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

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Mice
S. M. Tilghman, Bartolomei, M. S., Webber, A. L., Brunkow, M. E., Saam, J., Leighton, P. A., Pfeifer, K., and Zemel, S., Parental imprinting of the H19 and Igf2 genes in the mouse., Cold Spring Harb Symp Quant Biol, vol. 58, pp. 287-95, 1993.
F. Markowetz, Mulder, K. W., Airoldi, E. M., Lemischka, I. R., and Troyanskaya, O. G., Mapping dynamic histone acetylation patterns to gene expression in nanog-depleted murine embryonic stem cells., PLoS Comput Biol, vol. 6, no. 12, p. e1001034, 2010.
P. B. Vrana, Matteson, P. G., Schmidt, J. V., Ingram, R. S., Joyce, A., Prince, K. L., Dewey, M. J., and Tilghman, S. M., Genomic imprinting of a placental lactogen gene in Peromyscus., Dev Genes Evol, vol. 211, no. 11, pp. 523-32, 2001.
R. Godbout, Ingram, R. S., and Tilghman, S. M., Fine-structure mapping of the three mouse alpha-fetoprotein gene enhancers., Mol Cell Biol, vol. 8, no. 3, pp. 1169-78, 1988.
R. Godbout and Tilghman, S. M., Configuration of the alpha-fetoprotein regulatory domain during development., Genes Dev, vol. 2, no. 8, pp. 949-56, 1988.
J. Fan, Ye, J., Kamphorst, J. J., Shlomi, T., Thompson, C. B., and Rabinowitz, J. D., Quantitative flux analysis reveals folate-dependent NADPH production., Nature, vol. 510, no. 7504, pp. 298-302, 2014.
A. K. Wong, Park, C. Y., Greene, C. S., Bongo, L. A., Guan, Y., and Troyanskaya, O. G., IMP: a multi-species functional genomics portal for integration, visualization and prediction of protein functions and networks., Nucleic Acids Res, vol. 40, no. Web Server issue, pp. W484-90, 2012.
C. D. van Raamsdonk and Tilghman, S. M., Dosage requirement and allelic expression of PAX6 during lens placode formation., Development, vol. 127, no. 24, pp. 5439-48, 2000.
M. Diehn, Sherlock, G., Binkley, G., Jin, H., Matese, J. C., Hernandez-Boussard, T., Rees, C. A., J Cherry, M., Botstein, D., Brown, P. O., and Alizadeh, A. A., SOURCE: a unified genomic resource of functional annotations, ontologies, and gene expression data., Nucleic Acids Res, vol. 31, no. 1, pp. 219-23, 2003.
A. L. Webber and Tilghman, S. M., The absence of enhancer competition between Igf2 and H19 following transfer into differentiated cells., Mol Cell Biol, vol. 18, no. 4, pp. 1903-10, 1998.
A. T. Hark and Tilghman, S. M., Chromatin conformation of the H19 epigenetic mark., Hum Mol Genet, vol. 7, no. 12, pp. 1979-85, 1998.
E. Semenova, Wang, X. F., Jablonski, M. M., Levorse, J., and Tilghman, S. M., An engineered 800 kilobase deletion of Uchl3 and Lmo7 on mouse chromosome 14 causes defects in viability, postnatal growth and degeneration of muscle and retina., Hum Mol Genet, vol. 12, no. 11, pp. 1301-12, 2003.
M. A. Cleary, van Raamsdonk, C. D., Levorse, J., Zheng, B., Bradley, A., and Tilghman, S. M., Disruption of an imprinted gene cluster by a targeted chromosomal translocation in mice., Nat Genet, vol. 29, no. 1, pp. 78-82, 2001.
C. S. Greene and Troyanskaya, O. G., PILGRM: an interactive data-driven discovery platform for expert biologists., Nucleic Acids Res, vol. 39, no. Web Server issue, pp. W368-74, 2011.
V. D. Nair, Ge, Y., Balasubramaniyan, N., Kim, J., Okawa, Y., Chikina, M., Troyanskaya, O., and Sealfon, S. C., Involvement of histone demethylase LSD1 in short-time-scale gene expression changes during cell cycle progression in embryonic stem cells., Mol Cell Biol, vol. 32, no. 23, pp. 4861-76, 2012.
D. L. Metallinos, Oppenheimer, A. J., Rinchik, E. M., Russell, L. B., Dietrich, W., and Tilghman, S. M., Fine structure mapping and deletion analysis of the murine piebald locus., Genetics, vol. 136, no. 1, pp. 217-23, 1994.
J. J. Kamphorst, Fan, J., Lu, W., White, E., and Rabinowitz, J. D., Liquid chromatography-high resolution mass spectrometry analysis of fatty acid metabolism., Anal Chem, vol. 83, no. 23, pp. 9114-22, 2011.
A. Davila, Liu, L., Chellappa, K., Redpath, P., Nakamaru-Ogiso, E., Paolella, L. M., Zhang, Z., Migaud, M. E., Rabinowitz, J. D., and Baur, J. A., Nicotinamide adenine dinucleotide is transported into mammalian mitochondria., Elife, vol. 7, 2018.
T. M. Bartlett, Bratton, B. P., Duvshani, A., Miguel, A., Sheng, Y., Martin, N. R., Nguyen, J. P., Persat, A., Desmarais, S. M., VanNieuwenhze, M. S., Huang, K. Casey, Zhu, J., Shaevitz, J. W., and Gitai, Z., A Periplasmic Polymer Curves Vibrio cholerae and Promotes Pathogenesis., Cell, vol. 168, no. 1-2, pp. 172-185.e15, 2017.
P. Armand, Knapp, A. C., Hirsch, A. J., Wieschaus, E. F., and Cole, M. D., A novel basic helix-loop-helix protein is expressed in muscle attachment sites of the Drosophila epidermis., Mol Cell Biol, vol. 14, no. 6, pp. 4145-54, 1994.
H. Yoo-Warren, Pachnis, V., Ingram, R. S., and Tilghman, S. M., Two regulatory domains flank the mouse H19 gene., Mol Cell Biol, vol. 8, no. 11, pp. 4707-15, 1988.
B. K. Jones, Levorse, J. M., and Tilghman, S. M., Igf2 imprinting does not require its own DNA methylation or H19 RNA., Genes Dev, vol. 12, no. 14, pp. 2200-7, 1998.
L. J. Kurihara, Kikuchi, T., Wada, K., and Tilghman, S. M., Loss of Uch-L1 and Uch-L3 leads to neurodegeneration, posterior paralysis and dysphagia., Hum Mol Genet, vol. 10, no. 18, pp. 1963-70, 2001.
W. J. Pavan and Tilghman, S. M., Piebald lethal (sl) acts early to disrupt the development of neural crest-derived melanocytes., Proc Natl Acad Sci U S A, vol. 91, no. 15, pp. 7159-63, 1994.
P. A. Leighton, Saam, J. R., Ingram, R. S., and Tilghman, S. M., Genomic imprinting in mice: its function and mechanism., Biol Reprod, vol. 54, no. 2, pp. 273-8, 1996.
B. K. Jones, Levorse, J., and Tilghman, S. M., Deletion of a nuclease-sensitive region between the Igf2 and H19 genes leads to Igf2 misregulation and increased adiposity., Hum Mol Genet, vol. 10, no. 8, pp. 807-14, 2001.
S. M. Tilghman, Parental imprinting in the mouse., Harvey Lect, vol. 87, pp. 69-84, 1991.
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.
J. M. Rossi, Burke, D. T., Leung, J. C., Koos, D. S., Chen, H., and Tilghman, S. M., Genomic analysis using a yeast artificial chromosome library with mouse DNA inserts., Proc Natl Acad Sci U S A, vol. 89, no. 6, pp. 2456-60, 1992.
J. Vacher and Tilghman, S. M., Dominant negative regulation of the mouse alpha-fetoprotein gene in adult liver., Science, vol. 250, no. 4988, pp. 1732-5, 1990.
T. Caspary, Cleary, M. A., Baker, C. C., Guan, X. J., and Tilghman, S. M., Multiple mechanisms regulate imprinting of the mouse distal chromosome 7 gene cluster., Mol Cell Biol, vol. 18, no. 6, pp. 3466-74, 1998.
W. Ju, Greene, C. S., Eichinger, F., Nair, V., Hodgin, J. B., Bitzer, M., Lee, Y. -suk, Zhu, Q., Kehata, M., Li, M., Jiang, S., Rastaldi, M. Pia, Cohen, C. D., Troyanskaya, O. G., and Kretzler, M., Defining cell-type specificity at the transcriptional level in human disease., Genome Res, vol. 23, no. 11, pp. 1862-73, 2013.
K. Pfeifer and Tilghman, S. M., Allele-specific gene expression in mammals: the curious case of the imprinted RNAs., Genes Dev, vol. 8, no. 16, pp. 1867-74, 1994.
A. B. Bowman, Levorse, J. M., Ingram, R. S., and Tilghman, S. M., Functional characterization of a testis-specific DNA binding activity at the H19/Igf2 imprinting control region., Mol Cell Biol, vol. 23, no. 22, pp. 8345-51, 2003.
T. J. Vasicek, Zeng, L., Guan, X. J., Zhang, T., Costantini, F., and Tilghman, S. M., Two dominant mutations in the mouse fused gene are the result of transposon insertions., Genetics, vol. 147, no. 2, pp. 777-86, 1997.
S. Zemel, Bartolomei, M. S., and Tilghman, S. M., Physical linkage of two mammalian imprinted genes, H19 and insulin-like growth factor 2., Nat Genet, vol. 2, no. 1, pp. 61-5, 1992.
Y. Guan, Myers, C. L., Lu, R., Lemischka, I. R., Bult, C. J., and Troyanskaya, O. G., A genomewide functional network for the laboratory mouse., PLoS Comput Biol, vol. 4, no. 9, p. e1000165, 2008.
M. K. Shin, Levorse, J. M., Ingram, R. S., and Tilghman, S. M., The temporal requirement for endothelin receptor-B signalling during neural crest development., Nature, vol. 402, no. 6761, pp. 496-501, 1999.
C. J. Nirschl, Suárez-Fariñas, M., Izar, B., Prakadan, S., Dannenfelser, R., Tirosh, I., Liu, Y., Zhu, Q., K Devi, S. P., Carroll, S. L., Chau, D., Rezaee, M., Kim, T. - G., Huang, R., Fuentes-Duculan, J., Song-Zhao, G. X., Gulati, N., Lowes, M. A., King, S. L., Quintana, F. J., Lee, Y. -suk, Krueger, J. G., Sarin, K. Y., Yoon, C. H., Garraway, L., Regev, iv, A., Shalek, A. K., Troyanskaya, O. G., and Anandasabapathy, N., IFNγ-Dependent Tissue-Immune Homeostasis Is Co-opted in the Tumor Microenvironment., Cell, vol. 170, no. 1, pp. 127-141.e15, 2017.
P. Jiang, Singh, M., and Coller, H. A., Computational assessment of the cooperativity between RNA binding proteins and MicroRNAs in Transcript Decay., PLoS Comput Biol, vol. 9, no. 5, p. e1003075, 2013.
X. J. Guan, Arhin, G., Leung, J., and Tilghman, S. M., Linkage between vitamin D-binding protein and alpha-fetoprotein in the mouse., Mamm Genome, vol. 7, no. 2, pp. 103-6, 1996.
W. Bailis, Shyer, J. A., Zhao, J., Canaveras, J. Carlos Gar, Khazal, F. J. Al, Qu, R., Steach, H. R., Bielecki, P., Khan, O., Jackson, R., Kluger, Y., Maher, L. J., Rabinowitz, J., Craft, J., and Flavell, R. A., Distinct modes of mitochondrial metabolism uncouple T cell differentiation and function., Nature, vol. 571, no. 7765, pp. 403-407, 2019.
Y. Guan, Myers, C. L., Hess, D. C., Barutcuoglu, Z., Caudy, A. A., and Troyanskaya, O. G., Predicting gene function in a hierarchical context with an ensemble of classifiers., Genome Biol, vol. 9 Suppl 1, p. S3, 2008.
J. A. Emerson, Vacher, J., Cirillo, L. A., Tilghman, S. M., and Tyner, A. L., The zonal expression of alpha-fetoprotein transgenes in the livers of adult mice., Dev Dyn, vol. 195, no. 1, pp. 55-66, 1992.
D. J. Katz, Beer, M. A., Levorse, J. M., and Tilghman, S. M., Functional characterization of a novel Ku70/80 pause site at the H19/Igf2 imprinting control region., Mol Cell Biol, vol. 25, no. 10, pp. 3855-63, 2005.
D. T. Burke, Rossi, J. M., Leung, J., Koos, D. S., and Tilghman, S. M., A mouse genomic library of yeast artificial chromosome clones., Mamm Genome, vol. 1, no. 1, p. 65, 1991.
R. J. Pelham, Rodgers, L., Hall, I., Lucito, R., Nguyen, K. C. Q., Navin, N., Hicks, J., Mu, D., Powers, S., Wigler, M., and Botstein, D., Identification of alterations in DNA copy number in host stromal cells during tumor progression., Proc Natl Acad Sci U S A, vol. 103, no. 52, pp. 19848-53, 2006.
S. Hong, Zhou, W., Fang, B., Lu, W., Loro, E., Damle, M., Ding, G., Jager, J., Zhang, S., Zhang, Y., Feng, D., Chu, Q., Dill, B. D., Molina, H., Khurana, T. S., Rabinowitz, J. D., Lazar, M. A., and Sun, Z., Dissociation of muscle insulin sensitivity from exercise endurance in mice by HDAC3 depletion., Nat Med, vol. 23, no. 2, pp. 223-234, 2017.
D. Mancini-Dinardo, Steele, S. J. S., Levorse, J. M., Ingram, R. S., and Tilghman, S. M., Elongation of the Kcnq1ot1 transcript is required for genomic imprinting of neighboring genes., Genes Dev, vol. 20, no. 10, pp. 1268-82, 2006.
D. Guan, Xiong, Y., Borck, P. C., Jang, C., Doulias, P. - T., Papazyan, R., Fang, B., Jiang, C., Zhang, Y., Briggs, E. R., Hu, W., Steger, D., Ischiropoulos, H., Rabinowitz, J. D., and Lazar, M. A., Diet-Induced Circadian Enhancer Remodeling Synchronizes Opposing Hepatic Lipid Metabolic Processes., Cell, vol. 174, no. 4, pp. 831-842.e12, 2018.
M. Peifer, McCrea, P. D., Green, K. J., Wieschaus, E., and Gumbiner, B. M., The vertebrate adhesive junction proteins beta-catenin and plakoglobin and the Drosophila segment polarity gene armadillo form a multigene family with similar properties., J Cell Biol, vol. 118, no. 3, pp. 681-91, 1992.
S. M. Tilghman, DNA methylation: a phoenix rises., Proc Natl Acad Sci U S A, vol. 90, no. 19, pp. 8761-2, 1993.
J. Fan, Kamphorst, J. J., Mathew, R., Chung, M. K., White, E., Shlomi, T., and Rabinowitz, J. D., Glutamine-driven oxidative phosphorylation is a major ATP source in transformed mammalian cells in both normoxia and hypoxia., Mol Syst Biol, vol. 9, p. 712, 2013.
K. K. Benson, Hu, W., Weller, A. H., Bennett, A. H., Chen, E. R., Khetarpal, S. A., Yoshino, S., Bone, W. P., Wang, L., Rabinowitz, J. D., Voight, B. F., and Soccio, R. E., Natural human genetic variation determines basal and inducible expression of , an obesity-associated gene., Proc Natl Acad Sci U S A, vol. 116, no. 46, pp. 23232-23242, 2019.
C. D. van Raamsdonk and Tilghman, S. M., Optimizing the detection of nascent transcripts by RNA fluorescence in situ hybridization., Nucleic Acids Res, vol. 29, no. 8, pp. E42-2, 2001.
J. J. Kamphorst, Cross, J. R., Fan, J., de Stanchina, E., Mathew, R., White, E. P., Thompson, C. B., and Rabinowitz, J. D., Hypoxic and Ras-transformed cells support growth by scavenging unsaturated fatty acids from lysophospholipids., Proc Natl Acad Sci U S A, vol. 110, no. 22, pp. 8882-7, 2013.
V. C. Calhoun and Levine, M., Coordinate regulation of an extended chromosome domain., Cell, vol. 113, no. 3, pp. 278-80, 2003.
N. D. Trinklein, Murray, J. I., Hartman, S. J., Botstein, D., and Myers, R. M., The role of heat shock transcription factor 1 in the genome-wide regulation of the mammalian heat shock response., Mol Biol Cell, vol. 15, no. 3, pp. 1254-61, 2004.
Methylation
Y. Meir, Jakovljevic, V., Oleksiuk, O., Sourjik, V., and Wingreen, N. S., Precision and kinetics of adaptation in bacterial chemotaxis., Biophys J, vol. 99, no. 9, pp. 2766-74, 2010.
M. S. Bartolomei, Webber, A. L., Brunkow, M. E., and Tilghman, S. M., Epigenetic mechanisms underlying the imprinting of the mouse H19 gene., Genes Dev, vol. 7, no. 9, pp. 1663-73, 1993.
R. G. Endres and Wingreen, N. S., Precise adaptation in bacterial chemotaxis through "assistance neighborhoods"., Proc Natl Acad Sci U S A, vol. 103, no. 35, pp. 13040-4, 2006.
B. M. Zee, Levin, R. S., Xu, B., LeRoy, G., Wingreen, N. S., and Garcia, B. A., In vivo residue-specific histone methylation dynamics., J Biol Chem, vol. 285, no. 5, pp. 3341-50, 2010.
P. A. Leighton, Ingram, R. S., Eggenschwiler, J., Efstratiadis, A., and Tilghman, S. M., Disruption of imprinting caused by deletion of the H19 gene region in mice., Nature, vol. 375, no. 6526, pp. 34-9, 1995.
S. M. Tilghman, Bartolomei, M. S., Webber, A. L., Brunkow, M. E., Saam, J., Leighton, P. A., Pfeifer, K., and Zemel, S., Parental imprinting of the H19 and Igf2 genes in the mouse., Cold Spring Harb Symp Quant Biol, vol. 58, pp. 287-95, 1993.
O. Oleksiuk, Jakovljevic, V., Vladimirov, N., Carvalho, R., Paster, E., Ryu, W. S., Meir, Y., Wingreen, N. S., Kollmann, M., and Sourjik, V., Thermal robustness of signaling in bacterial chemotaxis., Cell, vol. 145, no. 2, pp. 312-21, 2011.
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.
K. Pfeifer and Tilghman, S. M., Allele-specific gene expression in mammals: the curious case of the imprinted RNAs., Genes Dev, vol. 8, no. 16, pp. 1867-74, 1994.
S. M. Tilghman, DNA methylation: a phoenix rises., Proc Natl Acad Sci U S A, vol. 90, no. 19, pp. 8761-2, 1993.
R. J. Morscher, Ducker, G. S., Li, S. Hsin- Jung, Mayer, J. A., Gitai, Z., Sperl, W., and Rabinowitz, J. D., Mitochondrial translation requires folate-dependent tRNA methylation., Nature, vol. 554, no. 7690, pp. 128-132, 2018.
Metabolomics
M. F. Clasquin, Melamud, E., and Rabinowitz, J. D., LC-MS data processing with MAVEN: a metabolomic analysis and visualization engine., Curr Protoc Bioinformatics, vol. Chapter 14, p. Unit14.11, 2012.
W. Lu, Su, X., Klein, M. S., Lewis, I. A., Fiehn, O., and Rabinowitz, J. D., Metabolite Measurement: Pitfalls to Avoid and Practices to Follow., Annu Rev Biochem, vol. 86, pp. 277-304, 2017.
C. A. Crutchfield, Lu, W., Melamud, E., and Rabinowitz, J. D., Mass spectrometry-based metabolomics of yeast., Methods Enzymol, vol. 470, pp. 393-426, 2010.
J. Yuan, Doucette, C. D., Fowler, W. U., Feng, X. - J., Piazza, M., Rabitz, H. A., Wingreen, N. S., and Rabinowitz, J. D., Metabolomics-driven quantitative analysis of ammonia assimilation in E. coli., Mol Syst Biol, vol. 5, p. 302, 2009.
H. In Kim, Raffler, J., Lu, W., Lee, J. - J., Abbey, D., Saleheen, D., Rabinowitz, J. D., Bennett, M. J., Hand, N. J., Brown, C., and Rader, D. J., Fine Mapping and Functional Analysis Reveal a Role of SLC22A1 in Acylcarnitine Transport., Am J Hum Genet, vol. 101, no. 4, pp. 489-502, 2017.
C. Jang, Chen, L., and Rabinowitz, J. D., Metabolomics and Isotope Tracing., Cell, vol. 173, no. 4, pp. 822-837, 2018.
M. Louis Reaves and Rabinowitz, J. D., Metabolomics in systems microbiology., Curr Opin Biotechnol, vol. 22, no. 1, pp. 17-25, 2011.
L. Vastag, Jorgensen, P., Peshkin, L., Wei, R., Rabinowitz, J. D., and Kirschner, M. W., Remodeling of the metabolome during early frog development., PLoS One, vol. 6, no. 2, p. e16881, 2011.
W. Lu, Clasquin, M. F., Melamud, E., Amador-Noguez, D., Caudy, A. A., and Rabinowitz, J. D., Metabolomic analysis via reversed-phase ion-pairing liquid chromatography coupled to a stand alone orbitrap mass spectrometer., Anal Chem, vol. 82, no. 8, pp. 3212-21, 2010.
J. S. Breunig, Hackett, S. R., Rabinowitz, J. D., and Kruglyak, L., Genetic basis of metabolome variation in yeast., PLoS Genet, vol. 10, no. 3, p. e1004142, 2014.
E. Melamud, Vastag, L., and Rabinowitz, J. D., Metabolomic analysis and visualization engine for LC-MS data., Anal Chem, vol. 82, no. 23, pp. 9818-26, 2010.
P. H. Bradley, Brauer, M. J., Rabinowitz, J. D., and Troyanskaya, O. G., Coordinated concentration changes of transcripts and metabolites in Saccharomyces cerevisiae., PLoS Comput Biol, vol. 5, no. 1, p. e1000270, 2009.
Metabolome
L. J. Terry, Vastag, L., Rabinowitz, J. D., and Shenk, T., Human kinome profiling identifies a requirement for AMP-activated protein kinase during human cytomegalovirus infection., Proc Natl Acad Sci U S A, vol. 109, no. 8, pp. 3071-6, 2012.
C. Jang, Hui, S., Lu, W., Cowan, A. J., Morscher, R. J., Lee, G., Liu, W., Tesz, G. J., Birnbaum, M. J., and Rabinowitz, J. D., The Small Intestine Converts Dietary Fructose into Glucose and Organic Acids., Cell Metab, vol. 27, no. 2, pp. 351-361.e3, 2018.
J. Yuan, Doucette, C. D., Fowler, W. U., Feng, X. - J., Piazza, M., Rabitz, H. A., Wingreen, N. S., and Rabinowitz, J. D., Metabolomics-driven quantitative analysis of ammonia assimilation in E. coli., Mol Syst Biol, vol. 5, p. 302, 2009.
K. L. Olszewski, Morrisey, J. M., Wilinski, D., Burns, J. M., Vaidya, A. B., Rabinowitz, J. D., and Llinás, M., Host-parasite interactions revealed by Plasmodium falciparum metabolomics., Cell Host Microbe, vol. 5, no. 2, pp. 191-9, 2009.
B. D. Bennett, Kimball, E. H., Gao, M., Osterhout, R., Van Dien, S. J., and Rabinowitz, J. D., Absolute metabolite concentrations and implied enzyme active site occupancy in Escherichia coli., Nat Chem Biol, vol. 5, no. 8, pp. 593-9, 2009.
Y. Kyung Kwon, Higgins, M. B., and Rabinowitz, J. D., Antifolate-induced depletion of intracellular glycine and purines inhibits thymineless death in E. coli., ACS Chem Biol, vol. 5, no. 8, pp. 787-95, 2010.
C. Jang, Chen, L., and Rabinowitz, J. D., Metabolomics and Isotope Tracing., Cell, vol. 173, no. 4, pp. 822-837, 2018.
L. Vastag, Jorgensen, P., Peshkin, L., Wei, R., Rabinowitz, J. D., and Kirschner, M. W., Remodeling of the metabolome during early frog development., PLoS One, vol. 6, no. 2, p. e16881, 2011.
W. Lu, Clasquin, M. F., Melamud, E., Amador-Noguez, D., Caudy, A. A., and Rabinowitz, J. D., Metabolomic analysis via reversed-phase ion-pairing liquid chromatography coupled to a stand alone orbitrap mass spectrometer., Anal Chem, vol. 82, no. 8, pp. 3212-21, 2010.
J. S. Breunig, Hackett, S. R., Rabinowitz, J. D., and Kruglyak, L., Genetic basis of metabolome variation in yeast., PLoS Genet, vol. 10, no. 3, p. e1004142, 2014.
E. Melamud, Vastag, L., and Rabinowitz, J. D., Metabolomic analysis and visualization engine for LC-MS data., Anal Chem, vol. 82, no. 23, pp. 9818-26, 2010.
V. M. Boer, Crutchfield, C. A., Bradley, P. H., Botstein, D., and Rabinowitz, J. D., Growth-limiting intracellular metabolites in yeast growing under diverse nutrient limitations., Mol Biol Cell, vol. 21, no. 1, pp. 198-211, 2010.
D. Amador-Noguez, Brasg, I. A., Feng, X. - J., Roquet, N., and Rabinowitz, J. D., Metabolome remodeling during the acidogenic-solventogenic transition in Clostridium acetobutylicum., Appl Environ Microbiol, vol. 77, no. 22, pp. 7984-97, 2011.
Y. - F. Xu, Zhao, X., Glass, D. S., Absalan, F., Perlman, D. H., Broach, J. R., and Rabinowitz, J. D., Regulation of yeast pyruvate kinase by ultrasensitive allostery independent of phosphorylation., Mol Cell, vol. 48, no. 1, pp. 52-62, 2012.
Metabolism
J. D. Rabinowitz and White, E., Autophagy and metabolism., Science, vol. 330, no. 6009, pp. 1344-8, 2010.
J. D. Rabinowitz and Kimball, E., Acidic acetonitrile for cellular metabolome extraction from Escherichia coli., Anal Chem, vol. 79, no. 16, pp. 6167-73, 2007.
W. Lu, Bennett, B. D., and Rabinowitz, J. D., Analytical strategies for LC-MS-based targeted metabolomics., J Chromatogr B Analyt Technol Biomed Life Sci, vol. 871, no. 2, pp. 236-42, 2008.
J. D. Rabinowitz, Cellular metabolomics of Escherchia coli., Expert Rev Proteomics, vol. 4, no. 2, pp. 187-98, 2007.
Metabolic Networks and Pathways
P. A. Gibney, Lu, C., Caudy, A. A., Hess, D. C., and Botstein, D., Yeast metabolic and signaling genes are required for heat-shock survival and have little overlap with the heat-induced genes., Proc Natl Acad Sci U S A, vol. 110, no. 46, pp. E4393-402, 2013.
M. Piazza, Feng, X. - J., Rabinowitz, J. D., and Rabitz, H., Diverse metabolic model parameters generate similar methionine cycle dynamics., J Theor Biol, vol. 251, no. 4, pp. 628-39, 2008.
M. M. Klosinska, Crutchfield, C. A., Bradley, P. H., Rabinowitz, J. D., and Broach, J. R., Yeast cells can access distinct quiescent states., Genes Dev, vol. 25, no. 4, pp. 336-49, 2011.
C. Y. Park, Hess, D. C., Huttenhower, C., and Troyanskaya, O. G., Simultaneous genome-wide inference of physical, genetic, regulatory, and functional pathway components., PLoS Comput Biol, vol. 6, no. 11, p. e1001009, 2010.
D. Amador-Noguez, Feng, X. - J., Fan, J., Roquet, N., Rabitz, H., and Rabinowitz, J. D., Systems-level metabolic flux profiling elucidates a complete, bifurcated tricarboxylic acid cycle in Clostridium acetobutylicum., J Bacteriol, vol. 192, no. 17, pp. 4452-61, 2010.
P. Jiang and Singh, M., SPICi: a fast clustering algorithm for large biological networks., Bioinformatics, vol. 26, no. 8, pp. 1105-11, 2010.
N. Slavov, Airoldi, E. M., van Oudenaarden, A., and Botstein, D., A conserved cell growth cycle can account for the environmental stress responses of divergent eukaryotes., Mol Biol Cell, vol. 23, no. 10, pp. 1986-97, 2012.
M. Louis Reaves and Rabinowitz, J. D., Metabolomics in systems microbiology., Curr Opin Biotechnol, vol. 22, no. 1, pp. 17-25, 2011.
M. Costanzo, Baryshnikova, A., Bellay, J., Kim, Y., Spear, E. D., Sevier, C. S., Ding, H., L Y Koh, J., Toufighi, K., Mostafavi, S., Prinz, J., St Onge, R. P., VanderSluis, B., Makhnevych, T., Vizeacoumar, F. J., Alizadeh, S., Bahr, S., Brost, R. L., Chen, Y., Cokol, M., Deshpande, R., Li, Z., Lin, Z. - Y., Liang, W., Marback, M., Paw, J., San Luis, B. - J., Shuteriqi, E., Tong, A. Hin Yan, van Dyk, N., Wallace, I. M., Whitney, J. A., Weirauch, M. T., Zhong, G., Zhu, H., Houry, W. A., Brudno, M., Ragibizadeh, S., Papp, B., Pál, C., Roth, F. P., Giaever, G., Nislow, C., Troyanskaya, O. G., Bussey, H., Bader, G. D., Gingras, A. - C., Morris, Q. D., Kim, P. M., Kaiser, C. A., Myers, C. L., Andrews, B. J., and Boone, C., The genetic landscape of a cell., Science, vol. 327, no. 5964, pp. 425-31, 2010.
F. Markowetz and Troyanskaya, O. G., Computational identification of cellular networks and pathways., Mol Biosyst, vol. 3, no. 7, pp. 478-82, 2007.
H. Goodarzi, Bennett, B. D., Amini, S., Reaves, M. L., Hottes, A. K., Rabinowitz, J. D., and Tavazoie, S., Regulatory and metabolic rewiring during laboratory evolution of ethanol tolerance in E. coli., Mol Syst Biol, vol. 6, p. 378, 2010.
J. D. Rabinowitz, Cellular metabolomics of Escherchia coli., Expert Rev Proteomics, vol. 4, no. 2, pp. 187-98, 2007.
C. Huttenhower, Mehmood, S. O., and Troyanskaya, O. G., Graphle: Interactive exploration of large, dense graphs., BMC Bioinformatics, vol. 10, p. 417, 2009.
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N. Slavov, Macinskas, J., Caudy, A., and Botstein, D., Metabolic cycling without cell division cycling in respiring yeast., Proc Natl Acad Sci U S A, vol. 108, no. 47, pp. 19090-5, 2011.
J. D. Rabinowitz and Vastag, L., Teaching the design principles of metabolism., Nat Chem Biol, vol. 8, no. 6, pp. 497-501, 2012.
J. Fan, Kamphorst, J. J., Mathew, R., Chung, M. K., White, E., Shlomi, T., and Rabinowitz, J. D., Glutamine-driven oxidative phosphorylation is a major ATP source in transformed mammalian cells in both normoxia and hypoxia., Mol Syst Biol, vol. 9, p. 712, 2013.
Mesoderm
K. D. Irvine and Wieschaus, E., Cell intercalation during Drosophila germband extension and its regulation by pair-rule segmentation genes., Development, vol. 120, no. 4, pp. 827-41, 1994.
A. Stathopoulos and Levine, M., Localized repressors delineate the neurogenic ectoderm in the early Drosophila embryo., Dev Biol, vol. 280, no. 2, pp. 482-93, 2005.
W. J. Gehring, Wieschaus, E., and Holliger, M., The use of 'normal' and 'transformed' gynandromorphs in mapping the primordial germ cells and the gonadal mesoderm in Drosophila., J Embryol Exp Morphol, vol. 35, no. 3, pp. 607-16, 1976.
F. Biemar, Zinzen, R., Ronshaugen, M., Sementchenko, V., J Manak, R., and Levine, M. S., Spatial regulation of microRNA gene expression in the Drosophila embryo., Proc Natl Acad Sci U S A, vol. 102, no. 44, pp. 15907-11, 2005.
B. He, Doubrovinski, K., Polyakov, O., and Wieschaus, E., Apical constriction drives tissue-scale hydrodynamic flow to mediate cell elongation., Nature, vol. 508, no. 7496, pp. 392-6, 2014.
B. Davidson, Shi, W., and Levine, M., Uncoupling heart cell specification and migration in the simple chordate Ciona intestinalis., Development, vol. 132, no. 21, pp. 4811-8, 2005.
J. Grosshans and Wieschaus, E., A genetic link between morphogenesis and cell division during formation of the ventral furrow in Drosophila., Cell, vol. 101, no. 5, pp. 523-31, 2000.
A. Stolfi, T Gainous, B., Young, J. J., Mori, A., Levine, M., and Christiaen, L., Early chordate origins of the vertebrate second heart field., Science, vol. 329, no. 5991, pp. 565-8, 2010.
A. Stathopoulos, Van Drenth, M., Erives, A., Markstein, M., and Levine, M., Whole-genome analysis of dorsal-ventral patterning in the Drosophila embryo., Cell, vol. 111, no. 5, pp. 687-701, 2002.
S. De Renzis, Yu, J., Zinzen, R., and Wieschaus, E., Dorsal-ventral pattern of Delta trafficking is established by a Snail-Tom-Neuralized pathway., Dev Cell, vol. 10, no. 2, pp. 257-64, 2006.
L. Christiaen, Stolfi, A., and Levine, M., BMP signaling coordinates gene expression and cell migration during precardiac mesoderm development., Dev Biol, vol. 340, no. 2, pp. 179-87, 2010.
M. Markstein, Zinzen, R., Markstein, P., Yee, K. - P., Erives, A., Stathopoulos, A., and Levine, M., A regulatory code for neurogenic gene expression in the Drosophila embryo., Development, vol. 131, no. 10, pp. 2387-94, 2004.
A. Stathopoulos, Tam, B., Ronshaugen, M., Frasch, M., and Levine, M., pyramus and thisbe: FGF genes that pattern the mesoderm of Drosophila embryos., Genes Dev, vol. 18, no. 6, pp. 687-99, 2004.
M. Levine and Davidson, E. H., Gene regulatory networks for development., Proc Natl Acad Sci U S A, vol. 102, no. 14, pp. 4936-42, 2005.
C. Rauskolb and Wieschaus, E., Coordinate regulation of downstream genes by extradenticle and the homeotic selector proteins., EMBO J, vol. 13, no. 15, pp. 3561-9, 1994.
Memory
L. - B. Li, Lei, H., Arey, R. N., Li, P., Liu, J., Murphy, C. T., Xu, X. Z. Shawn, and Shen, K., The Neuronal Kinesin UNC-104/KIF1A Is a Key Regulator of Synaptic Aging and Insulin Signaling-Regulated Memory., Curr Biol, vol. 26, no. 5, pp. 605-15, 2016.
R. M. Cooper, Wingreen, N. S., and Cox, E. C., An excitable cortex and memory model successfully predicts new pseudopod dynamics., PLoS One, vol. 7, no. 3, p. e33528, 2012.
V. Lakhina, Arey, R. N., Kaletsky, R., Kauffman, A., Stein, G., Keyes, W., Xu, D., and Murphy, C. T., Genome-wide functional analysis of CREB/long-term memory-dependent transcription reveals distinct basal and memory gene expression programs., Neuron, vol. 85, no. 2, pp. 330-45, 2015.
A. L. Kauffman, Ashraf, J. M., M Corces-Zimmerman, R., Landis, J. N., and Murphy, C. T., Insulin signaling and dietary restriction differentially influence the decline of learning and memory with age., PLoS Biol, vol. 8, no. 5, p. e1000372, 2010.
V. Lakhina, Arey, R. N., Kaletsky, R., Kauffman, A., Stein, G., Keyes, W., Xu, D., and Murphy, C. T., Genome-wide functional analysis of CREB/long-term memory-dependent transcription reveals distinct basal and memory gene expression programs., Neuron, vol. 85, no. 2, pp. 330-45, 2015.
R. Kaletsky, Lakhina, V., Arey, R., Williams, A., Landis, J., Ashraf, J., and Murphy, C. T., The C. elegans adult neuronal IIS/FOXO transcriptome reveals adult phenotype regulators., Nature, vol. 529, no. 7584, pp. 92-6, 2016.
Membrane Proteins
D. S. A. Simakov, Cheung, L. S., Pismen, L. M., and Shvartsman, S. Y., EGFR-dependent network interactions that pattern Drosophila eggshell appendages., Development, vol. 139, no. 15, pp. 2814-20, 2012.
R. G. Endres, Oleksiuk, O., Hansen, C. H., Meir, Y., Sourjik, V., and Wingreen, N. S., Variable sizes of Escherichia coli chemoreceptor signaling teams., Mol Syst Biol, vol. 4, p. 211, 2008.
D. E. Klein, Nappi, V. M., Reeves, G. T., Shvartsman, S. Y., and Lemmon, M. A., Argos inhibits epidermal growth factor receptor signalling by ligand sequestration., Nature, vol. 430, no. 7003, pp. 1040-4, 2004.
H. A. Müller, Samanta, R., and Wieschaus, E., Wingless signaling in the Drosophila embryo: zygotic requirements and the role of the frizzled genes., Development, vol. 126, no. 3, pp. 577-86, 1999.
S. Neumann, Hansen, C. H., Wingreen, N. S., and Sourjik, V., Differences in signalling by directly and indirectly binding ligands in bacterial chemotaxis., EMBO J, vol. 29, no. 20, pp. 3484-95, 2010.
W. - L. Ng, Wei, Y., Perez, L. J., Cong, J., Long, T., Koch, M., Semmelhack, M. F., Wingreen, N. S., and Bassler, B. L., Probing bacterial transmembrane histidine kinase receptor-ligand interactions with natural and synthetic molecules., Proc Natl Acad Sci U S A, vol. 107, no. 12, pp. 5575-80, 2010.
N. S. Tolwinski, Wehrli, M., Rives, A., Erdeniz, N., DiNardo, S., and Wieschaus, E., Wg/Wnt signal can be transmitted through arrow/LRP5,6 and Axin independently of Zw3/Gsk3beta activity., Dev Cell, vol. 4, no. 3, pp. 407-18, 2003.
R. Mukhopadhyay, Huang, K. Casey, and Wingreen, N. S., Lipid localization in bacterial cells through curvature-mediated microphase separation., Biophys J, vol. 95, no. 3, pp. 1034-49, 2008.
J. Cowden and Levine, M., The Snail repressor positions Notch signaling in the Drosophila embryo., Development, vol. 129, no. 7, pp. 1785-93, 2002.
W. A. Rogers, Goyal, Y., Yamaya, K., Shvartsman, S. Y., and Levine, M. S., Uncoupling neurogenic gene networks in the Drosophila embryo., Genes Dev, vol. 31, no. 7, pp. 634-638, 2017.
D. Greenfield, McEvoy, A. L., Shroff, H., Crooks, G. E., Wingreen, N. S., Betzig, E., and Liphardt, J., Self-organization of the Escherichia coli chemotaxis network imaged with super-resolution light microscopy., PLoS Biol, vol. 7, no. 6, p. e1000137, 2009.
T. Mora, Bai, F., Che, Y. - S., Minamino, T., Namba, K., and Wingreen, N. S., Non-genetic individuality in Escherichia coli motor switching., Phys Biol, vol. 8, no. 2, p. 024001, 2011.
G. T. Reeves, Kalifa, R., Klein, D. E., Lemmon, M. A., and Shvartsman, S. Y., Computational analysis of EGFR inhibition by Argos., Dev Biol, vol. 284, no. 2, pp. 523-35, 2005.
J. J. Zartman, Kanodia, J. S., Cheung, L. S., and Shvartsman, S. Y., Feedback control of the EGFR signaling gradient: superposition of domain-splitting events in Drosophila oogenesis., Development, vol. 136, no. 17, pp. 2903-11, 2009.
Mechanical Processes
J. W. Shaevitz, Combining modeling and experiment to understand bacterial growth., Biophys J, vol. 104, no. 12, p. 2573, 2013.

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