about
A remarkable, precisely timed release of hyperglycemic hormone from endocrine cells in the gut is associated with ecdysis in the crab Carcinus maenasCrustacean hyperglycaemic hormone (CHH)-like peptides and CHH-precursor-related peptides from pericardial organ neurosecretory cells in the shore crab, Carcinus maenas, are putatively spliced and modified products of multiple genesLocalization of Alzheimer beta A4 amyloid precursor protein at central and peripheral synaptic sites.Metabolic stress responses in Drosophila are modulated by brain neurosecretory cells that produce multiple neuropeptides.Genomics, transcriptomics, and peptidomics of Daphnia pulex neuropeptides and protein hormones.New functions of arthropod bursicon: inducing deposition and thickening of new cuticle and hemocyte granulation in the blue crab, Callinectes sapidusDevelopment of pigment-dispersing hormone-immunoreactive neurons in the American lobster: homology to the insect circadian pacemaker system?Neuroanatomy of the optic ganglia and central brain of the water flea Daphnia magna (Crustacea, Cladocera).Evolution of neuropeptides in non-pterygote hexapods.Insect ion transport peptides are derived from alternatively spliced genes and differentially expressed in the central and peripheral nervous system.Circadian clocks in crustaceans: identified neuronal and cellular systems.Evolution of pigment-dispersing factor neuropeptides in Panarthropoda: Insights from Onychophora (velvet worms) and Tardigrada (water bears).Enkephalinergic control of the secretory activity of neurons producing stereoisomers of crustacean hyperglycemic hormone in the eyestalk of the crayfish Orconectes limosus.The circadian clock network in the brain of different Drosophila species.Peptidergic clock neurons in Drosophila: ion transport peptide and short neuropeptide F in subsets of dorsal and ventral lateral neurons.The ion transport peptide is a new functional clock neuropeptide in the fruit fly Drosophila melanogaster.Quantification, immunoaffinity purification and sequence analysis of a pigment-dispersing hormone of the shore crab, Carcinus maenas (L.).Depressing Antidepressant: Fluoxetine Affects Serotonin Neurons Causing Adverse Reproductive Responses in Daphnia magna.Crustacean hyperglycaemic hormone in the nervous system of the primitive crustacean species Daphnia magna and Artemia salina (Crustacea: Branchiopoda).Pigment-dispersing factor in the locust abdominal ganglia may have roles as circulating neurohormone and central neuromodulator.Evidence that locustatachykinin I is involved in release of adipokinetic hormone from locust corpora cardiaca.Putative neurohemal areas in the peripheral nervous system of an insect, Gryllus bimaculatus, revealed by immunocytochemistry.Structure, distribution, and biological activity of novel members of the allatostatin family in the crayfish Orconectes limosus.Two orcokinins and the novel octapeptide orcomyotropin in the hindgut of the crayfish Orconectes limosus: identified myostimulatory neuropeptides originating together in neurones of the terminal abdominal ganglion.Novel insect orcokinins: characterization and neuronal distribution in the brains of selected dicondylian insects.Ion transport peptide splice forms in central and peripheral neurons throughout postembryogenesis of Drosophila melanogaster.The thirsty fly: Ion transport peptide (ITP) is a novel endocrine regulator of water homeostasis in DrosophilaCyanobacterial Neurotoxin Beta-Methyl-Amino-l-Alanine Affects Dopaminergic Neurons in Optic Ganglia and Brain ofDistribution of a novel cardioactive neuropeptide (CCAP) in the nervous system of the shore crab Carcinus maenasIdentification and immunocytochemical localization of proctolin in pericardial organs of the shore crab, Carcinus maenasOccurrence of analogues of the myotropic neuropeptide orcokinin in the shore crab, Carcinus maenas: evidence for a novel neuropeptide familyCrustacean cardioactive peptide-immunoreactive neurons in the ventral nervous system of crayfishCommon general morphological pattern of peptidergic neurons in the arachnid brain: crustacean cardioactive peptide-immunoreactive neurons in the protocerebrum of seven arachnid speciesQuantitative determination and distribution of the myotropic neuropeptide orcokinin in the nervous system of astacidean crustaceansEcdysis of decapod crustaceans is associated with a dramatic release of crustacean cardioactive peptide into the haemolymphEndocrine cells in the gut of the shore crab Carcinus maenas immunoreactive to crustacean hyperglycaemic hormone and its precursor-related peptideReproductive fitness of Drosophila is maximised by optimal developmental temperatureUnprecedented reorganization of holocentric chromosomes provides insights into the enigma of lepidopteran chromosome evolution
P50
Q24652769-0173BA47-6DD3-4E72-8241-3DB1A02B06ADQ28364273-6B5B89EC-2B38-4C9C-AF41-56342E92C4F9Q33298909-48D96E70-25AF-4108-A1FD-9ED676ECF529Q33632231-B3AD3B06-2509-401C-A331-C956745B94F5Q33989267-54CCDB56-1F72-471A-8233-625B4DAAF1D8Q34431039-4CB7171A-3E9E-4B91-82DA-55E40B47CB53Q34773224-F37BB3F3-57DD-4C1B-B484-86498B8B73D2Q35782381-5931530A-F48D-424A-BE68-6C0803CFDCE6Q35938597-6455B287-0B3E-4C41-8A41-4B4ABF61EB34Q37371426-65103D24-EEDD-416C-99DC-9535A7D940E0Q37761977-F618029D-8990-44A0-8A53-5671A75CCFABQ41343437-5E309DD5-5DE5-4492-98E9-A171516C04AAQ42163212-6A9AFC7D-DAD2-404E-9EFE-6A5DC37EB776Q46950954-B7442576-151B-4263-A8F5-34E630850349Q47070729-C5418D06-E4C7-436F-BC93-8486D914ED9DQ47071831-45AD256E-4D2F-434B-A1EB-72383932CEA0Q48310466-CD74CEBF-5F0F-4600-8D5E-2C88D2BF879BQ48785728-3AE48FDD-E398-42A8-A4F6-BE72BE94ADEAQ48797748-084A0022-CCE2-4DAB-B2D3-4FDCE61FE9F1Q48857081-B2AE400E-EE9F-49B5-98C9-C8FE275BCA75Q52535839-8B196855-C134-4665-8942-9707620997FDQ52537476-316D9226-45C7-4471-97FC-512E09DCFAC5Q52572826-57FC4A0E-63F9-48C1-991A-AD44F7A59161Q52581956-2251A882-1989-4EB2-B3C8-B914627E6F23Q52659373-F7739561-F1A4-4024-9604-484548DCFCCFQ52690546-8D124175-9ADF-4884-8D56-454CFE6CE61DQ58711871-1675DE00-8F5F-4CD3-B7C3-1569C861972FQ60908066-5FE4BF44-FCFC-4A0E-9BBC-482F9230B00AQ68033275-4CCA34C3-F395-4AA3-B9A8-248462182B88Q69882561-9B38FFB9-4EEE-470D-B05D-28139B6BD5E3Q72154475-95876267-E599-4A57-B0B8-F2B473B72DFAQ72392545-0FEB99ED-35FF-48C9-999E-EFDB5357A6D3Q72641989-9C823577-7DAF-4529-9B03-C43628350391Q72745837-1FE37824-8795-4346-8F0F-FB9DFBBA9926Q73358543-7D9E6DE9-1387-4543-A439-D5B43410CBF3Q73774223-51EF4FD9-F2FB-43EB-9AB6-4CDA94354D6DQ91832142-3D13CC6C-6438-4187-B376-A04EC192C1DCQ92799394-B5E01EA8-7285-45FB-91E1-2D8D59F49FBD
P50
description
hulumtues
@sq
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Heinrich Dircksen
@ast
Heinrich Dircksen
@en
Heinrich Dircksen
@es
Heinrich Dircksen
@nl
Heinrich Dircksen
@sl
type
label
Heinrich Dircksen
@ast
Heinrich Dircksen
@en
Heinrich Dircksen
@es
Heinrich Dircksen
@nl
Heinrich Dircksen
@sl
prefLabel
Heinrich Dircksen
@ast
Heinrich Dircksen
@en
Heinrich Dircksen
@es
Heinrich Dircksen
@nl
Heinrich Dircksen
@sl
P1053
C-7704-2013
P106
P21
P2798
P31
P3829
P496
0000-0001-7815-4868