tian Zheng, Columbia University, USA
265. Wei Zhong, University of South Carolina Upstate, USA
266. Jianping Zhou, University of Massachusetts Lowell, USA
267. Jie Zhou, Northern Illinois University, USA
268. Joe Zhou, Monash University, Australia
269. Joe Jizhong Zhou, Oak Ridge National Lab. DOE and University of Oklahoma, USA
270. Zhi-Hua Zhou, Nanjing University, China
271. Michelle M. Zhu, Oak Ridge National Lab. and Southern Illinois University, USA
272. Hanqi Zhuang, Florida Atlantic University, USA
273. Igor B. Zhulin, Oak Ridge National Lab, DOE and University of Tennessee, USA
Members of steering and advisory committee
1. Hamid R. Arabnia, University of Georgia, USA
2. Brian D. Athey, University of Michigan and NCIBI, USA
3. Ruzena Bajcsy, University of California, Berkeley, USA
4. Mark Borodovsky, Georgia Institute of Technology, USA
5. Nikolaos G. Bourbakis, Wright State University, USA
6. Philip E. Bourne, University of California at San Diego, USA
7. George T. Y. Chen, Harvard University & Massachusetts General Hospital, USA
8. Yuehui Chen, University of Jinan, China
9. Keith A. Crandall, Brigham Young University, USA
10. Youping Deng, University of Southern Mississippi, USA
11. Laura L. Elnitski, National Human Genome Research Institute, NIH, USA
12. Okan K. Ersoy, Purdue University, West Lafayette, USA
13. Joydeep Ghosh, University of Texas, Austin, USA
14. Georges Grinstein, University of Massachusetts, Lowell, USA
15. Tony Xiaohua Hu, Drexel University, USA
16. Xudong Huang, Harvard University, Harvard Medical School and BWH, USA
17. Eric Jakobsson, University of Illinois at Urbana-Champaign, USA
18. George J. Klir, Binghamton University, USA
19. Thomas Knudsen, University of Louisville, USA
20. Ming Li, University of Waterloo, Canada
21. Zhi-Pei Liang, IEEE/EMBS Vice-President for Conferences, University of Illinois, USA
22. Jun Ni, University of Iowa, USA
23. Andrzej Niemierko, Harvard University & Massachusetts General Hospital, USA
24. Saranummi Niilo, Technical Research Center, Finland
25. Yi Pan, Georgia State University, USA
26. Corrado Priami, University of Trento, Italy
27. John Quackenbush, Harvard School of Public Health and Danna-Faber Cancer Institute, USA
28. Carmelina Ruggiero, University of Genova, Italy
29. Patrick S. Wang, Northeastern University, USA
30. Limsoon Wong, National University of Singapore, Singapore.
31. Jonathan Wren, University of Oklahoma, USA.
32. Jack Y. Yang, Harvard University, Harvard Medical School, USA
33. Mary Qu Yang, National Human Genome Research Inst., NIH; & Oak Ridge, DOE, USA
34. Xin Yao, University of Birmingham, UK
35. Lotfi A. Zadeh, University of California, Berkeley, USA
36. Yanqing Zhang, Georgia State University, USA
37. Michelle M. Zhu, Oak Ridge National Lab, DOE and Southern Illinois University, USA
The IEEE 7th Bioinformatics and Bioengineering committees would like to acknowledge our appreciation of the Institute of Electrical and Electronics Engineers (IEEE), IEEE Systems, Man and Cybernetics Society, IEEE Engineering in Medicine and Biology Society, the International Society of Intelligent Biological Medicine (ISIBM) and the National Science Foundation (NSF) for their academic supports and sponsorships, as well as the support and collaboration from the IEEE Computer Society. The IEEE 7th Bioinformatics and Bioengineering was 100% fully sponsored both financially and academically by the IEEE.
Meeting website
The home page of the IEEE 7th Bioinformatics and Bioengineering is hosted at the website of the International Society of Biological Medicine. The information about the conference can be found on the web site:
Conclusion
As upcoming emerging fields, bioinformatics, genomics and personalized medicine integrate science and engineering with modern state-of-art high performance computing and statistical learning techniques. The synergy of bioinformatics, genomics and personalized medicine has been well received by researchers. Each research paper was reviewed and ranked by experts in fields. As a result of the rigorous review process and stringent evaluation, the committee selected 27 papers for this
Competing interests
The authors declare that they have no competing interests.
Authors' contributions
Jack Y. Yang and Mary Qu Yang wrote the initial version of the paper. Hamid R. Arabnia and Youping Deng finalized the paper. All co-authors have read and unanimously agreed on the paper, participated in the program and scientific review committee to review 600+ submissions and served as co-editors of the
Acknowledgements
The IEEE 7th Bioinformatics and Bioengineering committees cordially thank the Program Chair Professor Michelle M. Zhu for her great leadership in organizing the Program and Scientific Review committee to select high-quality papers. Thanks must be also extended to the Program Co-Chair Professor Yanqing Zhang, the Scientific Review Committee Co-Chairs Professor Vladimir N. Uversky, Professor Walker Land, Jr., Professor Yunlong Liu and Professor Homayoun Valafar, the Organizing Chair Professor Heng Huang and the 273 members of the Program and Scientific Review Committee for their reviewing and evaluating more than 600 researcher papers and the 37 members of the Steering and Advisory Committee for their excellent services and supports. The committee is grateful for the contribution in this BMC Genomics supplement from the keynote speaker Dr. Russ B. Altman (Stanford University) of IEEE BIBM.
The IEEE 7th Bioinformatics and Bioengineering committees would like to express our sincere appreciation to the excellent professional services provided to the
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