review article | Q7318358 |
scholarly article | Q13442814 |
P50 | author | Claude Desplan | Q17465894 |
P2093 | author name string | Nikolaos Konstantinides | |
Filipe Pinto-Teixeira | |||
P2860 | cites work | bantam encodes a developmentally regulated microRNA that controls cell proliferation and regulates the proapoptotic gene hid in Drosophila | Q28131827 |
Homeobox genes and axial patterning | Q28181571 | ||
fruitless splicing specifies male courtship behavior in Drosophila | Q28254606 | ||
Antisense-mediated depletion reveals essential and specific functions of microRNAs in Drosophila development | Q28259235 | ||
Segment-specific prevention of pioneer neuron apoptosis by cell-autonomous, postmitotic Hox gene activity | Q28292644 | ||
Late-stage neuronal progenitors in the retina are radial Müller glia that function as retinal stem cells | Q28307694 | ||
A gene complex controlling segmentation in Drosophila | Q29547506 | ||
Three-dimensional reconstruction of brain-wide wiring networks in Drosophila at single-cell resolution | Q30484747 | ||
Single cell cultures of Drosophila neuroectodermal and mesectodermal central nervous system progenitors reveal different degrees of developmental autonomy | Q30489953 | ||
Identification of Drosophila type II neuroblast lineages containing transit amplifying ganglion mother cells | Q30492732 | ||
Mitochondrial fusion is regulated by Reaper to modulate Drosophila programmed cell death | Q30504143 | ||
Development of the Drosophila mushroom bodies: sequential generation of three distinct types of neurons from a neuroblast. | Q40800541 | ||
Gene expression profiles uncover individual identities of gnathal neuroblasts and serial homologies in the embryonic CNS of Drosophila | Q40858699 | ||
The Drosophila inhibitor of apoptosis D-IAP1 suppresses cell death induced by the caspase drICE. | Q40986587 | ||
The Drosophila gene hid is a direct molecular target of Ras-dependent survival signaling | Q40995001 | ||
drICE is an essential caspase required for apoptotic activity in Drosophila cells | Q41006986 | ||
Apoptosis induced by Drosophila reaper and grim in a human system. Attenuation by inhibitor of apoptosis proteins (cIAPs). | Q41011027 | ||
Requirement of an ICE-like protease for induction of apoptosis and ceramide generation by REAPER. | Q41228922 | ||
Neural stem cell progeny regulate stem cell death in a Notch and Hox dependent manner. | Q41244745 | ||
Programmed cell death in type II neuroblast lineages is required for central complex development in the Drosophila brain | Q41575899 | ||
Drosophila p53 is a structural and functional homolog of the tumor suppressor p53. | Q41731870 | ||
Drosophila p53 binds a damage response element at the reaper locus | Q41731875 | ||
Control of Drosophila Type I and Type II central brain neuroblast proliferation by bantam microRNA | Q41764581 | ||
Nutrition-responsive glia control exit of neural stem cells from quiescence. | Q41788576 | ||
Wnt/β-catenin-signaling and the formation of Müller glia-derived progenitors in the chick retina | Q41886698 | ||
Steroid-triggered, cell-autonomous death of a Drosophila motoneuron during metamorphosis | Q41889711 | ||
Abdominal-B and caudal inhibit the formation of specific neuroblasts in the Drosophila tail region | Q41920441 | ||
Role of Notch signaling in establishing the hemilineages of secondary neurons in Drosophila melanogaster | Q41940104 | ||
Single-cell mapping of neural and glial gene expression in the developing Drosophila CNS midline cells | Q42124977 | ||
Compensatory proliferation in Drosophila imaginal discs requires Dronc-dependent p53 activity | Q42272663 | ||
Drosophila grim induces apoptosis in mammalian cells. | Q42662756 | ||
Coordinated expression of cell death genes regulates neuroblast apoptosis | Q42730926 | ||
Segment-specific generation of Drosophila Capability neuropeptide neurons by multi-faceted Hox cues. | Q42734069 | ||
Temporal patterning of neuroblasts controls Notch-mediated cell survival through regulation of Hid or Reaper | Q42859873 | ||
Transient nuclear Prospero induces neural progenitor quiescence. | Q42965733 | ||
A multipotent transit-amplifying neuroblast lineage in the central brain gives rise to optic lobe glial cells in Drosophila | Q43814873 | ||
reaper is required for neuroblast apoptosis during Drosophila development | Q43906921 | ||
Embryonic development of axon pathways in the Drosophila CNS. I. A glial scaffold appears before the first growth cones | Q44044793 | ||
The regulation of apoptosis by Numb/Notch signaling in the serotonin lineage of Drosophila | Q44521196 | ||
Drosophila neuroblast 7-3 cell lineage: a model system for studying programmed cell death, Notch/Numb signaling, and sequential specification of ganglion mother cell identity | Q45184362 | ||
Proliferation pattern of postembryonic neuroblasts in the brain of Drosophila melanogaster | Q45300018 | ||
Mechanisms of postecdysis-associated programmed cell death of peptidergic neurons in Drosophila melanogaster. | Q45343686 | ||
The embryonic development of the Drosophila visual system | Q46181274 | ||
Neuroblast lineage identification and lineage-specific Hox gene action during postembryonic development of the subesophageal ganglion in the Drosophila central brain | Q46381278 | ||
The Drosophila retinoblastoma protein, Rbf1, induces a Debcl- and Drp1-dependent mitochondrial apoptosis. | Q46695412 | ||
Drosophila homologs of baculovirus inhibitor of apoptosis proteins function to block cell death | Q46725238 | ||
Hid, Rpr and Grim negatively regulate DIAP1 levels through distinct mechanisms | Q46902175 | ||
A GH3-like domain in reaper is required for mitochondrial localization and induction of IAP degradation | Q47069979 | ||
Drosophila Grainyhead specifies late programmes of neural proliferation by regulating the mitotic activity and Hox-dependent apoptosis of neuroblasts. | Q47070109 | ||
Cell killing by the Drosophila gene reaper | Q47070113 | ||
Ras promotes cell survival in Drosophila by downregulating hid expression | Q47070193 | ||
A pulse of the Drosophila Hox protein Abdominal-A schedules the end of neural proliferation via neuroblast apoptosis. | Q47070315 | ||
Polycomb group genes are required for neural stem cell survival in postembryonic neurogenesis of Drosophila | Q47070532 | ||
Lineage-specific cell death in postembryonic brain development of Drosophila | Q47070574 | ||
The head involution defective gene of Drosophila melanogaster functions in programmed cell death | Q47070937 | ||
Neuroblast entry into quiescence is regulated intrinsically by the combined action of spatial Hox proteins and temporal identity factors | Q47070976 | ||
Fruitless specifies sexually dimorphic neural circuitry in the Drosophila brain | Q47071155 | ||
Deterin, a new inhibitor of apoptosis from Drosophila melanogaster | Q47071315 | ||
DECAY, a novel Drosophila caspase related to mammalian caspase-3 and caspase-7. | Q47071366 | ||
The damage-responsive Drosophila gene sickle encodes a novel IAP binding protein similar to but distinct from reaper, grim, and hid. | Q47071492 | ||
DCP-1, a Drosophila cell death protease essential for development | Q47071648 | ||
Characterization of the Drosophila caspase, DAMM. | Q47072274 | ||
A steroid-triggered transcriptional hierarchy controls salivary gland cell death during Drosophila metamorphosis | Q47072639 | ||
The columnar gene vnd is required for tritocerebral neuromere formation during embryonic brain development of Drosophila. | Q47072648 | ||
Drosophila neuroblasts sequentially express transcription factors which specify the temporal identity of their neuronal progeny | Q47072696 | ||
Dredd, a novel effector of the apoptosis activators reaper, grim, and hid in Drosophila | Q47072806 | ||
Molecular markers for identified neuroblasts in the developing brain of Drosophila | Q47791465 | ||
Homeotic regulation of segment-specific differences in neuroblast numbers and proliferation in the Drosophila central nervous system | Q47890948 | ||
Magnetic pioneers net Nobel for putting medicine in the picture | Q48354459 | ||
Programmed cell death during Drosophila embryogenesis. | Q48381720 | ||
Genetic control of programmed cell death in Drosophila | Q38468332 | ||
Apoptosis in Drosophila: which role for mitochondria? | Q38672394 | ||
Lineage mapping identifies molecular and architectural similarities between the larval and adult Drosophila central nervous system | Q39425120 | ||
The embryonic central nervous system lineages of Drosophila melanogaster. II. Neuroblast lineages derived from the dorsal part of the neuroectoderm. | Q39453065 | ||
Embryonic development of the Drosophila brain. I. Pattern of pioneer tracts | Q39480815 | ||
Stage-specific inductive signals in the Drosophila neuroectoderm control the temporal sequence of neuroblast specification | Q39578792 | ||
From the Eye to the Brain: Development of the Drosophila Visual System | Q39579593 | ||
Hunchback is required for the specification of the early sublineage of neuroblast 7-3 in the Drosophila central nervous system | Q39594845 | ||
Patterns of cell division and cell movement in the formation of the imaginal nervous system in Drosophila melanogaster | Q39613433 | ||
Early development of the Drosophila brain: III. The pattern of neuropile founder tracts during the larval period | Q39638761 | ||
Identification and cell lineage of individual neural precursors in the Drosophila CNS. | Q40386760 | ||
The Drosophila caspase DRONC is regulated by DIAP1 | Q40387067 | ||
Glia-derived neurons are required for sex-specific learning in C. elegans | Q40429780 | ||
Drosophila sickle is a novel grim-reaper cell death activator | Q40753998 | ||
STRICA, a novel Drosophila melanogaster caspase with an unusual serine/threonine-rich prodomain, interacts with DIAP1 and DIAP2. | Q40781431 | ||
A region-specific neurogenesis mode requires migratory progenitors in the Drosophila visual system. | Q30621052 | ||
Early development of the Drosophila mushroom body: the roles of eyeless and dachshund. | Q33180723 | ||
Caspase-independent cell engulfment mirrors cell death pattern in Drosophila embryos | Q33193772 | ||
Postmitotic specification of Drosophila insulinergic neurons from pioneer neurons | Q33323448 | ||
Lineage-specific effects of Notch/Numb signaling in post-embryonic development of the Drosophila brain | Q33552370 | ||
Segment-specific neuronal subtype specification by the integration of anteroposterior and temporal cues | Q33582048 | ||
A complete developmental sequence of a Drosophila neuronal lineage as revealed by twin-spot MARCM. | Q33680091 | ||
Segment polarity genes in neuroblast formation and identity specification during Drosophila neurogenesis | Q33685701 | ||
At the nexus between pattern formation and cell-type specification: the generation of individual neuroblast fates in the Drosophila embryonic central nervous system | Q33750226 | ||
Inactivation of both Foxo and reaper promotes long-term adult neurogenesis in Drosophila | Q33821327 | ||
Reaper-induced apoptosis in a vertebrate system | Q33887900 | ||
Metamorphosis in drosophila and other insects: the fate of neurons throughout the stages | Q33924863 | ||
Regulation and execution of apoptosis during Drosophila development | Q33924995 | ||
Cytogenetic Analysis of Chromosome 3 in DROSOPHILA MELANOGASTER: The Homoeotic Gene Complex in Polytene Chromosome Interval 84a-B. | Q33994021 | ||
Notch regulates the switch from symmetric to asymmetric neural stem cell division in the Drosophila optic lobe | Q34080619 | ||
GH3, a novel proapoptotic domain in Drosophila Grim, promotes a mitochondrial death pathway | Q34089594 | ||
sickle, a novel Drosophila death gene in the reaper/hid/grim region, encodes an IAP-inhibitory protein | Q34111911 | ||
Molecular mechanisms of cell death and phagocytosis in Drosophila | Q34119236 | ||
Spatial and temporal patterns of neurogenesis in the central nervous system of Drosophila melanogaster | Q34166641 | ||
The pattern of neuroblast formation, mitotic domains and proneural gene expression during early brain development in Drosophila | Q34210177 | ||
Ecdysteroid titers during pupal and adult development in Drosophila melanogaster | Q34270577 | ||
The glial identity of neural stem cells | Q34272912 | ||
Embryogenesis of an insect nervous system II: a second class of neuron precursor cells and the origin of the intersegmental connectives | Q34283161 | ||
Programmed cell death in the Drosophila central nervous system midline. | Q34297268 | ||
Regulation of neuroblast competence: multiple temporal identity factors specify distinct neuronal fates within a single early competence window | Q34360241 | ||
grim, a novel cell death gene in Drosophila | Q34387981 | ||
Regulation of proneural gene expression and cell fate during neuroblast segregation in the Drosophila embryo | Q34453464 | ||
Prospero acts as a binary switch between self-renewal and differentiation in Drosophila neural stem cells | Q34586479 | ||
The bantam gene regulates Drosophila growth | Q34615713 | ||
Genetic control of development of the mushroom bodies, the associative learning centers in the Drosophila brain, by the eyeless, twin of eyeless, and Dachshund genes | Q35049806 | ||
Pdm and Castor specify late-born motor neuron identity in the NB7-1 lineage | Q35052579 | ||
Genetic control of Drosophila nerve cord development | Q35068969 | ||
DRONC, an ecdysone-inducible Drosophila caspase | Q35124238 | ||
Fat cells reactivate quiescent neuroblasts via TOR and glial insulin relays in Drosophila. | Q35135150 | ||
Pan-neural Prospero terminates cell proliferation during Drosophila neurogenesis | Q35185485 | ||
Bridging the gap between postembryonic cell lineages and identified embryonic neuroblasts in the ventral nerve cord of Drosophila melanogaster | Q35453312 | ||
Programmed neuronal death in insect development | Q35615497 | ||
Role of mitochondrial remodeling in programmed cell death in Drosophila melanogaster | Q35830140 | ||
Retinal stem cells and regeneration | Q35959809 | ||
Brainy but not too brainy: starting and stopping neuroblast divisions in Drosophila. | Q35996908 | ||
Genetic control of programmed cell death in Drosophila melanogaster | Q36083631 | ||
Apoptosis in Drosophila: neither fish nor fowl (nor man, nor worm). | Q36110341 | ||
How mitochondria fuse | Q36173518 | ||
Segmental organisation of the tail region in the embryo of Drosophila melanogaster : A blastoderm fate map of the cuticle structures of the larval tail region | Q36311943 | ||
The proapoptotic function of Drosophila Hid is conserved in mammalian cells | Q36333384 | ||
Transcriptional selectors, masters, and combinatorial codes: regulatory principles of neural subtype specification | Q36354585 | ||
Patterns of growth and tract formation during the early development of secondary lineages in the Drosophila larval brain | Q36464011 | ||
Concomitant requirement for Notch and Jak/Stat signaling during neuro-epithelial differentiation in the Drosophila optic lobe | Q36552024 | ||
miRNAs and apoptosis: RNAs to die for. | Q36617814 | ||
Essential role of grim-led programmed cell death for the establishment of corazonin-producing peptidergic nervous system during embryogenesis and metamorphosis in Drosophila melanogaster | Q36702308 | ||
Insights into neural stem cell biology from flies. | Q36740046 | ||
Protection of neuronal diversity at the expense of neuronal numbers during nutrient restriction in the Drosophila visual system | Q36742504 | ||
Cooperative functions of the reaper and head involution defective genes in the programmed cell death of Drosophila central nervous system midline cells | Q36766071 | ||
Dual role for Hox genes and Hox co-factors in conferring leg motoneuron survival and identity in Drosophila | Q36783144 | ||
Temporal patterning of Drosophila medulla neuroblasts controls neural fates | Q36983945 | ||
Neural stem cell-encoded temporal patterning delineates an early window of malignant susceptibility in Drosophila | Q37003765 | ||
Striatal astrocytes transdifferentiate into functional mature neurons following ischemic brain injury | Q37275582 | ||
Six-microns-under acts upstream of Draper in the glial phagocytosis of apoptotic neurons | Q37313845 | ||
By design or by chance: cell death during Drosophila embryogenesis | Q37494540 | ||
Inhibitor of apoptosis proteins in Drosophila: gatekeepers of death | Q37507761 | ||
Combinatorial temporal patterning in progenitors expands neural diversity | Q37616445 | ||
In vivo direct reprogramming of reactive glial cells into functional neurons after brain injury and in an Alzheimer's disease model | Q37668698 | ||
Keeping the CNS clear: glial phagocytic functions in Drosophila | Q37817075 | ||
Nutrient control of neural stem cells. | Q37935308 | ||
Temporal patterning of neural progenitors in Drosophila | Q38130393 | ||
Temporal fate specification and neural progenitor competence during development | Q38176634 | ||
Intrinsically different retinal progenitor cells produce specific types of progeny | Q38237263 | ||
Unwrapping glial biology: Gcm target genes regulating glial development, diversification, and function | Q38354320 | ||
Ecdysone-dependent and ecdysone-independent programmed cell death in the developing optic lobe of Drosophila. | Q50775789 | ||
Commitment of CNS progenitors along the dorsoventral axis of Drosophila neuroectoderm. | Q51121956 | ||
Commitment of abdominal neuroblasts in Drosophila to a male or female fate is dependent on genes of the sex-determining hierarchy. | Q51152304 | ||
Defective neuroblast commitment in mutants of the achaete-scute complex and adjacent genes of D. melanogaster. | Q51167386 | ||
Spatio-temporal pattern of programmed cell death in the developing Drosophila optic lobe. | Q51782428 | ||
Hox Genes and Brain Development in Drosophila | Q51901157 | ||
Coordinated sequential action of EGFR and Notch signaling pathways regulates proneural wave progression in theDrosophilaoptic lobe | Q51901613 | ||
Neuronal subtype specification within a lineage by opposing temporal feed-forward loops. | Q51921622 | ||
Antagonistic roles for Ultrabithorax and Antennapedia in regulating segment-specific apoptosis of differentiated motoneurons in the Drosophila embryonic central nervous system. | Q51949094 | ||
Temporal transcription factors and their targets schedule the end of neural proliferation in Drosophila. | Q51956127 | ||
Mitochondrial disruption in Drosophila apoptosis. | Q51986515 | ||
Programmed cell death in the embryonic central nervous system of Drosophila melanogaster. | Q51999467 | ||
Programmed cell death mechanisms of identifiable peptidergic neurons in Drosophila melanogaster. | Q52018925 | ||
Regulation of post-embryonic neuroblasts by Drosophila Grainyhead. | Q52034682 | ||
Programmed transformations in neuroblast gene expression during Drosophila CNS lineage development. | Q52165191 | ||
Glia maintain follower neuron survival during Drosophila CNS development. | Q52172312 | ||
Distinct cell killing properties of the Drosophila reaper, head involution defective, and grim genes. | Q52181655 | ||
Runt determines cell fates in the Drosophila embryonic CNS. | Q52186961 | ||
Steroid regulated programmed cell death during Drosophila metamorphosis. | Q52191726 | ||
Genes that induce apoptosis: transcriptional regulation in identified, doomed neurons of the Drosophila CNS. | Q52192330 | ||
The embryonic central nervous system lineages of Drosophila melanogaster. I. Neuroblast lineages derived from the ventral half of the neuroectoderm. | Q52199402 | ||
Molecular markers for identified neuroblasts and ganglion mother cells in the Drosophila central nervous system | Q52441096 | ||
The origin of postembryonic neuroblasts in the ventral nerve cord of Drosophila melanogaster. | Q52447099 | ||
Postmetamorphic cell death in the nervous and muscular systems of Drosophila melanogaster. | Q52448881 | ||
Macrophages and glia participate in the removal of apoptotic neurons from the Drosophila embryonic nervous system. | Q52536008 | ||
A common precursor for glia and neurons in the embryonic CNS of Drosophila gives rise to segment-specific lineage variants. | Q52542719 | ||
Programmed cell death in the Drosophila CNS is ecdysone-regulated and coupled with a specific ecdysone receptor isoform. | Q52544663 | ||
Targeted neuronal ablation: the role of pioneer neurons in guidance and fasciculation in the CNS of Drosophila. | Q52558902 | ||
Origin and differentiation of supernumerary midline glia in Drosophila embryos deficient for apoptosis. | Q52559619 | ||
Genetic and hormonal regulation of the death of peptidergic neurons in the Drosophila central nervous system. | Q52568949 | ||
Clonal analysis of Drosophila embryonic neuroblasts: neural cell types, axon projections and muscle targets. | Q52573588 | ||
Dynamic mitochondria. | Q52574314 | ||
The Drosophila neuregulin vein maintains glial survival during axon guidance in the CNS. | Q52592496 | ||
Regulation of cell number by MAPK-dependent control of apoptosis: a mechanism for trophic survival signaling. | Q52594202 | ||
Apoptotic cells can induce compensatory cell proliferation through the JNK and the Wingless signaling pathways. | Q52652438 | ||
Multiple roles for apoptosis facilitating condensation of the Drosophila ventral nerve cord. | Q52688362 | ||
Multiple roles for Hox genes in segment-specific shaping of CNS lineages. | Q52695605 | ||
Genetic mechanisms of early neurogenesis in Drosophila melanogaster | Q72448831 | ||
Environmental control of the cell cycle in Drosophila: nutrition activates mitotic and endoreplicative cells by distinct mechanisms | Q74506568 | ||
Early neurogenesis in wild-typeDrosophila melanogaster | Q89559828 | ||
Regulation of neuroblast competence in Drosophila | Q95806314 | ||
P433 | issue | 15 | |
P407 | language of work or name | English | Q1860 |
P921 | main subject | cell death | Q2383867 |
Drosophila | Q312154 | ||
P304 | page(s) | 2435-2453 | |
P577 | publication date | 2016-07-28 | |
P1433 | published in | FEBS Letters | Q1388051 |
P1476 | title | Programmed cell death acts at different stages of Drosophila neurodevelopment to shape the central nervous system | |
P478 | volume | 590 |