Search results for "Bulbus arteriosus"

showing 4 items of 4 documents

Ultrastructure of the conus arteriosus ofScyliorhinus stellaris

1989

The functional morphology of the fourth chamber of the fish heart, the bulbus arteriosus, differs in teleosts and elasmobranchs. In elasmobranchs, this chamber is referred to as the conus arteriosus because its wall is made up of myocardial tissue in addition to elastic tissue. As a result of this feature, the function of the conus is very specialized. We report the basic ultrastructure of the wall of the conus arteriosus in the elasmobranch Scyllium stellare. The wall consists of three layers: the outer epicardial, the middle myocardial, and the inner endocardial layer. The outer layer is composed of the visceral pericardium consisting of cuboidal mesothelial cells, beneath which numerous …

animal structuresBulbus arteriosusGeneral MedicineAnatomyBiologybiology.organism_classificationmedicine.anatomical_structureVentricleCirculatory systemConusUltrastructuremedicineMyocyteAnimal Science and ZoologyMesothelial CellScyliorhinus stellarisJournal of Experimental Zoology
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Imaging of nitric oxide in a living vertebrate using a diaminofluorescein probe

2007

Abstract Numerous approaches have been described to identify nitric oxide (NO), a free radical involved in various physiological and pathophysiological processes. One of these approaches is based on the use of chemical probes whose transformation by NO generates highly fluorescent derivatives, permitting detection of NO down to nanomolar concentrations. Here, we show that the cell-permeant diaminofluorophore 4-amino-5-methylamino-2′-7′-difluorofluorescein diacetate (DAF-FM-DA) can be used to detect NO production sites in a living vertebrate, the zebrafish Danio rerio. The staining pattern obtained in larvae includes the bulbus arteriosus, forming bones, the notochord, and the caudal fin. Th…

Diagnostic Imagingmedicine.medical_specialtyDanioBulbus arteriosusNitric OxideBiochemistryNitric oxidechemistry.chemical_compoundPhysiology (medical)Internal medicineNotochordmedicineAnimalsZebrafishZebrafishFluorescent DyesbiologyfungiSnapMolecular Pharmacologybiology.organism_classificationStainingCell biologyEndocrinologymedicine.anatomical_structurechemistryLarvaFluoresceinFree Radical Biology and Medicine
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Aporocotyle mariachristinae n. sp., and A. ymakara VillalbaFernández, 1986 (Digenea: Aporocotylidae) of the pink cusk-eel, Genypterus blacodes (Ophid…

2012

Aporocotyle mariachristinae n. sp. and A. ymakara Villalba & Fernández, 1986 were collected from the bulbus arteriosus and ventral aorta of pink cusk-eels, Genypterus blacodes (Forster, 1801) from Patagonia, Argentina. A. mariachristinae n. sp. can be distinguished from all the species of Aporocotyle by the asymmetrical extension of posterior caeca (right posterior caecum longer, terminating at the area between mid-level of ovary and posterior body end; left posterior caecum shorter, terminating at the area between mid-level of cirrus sac and posterior to reproductive organs), the distribution of spines along the ventro-lateral body margins and the number of testes. The new species clearly …

RDNA SEQUENCESADN ribosomiqueOphidiiformesA. MARIACHRISTINAE N. SP.Aporocotyle//purl.org/becyt/ford/1 [https]A. YMAKARAFish DiseasesAPOROCOTYLIDAERNA Ribosomal 28SPatagoniaOPHIDIIDAEPatagonieAortaARGENTINAEelsbiologyHeartAnatomyGenypterus blacodesOriginal ContributionA. mariachristinae n. sp.PATAGONIAInfectious DiseasesGenypterus blacodesSÉQUENÇAGETrematodaTrematodaArgentinePATAGONIECIENCIAS NATURALES Y EXACTASGENYPTERUS BLACODESVeterinary (miscellaneous)Otras Ciencias BiológicasArgentinaBulbus arteriosusTrematode InfectionsDNA RibosomalDigeneaMerlucciuslcsh:Infectious and parasitic diseasesCaecumCiencias BiológicasOphidiidaeséquençageRNA Ribosomal 18SAnimalslcsh:RC109-216//purl.org/becyt/ford/1.6 [https]ARGENTINErDNA sequencesAPOROCOTYLEA. ymakarabiology.organism_classificationAporocotyleADN RIBOSOMIQUEAporocotylidaeInsect ScienceAnimal Science and ZoologyParasitologyParasite (Paris, France)
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Corrigendum to “Imaging of nitric oxide in a living vertebrate using a diaminofluorescein probe” [Free Radic. Biol. Med. 43 (2007) 619–627]

2008

Adrian Grimes and colleagues showed in a previous report that zebrafish bulbus arteriosus and the smooth muscle component of the chick cardiac outflow tract may be specifically labeled by DAF-2DA. Using this fluorescent dye they could distinguish the zebrafish bulbus arteriosus from "true" cardiac chambers, the atrium and ventricle (Grimes AC, Stadt HA, Shepherd IT, Kirby ML. Solving an enigma: arterial pole development in the zebrafish heart. Dev Biol 2006 Feb 15;290(2):265−76). The authors regret not including this information in the original version of their article.

animal structuresbiologyChemistryBulbus arteriosusAnatomybiology.organism_classificationBiochemistryNitric oxidechemistry.chemical_compoundmedicine.anatomical_structureSmooth muscleVentriclePhysiology (medical)Cardiac chamberembryonic structurescardiovascular systemmedicineAtrium (heart)ZebrafishFree Radical Biology and Medicine
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