scholarly article | Q13442814 |
P50 | author | Matthew Meiselman | Q57317425 |
Michael E Adams | Q87644369 | ||
P2093 | author name string | Sang Soo Lee | |
Brigitte Dauwalder | |||
Crisalejandra Rivera-Perez | |||
Fernando Gabriel Noriega | |||
Yike Ding | |||
Thilini P Wijesekera | |||
Hongjiu Dai | |||
Raymond-Tan Tran | |||
P2860 | cites work | Mating-Induced Increase in Germline Stem Cells via the Neuroendocrine System in Female Drosophila | Q26314614 |
Recent progress in understanding the role of ecdysteroids in adult insects: Germline development and circadian clock in the fruit fly Drosophila melanogaster | Q26775669 | ||
Calcium and egg activation in Drosophila | Q27023028 | ||
Rescheduling Behavioral Subunits of a Fixed Action Pattern by Genetic Manipulation of Peptidergic Signaling | Q27310297 | ||
Genetic Evidence for Function of the bHLH-PAS Protein Gce/Met As a Juvenile Hormone Receptor | Q27310656 | ||
Cryptocephal, the Drosophila melanogaster ATF4, is a specific coactivator for ecdysone receptor isoform B2 | Q27332088 | ||
Effects of octopamine on reproduction, juvenile hormone metabolism, dopamine, and 20-hydroxyecdysone contents in Drosophila | Q48792310 | ||
Control of oocyte maturation in sexually mature Drosophila females | Q48921311 | ||
Sex-peptide activates juvenile hormone biosynthesis in the Drosophila melanogaster corpus allatum. | Q51016852 | ||
Altered juvenile hormone metabolism, reproduction and stress response in Drosophila adults with genetic ablation of the corpus allatum cells. | Q51899662 | ||
Mating and hormonal triggers regulate accessory gland gene expression in male Drosophila | Q73443393 | ||
Juvenile hormone regulation of male accessory gland activity in the red flour beetle, Tribolium castaneum | Q27489558 | ||
Ecdysis triggering hormone signaling in the yellow fever mosquito Aedes aegypti | Q27491340 | ||
Neuropeptide receptor transcriptome reveals unidentified neuroendocrine pathways | Q28473475 | ||
A mutant Drosophila insulin receptor homolog that extends life-span and impairs neuroendocrine function | Q29618026 | ||
Sequential oogenesis is controlled by an oviduct factor in the locusts Locusta migratoria and Schistocerca gregaria: Overcoming the doctrine that patency in follicle cells is induced by juvenile hormone. | Q30315322 | ||
Environmental stress and reproduction in Drosophila melanogaster: starvation resistance, ovariole numbers and early age egg production | Q30819761 | ||
Cracking open cell death in the Drosophila ovary | Q33607484 | ||
Ecdysone control of developmental transitions: lessons from Drosophila research | Q33766958 | ||
Ecdysis triggering hormone signaling in arthropods. | Q33788083 | ||
A quantitative assay for the juvenile hormones and their precursors using fluorescent tags | Q34396012 | ||
The Drosophila ecdysone receptor (EcR) gene is required maternally for normal oogenesis | Q34609076 | ||
Ecdysis triggering hormone ensures proper timing of juvenile hormone biosynthesis in pharate adult mosquitoes | Q34621477 | ||
Juvenile hormone regulation of Drosophila aging | Q34833845 | ||
Endocrine remodelling of the adult intestine sustains reproduction in Drosophila | Q35890317 | ||
Juvenile Hormone Is Required in Adult Males for Drosophila Courtship | Q35966169 | ||
Automatic stage identification of Drosophila egg chamber based on DAPI images | Q36432622 | ||
Complex steroid-peptide-receptor cascade controls insect ecdysis | Q36824288 | ||
Drosophila seminal protein ovulin mediates ovulation through female octopamine neuronal signaling | Q37256061 | ||
Neural and hormonal control of postecdysial behaviors in insects | Q37461149 | ||
Secretory competence in a gateway endocrine cell conferred by the nuclear receptor βFTZ-F1 enables stage-specific ecdysone responses throughout development in Drosophila | Q37509673 | ||
Insect seminal fluid proteins: identification and function | Q37587506 | ||
Ecdysone signaling in adult Drosophila melanogaster | Q37981809 | ||
The juvenile hormone signaling pathway in insect development | Q38044992 | ||
Hormone-responsive enhancer-activity maps reveal predictive motifs, indirect repression, and targeting of closed chromatin | Q39009980 | ||
Steroid induction of a peptide hormone gene leads to orchestration of a defined behavioral sequence | Q41683318 | ||
Ecdysteroids regulate secretory competence in Inka cells | Q41759986 | ||
Juvenile hormone signaling during oogenesis in Drosophila melanogaster | Q44279768 | ||
Juvenile hormone involvement in Drosophila melanogaster male reproduction as suggested by the Methoprene-tolerant27 mutant phenotype | Q44643412 | ||
Hormonal regulation and functional role of Drosophila E75A orphan nuclear receptor in the juvenile hormone signaling pathway | Q44828931 | ||
Deletion of the ecdysis-triggering hormone gene leads to lethal ecdysis deficiency. | Q45935714 | ||
A command chemical triggers an innate behavior by sequential activation of multiple peptidergic ensembles. | Q45974042 | ||
The effects of octopamine on juvenile hormone biosynthesis, electrophysiology, and cAMP content of the corpora allata of the cockroach Diploptera punctata | Q46388502 | ||
Effects of dopamine on juvenile hormone metabolism and fitness in Drosophila virilis | Q46557303 | ||
E75A and E75B have opposite effects on the apoptosis/development choice of the Drosophila egg chamber | Q46740619 | ||
Nutritional status affects 20-hydroxyecdysone concentration and progression of oogenesis in Drosophila melanogaster | Q46744051 | ||
Overexpression of Drosophila juvenile hormone esterase binding protein results in anti-JH effects and reduced pheromone abundance. | Q46753034 | ||
Juvenile hormone action mediated in male accessory glands of Drosophila by calcium and kinase C. | Q46879357 | ||
A receptor that mediates the post-mating switch in Drosophila reproductive behaviour. | Q47070137 | ||
Genetic analysis of ecdysis behavior in Drosophila reveals partially overlapping functions of two unrelated neuropeptides | Q47070356 | ||
Drosophila Met and Gce are partially redundant in transducing juvenile hormone action | Q47071722 | ||
P433 | issue | 19 | |
P407 | language of work or name | English | Q1860 |
P921 | main subject | Drosophila melanogaster | Q130888 |
reproductive success | Q751093 | ||
P304 | page(s) | E3849-E3858 | |
P577 | publication date | 2017-04-24 | |
P1433 | published in | Proceedings of the National Academy of Sciences of the United States of America | Q1146531 |
P1476 | title | Endocrine network essential for reproductive success in Drosophila melanogaster | |
P478 | volume | 114 |
Q64228216 | A Single SNP Turns a Social Honey Bee (Apis mellifera) Worker into a Selfish Parasite |
Q92462879 | Blood feeding activates the vitellogenic stage of oogenesis in the mosquito Aedes aegypti through inhibition of glycogen synthase kinase 3 by the insulin and TOR pathways |
Q90449872 | Ecdysis triggering hormone receptors regulate male courtship behavior via antennal lobe interneurons in Drosophila |
Q111348958 | Eclosion hormone functions in larva-pupa-adult ecdysis in Leptinotarsa decemlineata |
Q97093761 | Effects of DEHP on the ecdysteroid pathway, sexual behavior and offspring of the moth Spodoptera littoralis |
Q97535104 | Fitness trade-offs incurred by ovary-to-gut steroid signalling in Drosophila |
Q94938951 | Neuropeptide and microRNA Regulators of Juvenile Hormone Production |
Q90518350 | Omics approaches to study juvenile hormone synthesis |
Q47548012 | Stress-induced reproductive arrest in Drosophila occurs through ETH deficiency-mediated suppression of oogenesis and ovulation. |
Q64079804 | The Ecdysis Triggering Hormone System, via ETH/ETHR-B, Is Essential for Successful Reproduction of a Major Pest Insect, (Hendel) |
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