about
Neuropeptides function in a homeostatic manner to modulate excitation-inhibition imbalance in C. elegansA systematic survey of mini-proteins in bacteria and archaea.Integrated SPPS on continuous-flow radial microfluidic chip.Negative symptoms: psychopathological modelsThe adrenal chromaffin granule: a model for large dense core vesicles of endocrine and nervous tissue.Expression of the potent vasoconstrictor endothelin in the human central nervous systemPrimary structure of four allatostatins: neuropeptide inhibitors of juvenile hormone synthesis.Somnogenic activity of O-acetylated and dimeric muramyl peptides.Modification of Monoaminergic Activity by MAO Inhibitors Influences Methamphetamine Actions.Egg-laying hormone of Aplysia induces a voltage-dependent slow inward current carried by Na+ in an identified motoneuronExocrine secretion granules contain peptide amidation activityCholecystokinin-octapeptide constricts guinea-pig and human airways.Secretogranins I and II: two tyrosine-sulfated secretory proteins common to a variety of cells secreting peptides by the regulated pathway.Localization of Aplysia neurosecretory peptides to multiple populations of dense core vesicles.Genes expressed in the adult brain of Drosophila and effects of their mutations on behavior: a survey of transmitter- and second messenger-related genes.Psychoneuroimmunology: stress effects on pathogenesis and immunity during infectionProteinase inhibitors in Nicotiana alata stigmas are derived from a precursor protein which is processed into five homologous inhibitors.Bacterial lipopolysaccharide induction of leukocyte-derived corticotropin and endorphinsReceptors for neuropeptides are induced by exogenous poly(A)+ RNA in oocytes from Xenopus laevis.Vasopressin mRNA in situ hybridization: localization and regulation studied with oligonucleotide cDNA probes in normal and Brattleboro rat hypothalamusExpression of pro-opiomelanocortin-like gene in the testis and epididymis.Neuropeptides in platyhelminths.Especial considerations for neurotoxicological research.A molecular basis for intersystem communication between the immune and neuroendocrine systems.Proctolin degradation by membrane peptidases from nervous tissues of the desert locust (Schistocerca gregaria)Specific trophic factor-receptor interactions. Key selective elements in brain development and "regeneration".Isomeric octopamines: their occurrence and functions.Peptide neuroregulators: the opioid system as a model.Opioid peptides in the testis and the male genital tract: presence and possible function.Proopiomelanocortin-derived peptides in the immune system.Ectopic hormone syndromes.The peptidergic brain-gut axis: influence on gastric ulcer formation.Peptides and related drugs: a review of their absorption, metabolism, and excretion.Gordon Memorial Lecture. Stress, strains and resistance.Neuropeptides.Identification of a transmembrane glycoprotein specific for secretory vesicles of neural and endocrine cells.Neurochemical psychiatry as a source of hypotheses concerning the role of homeostatic mechanisms in brain function.Regulation of hepatic function by brain neuropeptides.The metabolism of neuropeptides. Both phosphoramidon-sensitive and captopril-sensitive metallopeptidases are present in the electric organ of Torpedo marmorata.Neuropeptide-degrading endopeptidase activity of locust (Schistocerca gregaria) synaptic membranes.
P2860
Q27322953-8922685E-2C7F-43D3-8F9F-CA7E95C02F03Q30856174-51434A72-5F43-4C59-894D-477994F8BAF7Q33804935-64BF3756-05EE-4972-9A71-ADD1EBA69362Q33920833-6F0211FD-CD81-4837-A452-9038709C142DQ34087156-083EDD48-0723-466E-BF8B-374D1198AA6CQ34255692-C5743C8D-4F9F-46ED-9146-CDF46371C0F1Q34295185-1B6732C9-FCD2-4197-8B5D-0AF66D0E8CE2Q35101761-F8633FE0-358A-48BA-A6CA-099AA78F1020Q35161736-00A17838-5BCA-4227-80DF-E5A4FAE03FF5Q35603289-DC0BB7CE-197A-441E-BEFF-CAE83ECD8980Q35605153-E72349A6-0AAD-4916-855A-CE5E3C43FBEAQ35756568-10A997CB-31BE-406D-84EC-7FEE0B7C5C7EQ36213813-D06A2BCB-70D2-474F-A0AB-650C98EC9C9DQ36214544-006D1931-24B1-4AB5-8B4A-50F6A8174A29Q36516371-2428BC47-8E12-44C5-96C1-352968956B4BQ36641281-4C3F0226-26B1-4A7C-9633-B5B6290B887EQ36778172-C6A03548-8048-4D73-9BF9-36065DC2D629Q37034167-D2219B07-EB45-4E01-939C-06DB99E73571Q37484920-AA8A8375-DDC6-4A30-B13C-557E49DBC96CQ37547311-222E2476-F966-4ED7-9A4B-B11928399C8EQ37567616-BA88D3DA-509F-4EFF-8736-C2C26A7A0CCAQ37767199-C3917900-3A98-49B0-B4AE-784FD640008EQ38154051-C632AA27-988D-4175-BA78-6AA854609E45Q38332916-3BE266D5-52C4-42C1-BDE9-088A78D5486BQ39095311-5362ED1F-D4C9-46A2-8744-0D6CFED597BEQ39201367-2D6D2111-2D27-4329-A224-D32AD6BD5883Q39462436-9E43E41E-E1DC-4D82-B0A4-C1C0763B0823Q39478053-6B665628-D7F7-4808-95B0-30B943549973Q39481694-BA6586CB-A94F-4D75-B911-CEDB95E89955Q39495257-8290A78E-E213-44A8-B7F1-F914E4CCB8E6Q39507833-D89BFBA5-A505-49DF-87D6-FAF020AC2AEEQ39678100-278582D2-9295-4136-BB2C-A6EA33B9A3D0Q39764329-E284448E-CC89-4147-917D-EE5DC857552DQ40446438-123E8B8E-AC9D-44CB-8DF4-79526DC000C2Q40932633-F30612B3-261A-4C78-B7B2-9ADD8F878C40Q41483110-E864C2E8-3FED-42B7-86FA-814644D87E49Q41537060-91D225B3-AA02-49D8-887A-941AED85AC0BQ41827058-D553250F-1E87-44AC-8953-07750EB620D3Q41977990-2EF22E5F-E520-44F8-87C8-F58B24B8761DQ41981950-7379CC3C-F231-4AB1-A1F8-EE519F7B0796
P2860
description
1983 nî lūn-bûn
@nan
1983 թուականի Դեկտեմբերին հրատարակուած գիտական յօդուած
@hyw
1983 թվականի դեկտեմբերին հրատարակված գիտական հոդված
@hy
1983年の論文
@ja
1983年論文
@yue
1983年論文
@zh-hant
1983年論文
@zh-hk
1983年論文
@zh-mo
1983年論文
@zh-tw
1983年论文
@wuu
name
Brain peptides: what, where, and why?
@ast
Brain peptides: what, where, and why?
@en
Brain peptides: what, where, and why?
@nl
type
label
Brain peptides: what, where, and why?
@ast
Brain peptides: what, where, and why?
@en
Brain peptides: what, where, and why?
@nl
prefLabel
Brain peptides: what, where, and why?
@ast
Brain peptides: what, where, and why?
@en
Brain peptides: what, where, and why?
@nl
P356
P1433
P1476
Brain peptides: what, where, and why?
@en
P2093
Krieger DT
P304
P356
10.1126/SCIENCE.6139875
P407
P577
1983-12-01T00:00:00Z