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Teleost Species (teleost + species)
Selected AbstractsA comparative view on mechanisms and functions of skeletal remodelling in teleost fish, with special emphasis on osteoclasts and their functionBIOLOGICAL REVIEWS, Issue 2 2009P. Eckhard Witten ABSTRACT Resorption and remodelling of skeletal tissues is required for development and growth, mechanical adaptation, repair, and mineral homeostasis of the vertebrate skeleton. Here we review for the first time the current knowledge about resorption and remodelling of the skeleton in teleost fish, the largest and most diverse group of extant vertebrates. Teleost species are increasingly used in aquaculture and as models in biomedical skeletal research. Thus, detailed knowledge is required to establish the differences and similarities between mammalian and teleost skeletal remodelling, and between distantly related species such as zebrafish (Danio rerio) and medaka (Oryzias latipes). The cellular mechanisms of differentiation and activation of osteoclasts and the functions of teleost skeletal remodelling are described. Several characteristics, related to skeletal remodelling, distinguish teleosts from mammals. These characteristics include (a) the absence of osteocytes in most species; (b) the absence of haematopoietic bone marrow tissue; (c) the abundance of small mononucleated osteoclasts performing non-lacunar (smooth) bone resorption, in addition to or instead of multinucleated osteoclasts; and (d) a phosphorus- rather than calcium-driven mineral homeostasis (mainly affecting the postcranial dermal skeleton). Furthermore, (e) skeletal resorption is often absent from particular sites, due to sparse or lacking endochondral ossification. Based on the mode of skeletal remodelling in early ontogeny of all teleosts and in later stages of development of teleosts with acellular bone we suggest a link between acellular bone and the predominance of mononucleated osteoclasts, on the one hand, and cellular bone and multinucleated osteoclasts on the other. The evolutionary origin of skeletal remodelling is discussed and whether mononucleated osteoclasts represent an ancestral type of resorbing cells. Revealing the differentiation and activation of teleost skeletal resorbing cells, in the absence of several factors that trigger mammalian osteoclast differentiation, is a current challenge. Understanding which characters of teleost bone remodelling are derived and which characters are conserved should enhance our understanding of the process in fish and may provide insights into alternative pathways of bone remodelling in mammals. [source] Vascular anatomy of the developing medaka, Oryzias latipes: A complementary fish model for cardiovascular research on vertebratesDEVELOPMENTAL DYNAMICS, Issue 3 2006Misato Fujita Abstract The zebrafish has become a very useful vertebrate model for cardiovascular research, but detailed morphogenetic studies have revealed that it differs from mammals in certain aspects of the primary circulatory system, in particular, the early vitelline circulation. We searched for another teleost species that might serve as a complementary model for the formation of these early primary vessels. Here (and online at http://www.shigen.nig.ac.jp/medaka/atlas/), we present a detailed characterization of the vascular anatomy of the developing medaka embryo from the stage 24 (1 day 20 hr) through stage 30 (3 days 10 hr). Three-dimensional images using confocal microangiography show that the medaka, Oryzias latipes, follows the common embryonic circulatory pattern consisting of ventral aorta, aortic arches, dorsal aorta, transverse vessels, vitelline capillary plexus, and marginal veins. The medaka, thus, may serve as a valuable model system for genetic analysis of the primary vasculature of vertebrates. Developmental Dynamics 235:734,746, 2006. © 2006 Wiley-Liss, Inc. [source] Characteristics and economic contribution of a developing recreational fishery in southern AngolaFISHERIES MANAGEMENT & ECOLOGY, Issue 1 2009W. M. POTTS Abstract, The characteristics and contribution of a developing recreational fishery to the local, regional and national economy of Angola were evaluated in 2006. Annual angling effort was 13 435 h, while the estimated total catch of the three target species [leerfish, Lichia amia (L.), west coast dusky kob, Argyrosomus coronus (Griffiths & Heemstra) and shad, Pomatomus saltatrix (L.)], was 5913 fish with a mass of 27 975 kg. Catch per unit effort (CPUE) for all teleost species combined was 0.44 fish per angler h,1 and 2.08 kg per angler h,1. Total harvest of the three species was 576 fish with a total mass of 2221.6 kg. The total contribution of this recreational fishery (mostly anglers from South Africa) to the local economy was US$ 1007 per harvested fish and US$ 243 per harvested kg. This equated to a contribution to the local, regional and national economies of US$ 151 685, US$ 44 767 and US$ 344 364 respectively. Although the regional contribution was less than half of the national contribution, it was regionally significant when the low population density and the general absence of other formal sector employment opportunities are considered. As a result of the largely undisturbed nature of the southern Angolan coastline, the catch, effort and CPUE information was considered suitable as a baseline for a cost-effective method of future fisheries monitoring in the region. [source] Plasma cortisol and metabolite level profiles in two isogenic strains of common carp during confinementJOURNAL OF FISH BIOLOGY, Issue 1 2001N. M. Ruane A rapid increase in common carp Cyprinus carpio plasma cortisol levels was noted, in two experiments, after 30 mins of a 3 h net confinement, which was sustained while the fish were held in the nets. After release from the nets, cortisol levels returned to control values in 1 h. Plasma glucose and free fatty acid levels were elevated by the confinement. Glucose was increased after 30 min but returned to basal levels after 22 h of recovery while free fatty acids were not elevated until 3 h of confinement and remained high for the duration of the recovery period. After confinement for 3 h, plasma lactate levels were reduced and remained low for a further 1 h. No change in either plasma triglyceride or cholesterol levels were found during the study. Confinement had no effect on haematocrit levels but blood haemoglobin levels were reduced. In both experiments hypochloraemia occurred in response to confinement. However, values returned to pre-confinement levels 22 h after confinement. These results show that rearing isogenic carp strains, under identical conditions, results in a reproducable response to an acute stressor and that these carp respond in a similar manner to other teleost species. [source] Morphological characterization of retinal bipolar cells in the marine teleost Rhinecanthus aculeatusTHE JOURNAL OF COMPARATIVE NEUROLOGY, Issue 15 2010Vincenzo Pignatelli Abstract The marine teleost Rhinecanthus aculeatus (Balistidae) has recently been shown to posses trichromatic color vision supported by a retinal combination of double and single cones. Double cones are composed of two members with different spectral sensitivity. It is not known whether a correlation exists between the chromatic wiring of double cones to the inner retina and trichromacy, nor how unmixed, chromatic information is extracted from the two members of the couple. In mammalians, bipolar cells determine color segregation by means of the midget system, central to trichromatic color vision; however, midget bipolar cells have never been described in teleosts. On the basis of its likely importance in transferring chromatic photoreceptor signals to the inner retina, we have morphologically characterized the retinal bipolar cell types of R. aculeatus using DiOlistic staining techniques to verify if an anatomical specialization of this group of cells is required to support trichromatic color vision. Thirteen cell types are described: eight putative OFF types and five putative ON types. Of these, four had axonal boutons ramifying in both sublayers (ON and OFF) of the inner plexiform layer, six had terminals restricted to the OFF layer, and three cell types had terminals restricted to the ON layer. Dendritic arbors of bipolar cells had narrower diameters (5,40 ,m) in comparison to bipolar cells of other teleost species; this supports the idea that a low degree of photoreceptor to bipolar convergence is correlated with trichromacy in this retina and possibly with the function of double cones as color receptors. J. Comp. Neurol. 518:3117,3129, 2010. © 2010 Wiley-Liss, Inc. [source] Transport of di- and tripeptides in teleost fish intestineAQUACULTURE RESEARCH, Issue 5 2010Tiziano Verri Abstract The initial observation of peptide absorption in fish intestine dates back to 1981, when, in rainbow trout (Oncorhynchus mykiss), the rate of intestinal absorption of the dipeptide glycylglycine (Gly-Gly) was compared in vivo with the rate of absorption of its component amino acid glycine (Gly). The description of the identification of the underlying mechanisms that allow di- and tripeptide transport across the plasma membranes in fish was provided in 1991, when the first evidence of peptide transport activity was reported in brush-border membrane vesicles of intestinal epithelial cells of Mozambique tilapia (Oreochromis mossambicus) by monitoring uptake of radiolabelled glycyl- l -phenylalanine (Gly- l -Phe). Since then, the existence of a carrier-mediated, H+ -dependent transport of di- and tripeptides (H+/peptide cotransport) in the brush-border membrane of fish enterocytes has been confirmed in many teleost species by a variety of biochemical approaches, providing basic kinetics and substrate specificities of the transport activity. In 2003, the first peptide transporter from a teleost fish, i.e. the zebrafish (Danio rerio) PEPtide transporter 1 (PEPT1), was cloned and functionally characterized in the Xenopus laevis oocyte expression system as a low-affinity/high-capacity system. PEPT1 is the protein in brush-border membranes responsible for translocation of intact di- and tripeptides released from dietary protein by luminal and membrane-bound proteases and peptidases. The transporter possesses affinities for the peptide substrates in the 0.1,10 mM range, depending on the structure and physicochemical nature of the substrates. After the molecular and functional characterization of the zebrafish transporter, the interest in PEPT1 in teleost fish has increased and approaches for cloning and functional characterization of PEPT1 orthologues from other fish species, some of them of the highest commercial value, are now underway. In this paper, we provide a brief overview of the transport of di- and tripeptides in teleost fish intestine by recalling the bulk of biochemical, biophysical and physiological observations collected in the pre-cloning era and by recapitulating the more recent molecular and functional data. [source] Effect of incubation temperature on carbohydrate digestion in important teleosts for aquacultureAQUACULTURE RESEARCH, Issue 13 2005Eustratios S Papoutsoglou Abstract The activity and capacity (activity × tissue weight) of digestive carbohydrases (total carbohydrase, ,-glucosidase, ,-amylase) was examined in vitro under a range of (more realistic) incubation temperatures (5, 18 and 25°C) and pH (7.6) more likely to be encountered during rearing, along the digestive tract of important teleost species for aquaculture (Dicentrarchus labrax, Sparus aurata, Oreochromis aureus, Oncorhynchus mykiss and Salmo salar). Results indicate, among other things, an overestimation of digestive carbohydrase levels when performing assays at 37°C, a different effect of temperature on digestive enzyme performance along the digestive tract of examined species, and the increased importance of ,-glucosidase towards carbohydrate digestion. Implications regarding the capacity of each species for carbohydrate digestion in nature, as well as feed manufacturing, are discussed. [source] Pax-3 and Pax-7 Label Muscle Progenitor Cells During Myotomal Myogenesis in Coregonus lavaretus (Teleostei: Coregonidae)ANATOMIA, HISTOLOGIA, EMBRYOLOGIA, Issue 6 2009A. Kacperczyk Summary In Coregonus lavaretus, prior the mesoderm segmentation, in cells adjacent to the notochord called adaxial cells MyoD and slow myosin heavy chain (MyHC-slow) proteins were observed. After somite formation, adaxial cells migrate towards the lateral part of the myotome and form a layer of red muscles. Deeper cells differentiate into white muscle fibres. In situ hybridization using Pax-3 molecular probe revealed, that after somitogenesis, Pax-3 is expressed in a layer of cells superficial to the myotome resembling the "external cells" (found in many teleosts species) or dermomyotome described in Amniota. During later developmental stages Pax-3 gene is expressed in cells in intermyotomal space and then in myoblasts between myotubes. In these cells Pax-7 protein was also observed. Pax-3/7 positive cells which have migrated into the myotomes differentiate into satellite cells/secondary myoblasts and participate in hypertrophic and hyperplastic growth of muscles. [source] | |||||||||||||