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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, “Disruption of an imprinted gene cluster by a targeted chromosomal translocation in mice.”, Nat Genet, vol. 29, no. 1, pp. 78-82, 2001.
, “Systematic structure-function analysis of the small GTPase Arf1 in yeast.”, Mol Biol Cell, vol. 13, no. 5, pp. 1652-64, 2002.
, “Systematic structure-function analysis of the small GTPase Arf1 in yeast.”, Mol Biol Cell, vol. 13, no. 5, pp. 1652-64, 2002.
, “Systematic structure-function analysis of the small GTPase Arf1 in yeast.”, Mol Biol Cell, vol. 13, no. 5, pp. 1652-64, 2002.
, “Clock regulatory elements control cyclic expression of Lunatic fringe during somitogenesis.”, Dev Cell, vol. 3, no. 1, pp. 75-84, 2002.
, “Clock regulatory elements control cyclic expression of Lunatic fringe during somitogenesis.”, Dev Cell, vol. 3, no. 1, pp. 75-84, 2002.
, “Clock regulatory elements control cyclic expression of Lunatic fringe during somitogenesis.”, Dev Cell, vol. 3, no. 1, pp. 75-84, 2002.
, “An excitable cortex and memory model successfully predicts new pseudopod dynamics.”, PLoS One, vol. 7, no. 3, p. e33528, 2012.
, “An excitable cortex and memory model successfully predicts new pseudopod dynamics.”, PLoS One, vol. 7, no. 3, p. e33528, 2012.
, “Time and length scales of autocrine signals in three dimensions.”, Biophys J, vol. 93, no. 6, pp. 1917-22, 2007.
, “Modeling the bicoid gradient: diffusion and reversible nuclear trapping of a stable protein.”, Dev Biol, vol. 312, no. 2, pp. 623-30, 2007.
, “Nuclear trapping shapes the terminal gradient in the Drosophila embryo.”, Curr Biol, vol. 18, no. 12, pp. 915-9, 2008.
, “Genetic incompatibilities are widespread within species.”, Nature, vol. 504, no. 7478, pp. 135-7, 2013.
, “A putative cell signal encoded by the folded gastrulation gene coordinates cell shape changes during Drosophila gastrulation.”, Cell, vol. 76, no. 6, pp. 1075-89, 1994.
, “A putative cell signal encoded by the folded gastrulation gene coordinates cell shape changes during Drosophila gastrulation.”, Cell, vol. 76, no. 6, pp. 1075-89, 1994.
, “A putative cell signal encoded by the folded gastrulation gene coordinates cell shape changes during Drosophila gastrulation.”, Cell, vol. 76, no. 6, pp. 1075-89, 1994.
, “The genetic landscape of a cell.”, Science, vol. 327, no. 5964, pp. 425-31, 2010.
, “The genetic landscape of a cell.”, Science, vol. 327, no. 5964, pp. 425-31, 2010.
, “Gene activities and segmental patterning in Drosophila: analysis of odd-skipped and pair-rule double mutants.”, Genes Dev, vol. 2, no. 12B, pp. 1812-23, 1988.
, “Molecular analysis of odd-skipped, a zinc finger encoding segmentation gene with a novel pair-rule expression pattern.”, EMBO J, vol. 9, no. 11, pp. 3795-804, 1990.
, “Molecular analysis of odd-skipped, a zinc finger encoding segmentation gene with a novel pair-rule expression pattern.”, EMBO J, vol. 9, no. 11, pp. 3795-804, 1990.
, “Molecular analysis of odd-skipped, a zinc finger encoding segmentation gene with a novel pair-rule expression pattern.”, EMBO J, vol. 9, no. 11, pp. 3795-804, 1990.
, “The Snail repressor positions Notch signaling in the Drosophila embryo.”, Development, vol. 129, no. 7, pp. 1785-93, 2002.
, “The Snail repressor positions Notch signaling in the Drosophila embryo.”, Development, vol. 129, no. 7, pp. 1785-93, 2002.
, “Mass spectrometry-based metabolomics of yeast.”, Methods Enzymol, vol. 470, pp. 393-426, 2010.
, “Mass spectrometry-based metabolomics of yeast.”, Methods Enzymol, vol. 470, pp. 393-426, 2010.
, “Phylogenomics reveals extensive reticulate evolution in Xiphophorus fishes.”, Evolution, vol. 67, no. 8, pp. 2166-79, 2013.
, “Mechanics of membrane bulging during cell-wall disruption in gram-negative bacteria.”, Phys Rev E Stat Nonlin Soft Matter Phys, vol. 83, no. 4 Pt 1, p. 041922, 2011.
, “Mechanics of membrane bulging during cell-wall disruption in gram-negative bacteria.”, Phys Rev E Stat Nonlin Soft Matter Phys, vol. 83, no. 4 Pt 1, p. 041922, 2011.
, “Direct evidence for cancer-cell-autonomous extracellular protein catabolism in pancreatic tumors.”, Nat Med, vol. 23, no. 2, pp. 235-241, 2017.
, “Direct evidence for cancer-cell-autonomous extracellular protein catabolism in pancreatic tumors.”, Nat Med, vol. 23, no. 2, pp. 235-241, 2017.
, “Evolutionary origins of the vertebrate heart: Specification of the cardiac lineage in Ciona intestinalis.”, Proc Natl Acad Sci U S A, vol. 100, no. 20, pp. 11469-73, 2003.
, “Uncoupling heart cell specification and migration in the simple chordate Ciona intestinalis.”, Development, vol. 132, no. 21, pp. 4811-8, 2005.
, “Uncoupling heart cell specification and migration in the simple chordate Ciona intestinalis.”, Development, vol. 132, no. 21, pp. 4811-8, 2005.
, “Nicotinamide adenine dinucleotide is transported into mammalian mitochondria.”, Elife, vol. 7, 2018.
, “Nicotinamide adenine dinucleotide is transported into mammalian mitochondria.”, Elife, vol. 7, 2018.
, “Nicotinamide adenine dinucleotide is transported into mammalian mitochondria.”, Elife, vol. 7, 2018.
, “Nicotinamide adenine dinucleotide is transported into mammalian mitochondria.”, Elife, vol. 7, 2018.
, “Nicotinamide adenine dinucleotide is transported into mammalian mitochondria.”, Elife, vol. 7, 2018.
, “Nicotinamide adenine dinucleotide is transported into mammalian mitochondria.”, Elife, vol. 7, 2018.
, “folded gastrulation, cell shape change and the control of myosin localization.”, Development, vol. 132, no. 18, pp. 4165-78, 2005.
, “folded gastrulation, cell shape change and the control of myosin localization.”, Development, vol. 132, no. 18, pp. 4165-78, 2005.
, “Dorsal-ventral pattern of Delta trafficking is established by a Snail-Tom-Neuralized pathway.”, Dev Cell, vol. 10, no. 2, pp. 257-64, 2006.
, “Dorsal-ventral pattern of Delta trafficking is established by a Snail-Tom-Neuralized pathway.”, Dev Cell, vol. 10, no. 2, pp. 257-64, 2006.
, “Direct measurement of cell wall stress stiffening and turgor pressure in live bacterial cells.”, Phys Rev Lett, vol. 107, no. 15, p. 158101, 2011.
, “Direct measurement of cell wall stress stiffening and turgor pressure in live bacterial cells.”, Phys Rev Lett, vol. 107, no. 15, p. 158101, 2011.
, “Direct measurement of cell wall stress stiffening and turgor pressure in live bacterial cells.”, Phys Rev Lett, vol. 107, no. 15, p. 158101, 2011.
, “Efficient multiple object tracking using mutually repulsive active membranes.”, PLoS One, vol. 8, no. 6, p. e65769, 2013.
, “Efficient multiple object tracking using mutually repulsive active membranes.”, PLoS One, vol. 8, no. 6, p. e65769, 2013.
, “Efficient multiple object tracking using mutually repulsive active membranes.”, PLoS One, vol. 8, no. 6, p. e65769, 2013.
, “Effect of aberration on height calibration in three-dimensional localization-based microscopy and particle tracking.”, Appl Opt, vol. 48, no. 10, pp. 1886-90, 2009.
, “Effect of aberration on height calibration in three-dimensional localization-based microscopy and particle tracking.”, Appl Opt, vol. 48, no. 10, pp. 1886-90, 2009.
, “Dissecting inflammatory complications in critically injured patients by within-patient gene expression changes: a longitudinal clinical genomics study.”, PLoS Med, vol. 8, no. 9, p. e1001093, 2011.
, “Dissecting inflammatory complications in critically injured patients by within-patient gene expression changes: a longitudinal clinical genomics study.”, PLoS Med, vol. 8, no. 9, p. e1001093, 2011.
, “Dissecting inflammatory complications in critically injured patients by within-patient gene expression changes: a longitudinal clinical genomics study.”, PLoS Med, vol. 8, no. 9, p. e1001093, 2011.
, “Dissecting inflammatory complications in critically injured patients by within-patient gene expression changes: a longitudinal clinical genomics study.”, PLoS Med, vol. 8, no. 9, p. e1001093, 2011.
, “Tail morphogenesis in the ascidian, Ciona intestinalis, requires cooperation between notochord and muscle.”, Dev Biol, vol. 244, no. 2, pp. 385-95, 2002.
, “Tail morphogenesis in the ascidian, Ciona intestinalis, requires cooperation between notochord and muscle.”, Dev Biol, vol. 244, no. 2, pp. 385-95, 2002.
, “Analyzing gene regulation in ascidian embryos: new tools for new perspectives.”, Differentiation, vol. 70, no. 4-5, pp. 132-9, 2002.
, “Short-term integration of Cdc25 dynamics controls mitotic entry during Drosophila gastrulation.”, Dev Cell, vol. 22, no. 4, pp. 763-74, 2012.
, “Short-term integration of Cdc25 dynamics controls mitotic entry during Drosophila gastrulation.”, Dev Cell, vol. 22, no. 4, pp. 763-74, 2012.
, “SOURCE: a unified genomic resource of functional annotations, ontologies, and gene expression data.”, Nucleic Acids Res, vol. 31, no. 1, pp. 219-23, 2003.
, “The cell biology of aging.”, Mol Biol Cell, vol. 26, no. 25, pp. 4524-31, 2015.
, “Biclustering via optimal re-ordering of data matrices in systems biology: rigorous methods and comparative studies.”, BMC Bioinformatics, vol. 9, p. 458, 2008.
, “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.
, “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.
, “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.
, “The synthesis-diffusion-degradation model explains Bicoid gradient formation in unfertilized eggs.”, Phys Biol, vol. 9, no. 5, p. 055004, 2012.
, “The synthesis-diffusion-degradation model explains Bicoid gradient formation in unfertilized eggs.”, Phys Biol, vol. 9, no. 5, p. 055004, 2012.
, “Measurement and perturbation of morphogen lifetime: effects on gradient shape.”, Biophys J, vol. 101, no. 8, pp. 1807-15, 2011.
, “Positional information, in bits.”, Proc Natl Acad Sci U S A, vol. 110, no. 41, pp. 16301-8, 2013.
, “ZMP: a master regulator of one-carbon metabolism.”, Mol Cell, vol. 57, no. 2, pp. 203-4, 2015.
, “ZMP: a master regulator of one-carbon metabolism.”, Mol Cell, vol. 57, no. 2, pp. 203-4, 2015.
, “Predicting functionally informative mutations in Escherichia coli BamA using evolutionary covariance analysis.”, Genetics, vol. 195, no. 2, pp. 443-55, 2013.
, “A transcriptional network associated with natural variation in Drosophila aggressive behavior.”, Genome Biol, vol. 10, no. 7, p. R76, 2009.
, “A transcriptional network associated with natural variation in Drosophila aggressive behavior.”, Genome Biol, vol. 10, no. 7, p. R76, 2009.
, “A transcriptional network associated with natural variation in Drosophila aggressive behavior.”, Genome Biol, vol. 10, no. 7, p. R76, 2009.
, “Flexibility of beta-sheets: principal component analysis of database protein structures.”, Proteins, vol. 55, no. 1, pp. 91-8, 2004.
, “Flexibility of beta-sheets: principal component analysis of database protein structures.”, Proteins, vol. 55, no. 1, pp. 91-8, 2004.
, “Hourglass model for a protein-based circadian oscillator.”, Phys Rev Lett, vol. 96, no. 3, p. 038303, 2006.
, “Flexibility of alpha-helices: results of a statistical analysis of database protein structures.”, J Mol Biol, vol. 327, no. 1, pp. 229-37, 2003.
, “Hourglass model for a protein-based circadian oscillator.”, Phys Rev Lett, vol. 96, no. 3, p. 038303, 2006.
, “Flexibility of alpha-helices: results of a statistical analysis of database protein structures.”, J Mol Biol, vol. 327, no. 1, pp. 229-37, 2003.
, “Hourglass model for a protein-based circadian oscillator.”, Phys Rev Lett, vol. 96, no. 3, p. 038303, 2006.
, “Designability of alpha-helical proteins.”, Proc Natl Acad Sci U S A, vol. 99, no. 17, pp. 11163-8, 2002.
, “Identifying proteins of high designability via surface-exposure patterns.”, Proteins, vol. 47, no. 3, pp. 295-304, 2002.
, “The zonal expression of alpha-fetoprotein transgenes in the livers of adult mice.”, Dev Dyn, vol. 195, no. 1, pp. 55-66, 1992.
, “The zonal expression of alpha-fetoprotein transgenes in the livers of adult mice.”, Dev Dyn, vol. 195, no. 1, pp. 55-66, 1992.
, “The zonal expression of alpha-fetoprotein transgenes in the livers of adult mice.”, Dev Dyn, vol. 195, no. 1, pp. 55-66, 1992.
, “Maximum likelihood and the single receptor.”, Phys Rev Lett, vol. 103, no. 15, p. 158101, 2009.
, “Accuracy of direct gradient sensing by single cells.”, Proc Natl Acad Sci U S A, vol. 105, no. 41, pp. 15749-54, 2008.
, “Variable sizes of Escherichia coli chemoreceptor signaling teams.”, Mol Syst Biol, vol. 4, p. 211, 2008.
, “Accuracy of direct gradient sensing by cell-surface receptors.”, Prog Biophys Mol Biol, vol. 100, no. 1-3, pp. 33-9, 2009.
, “Variable sizes of Escherichia coli chemoreceptor signaling teams.”, Mol Syst Biol, vol. 4, p. 211, 2008.
, “Precise adaptation in bacterial chemotaxis through "assistance neighborhoods".”, Proc Natl Acad Sci U S A, vol. 103, no. 35, pp. 13040-4, 2006.
, “Variable sizes of Escherichia coli chemoreceptor signaling teams.”, Mol Syst Biol, vol. 4, p. 211, 2008.
, “Precise adaptation in bacterial chemotaxis through "assistance neighborhoods".”, Proc Natl Acad Sci U S A, vol. 103, no. 35, pp. 13040-4, 2006.
, “Toward an atomistic model for predicting transcription-factor binding sites.”, Proteins, vol. 57, no. 2, pp. 262-8, 2004.
, “Chemotaxis receptor complexes: from signaling to assembly.”, PLoS Comput Biol, vol. 3, no. 7, p. e150, 2007.
, “Saccharomyces Genome Database provides mutant phenotype data.”, Nucleic Acids Res, vol. 38, no. Database issue, pp. D433-6, 2010.
, “The Bee Microbiome: Impact on Bee Health and Model for Evolution and Ecology of Host-Microbe Interactions.”, MBio, vol. 7, no. 2, pp. e02164-15, 2016.
, “Quantitative flux analysis reveals folate-dependent NADPH production.”, Nature, vol. 510, no. 7504, pp. 298-302, 2014.
, “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.
, “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.
, “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.
, “Quantitative flux analysis reveals folate-dependent NADPH production.”, Nature, vol. 510, no. 7504, pp. 298-302, 2014.
, “Quantitative flux analysis reveals folate-dependent NADPH production.”, Nature, vol. 510, no. 7504, pp. 298-302, 2014.
, “Suboptimization of developmental enhancers.”, Science, vol. 350, no. 6258, pp. 325-8, 2015.
, “Wolbachia utilizes host microtubules and Dynein for anterior localization in the Drosophila oocyte.”, PLoS Pathog, vol. 1, no. 2, p. e14, 2005.
, “Wolbachia utilizes host microtubules and Dynein for anterior localization in the Drosophila oocyte.”, PLoS Pathog, vol. 1, no. 2, p. e14, 2005.
, “Tissue-specific transcription of the mouse alpha-fetoprotein gene promoter is dependent on HNF-1.”, Mol Cell Biol, vol. 9, no. 10, pp. 4204-12, 1989.
, “Saccharomyces cerevisiae S288C genome annotation: a working hypothesis.”, Yeast, vol. 23, no. 12, pp. 857-65, 2006.
, “Predicting specificity in bZIP coiled-coil protein interactions.”, Genome Biol, vol. 5, no. 2, p. R11, 2004.
, “Mechanisms for maintaining cell shape in rod-shaped Gram-negative bacteria.”, Mol Microbiol, vol. 81, no. 2, pp. 340-53, 2011.
, “Mechanisms for maintaining cell shape in rod-shaped Gram-negative bacteria.”, Mol Microbiol, vol. 81, no. 2, pp. 340-53, 2011.
, “ERK as a model for systems biology of enzyme kinetics in cells.”, Curr Biol, vol. 23, no. 21, pp. R972-9, 2013.
, “ERK as a model for systems biology of enzyme kinetics in cells.”, Curr Biol, vol. 23, no. 21, pp. R972-9, 2013.
, “Testing the kinship theory of intragenomic conflict in honey bees (Apis mellifera).”, Proc Natl Acad Sci U S A, vol. 113, no. 4, pp. 1020-5, 2016.
, “Quantitative imaging of transcription in living Drosophila embryos links polymerase activity to patterning.”, Curr Biol, vol. 23, no. 21, pp. 2140-5, 2013.
, “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.
, “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.
, “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.
, “Volume conservation principle involved in cell lengthening and nucleus movement during tissue morphogenesis.”, Proc Natl Acad Sci U S A, vol. 109, no. 47, pp. 19298-303, 2012.
, “The localized requirements for a gene affecting segmentation in Drosophila: analysis of larvae mosaic for runt.”, Dev Biol, vol. 109, no. 2, pp. 321-35, 1985.
, “The localized requirements for a gene affecting segmentation in Drosophila: analysis of larvae mosaic for runt.”, Dev Biol, vol. 109, no. 2, pp. 321-35, 1985.
, “The localized requirements for a gene affecting segmentation in Drosophila: analysis of larvae mosaic for runt.”, Dev Biol, vol. 109, no. 2, pp. 321-35, 1985.
, “Dosage requirements for runt in the segmentation of Drosophila embryos.”, Cell, vol. 45, no. 2, pp. 289-99, 1986.
, “Dosage requirements for runt in the segmentation of Drosophila embryos.”, Cell, vol. 45, no. 2, pp. 289-99, 1986.
, “Disentangling function from topology to infer the network properties of disease genes.”, BMC Syst Biol, vol. 7, p. 5, 2013.
, “Interaction-based discovery of functionally important genes in cancers.”, Nucleic Acids Res, vol. 42, no. 3, p. e18, 2014.
, “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.
, “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.
, “Common and divergent features of galactose-1-phosphate and fructose-1-phosphate toxicity in yeast.”, Mol Biol Cell, vol. 29, no. 8, pp. 897-910, 2018.
, “Overview of the Alliance for Cellular Signaling.”, Nature, vol. 420, no. 6916, pp. 703-6, 2002.
, “Overview of the Alliance for Cellular Signaling.”, Nature, vol. 420, no. 6916, pp. 703-6, 2002.
, “Fine-structure mapping of the three mouse alpha-fetoprotein gene enhancers.”, Mol Cell Biol, vol. 8, no. 3, pp. 1169-78, 1988.
, “Fine-structure mapping of the three mouse alpha-fetoprotein gene enhancers.”, Mol Cell Biol, vol. 8, no. 3, pp. 1169-78, 1988.
, “Configuration of the alpha-fetoprotein regulatory domain during development.”, Genes Dev, vol. 2, no. 8, pp. 949-56, 1988.
, “Fine-structure mapping of the three mouse alpha-fetoprotein gene enhancers.”, Mol Cell Biol, vol. 8, no. 3, pp. 1169-78, 1988.
, “Quantifying the Gurken morphogen gradient in Drosophila oogenesis.”, Dev Cell, vol. 11, no. 2, pp. 263-72, 2006.
, “Regulatory and metabolic rewiring during laboratory evolution of ethanol tolerance in E. coli.”, Mol Syst Biol, vol. 6, p. 378, 2010.
, “Coordinated regulation of Myc trans-activation targets by Polycomb and the Trithorax group protein Ash1.”, BMC Mol Biol, vol. 8, p. 40, 2007.
, “Local kinetics of morphogen gradients.”, Proc Natl Acad Sci U S A, vol. 108, no. 15, pp. 6157-62, 2011.
, “Local accumulation times for source, diffusion, and degradation models in two and three dimensions.”, J Chem Phys, vol. 138, no. 10, p. 104121, 2013.
, “Achieving optimal growth through product feedback inhibition in metabolism.”, PLoS Comput Biol, vol. 6, no. 6, p. e1000802, 2010.
, “PILGRM: an interactive data-driven discovery platform for expert biologists.”, Nucleic Acids Res, vol. 39, no. Web Server issue, pp. W368-74, 2011.
, “Self-organization of the Escherichia coli chemotaxis network imaged with super-resolution light microscopy.”, PLoS Biol, vol. 7, no. 6, p. e1000137, 2009.
, “Self-organization of the Escherichia coli chemotaxis network imaged with super-resolution light microscopy.”, PLoS Biol, vol. 7, no. 6, p. e1000137, 2009.
, “Self-organization of the Escherichia coli chemotaxis network imaged with super-resolution light microscopy.”, PLoS Biol, vol. 7, no. 6, p. e1000137, 2009.
, “Stability and nuclear dynamics of the bicoid morphogen gradient.”, Cell, vol. 130, no. 1, pp. 141-52, 2007.
, “Stability and nuclear dynamics of the bicoid morphogen gradient.”, Cell, vol. 130, no. 1, pp. 141-52, 2007.
, “Stability and nuclear dynamics of the bicoid morphogen gradient.”, Cell, vol. 130, no. 1, pp. 141-52, 2007.
, “The onset of collective behavior in social amoebae.”, Science, vol. 328, no. 5981, pp. 1021-5, 2010.
, “Probing the limits to positional information.”, Cell, vol. 130, no. 1, pp. 153-64, 2007.
, “Probing the limits to positional information.”, Cell, vol. 130, no. 1, pp. 153-64, 2007.
, “Probing the limits to positional information.”, Cell, vol. 130, no. 1, pp. 153-64, 2007.
, “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.
, “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.
, “Genome-wide detection of polymorphisms at nucleotide resolution with a single DNA microarray.”, Science, vol. 311, no. 5769, pp. 1932-6, 2006.
, “System-level analysis of genes and functions affecting survival during nutrient starvation in Saccharomyces cerevisiae.”, Genetics, vol. 187, no. 1, pp. 299-317, 2011.
, “The repertoire and dynamics of evolutionary adaptations to controlled nutrient-limited environments in yeast.”, PLoS Genet, vol. 4, no. 12, p. e1000303, 2008.
, “The repertoire and dynamics of evolutionary adaptations to controlled nutrient-limited environments in yeast.”, PLoS Genet, vol. 4, no. 12, p. e1000303, 2008.
, “Torso RTK controls Capicua degradation by changing its subcellular localization.”, Development, vol. 139, no. 21, pp. 3962-8, 2012.
, “Modelling the Bicoid gradient.”, Development, vol. 137, no. 14, pp. 2253-64, 2010.
, “The Bicoid gradient is shaped independently of nuclei.”, Development, vol. 137, no. 17, pp. 2857-62, 2010.
, “Coordination of opposite-polarity microtubule motors.”, J Cell Biol, vol. 156, no. 4, pp. 715-24, 2002.
, “Coordination of opposite-polarity microtubule motors.”, J Cell Biol, vol. 156, no. 4, pp. 715-24, 2002.
, “Coordination of opposite-polarity microtubule motors.”, J Cell Biol, vol. 156, no. 4, pp. 715-24, 2002.
, “Dynein-mediated cargo transport in vivo. A switch controls travel distance.”, J Cell Biol, vol. 148, no. 5, pp. 945-56, 2000.
, “Dynein-mediated cargo transport in vivo. A switch controls travel distance.”, J Cell Biol, vol. 148, no. 5, pp. 945-56, 2000.
, “Dynein-mediated cargo transport in vivo. A switch controls travel distance.”, J Cell Biol, vol. 148, no. 5, pp. 945-56, 2000.
, “Dynein-mediated cargo transport in vivo. A switch controls travel distance.”, J Cell Biol, vol. 148, no. 5, pp. 945-56, 2000.
, “Control of cleavage cycles in Drosophila embryos by frühstart.”, Dev Cell, vol. 5, no. 2, pp. 285-94, 2003.
, “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 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 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 genetic link between morphogenesis and cell division during formation of the ventral furrow in Drosophila.”, Cell, vol. 101, no. 5, pp. 523-31, 2000.
, “Linkage between vitamin D-binding protein and alpha-fetoprotein in the mouse.”, Mamm Genome, vol. 7, no. 2, pp. 103-6, 1996.
, “A genomewide functional network for the laboratory mouse.”, PLoS Comput Biol, vol. 4, no. 9, p. e1000165, 2008.
, “Linkage between vitamin D-binding protein and alpha-fetoprotein in the mouse.”, Mamm Genome, vol. 7, no. 2, pp. 103-6, 1996.
, “A genomewide functional network for the laboratory mouse.”, PLoS Comput Biol, vol. 4, no. 9, p. e1000165, 2008.
, “Linkage between vitamin D-binding protein and alpha-fetoprotein in the mouse.”, Mamm Genome, vol. 7, no. 2, pp. 103-6, 1996.
, “A genomewide functional network for the laboratory mouse.”, PLoS Comput Biol, vol. 4, no. 9, p. e1000165, 2008.
, “Systematic planning of genome-scale experiments in poorly studied species.”, PLoS Comput Biol, vol. 6, no. 3, p. e1000698, 2010.
, “A genomewide functional network for the laboratory mouse.”, PLoS Comput Biol, vol. 4, no. 9, p. e1000165, 2008.
, “Diet-Induced Circadian Enhancer Remodeling Synchronizes Opposing Hepatic Lipid Metabolic Processes.”, Cell, vol. 174, no. 4, pp. 831-842.e12, 2018.
, “Diet-Induced Circadian Enhancer Remodeling Synchronizes Opposing Hepatic Lipid Metabolic Processes.”, Cell, vol. 174, no. 4, pp. 831-842.e12, 2018.
, “Diet-Induced Circadian Enhancer Remodeling Synchronizes Opposing Hepatic Lipid Metabolic Processes.”, Cell, vol. 174, no. 4, pp. 831-842.e12, 2018.
, “Predicting gene function in a hierarchical context with an ensemble of classifiers.”, Genome Biol, vol. 9 Suppl 1, p. S3, 2008.
, “Predicting gene function in a hierarchical context with an ensemble of classifiers.”, Genome Biol, vol. 9 Suppl 1, p. S3, 2008.
, “Functional genomics complements quantitative genetics in identifying disease-gene associations.”, PLoS Comput Biol, vol. 6, no. 11, p. e1000991, 2010.
, “Functional genomics complements quantitative genetics in identifying disease-gene associations.”, PLoS Comput Biol, vol. 6, no. 11, p. e1000991, 2010.
, “Tissue-specific functional networks for prioritizing phenotype and disease genes.”, PLoS Comput Biol, vol. 8, no. 9, p. e1002694, 2012.
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