Your search keyword '"Hiratani I"' showing total 2 results

1. ReplicationDomain: a visualization tool and comparative database for genome-wide replication timing data

Author

Yokochi Tomoki, Ryba Tyrone, Hiratani Ichiro, Stuy Alexander, Weddington Nodin, and Gilbert David M

Subjects

Computer applications to medicine. Medical informatics, R858-859.7, Biology (General), QH301-705.5

Abstract

Abstract Background Eukaryotic DNA replication is regulated at the level of large chromosomal domains (0.5–5 megabases in mammals) within which replicons are activated relatively synchronously. These domains replicate in a specific temporal order during S-phase and our genome-wide analyses of replication timing have demonstrated that this temporal order of domain replication is a stable property of specific cell types. Results We have developed ReplicationDomain http://www.replicationdomain.org as a web-based database for analysis of genome-wide replication timing maps (replication profiles) from various cell lines and species. This database also provides comparative information of transcriptional expression and is configured to display any genome-wide property (for instance, ChIP-Chip or ChIP-Seq data) via an interactive web interface. Our published microarray data sets are publicly available. Users may graphically display these data sets for a selected genomic region and download the data displayed as text files, or alternatively, download complete genome-wide data sets. Furthermore, we have implemented a user registration system that allows registered users to upload their own data sets. Upon uploading, registered users may choose to: (1) view their data sets privately without sharing; (2) share with other registered users; or (3) make their published or "in press" data sets publicly available, which can fulfill journal and funding agencies' requirements for data sharing. Conclusion ReplicationDomain is a novel and powerful tool to facilitate the comparative visualization of replication timing in various cell types as well as other genome-wide chromatin features and is considerably faster and more convenient than existing browsers when viewing multi-megabase segments of chromosomes. Furthermore, the data upload function with the option of private viewing or sharing of data sets between registered users should be a valuable resource for the scientific community.

Published

2008

2. Space and Time in the Nucleus Developmental Control of Replication Timing and Chromosome Architecture.

Author

GILBERT, D. M., TAKEBAYASHI, S. -I., RYBA, W., LU, J., POPE, B. D., WILSON, K. A., and HIRATANI, I.

Subjects

*SPACETIME, *CELL nuclei, *CHROMOSOMES, *GENOMES, *EUKARYOTIC cells

Abstract

The article discusses research done on space and time in the nucleus in relation to the developmental control of chromosome architecture and replication timing. Segments of genomes are replicated by eukaryotic cells in a temporal sequence. Half of the genome in multicellular organisms is subject to changes in terms of temporal sequence during development. Evidence on the association of the replication program with the three-dimensional architecture of chromatin in the nucleus is discussed.

Published

2010