Relevant bibliographies by topics / Neurosecretory cell

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  2. Dissertations / Theses
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Academic literature on the topic 'Neurosecretory cell'

Author: Grafiati
Published: 25 June 2021
Last updated: 29 July 2025

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Journal articles on the topic "Neurosecretory cell"

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Pushpanjali., A. Bidwai, N. Wankhade Lokesh, and S. Bhonde Rajkumar. "Responses of the neurosecretory cells of the terrestrial slug, Semperula maculata to temperature acclimation (32°c and 15°c." Int. Res. Journal of Science & Engineering, 2023 A13 (December 31, 2023): 29–33. https://doi.org/10.5281/zenodo.10516175.

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Changes in the neurosecretory cell (cell A and cell B) cytology of <em>Semperula maculata </em>subjected to thermal acclimation (32&deg;c <u>+</u> 0.5&deg;c and 15&deg;c <u>+</u> 0.5&deg;c) for 10 days have been investigated. Of the two temperatures in which slugs are acclimated striking changes were evident in 32&deg;c than 15&deg;c. After acclimation treatment (15&deg;c) there was increase in neurosecretory material and nuclear diameter in cell A and cell B. While on 32&deg;c acclimation, nuclear diameter of the slug showed enlargement and neurosecretory material intensity was lowered in cel
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Mrdakovic, Marija, Larisa Ilijin, Milena Jankovic-Tomanic, et al. "Effects of thermal stress on activity of corpora allata and dorsolateral neurosecretory neurons in Morimus funereus larvae." Archives of Biological Sciences 57, no. 2 (2005): 83–92. http://dx.doi.org/10.2298/abs0502083m.

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The effects of different temperatures (23?C and 8?C) on activity of corpora allata (CA) and dorsolateral (L1, L2) protocerebral neurosecretory neurons were investigated in Morimus funereus Mulsant (1863) larvae collected from a natural population during March. Activity of CA was revealed by monitoring of CA volume and cell number. Increase of CA volume after two day exposure to both temperatures was shown to be the result of increase in cell number. Activity of CA was higher at 23?C than 8?C. Activity of L1 and L2 neurosecretory neurons was inhibited at both temperatures. Neurosecretory neuron
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Raghavan, Sudha Devi Arath, Aswani Ayanath, and Bhadravathi Kenchappa Chandrasekhar Sagar. "Fine structure of neurosecretory cells and sinus gland in the eyestalk of the freshwater crab Travancoriana schirnerae Bott, 1969 (Decapoda: Gecarcinucidae)." Brazilian Journal of Biological Sciences 6, no. 14 (2019): 535–55. http://dx.doi.org/10.21472/bjbs.061406.

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This study elucidated the fine structure of neurosecretory cells and sinus gland in the optic ganglia of the freshwater crab Travancoriana schirnerae Bott, 1969 (Decapoda: Gecarcinucidae). The eyestalk ganglion showed the presence of four well defined ganglia arranged below the ommatidium: lamina ganglionaris, medulla externa, medulla interna and medulla terminalis of which the lamina ganglionaris, was devoid of neurosecretory cells. Groups of neurosecretory cells seen distributed along the medulla externa, interna and terminalis regions constitute the X-organs. Electron microscopic observatio
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Rossler, W., and U. Bickmeyer. "LOCUST MEDIAL NEUROSECRETORY CELLS IN VITRO: MORPHOLOGY, ELECTROPHYSIOLOGICAL PROPERTIES AND EFFECTS OF TEMPERATURE." Journal of Experimental Biology 183, no. 1 (1993): 323–39. http://dx.doi.org/10.1242/jeb.183.1.323.

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The medial neurosecretory cells of the pars intercerebralis in the protocerebrum of larval and adult locusts (Locusta migratoria) were cultured in a chemically defined serum-free culture medium. The morphology of the cells was investigated by light microscopy and the electrophysiological properties were studied using the patch-clamp technique in the whole-cell configuration. The dissociated neurosecretory cells grew new processes under these conditions and were maintained in culture for up to 2 months. The percentage of cells showing outgrowth was significantly higher in third-instar larvae th
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Mahmud, S., PV Mladenov, SC Chakraborty, and MAR Faruk. "Relationship Between Gonad Condition and Neurosecretory Cell Activity in the Green-Lipped Mussel, Perna canaliculus." Progressive Agriculture 18, no. 2 (2014): 135–48. http://dx.doi.org/10.3329/pa.v18i2.18169.

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The relationship between the activity of neurosecretory cells and gonad development of Perna canaliculus was investigated. The variation in staining intensity of the neurosecretory cells in different ganglia was evaluated. Changes in staining intensity of neurosecretory cells (NSC) were correlated with gonad development. The variation in colour intensity (CI) resulted from differences in the amount of secretory materials within the NSCs. The neurosecretory cell types A and B showed a similar pattern of staining intensity, and showed correlation with gametogenesis and spawning. At the beginning
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Meyer, C., M. J. Freund-Mercier, Y. Guerné, and Ph Richard. "Relationship between oxytocin release and amplitude of oxytocin cell neurosecretory bursts during suckling in the rat." Journal of Endocrinology 114, no. 2 (1987): 263–70. http://dx.doi.org/10.1677/joe.0.1140263.

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ABSTRACT Plasma concentrations of oxytocin and vasopressin were measured in relationship to oxytocin cell firing during suckling in urethane-anaesthetized rats. Preliminary experiments showed that plasma concentrations of oxytocin and vasopressin, which were increased immediately after anaesthesia, reverted to basal concentrations 3 h later. Moreover, it was found that exogenous oxytocin had entirely disappeared 5 min after i.v. bolus injections of known doses of oxytocin. Suckling did not modify the basal plasma concentration of oxytocin (14·6 ± 2·9 compared with 14·±61·5 pmol/l before suckli
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Fairweather, I., and D. W. Halton. "Neuropeptides in platyhelminths." Parasitology 102, S1 (1991): S77—S92. http://dx.doi.org/10.1017/s0031182000073315.

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The neuropeptide story began in 1928 with the description by Ernst Scharrer of gland-like nerve cells in the hypothalamus of the minnow, Phoxinus laevis. Because these nerve cells were overwhelmingly specialized for secretory activity, overshadowing other neuronal properties, Scharrer termed them ‘neurosecretory neurons’. What was even more remarkable about the cells was that their products were released into the bloodstream to act as hormones, specifically neurohormones. Neurosecretory cells were identified largely on morphological grounds. That is, they could be stained with special techniqu
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Göhde, Ronja, Benjamin Naumann, Davis Laundon, et al. "Choanoflagellates and the ancestry of neurosecretory vesicles." Philosophical Transactions of the Royal Society B: Biological Sciences 376, no. 1821 (2021): 20190759. http://dx.doi.org/10.1098/rstb.2019.0759.

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Neurosecretory vesicles are highly specialized trafficking organelles that store neurotransmitters that are released at presynaptic nerve endings and are, therefore, important for animal cell–cell signalling. Despite considerable anatomical and functional diversity of neurons in animals, the protein composition of neurosecretory vesicles in bilaterians appears to be similar. This similarity points towards a common evolutionary origin. Moreover, many putative homologues of key neurosecretory vesicle proteins predate the origin of the first neurons, and some even the origin of the first animals.
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Shamsiyeva, N. К., and A. A. Khusinov. "Activities of the anterior hypothalamus neurosecretory nuclear enzymes in exposure to organophosphorus compounds." Problems of Endocrinology 39, no. 2 (1993): 49–51. http://dx.doi.org/10.14341/probl11977.

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Under study were activities of glycolysis enzymes: LDH, Crebs cycle SDH, those of electron transport system NAD and NADP-diaphorase, and of the hydrolytic enzymes, acid and alkaline phosphatases in the hypothalamus, as were morphofunctional shifts in these enzymes activities in poisoning with organophosphorus compounds. The experiments were carried out in 72 white male outbread rats weighing 180-200 g, that were administered PHOS antio (an organophosphorus compound) in a daily dose of 0.1 LD50 for 30 days. Early dates of poisoning were associated with an essential rise of the redox enzymes and
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Garcia, U., and H. Arechiga. "Regulatory Influences on Crustacean Neurosecretory Cells." Physiology 12, no. 1 (1997): 16–21. http://dx.doi.org/10.1152/physiologyonline.1997.12.1.16.

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During the last decade, new evidence has been produced on the subtle mechanisms by which invertebrate neurosecretory cell activity is regulated. Multiple synaptic and humoral mechanisms regulate the endogenous activity of secretory neurons. Specific cellular interactions and ionic mechanisms have been disclosed, and new insights are now available on the integrative features of invertebrate neurosecretory systems.
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Dissertations / Theses on the topic "Neurosecretory cell"

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Buffa, Laura. "Cell Biology of the ICA69 protein family in Neurosecretory cells." Doctoral thesis, Saechsische Landesbibliothek- Staats- und Universitaetsbibliothek Dresden, 2007. http://nbn-resolving.de/urn:nbn:de:swb:14-1174057636463-96361.

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In type 1 diabetes (T1D), an autoimmune disease, autoantibodies are preferentially directed against proteins associated with Golgi and post-Golgi secretory vesicles, including insulin secretory granules and synaptic-like microvesicles. Thus, the study of beta-cell autoantigens with yet unknown function may provide novel insight into the secretory machinery of beta-cells and led to the discovery of novel pathways. Islet cell autoantigen of 69 kDa (ICA69) is a T1D autoantigen. It is a cytosolic protein of still unknown function. An impairment in neurotransmitter release upon mutation of its homo
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Tessmar-Raible, Kristin. "The evolution of sensory and neurosecretory cell types in bilaterian brains." [S.l. : s.n.], 2004. http://archiv.ub.uni-marburg.de/diss/z2004/0501/.

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Tribut, Florence. "Effets de l'axotomie sur les propriétés électrophysiologiques et pharmacologiques des récepteurs cholinergiques des cellules neurosécrétrices : les dorsal unpaired median (DUM) neurones du dernier ganglion abdominal de la blatte periplaneta americana L." Angers, 1994. http://www.theses.fr/1994ANGE0011.

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Une étude des effets d'une axotomie sur certaines propriétés électrophysiologiques et pharmacologiques d'un type particulier de cellules neurosécrétrices adultes, les dorsal unpaired median (DUM) neurones du dernier ganglion abdominal de la blatte p. Americana a été réalisée. Une étude comparative de l'activité électrique des DUM neurones in situ et isoles à l'aide des techniques de microélectrode intracellulaire et de patch-clamp (configuration cellule entière), a montré que l'augmentation significative de l'amplitude des potentiels d'action, observée des 48h après axotomie, était due à l'aug
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Fournier, Sue. "Calmodulin binding proteins in chromaffin and other neurosecretory cells." Thesis, McGill University, 1988. http://digitool.Library.McGill.CA:80/R/?func=dbin-jump-full&object_id=75881.

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The Ca$ sp{2+}$ binding protein, calmodulin, has been implicated in several Ca$ sp{2+}$ dependent processes during secretion in many different secretory systems. One area where calmodulin is suggested to play a role is the fusion of the secretory granule with the plasma membrane during exocytosis. Calmodulin may mediate the interaction or fusion through specific calmodulin-binding proteins (CMBPs) present in these two membranes.<br>CMBPs present in bovine chromaffin cell granule membranes were characterized using the techniques of calmodulin affinity chromatography and $ sp{125}$I calmodulin o
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Grolleau, Françoise. "Origine et régulation de l'activité électrique de type pacemaker de cellules neurosécrétrices, les dorsal unpaired median (DUM) neurones, d'un insecte (la blatte, periplaneta americana)." Angers, 1996. http://www.theses.fr/1996ANGE0028.

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Les dorsal unpaired median (DUM) neurones constituent une faible population de cellules neurosécrétrices capables de générer spontanément des potentiels d'action. Parce-que peu d'information était disponible sur les mécanismes ioniques à l'origine de cette activité électrique spontanée, ce travail de recherche a été entrepris dans le but de caractériser du point de vue électrophysiologique et pharmacologique les courants ioniques susceptibles d'être impliques dans cette activité électrique des DUM neurones du dernier ganglion abdominal de la blatte periplaneta americana. A l'aide de la techniq
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Myers, C. M. "FMRFamide-like peptides in neurosecretary cells of the locust nervous system." Thesis, University of Cambridge, 1986. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.372928.

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Kamala, R. "Studies on salinity induced stress on neurosecretory cells, protein, free amino acid content and ammonia excretion rate of penaeid prawn Metapenaeus monoceros (Fabricius)." Thesis, Central Marine Fisheries Research Institute, 1989. http://eprints.cmfri.org.in/11074/1/Kamala%20R..pdf.

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An important adaptation in organisms to withstand osmotic variations in their external medium, is their efficiency of regulating intracellular concentration. In this context, cell volume regulation appears as a fundamental mechanism. The problem of cell volume regulation becomes crucial in the establishment of organisms in aquatic environment with fluctuating osmolarities.
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Buffa, Laura [Verfasser]. "Cell biology of the ICA69 protein family in neurosecretory cells / Laura Buffa." 2006. http://d-nb.info/985845465/34.

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Teßmar-Raible, Kristin [Verfasser]. "The evolution of sensory and neurosecretory cell types in bilaterian brains / vorgelegt von Kristin Teßmar-Raible." 2004. http://d-nb.info/973023775/34.

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Graf, Robert Alan. "Calcium regulation in neurosecretory cells undergoing regeneration in culture." Thesis, 1993. http://hdl.handle.net/10125/10330.

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Books on the topic "Neurosecretory cell"

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E, Levine Jon, ed. Pulsatility in neuroendocrine systems. Academic Press, 1994.

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S, Freier, ed. The Neuroendocrine-immune network. CRC Press, 1990.

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Hans, Scherubl, and Hescheler, J. K.-J. 1959-, eds. The electrophysiology of neuroendocrine cells. CRC Press, 1995.

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Schlosser, Gerhard. Evolutionary Origin of Sensory and Neurosecretory Cell Types. Taylor & Francis Group, 2021.

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Development of Sensory and Neurosecretory Cell Types: Vertebrate Cranial Placodes. Taylor & Francis Group, 2023.

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Alevizos, Alexandros. Central and peripheral effects of the neurosecretory cell R15 of Aplysia. 1989.

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Evolutionary Origin of Sensory and Neurosecretory Cell Types: Vertebrate Cranial Placodes. Taylor & Francis Group, 2023.

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Schlosser, Gerhard. Development of Sensory and Neurosecretory Cell Types: Vertebrate Cranial Placodes, Volume 1. Taylor & Francis Group, 2021.

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Schlosser, Gerhard. Development of Sensory and Neurosecretory Cell Types: Vertebrate Cranial Placodes, Volume 1. Taylor & Francis Group, 2021.

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Schlosser, Gerhard. Development of Sensory and Neurosecretory Cell Types: Vertebrate Cranial Placodes, Volume 1. Taylor & Francis Group, 2021.

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Book chapters on the topic "Neurosecretory cell"

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Capinera, John L., Marjorie A. Hoy, Paul W. Paré, et al. "Neurosecretory Cell." In Encyclopedia of Entomology. Springer Netherlands, 2008. http://dx.doi.org/10.1007/978-1-4020-6359-6_2207.

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Schlosser, Gerhard. "Evolution of Neurosecretory Cell Types." In Evolutionary Origin of Sensory and Neurosecretory Cell Types. CRC Press, 2021. http://dx.doi.org/10.1201/9781003160625-5.

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Schlosser, Gerhard. "Evolution of Photosensory Cell Types." In Evolutionary Origin of Sensory and Neurosecretory Cell Types. CRC Press, 2021. http://dx.doi.org/10.1201/9781003160625-4.

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Schlosser, Gerhard. "Differentiation of Cell Types from Non-Neurogenic Placodes." In Development of Sensory and Neurosecretory Cell Types. CRC Press, 2021. http://dx.doi.org/10.1201/9781315162317-8.

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Schlosser, Gerhard. "Origin of Cranial Placodes from a Common Primordium." In Development of Sensory and Neurosecretory Cell Types. CRC Press, 2021. http://dx.doi.org/10.1201/9781315162317-3.

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Schlosser, Gerhard. "The Vertebrates' New Head." In Development of Sensory and Neurosecretory Cell Types. CRC Press, 2021. http://dx.doi.org/10.1201/9781315162317-1.

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Schlosser, Gerhard. "General Mechanisms of Sensory and Neuronal Differentiation." In Development of Sensory and Neurosecretory Cell Types. CRC Press, 2021. http://dx.doi.org/10.1201/9781315162317-5.

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Schlosser, Gerhard. "The Cranial Placodes of Vertebrates – An Overview." In Development of Sensory and Neurosecretory Cell Types. CRC Press, 2021. http://dx.doi.org/10.1201/9781315162317-2.

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Schlosser, Gerhard. "Differentiation of Photoreceptors." In Development of Sensory and Neurosecretory Cell Types. CRC Press, 2021. http://dx.doi.org/10.1201/9781315162317-7.

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Schlosser, Gerhard. "Differentiation of Sensory and Neuronal Cell Types from Neurogenic Placodes." In Development of Sensory and Neurosecretory Cell Types. CRC Press, 2021. http://dx.doi.org/10.1201/9781315162317-6.

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Conference papers on the topic "Neurosecretory cell"

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Anđušić, Ljiljana, Zoran Milankov, Dušan Marić, et al. "Bioinformatics stimulation of oxytocin secretion and its relationship with calcium, potassium and sodium status and milk production." In Zbornik radova 26. medunarodni kongres Mediteranske federacije za zdravlje i produkciju preživara - FeMeSPRum. Poljoprivredni fakultet Novi Sad, 2024. http://dx.doi.org/10.5937/femesprumns24002a.

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Bioinformatics is a science that deals with bio-informational processes and phenomena in living cells during the informational action of light - electromagnetic waves, ionizing radiation, bacteria and viruses, biologically active and chemical substances. Electromagnetic field (EMF) is a flow of energy in the form of an electric and magnetic field that together make up an EM wave. These two components of the EM wave oscillate in phase normal to each other and perpendicular to the direction of energy propagation. In biological systems, electrical phenomena are represented by electrical and ionic
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Reports on the topic "Neurosecretory cell"

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Jacobson, Gail. Localization of neurosecretory cells within the cerebral ganglia of Amphiphorus imparispinosus Griffin, 1898 (Hoplonemertea) and their possible regulatory role in the annual reproductive cycle. Portland State University Library, 2000. http://dx.doi.org/10.15760/etd.2514.

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