scholarly article | Q13442814 |
P50 | author | Konrad Basler | Q21031911 |
Eduardo Moreno Lampaya | Q107281316 | ||
P2860 | cites work | The Hallmarks of Cancer | Q221226 |
Morphogenetic apoptosis: a mechanism for correcting discontinuities in morphogen gradients. | Q52112881 | ||
Lumenal transmission of decapentaplegic in Drosophila imaginal discs. | Q52114162 | ||
A P-insertion screen identifying novel X-linked essential genes in Drosophila. | Q52126589 | ||
Direct and long-range action of a DPP morphogen gradient. | Q52201537 | ||
Decapentaplegic: a gene complex affecting morphogenesis in Drosophila melanogaster. | Q52503275 | ||
Drosophila alpha-catenin and E-cadherin bind to distinct regions of Drosophila Armadillo. | Q52551617 | ||
Drosophila myc regulates cellular growth during development. | Q52573250 | ||
A matter of life and death | Q63408384 | ||
Ras1 promotes cellular growth in the Drosophila wing | Q73490740 | ||
A global transcriptional regulatory role for c-Myc in Burkitt's lymphoma cells | Q22066257 | ||
Wnt/wingless signaling requires BCL9/legless-mediated recruitment of pygopus to the nuclear beta-catenin-TCF complex | Q24294443 | ||
Genomic targets of the human c-Myc protein | Q24672480 | ||
Rab proteins as membrane organizers | Q27860861 | ||
Proliferation, cell cycle and apoptosis in cancer | Q28189476 | ||
Protein elongation factor EEF1A2 is a putative oncogene in ovarian cancer | Q28203164 | ||
c-MYC: more than just a matter of life and death | Q28205057 | ||
Differential mitotic rates and patterns of growth in compartments in the Drosophila wing | Q28280656 | ||
A molecular signature of metastasis in primary solid tumors | Q29614442 | ||
Does the ribosome translate cancer? | Q29618775 | ||
The small GTPase rab5 functions as a regulatory factor in the early endocytic pathway | Q29620272 | ||
N-myc enhances the expression of a large set of genes functioning in ribosome biogenesis and protein synthesis | Q30983520 | ||
A progression puzzle | Q33337505 | ||
MYC oncogenes and human neoplastic disease | Q33667340 | ||
Field cancerization in oral stratified squamous epithelium; clinical implications of multicentric origin | Q33968610 | ||
Signaling on the endocytic pathway | Q34271908 | ||
Deconstructing myc. | Q34340669 | ||
Regulation of cell size in growth, development and human disease: PI3K, PKB and S6K. | Q34488136 | ||
Survival of the fittest. Cell competition in the Drosophila wing. | Q34768931 | ||
Competition and compensation: coupled to death in development and cancer | Q34803139 | ||
The Drosophila phosphoinositide 3-kinase Dp110 promotes cell growth. | Q35915951 | ||
Genomic binding by the Drosophila Myc, Max, Mad/Mnt transcription factor network | Q35965143 | ||
Induction of apoptosis by Drosophila reaper, hid and grim through inhibition of IAP function | Q40387062 | ||
puckered encodes a phosphatase that mediates a feedback loop regulating JNK activity during dorsal closure in Drosophila | Q40442820 | ||
Direct activation of RNA polymerase III transcription by c-Myc | Q40677362 | ||
Parameters of cell competition in the compartments of the wing disc of Drosophila | Q41624173 | ||
The Drosophila caspase inhibitor DIAP1 is essential for cell survival and is negatively regulated by HID. | Q41689719 | ||
The EGF receptor defines domains of cell cycle progression and survival to regulate cell number in the developing Drosophila eye. | Q43546698 | ||
An epithelial cell destined for apoptosis signals its neighbors to extrude it by an actin- and myosin-dependent mechanism | Q43812071 | ||
Minutes: Mutants of Drosophila autonomously affecting cell division rate | Q44889355 | ||
Signalling by the sevenless protein tyrosine kinase is mimicked by Ras1 activation. | Q45988406 | ||
Drosophila homologs of baculovirus inhibitor of apoptosis proteins function to block cell death | Q46725238 | ||
Evolution of TNF signaling mechanisms: JNK-dependent apoptosis triggered by Eiger, the Drosophila homolog of the TNF superfamily | Q47070769 | ||
Cells compete for decapentaplegic survival factor to prevent apoptosis in Drosophila wing development. | Q47070908 | ||
Direct and long-range action of a wingless morphogen gradient | Q47071257 | ||
Gradient formation of the TGF-beta homolog Dpp. | Q47071783 | ||
Autonomous control of cell and organ size by CHICO, a Drosophila homolog of vertebrate IRS1-4. | Q47072330 | ||
An absolute requirement for both the type II and type I receptors, punt and thick veins, for dpp signaling in vivo | Q47072571 | ||
The minute genes in Drosophila and their molecular functions. | Q47791284 | ||
Conversion of an extracellular Dpp/BMP morphogen gradient into an inverse transcriptional gradient. | Q52106477 | ||
P433 | issue | 1 | |
P407 | language of work or name | English | Q1860 |
P921 | main subject | Myc Dmel_CG10798 | Q29819672 |
P304 | page(s) | 117-129 | |
P577 | publication date | 2004-04-01 | |
P1433 | published in | Cell | Q655814 |
P1476 | title | dMyc transforms cells into super-competitors | |
P478 | volume | 117 |
Q21145225 | "Myc'ed messages": myc induces transcription of E2F1 while inhibiting its translation via a microRNA polycistron |
Q64076685 | : A Model Organism to Study Cancer |
Q39067734 | Absolute requirement for STAT3 function in small-intestine crypt stem cell survival |
Q36321327 | Activated STAT regulates growth and induces competitive interactions independently of Myc, Yorkie, Wingless and ribosome biogenesis |
Q28571690 | Activin A, p15INK4b signaling, and cell competition promote stem/progenitor cell repopulation of livers in aging rats |
Q102053749 | Akt1 and dCIZ1 promote cell survival from apoptotic caspase activation during regeneration and oncogenic overgrowth |
Q33712780 | Alteration of microRNAs regulated by c-Myc in Burkitt lymphoma |
Q37394323 | An ancient defense system eliminates unfit cells from developing tissues during cell competition |
Q39022773 | An in vitro co-culture model of esophageal cells identifies ascorbic acid as a modulator of cell competition |
Q38331074 | Antagonistic effects of telomerase on cancer and aging in K5-mTert transgenic mice. |
Q28073070 | Apoptosis in Cellular Society: Communication between Apoptotic Cells and Their Neighbors |
Q38048755 | Apoptotic and nonapoptotic caspase functions in animal development |
Q41245031 | Apoptotic mechanisms during competition of ribosomal protein mutant cells: roles of the initiator caspases Dronc and Dream/Strica. |
Q34328586 | Array-based comparative genomic hybridization identifies a high frequency of copy number variations in patients with syndromic overgrowth |
Q33870256 | BAR the door: cancer suppression by amphiphysin-like genes |
Q42002300 | Biased DNA segregation during stem cell division |
Q35275863 | Brain regeneration in Drosophila involves comparison of neuronal fitness |
Q35226321 | Brat promotes stem cell differentiation via control of a bistable switch that restricts BMP signaling |
Q34319959 | Bringing balance by force: live cell extrusion controls epithelial cell numbers |
Q35082681 | Cease and desist: modulating short-range Dpp signalling in the stem-cell niche |
Q36632955 | Cell Competition Drives the Growth of Intestinal Adenomas in Drosophila |
Q50168938 | Cell Extrusion: A Stress-Responsive Force for Good or Evil in Epithelial Homeostasis. |
Q37478763 | Cell competition and its implications for development and cancer |
Q99579329 | Cell competition in liver carcinogenesis |
Q38245191 | Cell competition in vertebrate organ size regulation |
Q38834617 | Cell competition with normal epithelial cells promotes apical extrusion of transformed cells through metabolic changes |
Q41535155 | Cell competition: dying for communal interest |
Q27005925 | Cell competition: how to eliminate your neighbours |
Q35157455 | Cell competition: winning out by losing notch |
Q47070153 | Cell mixing induced by myc is required for competitive tissue invasion and destruction |
Q36999766 | Cell wars: regulation of cell survival and proliferation by cell competition |
Q36997939 | Cell-in-cell structures are involved in the competition between cells in human tumors |
Q37256438 | Cellular MYCro economics: Balancing MYC function with MYC expression |
Q42450915 | Characterization of the interface between normal and transformed epithelial cells |
Q41124701 | Chronic activation of JNK JAK/STAT and oxidative stress signalling causes the loser cell status |
Q49485830 | Clone war: tumour-suppressive cell competition |
Q27346498 | CoinFLP: a system for efficient mosaic screening and for visualizing clonal boundaries in Drosophila |
Q34042307 | Competition between human cells by entosis |
Q37531604 | Competitive interactions between cells: death, growth, and geography |
Q37022942 | Competitive interactions eliminate unfit embryonic stem cells at the onset of differentiation. |
Q38334505 | Conditional E2F1 activation in transgenic mice causes testicular atrophy and dysplasia mimicking human CIS. |
Q35906074 | Connecting proliferation and apoptosis in development and disease |
Q36164463 | Control of self-renewal and differentiation of hematopoietic stem cells: HOXB4 on the threshold. |
Q37333588 | Control of tumourigenesis by the Scribble/Dlg/Lgl polarity module |
Q37122364 | Control of vertebrate development by MYC |
Q28469226 | Coordinated regulation of Myc trans-activation targets by Polycomb and the Trithorax group protein Ash1 |
Q60932989 | Culling Less Fit Neurons Protects against Amyloid-β-Induced Brain Damage and Cognitive and Motor Decline |
Q34549112 | Darwin's multicellularity: from neurotrophic theories and cell competition to fitness fingerprints |
Q45859409 | Decapentaplegic head capsule mutations disrupt novel peripodial expression controlling the morphogenesis of the Drosophila ventral head |
Q42262302 | Differences in levels of the transmembrane protein Crumbs can influence cell survival at clonal boundaries |
Q37673448 | Dissecting social cell biology and tumors using Drosophila genetics |
Q92052864 | Distinct modes of cell competition shape mammalian tissue morphogenesis |
Q34202032 | Dpp signaling and the induction of neoplastic tumors by caspase-inhibited apoptotic cells in Drosophila |
Q90103101 | Drosophila Model in Cancer: An Introduction |
Q90103107 | Drosophila Models of Cell Polarity and Cell Competition in Tumourigenesis |
Q37141116 | Drosophila Myc integrates multiple signaling pathways to regulate intestinal stem cell proliferation during midgut regeneration |
Q40061596 | Drosophila Myc is required for normal DREF gene expression |
Q37621011 | Drosophila Myc. |
Q34873737 | Drosophila Myc: A master regulator of cellular performance |
Q52609008 | Drosophila as a Model to Study the Link between Metabolism and Cancer. |
Q37950977 | Drosophila cancer models. |
Q36569851 | Drosophila growth and development in the absence of dMyc and dMnt |
Q48259732 | Elimination of classically-activated macrophages in tumor-conditioned medium by alternatively-activated macrophages |
Q28387112 | Elimination of unfit cells maintains tissue health and prolongs lifespan |
Q98303503 | Emerging mechanisms of cell competition |
Q42536370 | Epithelial cell translocation: new insights into mechanisms of tumor initiation. |
Q26864115 | Epithelial homeostasis |
Q36921691 | Essential Roles of Cyclin Y-Like 1 and Cyclin Y in Dividing Wnt-Responsive Mammary Stem/Progenitor Cells |
Q39533666 | Evidence for the transmission of neoplastic properties from transformed to normal human stem cells. |
Q36039749 | Expression of Cell Competition Markers at the Interface between p53 Signature and Normal Epithelium in the Human Fallopian Tube |
Q100416084 | FUBP1 and FUBP2 enforce distinct epigenetic setpoints for MYC expression in primary single murine cells |
Q37893517 | Fetal liver cell transplantation as a potential alternative to whole liver transplantation? |
Q38969932 | Filamin acts as a key regulator in epithelial defence against transformed cells |
Q34648282 | Filling out the Hippo pathway |
Q36480017 | First among equals: competition between genetically identical cells |
Q36051086 | Flower-deficient mice have reduced susceptibility to skin papilloma formation |
Q35641520 | Genes affecting cell competition in Drosophila |
Q90939648 | Genes and Pathways Promoting Long-Term Liver Repopulation by Ex Vivo hYAP-ERT2 Transduced Hepatocytes and Treatment of Jaundice in Gunn Rats |
Q34589848 | Genetic modifier screens on Hairless gain-of-function phenotypes reveal genes involved in cell differentiation, cell growth and apoptosis in Drosophila melanogaster. |
Q30276619 | Genetic requirement for Mycl and efficacy of RNA Pol I inhibition in mouse models of small cell lung cancer |
Q41913649 | Growth arrest and autophagy are required for salivary gland cell degradation in Drosophila |
Q38956629 | Growth-promoting and tumourigenic activity of c-Myc is suppressed by Hhex |
Q47280626 | Haploinsufficiency for the Six2 gene increases nephron progenitor proliferation promoting branching and nephron number |
Q93073427 | Harnessing epithelial homeostatic mechanisms to fight cancer |
Q100737131 | Hematopoietic stem and progenitor cell signaling in the niche |
Q60959882 | High MYC Levels Favour Multifocal Carcinogenesis |
Q36759171 | Histological complexities of pancreatic lesions from transgenic mouse models are consistent with biological and morphological heterogeneity of human pancreatic cancer |
Q27021441 | How cell death shapes cancer |
Q37195219 | How the c-myc promoter works and why it sometimes does not. |
Q26749436 | How to be in a good shape? The influence of clone morphology on cell competition |
Q46061932 | How winner cells cause the demise of loser cells: cell competition causes apoptosis of suboptimal cells: their dregs are removed by hemocytes, thus preserving tissue homeostasis |
Q42282618 | Human Cancer Cells Signal Their Competitive Fitness Through MYC Activity |
Q34124162 | Human c-Myc isoforms differentially regulate cell growth and apoptosis in Drosophila melanogaster |
Q39042647 | Hypertranscription in Development, Stem Cells, and Regeneration. |
Q37233375 | Identification of domains responsible for ubiquitin-dependent degradation of dMyc by glycogen synthase kinase 3beta and casein kinase 1 kinases |
Q99365542 | Identification of the Wallenda JNKKK as an Alk suppressor reveals increased competitiveness of Alk-expressing cells |
Q37923836 | Impact of interactions between normal and transformed epithelial cells and the relevance to cancer |
Q47898879 | In silico screening of alleged miRNAs associated with cell competition: an emerging cellular event in cancer |
Q47072146 | Induction of apoptosis by Drosophila Myc. |
Q30496969 | Interaction with surrounding normal epithelial cells influences signalling pathways and behaviour of Src-transformed cells |
Q34428998 | Intercellular cooperation and competition in brain cancers: lessons from Drosophila and human studies. |
Q37892645 | Interface between normal and transformed epithelial cells: a road to a novel type of cancer prevention and treatment |
Q24339418 | Involvement of Lgl and Mahjong/VprBP in cell competition |
Q52687651 | Is cell competition relevant to cancer? |
Q47118502 | JNK Promotes Epithelial Cell Anoikis by Transcriptional and Post-translational Regulation of BH3-Only Proteins |
Q33570150 | Laser microdissection applied to gene expression profiling of subset of cells from the Drosophila wing disc |
Q55343224 | Learning on the Fly: The Interplay between Caspases and Cancer. |
Q47070685 | Linking pseudouridine synthases to growth, development and cell competition. |
Q36382298 | Liver stem cells and prospects for liver reconstitution by transplanted cells |
Q36234544 | Local Cell Death Changes the Orientation of Cell Division in the Developing Drosophila Wing Imaginal Disc Without Using Fat or Dachsous as Orienting Signals |
Q39411256 | Loss of Scribble causes cell competition in mammalian cells. |
Q36259830 | Loss of flfl Triggers JNK-Dependent Cell Death in Drosophila |
Q39092667 | Loss of tumor suppressor RPL5/RPL11 does not induce cell cycle arrest but impedes proliferation due to reduced ribosome content and translation capacity. |
Q36350155 | MYC, Cell Competition, and Cell Death in Cancer: The Inseparable Triad |
Q47071837 | Max-independent functions of Myc in Drosophila melanogaster |
Q27319472 | Mechanical cell competition kills cells via induction of lethal p53 levels |
Q33927284 | Mechanical feedback as a possible regulator of tissue growth |
Q34046599 | Mechanisms and consequences of entosis |
Q38128692 | Mechanisms and mechanics of cell competition in epithelia. |
Q28728958 | Mechanisms limiting body growth in mammals |
Q50435338 | Mechanisms of cell competition emerging from Drosophila studies |
Q36695589 | Mechanisms of cell competition: themes and variations |
Q37382764 | Mechanisms of growth and homeostasis in the Drosophila wing |
Q90103128 | MicroRNAs in Drosophila Cancer Models |
Q37383561 | Mis-specified cells die by an active gene-directed process, and inhibition of this death results in cell fate transformation in Drosophila |
Q37676601 | Model systems and experimental conditions that lead to effective repopulation of the liver by transplanted cells |
Q28540805 | Model-based analysis for qualitative data: an application in Drosophila germline stem cell regulation |
Q92130414 | Multicolor lineage tracing using in vivo time-lapse imaging reveals coordinated death of clonally related cells in the developing vertebrate brain |
Q35107197 | Mutation in the Drosophila melanogaster adenosine receptor gene selectively decreases the mosaic hyperplastic epithelial outgrowth rates in wts or dco heterozygous flies |
Q38232170 | Mutation, clonal fitness and field change in epithelial carcinogenesis. |
Q34291633 | Myc Function in Drosophila |
Q46804087 | Myc conquers all. |
Q52760873 | Myc function in Drosophila. |
Q33774468 | Myc in model organisms: a view from the flyroom |
Q50457874 | Myc inhibits JNK-mediated cell death in vivo |
Q33920019 | Myc interacts genetically with Tip48/Reptin and Tip49/Pontin to control growth and proliferation during Drosophila development. |
Q37371548 | Myc overexpression enhances of epicardial contribution to the developing heart and promotes extensive expansion of the cardiomyocyte population |
Q50777362 | Myc-dependent regulation of ribosomal RNA synthesis during Drosophila development. |
Q28294348 | Myc-driven endogenous cell competition in the early mammalian embryo |
Q35745736 | Myc: a weapon of mass destruction |
Q34085883 | NANOG regulates glioma stem cells and is essential in vivo acting in a cross-functional network with GLI1 and p53. |
Q64060431 | Nerfin-1 represses transcriptional output of Hippo signaling in cell competition |
Q100945987 | Neuroepithelial cell competition triggers loss of cellular juvenescence |
Q99634466 | Neuronal Selection Based on Relative Fitness Comparison Detects and Eliminates Amyloid-β-Induced Hyperactive Neurons in Drosophila |
Q42145486 | Neutral competition of stem cells is skewed by proliferative changes downstream of Hh and Hpo. |
Q37995989 | New frontiers in cell competition |
Q64930313 | Next-Generation Sequencing Reveals Increased Anti-oxidant Response and Ecdysone Signaling in STAT Supercompetitors in Drosophila. |
Q30502373 | Nonautonomous apoptosis is triggered by local cell cycle progression during epithelial replacement in Drosophila |
Q36998767 | Nutrient restriction enhances the proliferative potential of cells lacking the tumor suppressor PTEN in mitotic tissues |
Q48502077 | Oesophageal Stem Cells and Cancer |
Q27025985 | Of flies, mice, and men: evolutionarily conserved tissue damage responses and aging |
Q64091210 | One hundred years of cancer research: no longer in solitude |
Q37986563 | Ontogenesis of hepatic and pancreatic stem cells |
Q36997696 | Orchestrating size and shape during morphogenesis |
Q38549724 | Organ-Size Regulation in Mammals |
Q92610926 | Outcompeting cancer |
Q55039541 | P53 and mTOR signalling determine fitness selection through cell competition during early mouse embryonic development. |
Q28259472 | Paternal age effect mutations and selfish spermatogonial selection: causes and consequences for human disease |
Q36880630 | Pathways regulating apoptosis during patterning and development |
Q47240974 | Physiological and pathological relevance of cell competition in fly to mammals. |
Q41293929 | Possible roles of mechanical cell elimination intrinsic to growing tissues from the perspective of tissue growth efficiency and homeostasis |
Q38071593 | Pre-tumour clones, periodic selection and clonal interference in the origin and progression of gastrointestinal cancer: potential for biomarker development. |
Q38119789 | Premature lung aging and cellular senescence in the pathogenesis of idiopathic pulmonary fibrosis and COPD/emphysema |
Q36292389 | Proteomic and histopathological characterization of the interface between oral squamous cell carcinoma invasion fronts and non-cancerous epithelia. |
Q41710038 | Rab5-regulated endocytosis plays a crucial role in apical extrusion of transformed cells. |
Q37333643 | Reflecting on 25 years with MYC. |
Q38056459 | Regulating cell morphogenesis: the Drosophila Jun N-terminal kinase pathway |
Q50937939 | Regulation of T lymphopoiesis by Notch1 and Lunatic fringe-mediated competition for intrathymic niches. |
Q36382727 | Regulation of intrathymic T-cell development by Lunatic Fringe- Notch1 interactions |
Q38143968 | Regulation of proliferation, cell competition, and cellular growth by the Drosophila JAK-STAT pathway |
Q33799194 | Rho1 regulates apoptosis via activation of the JNK signaling pathway at the plasma membrane. |
Q47217403 | Ribosomal Protein S12e Has a Distinct Function in Cell Competition |
Q43225884 | Role of c-MYC in tumor-associated macrophages and cancer progression |
Q30431363 | SRGP-1 regulation, targets, and contribution to cell killing in C. elegans |
Q50722305 | Safeguards for cell cooperation in mouse embryogenesis shown by genome-wide cheater screen. |
Q38391096 | Size control: the developmental physiology of body and organ size regulation |
Q37670765 | Socializing with MYC: cell competition in development and as a model for premalignant cancer |
Q36276873 | Soluble factors mediate competitive and cooperative interactions between cells expressing different levels of Drosophila Myc. |
Q95329221 | Spatial competition shapes the dynamic mutational landscape of normal esophageal epithelium |
Q27302964 | Spontaneous Cell Competition in Immortalized Mammalian Cell Lines |
Q36744696 | Squamous Cell Carcinoma-related Oncogene (SCCRO) Family Members Regulate Cell Growth and Proliferation through Their Cooperative and Antagonistic Effects on Cullin Neddylation |
Q36509073 | Src controls tumorigenesis via JNK-dependent regulation of the Hippo pathway in Drosophila |
Q35532153 | Steep differences in wingless signaling trigger Myc-independent competitive cell interactions |
Q37698324 | Stem cell competition for niche occupancy: emerging themes and mechanisms |
Q34626511 | Stem cells in the adult pancreas and liver |
Q33801245 | Stem cells, cell transplantation and liver repopulation |
Q38563566 | Supercompetitor status of Drosophila Myc cells requires p53 as a fitness sensor to reprogram metabolism and promote viability |
Q40890351 | Suppression of Myc oncogenic activity by ribosomal protein haploinsufficiency |
Q92932138 | Systemic signalling and local effectors in developmental stability, body symmetry, and size |
Q93184661 | Thapsigargin induces apoptosis in adrenocortical carcinoma by activating endoplasmic reticulum stress and the JNK signaling pathway: an in vitro and in vivo study |
Q24544126 | The BAR domain proteins: molding membranes in fission, fusion, and phagy |
Q33943817 | The Drosophila casein kinase Iepsilon/delta Discs overgrown promotes cell survival via activation of DIAP1 expression. |
Q24544008 | The FUSE/FBP/FIR/TFIIH system is a molecular machine programming a pulse of c-myc expression |
Q90103112 | The Initial Stage of Tumorigenesis in Drosophila Epithelial Tissues |
Q35926979 | The Interplay between Myc and CTP Synthase in Drosophila |
Q94591543 | The NMDA receptor regulates competition of epithelial cells in the Drosophila wing |
Q34663276 | The RAS-dependent ERF control of cell proliferation and differentiation is mediated by c-Myc repression |
Q59794941 | The Toll pathway inhibits tissue growth and regulates cell fitness in an infection-dependent manner |
Q37371461 | The archipelago tumor suppressor gene limits rb/e2f-regulated apoptosis in developing Drosophila tissues |
Q37013896 | The c-myc promoter: still MysterY and challenge |
Q36144878 | The competitive nature of cells |
Q28755109 | The control of size in animals: insights from selector genes |
Q37799217 | The dark side of fly TNF: an ancient developmental proof reading mechanism turned into tumor promoter |
Q36432846 | The effort to make mosaic analysis a household tool |
Q35015135 | The expression of SPARC in human tumors is consistent with its role during cell competition. |
Q37829107 | The flower code and cancer development |
Q28079088 | The interplay between obesity and cancer: a fly view |
Q28073816 | The legacy of Drosophila imaginal discs |
Q30494710 | The lethal giant larvae tumour suppressor mutation requires dMyc oncoprotein to promote clonal malignancy |
Q42504319 | The ligand Sas and its receptor PTP10D drive tumour-suppressive cell competition |
Q59789691 | The many fates of tissue regeneration |
Q33878532 | The miRNA machinery targets Mei-P26 and regulates Myc protein levels in the Drosophila wing |
Q38248780 | The p53 control of apoptosis and proliferation: lessons from Drosophila |
Q35014312 | The role of Myc-induced protein synthesis in cancer |
Q39267969 | The society of our "out of Africa" ancestors (I): The migrant warriors that colonized the world |
Q89881499 | The transcription factor Spalt and human homologue SALL4 induce cell invasion via the dMyc-JNK pathway in Drosophila |
Q90731397 | These secret battles between your body's cells might just save your life |
Q35929701 | Tissue Crowding Induces Caspase-Dependent Competition for Space |
Q37845405 | Tissue repair and regeneration in Drosophila imaginal discs. |
Q37478758 | Tissue repair through cell competition and compensatory cellular hypertrophy in postmitotic epithelia |
Q24655799 | Transcription factor choice in the Hippo signaling pathway: homothorax and yorkie regulation of the microRNA bantam in the progenitor domain of the Drosophila eye imaginal disc |
Q41917195 | Transformation of eye to antenna by misexpression of a single gene |
Q37619641 | Troponin-I enhances and is required for oncogenic overgrowth |
Q35673635 | Tumor suppression by cell competition through regulation of the Hippo pathway |
Q38544200 | Tumorigenesis: it takes a village |
Q24656167 | UVB-induced apoptosis drives clonal expansion during skin tumor development |
Q37919337 | Understanding morphogenetic growth control -- lessons from flies |
Q36202195 | Using Drosophila melanogaster to map human cancer pathways |
Q37695738 | Using the Q system in Drosophila melanogaster |
Q34157211 | You Don't Muck with MYC |
Q37833424 | c-Myc induction of programmed cell death may contribute to carcinogenesis: a perspective inspired by several concepts of chemical carcinogenesis |
Q33821537 | c-Myc regulates cell size and ploidy but is not essential for postnatal proliferation in liver |
Q48146178 | c-Myc-Dependent Cell Competition in Human Cancer Cells. |
Q33707393 | dMyc functions downstream of Yorkie to promote the supercompetitive behavior of hippo pathway mutant cells |
Q36299468 | dMyc is required in retinal progenitors to prevent JNK-mediated retinal glial activation |
Q30275107 | p53 pathway is involved in cell competition during mouse embryogenesis |
Q33857597 | p53-mediated hematopoietic stem and progenitor cell competition. |
Q30499338 | pHMA, a pH-sensitive GFP reporter for cell engulfment, in Drosophila embryos, tissues, and cells |
Q42003445 | vps25 mosaics display non-autonomous cell survival and overgrowth, and autonomous apoptosis |
Search more.