This thesis is about new and improved computational methods to analyze complex biological data produced by advanced biotechnologies. Such data is not only very large but it also is characterized by very high numbers of features. Addressing these needs, we developed a set of methods and tools that are suitable to analyze large sets of data, including next generation sequencing data, and built transparent models that may be interpreted by researchers not necessarily expert in computing. We focused on brain related diseases. The first aim of the thesis was to employ the meta-server approach to finding peaks in ChIP-seq data. Taking existing peak finders we created an algorithm that produces consensus results better than any single peak finder....
Microarray and beadchip are two most efficient techniques for measuring gene expression and methylat...
This chapter reviews some exciting new techniques for analyzing brain imaging data. We describe com-...
Thesis: Ph. D., Massachusetts Institute of Technology, Computational and Systems Biology Program, Fe...
Biomedical sciences have seen radical growth in recent decades, inspired by a plethora of technologi...
This dissertation develops computational methods for analyzing large-scale genomic and epigenomic da...
This thesis presents new bioinformatic solutions that efficiently can analyze and investigate big da...
Abstract: Since the decoding of the Human Genome, techniques from bioinformatics, statistics, and ma...
Advances in high-throughput technologies have led to the acquisition of various types of -omic data ...
Microarray and beadchip are two most efficient techniques for measuring gene expression and methylat...
This chapter reviews some exciting new techniques for analyzing brain imaging data. We describe comp...
Glioblastoma (GBM) tumors are highly aggressive malignant brain tumors and are resistant to conventi...
Since the decoding of the Human Genome, techniques from bioinformatics, statistics, and machine lear...
Since the decoding of the Human Genome, techniques from bioinformatics, statistics, and machine lear...
Motivation: A rapid technological development in the biosciences and in computer science in the last...
The accumulation of large-scale data gathered from experiments and tests in the medical field prompt...
Microarray and beadchip are two most efficient techniques for measuring gene expression and methylat...
This chapter reviews some exciting new techniques for analyzing brain imaging data. We describe com-...
Thesis: Ph. D., Massachusetts Institute of Technology, Computational and Systems Biology Program, Fe...
Biomedical sciences have seen radical growth in recent decades, inspired by a plethora of technologi...
This dissertation develops computational methods for analyzing large-scale genomic and epigenomic da...
This thesis presents new bioinformatic solutions that efficiently can analyze and investigate big da...
Abstract: Since the decoding of the Human Genome, techniques from bioinformatics, statistics, and ma...
Advances in high-throughput technologies have led to the acquisition of various types of -omic data ...
Microarray and beadchip are two most efficient techniques for measuring gene expression and methylat...
This chapter reviews some exciting new techniques for analyzing brain imaging data. We describe comp...
Glioblastoma (GBM) tumors are highly aggressive malignant brain tumors and are resistant to conventi...
Since the decoding of the Human Genome, techniques from bioinformatics, statistics, and machine lear...
Since the decoding of the Human Genome, techniques from bioinformatics, statistics, and machine lear...
Motivation: A rapid technological development in the biosciences and in computer science in the last...
The accumulation of large-scale data gathered from experiments and tests in the medical field prompt...
Microarray and beadchip are two most efficient techniques for measuring gene expression and methylat...
This chapter reviews some exciting new techniques for analyzing brain imaging data. We describe com-...
Thesis: Ph. D., Massachusetts Institute of Technology, Computational and Systems Biology Program, Fe...