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, “pyramus and thisbe: FGF genes that pattern the mesoderm of Drosophila embryos.”, Genes Dev, vol. 18, no. 6, pp. 687-99, 2004.
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, “FGF signaling establishes the anterior border of the Ciona neural tube.”, Development, vol. 139, no. 13, pp. 2351-9, 2012.
, “Multiple enhancers ensure precision of gap gene-expression patterns in the Drosophila embryo.”, Proc Natl Acad Sci U S A, vol. 108, no. 33, pp. 13570-5, 2011.
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, “Ephrin-mediated restriction of ERK1/2 activity delimits the number of pigment cells in the Ciona CNS.”, Dev Biol, vol. 394, no. 1, pp. 170-80, 2014.
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, “The Bicoid gradient is shaped independently of nuclei.”, Development, vol. 137, no. 17, pp. 2857-62, 2010.
, “Development: lights, camera, action--the Drosophila embryo goes live!”, Curr Biol, vol. 23, no. 21, pp. R965-7, 2013.
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, “Regulation of Hox gene activity by transcriptional elongation in Drosophila.”, Curr Biol, vol. 19, no. 8, pp. 688-93, 2009.
, “Exploiting transcription factor binding site clustering to identify cis-regulatory modules involved in pattern formation in the Drosophila genome.”, Proc Natl Acad Sci U S A, vol. 99, no. 2, pp. 757-62, 2002.
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, “Oppositely imprinted genes p57(Kip2) and igf2 interact in a mouse model for Beckwith-Wiedemann syndrome.”, Genes Dev, vol. 13, no. 23, pp. 3115-24, 1999.
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, “Cad74A is regulated by BR and is required for robust dorsal appendage formation in Drosophila oogenesis.”, Dev Biol, vol. 322, no. 2, pp. 289-301, 2008.
, “The pre-vertebrate origins of neurogenic placodes.”, Nature, vol. 524, no. 7566, pp. 462-5, 2015.
, “Stereotyped and specific gene expression programs in human innate immune responses to bacteria.”, Proc Natl Acad Sci U S A, vol. 99, no. 2, pp. 972-7, 2002.
, “Perinatal high fat diet and early life methyl donor supplementation alter one carbon metabolism and DNA methylation in the brain.”, J Neurochem, vol. 145, no. 5, pp. 362-373, 2018.
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, “5,10-methenyltetrahydrofolate synthetase deficiency causes a neurometabolic disorder associated with microcephaly, epilepsy, and cerebral hypomyelination.”, Mol Genet Metab, vol. 125, no. 1-2, pp. 118-126, 2018.
, “Analyzing neural responses to natural signals: maximally informative dimensions.”, Neural Comput, vol. 16, no. 2, pp. 223-50, 2004.
, “Individual variation in pheromone response correlates with reproductive traits and brain gene expression in worker honey bees.”, PLoS One, vol. 5, no. 2, p. e9116, 2010.
, “Spatially resolved isotope tracing reveals tissue metabolic activity.”, Nat Methods, vol. 19, no. 2, pp. 223-230, 2022.
, “The information content of receptive fields.”, Neuron, vol. 40, no. 4, pp. 823-33, 2003.
, “FGF signaling establishes the anterior border of the Ciona neural tube.”, Development, vol. 139, no. 13, pp. 2351-9, 2012.
, “Probing the kinesin reaction cycle with a 2D optical force clamp.”, Proc Natl Acad Sci U S A, vol. 100, no. 5, pp. 2351-6, 2003.
, “Integration of the head and trunk segmentation systems controls cephalic furrow formation in Drosophila.”, Development, vol. 124, no. 19, pp. 3747-54, 1997.
, “An excitable cortex and memory model successfully predicts new pseudopod dynamics.”, PLoS One, vol. 7, no. 3, p. e33528, 2012.
, “A sensory source for motor variation.”, Nature, vol. 437, no. 7057, pp. 412-6, 2005.
, “Complementation mapping of skeletal and central nervous system abnormalities in mice of the piebald deletion complex.”, Genetics, vol. 143, no. 1, pp. 447-61, 1996.
, “A Search for Parent-of-Origin Effects on Honey Bee Gene Expression.”, G3 (Bethesda), vol. 5, no. 8, pp. 1657-62, 2015.
, “SCAR is a primary regulator of Arp2/3-dependent morphological events in Drosophila.”, J Cell Biol, vol. 156, no. 4, pp. 689-701, 2002.
, “Automatically tracking neurons in a moving and deforming brain.”, PLoS Comput Biol, vol. 13, no. 5, p. e1005517, 2017.
, “Gene expression profiling reveals molecularly and clinically distinct subtypes of glioblastoma multiforme.”, Proc Natl Acad Sci U S A, vol. 102, no. 16, pp. 5814-9, 2005.
, “Expression of cytokeratins 17 and 5 identifies a group of breast carcinomas with poor clinical outcome.”, Am J Pathol, vol. 161, no. 6, pp. 1991-6, 2002.
, “Ligand accumulation in autocrine cell cultures.”, Biophys J, vol. 88, no. 4, pp. 2384-90, 2005.
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, “Expression of cytokeratins 17 and 5 identifies a group of breast carcinomas with poor clinical outcome.”, Am J Pathol, vol. 161, no. 6, pp. 1991-6, 2002.
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, “Gene expression patterns in ovarian carcinomas.”, Mol Biol Cell, vol. 14, no. 11, pp. 4376-86, 2003.
, “Expression array technology in the diagnosis and treatment of breast cancer.”, Mol Interv, vol. 2, no. 2, pp. 101-9, 2002.
, “A loop-counting method for covariate-corrected low-rank biclustering of gene-expression and genome-wide association study data.”, PLoS Comput Biol, vol. 14, no. 5, p. e1006105, 2018.
, “Visualization-based discovery and analysis of genomic aberrations in microarray data.”, BMC Bioinformatics, vol. 6, p. 146, 2005.
, “Microarray analysis reveals a major direct role of DNA copy number alteration in the transcriptional program of human breast tumors.”, Proc Natl Acad Sci U S A, vol. 99, no. 20, pp. 12963-8, 2002.
, “Integrated molecular profiles of invasive breast tumors and ductal carcinoma in situ (DCIS) reveal differential vascular and interleukin signaling.”, Proc Natl Acad Sci U S A, vol. 109, no. 8, pp. 2802-7, 2012.
, “Gene expression profiles do not consistently predict the clinical treatment response in locally advanced breast cancer.”, Mol Cancer Ther, vol. 5, no. 11, pp. 2914-8, 2006.
, “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.
, “Metabolome remodeling during the acidogenic-solventogenic transition in Clostridium acetobutylicum.”, Appl Environ Microbiol, vol. 77, no. 22, pp. 7984-97, 2011.
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, “No association between mitochondrial DNA haplotypes and a female-limited mimicry phenotype in Papilio glaucus.”, Evolution, vol. 57, no. 2, pp. 305-16, 2003.
, “Metabolome remodeling during the acidogenic-solventogenic transition in Clostridium acetobutylicum.”, Appl Environ Microbiol, vol. 77, no. 22, pp. 7984-97, 2011.
, “Cad74A is regulated by BR and is required for robust dorsal appendage formation in Drosophila oogenesis.”, Dev Biol, vol. 322, no. 2, pp. 289-301, 2008.
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, “Expression patterns of cadherin genes in Drosophila oogenesis.”, Gene Expr Patterns, vol. 9, no. 1, pp. 31-6, 2009.
, “The C. elegans adult neuronal IIS/FOXO transcriptome reveals adult phenotype regulators.”, Nature, vol. 529, no. 7584, pp. 92-6, 2016.
, “Feeding the germline.”, Genes Dev, vol. 30, no. 3, pp. 249-50, 2016.
, “Insulin signaling and dietary restriction differentially influence the decline of learning and memory with age.”, PLoS Biol, vol. 8, no. 5, p. e1000372, 2010.
, “Emergence of long timescales and stereotyped behaviors in Caenorhabditis elegans.”, Proc Natl Acad Sci U S A, vol. 108, no. 18, pp. 7286-9, 2011.
, “Regulation of aging and age-related disease by DAF-16 and heat-shock factor.”, Science, vol. 300, no. 5622, pp. 1142-5, 2003.
, “Functional knowledge transfer for high-accuracy prediction of under-studied biological processes.”, PLoS Comput Biol, vol. 9, no. 3, p. e1002957, 2013.
, “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.
, “Dimensionality and dynamics in the behavior of C. elegans.”, PLoS Comput Biol, vol. 4, no. 4, p. e1000028, 2008.
, “C. elegans maximum velocity correlates with healthspan and is maintained in worms with an insulin receptor mutation.”, Nat Commun, vol. 6, p. 8919, 2015.
, “From modes to movement in the behavior of Caenorhabditis elegans.”, PLoS One, vol. 5, no. 11, p. e13914, 2010.
, “Enrichment of regulatory motifs upstream of predicted DAF-16 targets.”, Nat Genet, vol. 38, no. 4, pp. 397-8; author reply 398, 2006.
, “Comparing genomic expression patterns across species identifies shared transcriptional profile in aging.”, Nat Genet, vol. 36, no. 2, pp. 197-204, 2004.
, “Condition-adapted stress and longevity gene regulation by Caenorhabditis elegans SKN-1/Nrf.”, Aging Cell, vol. 8, no. 5, pp. 524-41, 2009.
, “Mating induces shrinking and death in Caenorhabditis mothers.”, Science, vol. 343, no. 6170, pp. 536-40, 2014.
, “DAF-16 and PQM-1: partners in longevity.”, Aging (Albany NY), vol. 6, no. 1, pp. 5-6, 2014.
, “Glucose shortens the life span of C. elegans by downregulating DAF-16/FOXO activity and aquaporin gene expression.”, Cell Metab, vol. 10, no. 5, pp. 379-91, 2009.
, “Genes that act downstream of DAF-16 to influence the lifespan of Caenorhabditis elegans.”, Nature, vol. 424, no. 6946, pp. 277-83, 2003.
, “Whole-brain calcium imaging with cellular resolution in freely behaving Caenorhabditis elegans.”, Proc Natl Acad Sci U S A, vol. 113, no. 8, pp. E1074-81, 2016.
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, “The role of insulin/IGF-like signaling in C. elegans longevity and aging.”, Dis Model Mech, vol. 3, no. 7-8, pp. 415-9, 2010.
, “The C. elegans TGF-beta Dauer pathway regulates longevity via insulin signaling.”, Curr Biol, vol. 17, no. 19, pp. 1635-45, 2007.
, “Global prediction of tissue-specific gene expression and context-dependent gene networks in Caenorhabditis elegans.”, PLoS Comput Biol, vol. 5, no. 6, p. e1000417, 2009.
, “PQM-1 complements DAF-16 as a key transcriptional regulator of DAF-2-mediated development and longevity.”, Cell, vol. 154, no. 3, pp. 676-90, 2013.
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, “TGF-β and insulin signaling regulate reproductive aging via oocyte and germline quality maintenance.”, Cell, vol. 143, no. 2, pp. 299-312, 2010.
, “EGF signalling activates the ubiquitin proteasome system to modulate C. elegans lifespan.”, EMBO J, vol. 30, no. 15, pp. 2990-3003, 2011.
, “The search for DAF-16/FOXO transcriptional targets: approaches and discoveries.”, Exp Gerontol, vol. 41, no. 10, pp. 910-21, 2006.
, “Tissue entrainment by feedback regulation of insulin gene expression in the endoderm of Caenorhabditis elegans.”, Proc Natl Acad Sci U S A, vol. 104, no. 48, pp. 19046-50, 2007.
, “A microfluidic device and automatic counting system for the study of C. elegans reproductive aging.”, Lab Chip, vol. 15, no. 2, pp. 524-31, 2015.
, “Cell-Specific Transcriptional Profiling of Ciliated Sensory Neurons Reveals Regulators of Behavior and Extracellular Vesicle Biogenesis.”, Curr Biol, vol. 25, no. 24, pp. 3232-8, 2015.
, “The evolutionarily conserved longevity determinants HCF-1 and SIR-2.1/SIRT1 collaborate to regulate DAF-16/FOXO.”, PLoS Genet, vol. 7, no. 9, p. e1002235, 2011.
, “Dauer-independent insulin/IGF-1-signalling implicates collagen remodelling in longevity.”, Nature, vol. 519, no. 7541, pp. 97-101, 2015.
, “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.
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, “Automatically tracking neurons in a moving and deforming brain.”, PLoS Comput Biol, vol. 13, no. 5, p. e1005517, 2017.
, “Integration of diverse inputs in the regulation of Caenorhabditis elegans DAF-16/FOXO.”, Dev Dyn, vol. 239, no. 5, pp. 1405-12, 2010.
, “TGF-beta Sma/Mab signaling mutations uncouple reproductive aging from somatic aging.”, PLoS Genet, vol. 5, no. 12, p. e1000789, 2009.
, “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.
, “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.
, “The C. elegans adult neuronal IIS/FOXO transcriptome reveals adult phenotype regulators.”, Nature, vol. 529, no. 7584, pp. 92-6, 2016.
, “Insulin signaling and dietary restriction differentially influence the decline of learning and memory with age.”, PLoS Biol, vol. 8, no. 5, p. e1000372, 2010.
, “Regulation of aging and age-related disease by DAF-16 and heat-shock factor.”, Science, vol. 300, no. 5622, pp. 1142-5, 2003.
, “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.
, “C. elegans maximum velocity correlates with healthspan and is maintained in worms with an insulin receptor mutation.”, Nat Commun, vol. 6, p. 8919, 2015.
, “From modes to movement in the behavior of Caenorhabditis elegans.”, PLoS One, vol. 5, no. 11, p. e13914, 2010.
, “Enrichment of regulatory motifs upstream of predicted DAF-16 targets.”, Nat Genet, vol. 38, no. 4, pp. 397-8; author reply 398, 2006.
, “Condition-adapted stress and longevity gene regulation by Caenorhabditis elegans SKN-1/Nrf.”, Aging Cell, vol. 8, no. 5, pp. 524-41, 2009.
, “Mating induces shrinking and death in Caenorhabditis mothers.”, Science, vol. 343, no. 6170, pp. 536-40, 2014.
, “DAF-16 and PQM-1: partners in longevity.”, Aging (Albany NY), vol. 6, no. 1, pp. 5-6, 2014.
, “Glucose shortens the life span of C. elegans by downregulating DAF-16/FOXO activity and aquaporin gene expression.”, Cell Metab, vol. 10, no. 5, pp. 379-91, 2009.
, “Genes that act downstream of DAF-16 to influence the lifespan of Caenorhabditis elegans.”, Nature, vol. 424, no. 6946, pp. 277-83, 2003.
, “For longevity, perception is everything.”, Cell, vol. 160, no. 5, pp. 807-9, 2015.
, “PQM-1 complements DAF-16 as a key transcriptional regulator of DAF-2-mediated development and longevity.”, Cell, vol. 154, no. 3, pp. 676-90, 2013.
, “EGF signalling activates the ubiquitin proteasome system to modulate C. elegans lifespan.”, EMBO J, vol. 30, no. 15, pp. 2990-3003, 2011.
, “The search for DAF-16/FOXO transcriptional targets: approaches and discoveries.”, Exp Gerontol, vol. 41, no. 10, pp. 910-21, 2006.
, “Tissue entrainment by feedback regulation of insulin gene expression in the endoderm of Caenorhabditis elegans.”, Proc Natl Acad Sci U S A, vol. 104, no. 48, pp. 19046-50, 2007.
, “A microfluidic device and automatic counting system for the study of C. elegans reproductive aging.”, Lab Chip, vol. 15, no. 2, pp. 524-31, 2015.
, “The evolutionarily conserved longevity determinants HCF-1 and SIR-2.1/SIRT1 collaborate to regulate DAF-16/FOXO.”, PLoS Genet, vol. 7, no. 9, p. e1002235, 2011.
, “Dauer-independent insulin/IGF-1-signalling implicates collagen remodelling in longevity.”, Nature, vol. 519, no. 7541, pp. 97-101, 2015.
, “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.
, “Integration of diverse inputs in the regulation of Caenorhabditis elegans DAF-16/FOXO.”, Dev Dyn, vol. 239, no. 5, pp. 1405-12, 2010.
, “TGF-beta Sma/Mab signaling mutations uncouple reproductive aging from somatic aging.”, PLoS Genet, vol. 5, no. 12, p. e1000789, 2009.
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, “Whole-brain calcium imaging with cellular resolution in freely behaving Caenorhabditis elegans.”, Proc Natl Acad Sci U S A, vol. 113, no. 8, pp. E1074-81, 2016.
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, “Probing the kinesin reaction cycle with a 2D optical force clamp.”, Proc Natl Acad Sci U S A, vol. 100, no. 5, pp. 2351-6, 2003.
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