Biology Reference
In-Depth Information
85.
Segal, E., et al. Module networks: identifying regulatory modules and
their condition-specific regulators from gene expression data
. Nature
Genetics
, 34(2):166-76, 2003.
86.
Wang, W., et al. A systematic approach to reconstructing transcription
networks in
Saccharomyces cerevisiae. Proceedings of the National Academy of
Sciences USA
, 99(26):16893-8, 2002.
87.
Mnaimneh, S., et al. Exploration of essential gene functions via titratable
promoter alleles
. Cell
, 118(1):31-44, 2004.
88.
Hughes, T. R., et al. Functional discovery via a compendium of expres-
sion profiles
. Cell
, 102(1):109-26, 2000.
89.
Ideker, T., et al. Integrated genomic and proteomic analyses of a
systematically perturbed metabolic network
. Science
, 292(May 4):929-34,
2001.
90.
Oshima, T., et al. Transcriptome analysis of all two-component regula-
tory system mutants of
Escherichia coli
K-12
. Molecular Microbiology
,
46(1):281-91, 2002.
91.
Ren, B., et al. Genome-wide location and function of DNA binding
proteins
. Science
, 290(5500):2306-9, 2000.
92.
Iyer, V. R., et al. Genomic binding sites of the yeast cell-cycle transcription
factors SBF and MBF
. Nature
, 409(6819):533-8, 2001.
93.
Lee, T. I., et al. Transcriptional regulatory networks in
Saccharomyces
cerevisiae. Science
, 298(5594):799-804, 2002.
94.
Harbison, C. T., et al. Transcriptional regulatory code of a eukaryotic
genome
. Nature
, 431(7004):99-104, 2004.
95.
Laub, M. T., et al. Genes directly controlled by CtrA, a master regulator
of the
Caulobacter
cell cycle
. Proceedings of the National Academy of Sciences
USA
, 99(7):4632-7, 2002.
96.
Odom, D. T., et al. Control of pancreas and liver gene expression by
HNF transcription factors
. Science
, 303(5662):1378-81, 2004.
97.
Zeitlinger, J., et al. Program-specific distribution of a transcription factor
dependent on partner transcription factor and MAPK signaling
. Cell
,
113(3):395-404, 2003.
98.
Hartemink, A. J., et al. Combining location and expression data for
principled discovery of genetic regulatory network models
.
Pacific
Symposium in Biocomputing
, 437-49, 2002.
99.
Liu, X. S., D. L. Brutlag and J. S. Liu. An algorithm for finding protein
DNA binding sites with applications to chromatin-immunoprecipitation
microarray experiments
. Nature Biotechnology
, 8:8, 2002.
100.
Bar-Joseph, Z., et al. Computational discovery of gene modules and
regulatory networks.
Nature Biotechnology
, 21(11):1337-42, 2003.
101.
Yeang, C. H., T. Ideker and T. Jaakkola. Physical network models.
Journal
of Computational Biology
, 11(2-3):243-62, 2004.
102.
HerrgÄrd, M. J., B.-S. Lee and B. O. Palsson. Integrated analysis of regu-
latory and metabolic networks reveals novel regulatory mechanisms in
Saccharomyces cerevisiae
.
Genome Research
, 16(5):627-35, 2006.
103.
de Jong, H. Modeling and simulation of genetic regulatory systems:
a literature review.
Journal of Computational Biology
, 9(1):67-103, 2002.
104.
Bolouri, H. and E. H. Davidson. Modeling transcriptional regulatory
networks.
Bioessays
, 24(12):1118-29, 2002.
Search WWH ::
Custom Search