List of Faculty Publications

Below is a list of Faculty publications imported from PubMed or manually added. By default, publications are sorted by year with titles displayed in ascending alphabetical order.
Shortcuts: Wühr, Martin | Wingreen, Ned | Wieschaus, Eric | Troyanskaya, Olga | Tilghman, Shirley | Storey, John | Singh, Mona | Shvartsman, Stanislav | Shaevitz, Joshua | Rabinowitz, Joshua | Murphy, Coleen | Levine, Michael {Levine, Michael S.} | Gregor, Thomas | Botstein, David | Bialek, William | Ayroles, Julien | Andolfatto, Peter | Akey, Joshua

Filters: Keyword is Saccharomyces cerevisiae Proteins and Author is Botstein, David  [Clear All Filters]
Journal Article
J. Akiko Heck, Gresham, D., Botstein, D., and Alani, E., Accumulation of recessive lethal mutations in Saccharomyces cerevisiae mlh1 mismatch repair mutants is not associated with gross chromosomal rearrangements., Genetics, vol. 174, no. 1, pp. 519-23, 2006.
D. Gresham, Usaite, R., Germann, S. Manuela, Lisby, M., Botstein, D., and Regenberg, B., Adaptation to diverse nitrogen-limited environments by deletion or extrachromosomal element formation of the GAP1 locus., Proc Natl Acad Sci U S A, vol. 107, no. 43, pp. 18551-6, 2010.
O. G. Troyanskaya, Dolinski, K., Owen, A. B., Altman, R. B., and Botstein, D., A Bayesian framework for combining heterogeneous data sources for gene function prediction (in Saccharomyces cerevisiae)., Proc Natl Acad Sci U S A, vol. 100, no. 14, pp. 8348-53, 2003.
K. Dolinski and Botstein, D., Changing perspectives in yeast research nearly a decade after the genome sequence., Genome Res, vol. 15, no. 12, pp. 1611-9, 2005.
A. A. Petti, R McIsaac, S., Ho-Shing, O., Bussemaker, H. J., and Botstein, D., Combinatorial control of diverse metabolic and physiological functions by transcriptional regulators of the yeast sulfur assimilation pathway., Mol Biol Cell, vol. 23, no. 15, pp. 3008-24, 2012.
T. Reguly, Breitkreutz, A., Boucher, L., Breitkreutz, B. - J., Hon, G. C., Myers, C. L., Parsons, A., Friesen, H., Oughtred, R., Tong, A., Stark, C., Ho, Y., Botstein, D., Andrews, B., Boone, C., Troyanskya, O. G., Ideker, T., Dolinski, K., Batada, N. N., and Tyers, M., Comprehensive curation and analysis of global interaction networks in Saccharomyces cerevisiae., J Biol, vol. 5, no. 4, p. 11, 2006.
M. J. Brauer, Yuan, J., Bennett, B. D., Lu, W., Kimball, E., Botstein, D., and Rabinowitz, J. D., Conservation of the metabolomic response to starvation across two divergent microbes., Proc Natl Acad Sci U S A, vol. 103, no. 51, pp. 19302-7, 2006.
M. J. Hickman, Petti, A. A., Ho-Shing, O., Silverman, S. J., R McIsaac, S., Lee, T. A., and Botstein, D., Coordinated regulation of sulfur and phospholipid metabolism reflects the importance of methylation in the growth of yeast., Mol Biol Cell, vol. 22, no. 21, pp. 4192-204, 2011.
N. Slavov and Botstein, D., Coupling among growth rate response, metabolic cycle, and cell division cycle in yeast., Mol Biol Cell, vol. 22, no. 12, pp. 1997-2009, 2011.
Y. - F. Xu, Lu, W., Chen, J. C., Johnson, S. A., Gibney, P. A., Thomas, D. G., Brown, G., May, A. L., Campagna, S. R., Yakunin, A. F., Botstein, D., and Rabinowitz, J. D., Discovery and Functional Characterization of a Yeast Sugar Alcohol Phosphatase., ACS Chem Biol, vol. 13, no. 10, pp. 3011-3020, 2018.
M. Shapira, Segal, E., and Botstein, D., Disruption of yeast forkhead-associated cell cycle transcription by oxidative stress., Mol Biol Cell, vol. 15, no. 12, pp. 5659-69, 2004.
M. Wyart, Botstein, D., and Wingreen, N. S., Evaluating gene expression dynamics using pairwise RNA FISH data., PLoS Comput Biol, vol. 6, no. 11, p. e1000979, 2010.
R. Nash, Weng, S., Hitz, B., Balakrishnan, R., Christie, K. R., Costanzo, M. C., Dwight, S. S., Engel, S. R., Fisk, D. G., Hirschman, J. E., Hong, E. L., Livstone, M. S., Oughtred, R., Park, J., Skrzypek, M., Theesfeld, C. L., Binkley, G., Dong, Q., Lane, C., Miyasato, S., Sethuraman, A., Schroeder, M., Dolinski, K., Botstein, D., and J Cherry, M., Expanded protein information at SGD: new pages and proteome browser., Nucleic Acids Res, vol. 35, no. Database issue, pp. D468-71, 2007.
S. R McIsaac, Silverman, S. J., McClean, M. N., Gibney, P. A., Macinskas, J., Hickman, M. J., Petti, A. A., and Botstein, D., Fast-acting and nearly gratuitous induction of gene expression and protein depletion in Saccharomyces cerevisiae., Mol Biol Cell, vol. 22, no. 22, pp. 4447-59, 2011.
R. Balakrishnan, Christie, K. R., Costanzo, M. C., Dolinski, K., Dwight, S. S., Engel, S. R., Fisk, D. G., Hirschman, J. E., Hong, E. L., Nash, R., Oughtred, R., Skrzypek, M., Theesfeld, C. L., Binkley, G., Dong, Q., Lane, C., Sethuraman, A., Weng, S., Botstein, D., and J Cherry, M., Fungal BLAST and Model Organism BLASTP Best Hits: new comparison resources at the Saccharomyces Genome Database (SGD)., Nucleic Acids Res, vol. 33, no. Database issue, pp. D374-7, 2005.
E. L. Hong, Balakrishnan, R., Dong, Q., Christie, K. R., Park, J., Binkley, G., Costanzo, M. C., Dwight, S. S., Engel, S. R., Fisk, D. G., Hirschman, J. E., Hitz, B. C., Krieger, C. J., Livstone, M. S., Miyasato, S. R., Nash, R. S., Oughtred, R., Skrzypek, M. S., Weng, S., Wong, E. D., Zhu, K. K., Dolinski, K., Botstein, D., and J Cherry, M., Gene Ontology annotations at SGD: new data sources and annotation methods., Nucleic Acids Res, vol. 36, no. Database issue, pp. D577-81, 2008.
J. E. Hirschman, Balakrishnan, R., Christie, K. R., Costanzo, M. C., Dwight, S. S., Engel, S. R., Fisk, D. G., Hong, E. L., Livstone, M. S., Nash, R., Park, J., Oughtred, R., Skrzypek, M., Starr, B., Theesfeld, C. L., Williams, J., Andrada, R., Binkley, G., Dong, Q., Lane, C., Miyasato, S., Sethuraman, A., Schroeder, M., Thanawala, M. K., Weng, S., Dolinski, K., Botstein, D., and J Cherry, M., Genome Snapshot: a new resource at the Saccharomyces Genome Database (SGD) presenting an overview of the Saccharomyces cerevisiae genome., Nucleic Acids Res, vol. 34, no. Database issue, pp. D442-5, 2006.
H. Yoshimoto, Saltsman, K., Gasch, A. P., Li, H. Xia, Ogawa, N., Botstein, D., Brown, P. O., and Cyert, M. S., Genome-wide analysis of gene expression regulated by the calcineurin/Crz1p signaling pathway in Saccharomyces cerevisiae., J Biol Chem, vol. 277, no. 34, pp. 31079-88, 2002.
M. J. Brauer, Saldanha, A. J., Dolinski, K., and Botstein, D., Homeostatic adjustment and metabolic remodeling in glucose-limited yeast cultures., Mol Biol Cell, vol. 16, no. 5, pp. 2503-17, 2005.
W. Wang, J Cherry, M., Nochomovitz, Y., Jolly, E., Botstein, D., and Li, H., Inference of combinatorial regulation in yeast transcriptional networks: a case study of sporulation., Proc Natl Acad Sci U S A, vol. 102, no. 6, pp. 1998-2003, 2005.
K. M. Doherty, Pride, L. D., Lukose, J., Snydsman, B. E., Charles, R., Pramanik, A., Muller, E. G., Botstein, D., and Moore, C. Wood, Loss of a 20S proteasome activator in Saccharomyces cerevisiae downregulates genes important for genomic integrity, increases DNA damage, and selectively sensitizes cells to agents with diverse mechanisms of action., G3 (Bethesda), vol. 2, no. 8, pp. 943-59, 2012.
E. W. Trotter, Kao, C. M. - F., Berenfeld, L., Botstein, D., Petsko, G. A., and Gray, J. V., Misfolded proteins are competent to mediate a subset of the responses to heat shock in Saccharomyces cerevisiae., J Biol Chem, vol. 277, no. 47, pp. 44817-25, 2002.
E. Segal, Shapira, M., Regev, iv, A., Pe'er, D., Botstein, D., Koller, D., and Friedman, N., Module networks: identifying regulatory modules and their condition-specific regulators from gene expression data., Nat Genet, vol. 34, no. 2, pp. 166-76, 2003.
A. J. Saldanha, Brauer, M. J., and Botstein, D., Nutritional homeostasis in batch and steady-state culture of yeast., Mol Biol Cell, vol. 15, no. 9, pp. 4089-104, 2004.
S. R McIsaac, Petti, A. A., Bussemaker, H. J., and Botstein, D., Perturbation-based analysis and modeling of combinatorial regulation in the yeast sulfur assimilation pathway., Mol Biol Cell, vol. 23, no. 15, pp. 2993-3007, 2012.
P. A. Gibney, Hickman, M. J., Bradley, P. H., Matese, J. C., and Botstein, D., Phylogenetic portrait of the Saccharomyces cerevisiae functional genome., G3 (Bethesda), vol. 3, no. 8, pp. 1335-40, 2013.
E. M. Airoldi, Huttenhower, C., Gresham, D., Lu, C., Caudy, A. A., Dunham, M. J., Broach, J. R., Botstein, D., and Troyanskaya, O. G., Predicting cellular growth from gene expression signatures., PLoS Comput Biol, vol. 5, no. 1, p. e1000257, 2009.
D. Gresham, Desai, M. M., Tucker, C. M., Jenq, H. T., Pai, D. A., Ward, A., DeSevo, C. G., Botstein, D., and Dunham, M. J., The repertoire and dynamics of evolutionary adaptations to controlled nutrient-limited environments in yeast., PLoS Genet, vol. 4, no. 12, p. e1000303, 2008.
S. Weng, Dong, Q., Balakrishnan, R., Christie, K., Costanzo, M., Dolinski, K., Dwight, S. S., Engel, S., Fisk, D. G., Hong, E., Issel-Tarver, L., Sethuraman, A., Theesfeld, C., Andrada, R., Binkley, G., Lane, C., Schroeder, M., Botstein, D., and J Cherry, M., Saccharomyces Genome Database (SGD) provides biochemical and structural information for budding yeast proteins., Nucleic Acids Res, vol. 31, no. 1, pp. 216-8, 2003.
S. S. Dwight, Harris, M. A., Dolinski, K., Ball, C. A., Binkley, G., Christie, K. R., Fisk, D. G., Issel-Tarver, L., Schroeder, M., Sherlock, G., Sethuraman, A., Weng, S., Botstein, D., and J Cherry, M., Saccharomyces Genome Database (SGD) provides secondary gene annotation using the Gene Ontology (GO)., Nucleic Acids Res, vol. 30, no. 1, pp. 69-72, 2002.
K. R. Christie, Weng, S., Balakrishnan, R., Costanzo, M. C., Dolinski, K., Dwight, S. S., Engel, S. R., Feierbach, B., Fisk, D. G., Hirschman, J. E., Hong, E. L., Issel-Tarver, L., Nash, R., Sethuraman, A., Starr, B., Theesfeld, C. L., Andrada, R., Binkley, G., Dong, Q., Lane, C., Schroeder, M., Botstein, D., and J Cherry, M., Saccharomyces Genome Database (SGD) provides tools to identify and analyze sequences from Saccharomyces cerevisiae and related sequences from other organisms., Nucleic Acids Res, vol. 32, no. Database issue, pp. D311-4, 2004.
S. R McIsaac, Gibney, P. A., Chandran, S. S., Benjamin, K. R., and Botstein, D., Synthetic biology tools for programming gene expression without nutritional perturbations in Saccharomyces cerevisiae., Nucleic Acids Res, vol. 42, no. 6, p. e48, 2014.
S. R McIsaac, Oakes, B. L., Wang, X., Dummit, K. A., Botstein, D., and Noyes, M. B., Synthetic gene expression perturbation systems with rapid, tunable, single-gene specificity in yeast., Nucleic Acids Res, vol. 41, no. 4, p. e57, 2013.
G. I. Lang and Botstein, D., A test of the coordinated expression hypothesis for the origin and maintenance of the GAL cluster in yeast., PLoS One, vol. 6, no. 9, p. e25290, 2011.
A. Z. Welch, Gibney, P. A., Botstein, D., and Koshland, D. E., TOR and RAS pathways regulate desiccation tolerance in Saccharomyces cerevisiae., Mol Biol Cell, vol. 24, no. 2, pp. 115-28, 2013.
M. Shakoury-Elizeh, Tiedeman, J., Rashford, J., Ferea, T., Demeter, J., Garcia, E., Rolfes, R., Brown, P. O., Botstein, D., and Philpott, C. C., Transcriptional remodeling in response to iron deprivation in Saccharomyces cerevisiae., Mol Biol Cell, vol. 15, no. 3, pp. 1233-43, 2004.
M. Ronen and Botstein, D., Transcriptional response of steady-state yeast cultures to transient perturbations in carbon source., Proc Natl Acad Sci U S A, vol. 103, no. 2, pp. 389-94, 2006.