Mechanisms of growth and homeostasis in the Drosophila wing.
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Scaling the Drosophila Wing: TOR-Dependent Target Gene Access by the Hippo Pathway Transducer YorkieGeneration of shape complexity through tissue conflict resolution.Developmental stability: a major role for cyclin G in drosophila melanogaster.De novo transcriptome analysis of wing development-related signaling pathways in Locusta migratoria manilensis and Ostrinia furnacalis (Guenée)Transcriptomic analysis of developmental features of Bombyx mori wing disc during metamorphosis.Genetic mosaic analysis reveals a major role for frizzled 4 and frizzled 8 in controlling ureteric growth in the developing kidney.Hippo signaling: growth control and beyond.Asymmetric flies: the control of developmental noise in Drosophila.Genetic mapping of adaptive wing size variation in Drosophila simulans.Xrn1/Pacman affects apoptosis and regulates expression of hid and reaper.Tumor suppression by cell competition through regulation of the Hippo pathway.Drosophila Low Temperature Viability Protein 1 (LTV1) Is Required for Ribosome Biogenesis and Cell Growth Downstream of Drosophila Myc (dMyc)Regulation of BMP activity and range in Drosophila wing developmentAn assay to detect in vivo Y chromosome loss in Drosophila wing disc cells.The essential requirement of an animal heme peroxidase protein during the wing maturation process in Drosophila.Activated STAT regulates growth and induces competitive interactions independently of Myc, Yorkie, Wingless and ribosome biogenesis.Multi-scale computational study of the mechanical regulation of cell mitotic rounding in epithelia.Genetic complexity in a Drosophila model of diabetes-associated misfolded human proinsulin.Regulation of leg size and shape: involvement of the Dachsous-fat signaling pathway.The roles of miRNAs in wing imaginal disc development in Drosophila.Regulation of proliferation, cell competition, and cellular growth by the Drosophila JAK-STAT pathway.Interplay between cell growth and cell cycle in plants.Nonmuscle myosin II is required for cell proliferation, cell sheet adhesion and wing hair morphology during wing morphogenesis.Modulating F-actin organization induces organ growth by affecting the Hippo pathway.Chronic malnutrition favours smaller critical size for metamorphosis initiation in Drosophila melanogaster.Plastic and evolutionary responses of cell size and number to larval malnutrition in Drosophila melanogaster.A Search for Genes Mediating the Growth-Promoting Function of TGFβ in the Drosophila melanogaster Wing Disc.Cellular basis of morphological variation and temperature-related plasticity in Drosophila melanogaster strains with divergent wing shapes.MicroRNA miR-7 contributes to the control of Drosophila wing growth.Morphogens, nutrients, and the basis of organ scaling.
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P2860
Mechanisms of growth and homeostasis in the Drosophila wing.
description
article científic
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article scientifique
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articolo scientifico
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artigo científico
@pt
bilimsel makale
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scientific article published on January 2009
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vedecký článok
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vetenskaplig artikel
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videnskabelig artikel
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vědecký článek
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name
Mechanisms of growth and homeostasis in the Drosophila wing.
@en
Mechanisms of growth and homeostasis in the Drosophila wing.
@nl
type
label
Mechanisms of growth and homeostasis in the Drosophila wing.
@en
Mechanisms of growth and homeostasis in the Drosophila wing.
@nl
prefLabel
Mechanisms of growth and homeostasis in the Drosophila wing.
@en
Mechanisms of growth and homeostasis in the Drosophila wing.
@nl
P2093
P2860
P1476
Mechanisms of growth and homeostasis in the Drosophila wing.
@en
P2093
Brent S Wells
Laura A Johnston
Ricardo M Neto-Silva
P2860
P304
P356
10.1146/ANNUREV.CELLBIO.24.110707.175242
P577
2009-01-01T00:00:00Z