Biology Reference
In-Depth Information
Gruber, T. R. (1993). A translation approach to portable ontology specifications. Knowl. Acqu.
5, 199-220.
Guptasarma, P. (1995). Does replication-induced transcription regulate synthesis of the myr-
iad low copy number proteins of Escherichia coli ? Bioessays 17, 987-997.
Gutenkunst, R. N., Waterfall, J. J., Casey, F. P., Brown, K. S., Myers, C. R., and Sethna, J. P.
(2007). Universally sloppy parameter sensitivities in systems biology models. PLoS Com-
put. Biol. 3, e189.
Haft, D. H., Selengut, J. D., and White, O. (2003). The TIGRFAMs database of protein fam-
ilies. Nucleic Acids Res. 31, 371-373.
Hallinan, J. and Wipat, A. (2006). Clustering and crosstalk in a yeast functional interaction
network. In: 2006 IEEE Symposium on Computational Intelligence in Bioinformatics
and Computational Biology (CIBCB 2006) , IEEE Press.
Hallinan, J., Pocock, M., Addinall, S. G., Lydall, D., and Wipat, A. (2009). Clustering incor-
porating shortest paths identifies relevant modules in functional interaction networks. In:
2009 IEEE Symposium on Computational Intelligence in Bioinformatics and Computa-
tional Biology (CIBCB09) .
Hallinan, J., James, K., andWipat, A. (2011). Network approaches to the functional analysis of
microbial proteins. Adv. Microb. Physiol. 59, 101-123.
Hamming, R. W. (1950). Error detecting and error correcting codes. Bell System Technical
Journal 29, 147-160.
Hartigan, J. A. and Wong, M. A. (1979). Algorithm AS 136: a k -means clustering algorithm.
J. R. Stat. Soc. Ser. C (Applied Statistics) 28, 100-108.
Haykin, S. O.
(2008). Neural Networks and Learning Machines:
(3rd edition)
A Comprehensive Foundation. Pearson: New York.
Hecht-Nielsen, R. (1989). Theory of the backpropagation neural network. In: International
Joint Conference on Neural Networks (IJCNN). San Diego, CA .
HerrgĖšrd, M. (2004). Reconstruction of microbial transcriptional regulatory networks. Curr.
Opin. Biotechnol. 15, 70-77.
Hu, X., Zhang, X., Wu, D., Zhou, X., and Rumm, P. (2008). Text mining the biomedical lit-
erature for identification of potential virus/bacterium as bio-terrorism weapons. Terrorism
Inf. 18, 385-406 Integrated Series in Information Systems.
Hunter, L. and Cohen, K. B. (2006). Biomedical
language processing: what's beyond
PubMed? Mol. Cell 21, 589-594.
Huse, S. M., Welch, D. M., Morrison, H. G., and Sogin, M. L. (2010). Ironing out the wrinkles
in the rare biosphere through improved OTU clustering. Environ. Microbiol. 12,
1889-1898.
Illian, J. B., Prosser, J. I., Baker, K. L., and Rangel-Castro, J. I. (2009). Functional principal
component data analysis: a new method for analysing microbial community fingerprints.
J. Microbiol. Methods 79, 89-95.
James, K., Wipat, A., and Hallinan, J. (2009). Integration of full-coverage probabilistic
functional networks with relevance to specific biological processes. In: Data Integration
in the Life Sciences (DILS2009) , Springer 5647, 31-46.
Janga, S. C. and Collado-Vides, J. (2007). Structure and evolution of gene regulatory networks
in microbial genomes. Res. Microbiol. 158, 787-794.
Jansen, R., Yu, H., Greenbaum, D., Kluger, Y., Krogan, N. J., Chung, S., Emili, A., Snyder, M.,
Greenblatt, J. F., and Gerstein, M. (2003). A Bayesian networks approach for predicting
protein-protein interactions from genomic data. Science 302, 449-453.
Search WWH ::




Custom Search