scholarly article | Q13442814 |
P819 | ADS bibcode | 2008PLoSO...3.1896P |
P356 | DOI | 10.1371/JOURNAL.PONE.0001896 |
P932 | PMC publication ID | 2266995 |
P698 | PubMed publication ID | 18365028 |
P5875 | ResearchGate publication ID | 5487481 |
P50 | author | Jan A Veenstra | Q37622667 |
P2093 | author name string | Paul H Taghert | |
Jae H Park | |||
Dongkook Park | |||
P2860 | cites work | Spatial and temporal expression of the period and timeless genes in the developing nervous system of Drosophila: newly identified pacemaker candidates and novel features of clock gene product cycling. | Q52553760 |
Multiple amidated neuropeptides are required for normal circadian locomotor rhythms in Drosophila. | Q52590597 | ||
The bHLH protein Dimmed controls neuroendocrine cell differentiation in Drosophila. | Q52604130 | ||
Independent roles of the dachshund and eyes absent genes in BMP signaling, axon pathfinding and neuronal specification. | Q52653106 | ||
Regulators acting in combinatorial codes also act independently in single differentiating neurons. | Q52655752 | ||
Coupling of peptides to albumin with difluorodinitrobenzene | Q67792224 | ||
Molecular and cellular regulation of neuropeptide expression: the bag cell model system | Q69520019 | ||
Mist1 expression is a common link among serous exocrine cells exhibiting regulated exocytosis | Q73812355 | ||
Distinct functions for cotransmitters mediating motor pattern selection | Q78094854 | ||
Neurotransmitter Release | Q22337388 | ||
The basic helix-loop-helix transcription factor Mist1 functions as a transcriptional repressor of myoD | Q24533171 | ||
The bHLH transcription factor Mist1 is required to maintain exocrine pancreas cell organization and acinar cell identity | Q24653476 | ||
Candidate gustatory interneurons modulating feeding behavior in the Drosophila brain | Q24816529 | ||
Neuroarchitecture of peptidergic systems in the larval ventral ganglion of Drosophila melanogaster | Q27302856 | ||
Identification of the gene encoding bursicon, an insect neuropeptide responsible for cuticle sclerotization and wing spreading | Q28270965 | ||
The maturation of mucus-secreting gastric epithelial progenitors into digestive-enzyme secreting zymogenic cells requires Mist1 | Q28278568 | ||
Progressive impairment of developing neuroendocrine cell lineages in the hypothalamus of mice lacking the Orthopedia gene | Q28505186 | ||
Lmx1b is essential for the development of serotonergic neurons | Q28506591 | ||
Defective development of secretory neurones in the hypothalamus of Arnt2-knockout mice | Q28509443 | ||
Development and survival of the endocrine hypothalamus and posterior pituitary gland requires the neuronal POU domain factor Brn-2 | Q28591543 | ||
Tlx3 and Tlx1 are post-mitotic selector genes determining glutamatergic over GABAergic cell fates | Q28593894 | ||
Identification of a proctolin preprohormone gene (Proct) of Drosophila melanogaster: expression and predicted prohormone processing | Q33197198 | ||
Neural lineages of the Drosophila brain: a three-dimensional digital atlas of the pattern of lineage location and projection at the late larval stage. | Q33243845 | ||
Specification of neuronal identities by feedforward combinatorial coding | Q33273615 | ||
Single-cell peptidomics of drosophila melanogaster neurons identified by Gal4-driven fluorescence | Q33282283 | ||
Interspecific comparison of a Drosophila gene encoding FMRFamide-related neuropeptides | Q33763094 | ||
A pdf neuropeptide gene mutation and ablation of PDF neurons each cause severe abnormalities of behavioral circadian rhythms in Drosophila | Q33885458 | ||
Gene regulation in the magnocellular hypothalamo-neurohypophysial system | Q33953261 | ||
Neuropeptides in the nervous system of Drosophila and other insects: multiple roles as neuromodulators and neurohormones | Q34158572 | ||
The biosynthesis of neuropeptides: peptide alpha-amidation | Q34401086 | ||
The neuroendocrine system of invertebrates: a developmental and evolutionary perspective | Q34569157 | ||
Hemolymph sugar homeostasis and starvation-induced hyperactivity affected by genetic manipulations of the adipokinetic hormone-encoding gene in Drosophila melanogaster | Q34644582 | ||
Neuropeptides and neuropeptide receptors in the Drosophila melanogaster genome | Q35033291 | ||
Central peptidergic ensembles associated with organization of an innate behavior | Q35080539 | ||
Drosophila neuropeptide signaling | Q35142278 | ||
Insulin granule dynamics in pancreatic beta cells | Q35184211 | ||
Development of neuroendocrine lineages requires the bHLH-PAS transcription factor SIM1. | Q35210750 | ||
Anatomy and functions of brain neurosecretory cells in diptera | Q35216067 | ||
Functional dissection of a neuronal network required for cuticle tanning and wing expansion in Drosophila | Q35762128 | ||
Cockroach diuretic hormones: characterization of a calcitonin-like peptide in insects | Q35776260 | ||
The Drosophila basic helix-loop-helix protein DIMMED directly activates PHM, a gene encoding a neuropeptide-amidating enzyme | Q36421064 | ||
Neuropeptides in interneurons of the insect brain | Q36500230 | ||
Electrical hyperexcitation of lateral ventral pacemaker neurons desynchronizes downstream circadian oscillators in the fly circadian circuit and induces multiple behavioral periods | Q37002209 | ||
Organization of the Drosophila circadian control circuit | Q37062549 | ||
PHM is required for normal developmental transitions and for biosynthesis of secretory peptides in Drosophila | Q38458811 | ||
Existence and coexistence of calcitonin gene-related peptide, vasoactive intestinal polypeptide- and somatostatin-like immunoreactivities in spinal cord motoneurons of developing embryos and post-hatch chicks | Q38475423 | ||
Increases in cyclic 3', 5'-guanosine monophosphate (cGMP) occur at ecdysis in an evolutionarily conserved crustacean cardioactive peptide-immunoreactive insect neuronal network | Q38562140 | ||
Neuropeptides and their precursors in the fruitfly, Drosophila melanogaster | Q40727148 | ||
The POU domain transcription factor Brn-2 is required for the determination of specific neuronal lineages in the hypothalamus of the mouse | Q41259280 | ||
Molecular cloning and biological activity of ecdysis-triggering hormones in Drosophila melanogaster | Q41709039 | ||
Corazonin and corazonin-like substances in the central nervous system of the Pterygote and Apterygote insects | Q42048153 | ||
Two nitridergic peptides are encoded by the gene capability in Drosophila melanogaster. | Q42051764 | ||
Innervation of the ring gland of Drosophila melanogaster | Q42054727 | ||
The role of tinman, a mesodermal cell fate gene, in axon pathfinding during the development of the transverse nerve in Drosophila. | Q42058825 | ||
Occurrence of ion transport peptide (ITP) and ion transport-like peptide (ITP-L) in orthopteroids | Q42059013 | ||
A peritracheal neuropeptide system in insects: release of myomodulin-like peptides at ecdysis | Q42061001 | ||
Identification of ecdysis-triggering hormone from an epitracheal endocrine system | Q42064923 | ||
Leucokinin and diuretic hormone immunoreactivity of neurons in the tobacco hornworm, Manduca sexta, and co-localization of this immunoreactivity in lateral neurosecretory cells of abdominal ganglia | Q42067524 | ||
Steroid regulation of excitability in identified insect neurosecretory cells. | Q42068816 | ||
Neurons producing specific neuropeptides in the central nervous system of normal and pupariation-delayed Drosophila | Q42070327 | ||
Neuropeptides of the islets of Langerhans: a peptidomics study. | Q51983628 | ||
Targeted ablation of CCAP neuropeptide-containing neurons of Drosophila causes specific defects in execution and circadian timing of ecdysis behavior. | Q52105807 | ||
The murine Otp homeobox gene plays an essential role in the specification of neuronal cell lineages in the developing hypothalamus. | Q52163098 | ||
eagle is required for the specification of serotonin neurons and other neuroblast 7-3 progeny in the Drosophila CNS. | Q52191487 | ||
New neuroblast markers and the origin of the aCC/pCC neurons in the Drosophila central nervous system. | Q52204880 | ||
Substance P-, FMRFamide-, and gastrin/cholecystokinin-like immunoreactive neurons in the thoraco-abdominal ganglia of the flies Drosophila and Calliphora. | Q52444921 | ||
Identification of the cerebral neurosecretory cells that contain eclosion hormone in the moth Manduca sexta. | Q42075313 | ||
Pigment-dispersing hormone-immunoreactive neurons and their relation to serotonergic neurons in the blowfly and cockroach visual system | Q42469965 | ||
Isolation, identification, and synthesis of PDVDHFLRFamide (SchistoFLRFamide) in Locusta migratoria and its association with the male accessory glands, the salivary glands, the heart, and the oviduct. | Q42483477 | ||
Quantitation of vasopressin mRNA and oxytocin mRNA in hypothalamic nuclei by solution hybridization assays | Q42525889 | ||
Ablation of insulin-producing neurons in flies: growth and diabetic phenotypes | Q43988822 | ||
ming is expressed in neuroblast sublineages and regulates gene expression in the Drosophila central nervous system | Q44077421 | ||
Adipokinetic hormones concentrations in the haemolymph of Schistocerca gregaria, measured by radioimmunoassay | Q44279743 | ||
Allatostatin-immunoreactive neurons projecting to the corpora allata of adult Diploptera punctata | Q44767030 | ||
Ap-let neurons--a peptidergic circuit potentially controlling ecdysial behavior in Drosophila | Q44842148 | ||
Conserved mechanisms of glucose sensing and regulation by Drosophila corpora cardiaca cells | Q45062201 | ||
AKH-producing neuroendocrine cell ablation decreases trehalose and induces behavioral changes in Drosophila | Q45063896 | ||
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 | ||
A command chemical triggers an innate behavior by sequential activation of multiple peptidergic ensembles. | Q45974042 | ||
Specification and development of the pars intercerebralis and pars lateralis, neuroendocrine command centers in the Drosophila brain | Q46528002 | ||
Serotonin and neuropeptide F have opposite modulatory effects on fly aggression | Q46769204 | ||
The Dh gene of Drosophila melanogaster encodes a diuretic peptide that acts through cyclic AMP. | Q47070818 | ||
Regulation of secretory protein expression in mature cells by DIMM, a basic helix-loop-helix neuroendocrine differentiation factor. | Q47071368 | ||
Neuropeptide amidation in Drosophila: separate genes encode the two enzymes catalyzing amidation. | Q47071482 | ||
Developmental control of foraging and social behavior by the Drosophila neuropeptide Y-like system | Q47071692 | ||
Peptidomics of the larval Drosophila melanogaster central nervous system. | Q47071711 | ||
The neuropeptide SIFamide modulates sexual behavior in Drosophila. | Q47071876 | ||
Direct mass spectrometric peptide profiling and fragmentation of larval peptide hormone release sites in Drosophila melanogaster reveals tagma-specific peptide expression and differential processing | Q47072043 | ||
Transcriptional regulation of neuropeptide and peptide hormone expression by the Drosophila dimmed and cryptocephal genes | Q47072100 | ||
Mutations in the Drosophila glycoprotein hormone receptor, rickets, eliminate neuropeptide-induced tanning and selectively block a stereotyped behavioral program | Q47072239 | ||
Drosophila short neuropeptide F regulates food intake and body size. | Q47072852 | ||
In silico identification of new secretory peptide genes in Drosophila melanogaster. | Q47072870 | ||
Neuroendocrine control of larval ecdysis behavior in Drosophila: complex regulation by partially redundant neuropeptides. | Q47678831 | ||
Molecular markers for identified neuroblasts in the developing brain of Drosophila | Q47791465 | ||
The site of origin of the hormones of the posterior pituitary. | Q47826177 | ||
Sim2 contributes to neuroendocrine hormone gene expression in the anterior hypothalamus | Q48027743 | ||
Expression of a novel neuropeptide, NVGTLARDFQLPIPNamide, in the larval and adult brain of Drosophila melanogaster. | Q48108522 | ||
Genetic dissection of neural circuit anatomy underlying feeding behavior in Drosophila: distinct classes of hugin-expressing neurons | Q48201667 | ||
Organization and expression of the Drosophila FMRFamide-related prohormone gene | Q48267430 | ||
CNS and hypoderm regulatory elements of the Drosophila melanogaster dopa decarboxylase gene | Q48356286 | ||
Peptidomic analysis of the larval Drosophila melanogaster central nervous system by two-dimensional capillary liquid chromatography quadrupole time-of-flight mass spectrometry. | Q49059370 | ||
Comparative analysis of Corazonin-encoding genes (Crz's) in Drosophila species and functional insights into Crz-expressing neurons | Q49116231 | ||
P275 | copyright license | Creative Commons Attribution 4.0 International | Q20007257 |
P6216 | copyright status | copyrighted | Q50423863 |
P433 | issue | 3 | |
P407 | language of work or name | English | Q1860 |
P921 | main subject | Drosophila | Q312154 |
Dimmed Dmel_CG8667 | Q29814353 | ||
P304 | page(s) | e1896 | |
P577 | publication date | 2008-03-26 | |
P1433 | published in | PLOS One | Q564954 |
P1476 | title | Mapping peptidergic cells in Drosophila: where DIMM fits in. | |
P478 | volume | 3 |
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Q34958945 | A juvenile hormone transcription factor Bmdimm-fibroin H chain pathway is involved in the synthesis of silk protein in silkworm, Bombyx mori |
Q30484150 | A large population of diverse neurons in the Drosophila central nervous system expresses short neuropeptide F, suggesting multiple distributed peptide functions. |
Q57290393 | A multi-component neuronal response encodes the larval decision to pupariate upon amino acid starvation |
Q44638180 | A novel wide-field neuron with branches in the lamina of the Drosophila visual system expresses myoinhibitory peptide and may be associated with the clock |
Q92110252 | A single-cell transcriptomic atlas of the adult Drosophila ventral nerve cord |
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Q36790961 | Altered lipid homeostasis in Drosophila InsP3 receptor mutants leads to obesity and hyperphagia |
Q30439465 | Analysis of neuropeptide expression and localization in adult drosophila melanogaster central nervous system by affinity cell-capture mass spectrometry |
Q50050035 | Anatomical characterization of PDF-Tri neurons and peptidergic neurons associated with eclosion behavior in Drosophila |
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Q90493949 | Body Size and Tissue-Scaling Is Regulated by Motoneuron-Derived Activinß in Drosophila melanogaster |
Q52713108 | Chemical neuroanatomy of the Drosophila central complex: distribution of multiple neuropeptides in relation to neurotransmitters. |
Q42121384 | Cholecystokinin-Like Peptide (DSK) in Drosophila, Not Only for Satiety Signaling |
Q33939190 | Coe genes are expressed in differentiating neurons in the central nervous system of protostomes |
Q42515797 | Control of protein translation by IP3R-mediated Ca(2+) release in Drosophila neuroendocrine cells. |
Q47820965 | Coordination between Differentially Regulated Circadian Clocks Generates Rhythmic Behavior |
Q38831728 | Ctr9, a Key Component of the Paf1 Complex, Affects Proliferation and Terminal Differentiation in the Developing Drosophila Nervous System |
Q33765111 | Deficiency of prohormone convertase dPC2 (AMONTILLADO) results in impaired production of bioactive neuropeptide hormones in Drosophila. |
Q44993627 | Distribution of short neuropeptide F and its receptor in neuronal circuits related to feeding in larval Drosophila |
Q33748711 | Drosophila insulin-producing cells are differentially modulated by serotonin and octopamine receptors and affect social behavior |
Q91797248 | ER-Ca2+ sensor STIM regulates neuropeptides required for development under nutrient restriction in Drosophila |
Q101051403 | Enteric neurons increase maternal food intake during reproduction |
Q42655666 | Evaluating the Autonomy of the Drosophila Circadian Clock in Dissociated Neuronal Culture. |
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Q52743810 | Functional significance of the copper transporter ATP7 in peptidergic neurons and endocrine cells in Drosophila melanogaster. |
Q35243737 | Genetic dissection of sleep-metabolism interactions in the fruit fly. |
Q27323116 | Genome-wide analyses reveal a role for peptide hormones in planarian germline development |
Q35131055 | Genome-wide features of neuroendocrine regulation in Drosophila by the basic helix-loop-helix transcription factor DIMMED. |
Q33588416 | IP3R-mediated Ca2+ release regulates protein metabolism in Drosophila neuroendocrine cells: implications for development under nutrient stress |
Q43244592 | Identification of Genes that Maintain Behavioral and Structural Plasticity during Sleep Loss. |
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Q33932315 | Immunolocalization of the short neuropeptide F receptor in queen brains and ovaries of the red imported fire ant (Solenopsis invicta Buren). |
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Q35071325 | Loss of IP3 receptor function in neuropeptide secreting neurons leads to obesity in adult Drosophila |
Q33632231 | Metabolic stress responses in Drosophila are modulated by brain neurosecretory cells that produce multiple neuropeptides |
Q90421599 | Miles to go (mtgo) encodes FNDC3 proteins that interact with the chaperonin subunit CCT3 and are required for NMJ branching and growth in Drosophila |
Q41993599 | Molecular cloning, expression and identification of the promoter regulatory region for the neuropeptide trissin in the nervous system of the silkmoth Bombyx mori |
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Q64258335 | Multiple neuropeptides produced by sex-specific neurons control activity of the male accessory glands and gonoducts in the silkworm Bombyx mori |
Q52712608 | Neuroendocrine cells in Drosophila melanogaster producing GPA2/GPB5, a hormone with homology to LH, FSH and TSH. |
Q41066809 | Neuronal Cell Fate Specification by the Convergence of Different Spatiotemporal Cues on a Common Terminal Selector Cascade. |
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Q48323305 | Optogenetic inhibition of behavior with anion channelrhodopsins. |
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Q35057659 | Serial specification of diverse neuroblast identities from a neurogenic placode by Notch and Egfr signaling |
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