We propose a network-based approach for surmising the spatial organization of genomes from high-throughput interaction data. Our strategy is based on methods for inferring architectural features of networks. Specifically, we employ a community detection algorithm to partition networks of genomic interactions. These community partitions represent an intuitive interpretation of genomic organization from interaction data. Furthermore, they are able to recapitulate known aspects of the spatial organization of the Saccharomyces cerevisiae genome, such as the rosette conformation of the genome, the clustering of centromeres, as well as tRNAs, and telomeres. We also demonstrate that simple architectural features of genomic interaction networks, su...
Computational prediction of functionally related groups of genes (functional modules) from large-sca...
Motivated by an interest to understand how information is organized within genomes, and how genes co...
Life within an organism is sustained by biomolecular interactions. Mapping networks of interactions ...
We propose a network-based approach for surmising the spatial organization of genomes from high-thro...
<div><p>We propose a network-based approach for surmising the spatial organization of genomes from h...
Abstract — Many biological systems can be modeled as networks. Hence, network analysis is of increas...
Abstract Background The study of complex biological n...
Abstract. To investigate the structure of the genomic interaction net-work built from yeast gene-exp...
With the rapid development of modern computational techniques, more complex systems have been found ...
Previous studies have suggested that the location of genes in genomes is not random; instead they ma...
Experimental techniques for the investigation of three-dimensional (3D) genome organization are bein...
Network biology is a rapidly developing area of biomedical research and reflects the current view th...
Background: Structural interaction frequency matrices between all genome loci are now experimentally...
AbstractContinuing improvements in DNA sequencing technologies are providing us with vast amounts of...
Genome-wide maps of chromosomal interactions are becoming increasingly common. Computational tools ...
Computational prediction of functionally related groups of genes (functional modules) from large-sca...
Motivated by an interest to understand how information is organized within genomes, and how genes co...
Life within an organism is sustained by biomolecular interactions. Mapping networks of interactions ...
We propose a network-based approach for surmising the spatial organization of genomes from high-thro...
<div><p>We propose a network-based approach for surmising the spatial organization of genomes from h...
Abstract — Many biological systems can be modeled as networks. Hence, network analysis is of increas...
Abstract Background The study of complex biological n...
Abstract. To investigate the structure of the genomic interaction net-work built from yeast gene-exp...
With the rapid development of modern computational techniques, more complex systems have been found ...
Previous studies have suggested that the location of genes in genomes is not random; instead they ma...
Experimental techniques for the investigation of three-dimensional (3D) genome organization are bein...
Network biology is a rapidly developing area of biomedical research and reflects the current view th...
Background: Structural interaction frequency matrices between all genome loci are now experimentally...
AbstractContinuing improvements in DNA sequencing technologies are providing us with vast amounts of...
Genome-wide maps of chromosomal interactions are becoming increasingly common. Computational tools ...
Computational prediction of functionally related groups of genes (functional modules) from large-sca...
Motivated by an interest to understand how information is organized within genomes, and how genes co...
Life within an organism is sustained by biomolecular interactions. Mapping networks of interactions ...