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BGI-RIS: An integrated information resource and comparative analysis workbench for rice genomics
Download2004
Wang, J., Chen, Y., Zhao, H., Dai, M., Zhao, W., Huang, X., Zhang, Y., Ren. X., Jiao, Y., Wong, G., Wei, S., Ni, P., Yu, J., Zhang, J., Li, S., Yang, H., Fu, J., He, X.
Rice is a major food staple for the world's population and serves as a model species in cereal genome research. The Beijing Genomics Institute (BGI) has long been devoting itself to sequencing, information analysis and biological research of the rice and other crop genomes. In order to facilitate...
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2005
Gorodkin, J., Christensen, O. F., Jørgensen, F. G., Yang, H., Bendixen, C., Brunak, S., Wernersson, R., Panitz, F., Hornshøj, H., Mailund, T., Wong, G.K.S., Dong, W., Wang, J., Li, W., Klein, A., Fredholm, M., Hu, S., Stærfeldt, H.-H., Bolund, L., Liu, B., Schierup, M. H., Yu, J.
Background Comparative whole genome analysis of Mammalia can benefit from the addition of more species. The pig is an obvious choice due to its economic and medical importance as well as its evolutionary position in the artiodactyls. Results We have generated ~3.84 million shotgun sequences...
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ReAS: Recovery of Ancestral Sequences for Transposable Elements from the Unassembled Reads of a Whole Genome Shotgun
Download2005
Ye, C., Wang, J., Li, S., Li, R., Wong, G.K.S., Ye, J., Yang, H., Han, Y., Yu, J.
We describe an algorithm, ReAS, to recover ancestral sequences for transposable elements (TEs) from the unassembled reads of a whole genome shotgun. The main assumptions are that these TEs must exist at high copy numbers across the genome and must not be so old that they are no longer...