Inventories to insights

“In the long course of cell life on this earth it remained, for our age, for our generation, to receive the full ownership of our inheritance. We have entered the cell, the Mansion of our birth and started the inventory of our acquired wealth.” (Albert Claude, Nobel lecture, 1974)

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[2]  J. Hopfield,et al.  From molecular to modular cell biology , 1999, Nature.

[3]  Etienne Gagnon,et al.  The Phagosome Proteome: Insight into Phagosome Functions , 2001 .

[4]  Alexander Rives,et al.  Modular organization of cellular networks , 2003, Proceedings of the National Academy of Sciences of the United States of America.

[5]  R. Ozawa,et al.  A comprehensive two-hybrid analysis to explore the yeast protein interactome , 2001, Proceedings of the National Academy of Sciences of the United States of America.

[6]  M. Mann,et al.  Identification of the proteins of the yeast U1 small nuclear ribonucleoprotein complex by mass spectrometry. , 1997, Proceedings of the National Academy of Sciences of the United States of America.

[7]  Gary D Bader,et al.  Systematic Genetic Analysis with Ordered Arrays of Yeast Deletion Mutants , 2001, Science.

[8]  B. Chait,et al.  Analysis of phosphorylated proteins and peptides by mass spectrometry. , 2001, Current opinion in chemical biology.

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[11]  L. Hood,et al.  Complementary Profiling of Gene Expression at the Transcriptome and Proteome Levels in Saccharomyces cerevisiae*S , 2002, Molecular & Cellular Proteomics.

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[14]  M. Elowitz,et al.  Combinatorial Synthesis of Genetic Networks , 2002, Science.

[15]  G. Church,et al.  Correlation between transcriptome and interactome mapping data from Saccharomyces cerevisiae , 2001, Nature Genetics.

[16]  S. Patterson,et al.  Mass spectrometry and proteomics. , 2000, Physiological genomics.

[17]  J. Shabanowitz,et al.  Phosphoproteome analysis by mass spectrometry and its application to Saccharomyces cerevisiae , 2002, Nature Biotechnology.

[18]  Identification of the proteins of the yeast U1 small nuclear ribonucleoprotein complex by mass spectrometry , 1997 .

[19]  Toshihiko Oka,et al.  Oligosaccharide specificity of galectins: a search by frontal affinity chromatography. , 2002, Biochimica et biophysica acta.

[20]  P. Bork,et al.  Functional organization of the yeast proteome by systematic analysis of protein complexes , 2002, Nature.

[21]  S. Gygi,et al.  Quantitative analysis of complex protein mixtures using isotope-coded affinity tags , 1999, Nature Biotechnology.

[22]  Benno Schwikowski,et al.  Discovering regulatory and signalling circuits in molecular interaction networks , 2002, ISMB.

[23]  Jyoti S. Choudhary,et al.  Proteomics Characterization of Abundant Golgi Membrane Proteins* , 2001, The Journal of Biological Chemistry.

[24]  L. Hood,et al.  A Genomic Regulatory Network for Development , 2002, Science.

[25]  A. Arkin Synthetic cell biology. , 2001, Current opinion in biotechnology.

[26]  Trey Ideker,et al.  Transcriptome profiling to identify genes involved in peroxisome assembly and function , 2002, The Journal of cell biology.

[27]  James R. Knight,et al.  A comprehensive analysis of protein–protein interactions in Saccharomyces cerevisiae , 2000, Nature.

[28]  M. Snyder,et al.  Emerging technologies in yeast genomics , 2001, Nature Reviews Genetics.

[29]  Ronald W. Davis,et al.  Quantitative phenotypic analysis of yeast deletion mutants using a highly parallel molecular bar–coding strategy , 1996, Nature Genetics.

[30]  Nicola J. Rinaldi,et al.  Transcriptional Regulatory Networks in Saccharomyces cerevisiae , 2002, Science.